CN104883484B

CN104883484B - Security system, security protection camera module and its manufacturing method

Info

Publication number: CN104883484B
Application number: CN201510262170.1A
Authority: CN
Inventors: 刘明军; 徐士鑫; 刘庆玲; 李锋; 潘锋
Original assignee: Yuyao Sunny Optical Intelligence Technology Co Ltd
Current assignee: Yuyao Sunny Optical Intelligence Technology Co Ltd
Priority date: 2015-01-23
Filing date: 2015-05-20
Publication date: 2018-12-21
Anticipated expiration: 2035-05-20
Also published as: CN204721435U; CN104883484A; WO2016116009A1

Abstract

A kind of security system, security protection camera module and its manufacturing method, wherein the security protection camera module includes an optical lens；One photosensitive element；One filter element；And a lens construction, the lens construction further comprises a microscope base, wherein the optical lens is installed on the microscope base, and the optical lens is located at the photosensitive path of the photosensitive element；With a shell, wherein the shell is integrally formed with the microscope base, the filter element is operably disposed in the shell, and the filter element is able to filter the light for entering the security protection camera module via the optical lens.By the microscope base and the shell being made into integration, the mismachining tolerance and rigging error that are present between the microscope base and the shell of the prior art can be eliminated, to improve the image quality of the security protection camera module.

Description

Security system, security protection camera module and its manufacturing method

Technical field

The present invention relates to photographic device, in particular to a kind of security system, security protection camera module and its manufacturing method, wherein The security protection camera module provides a mirror-seat structure, and the microscope base and shell of the mirror-seat structure are the structures of integral type, in this way, energy The mismachining tolerance and rigging error being present between the microscope base and the shell are enough greatly reduced and eliminate, to improve institute State security protection camera module image quality.

Background technique

For other camera modules, the optical filter that is mainly characterized by being configured for of security protection camera module is cut Parallel operation, effect make security protection camera module either on daytime or can obtain at night the image of local environment.

Specifically, figures 1 and 2 show that the security protection camera module of the prior art.The security protection camera module includes edge Depth direction arrangement a camera lens 10P, a microscope base 20P, an optical-filter switcher 30P, a sensitive chip 40P and a mainboard 50P, wherein the camera lens 10P is set to the microscope base 20P, the microscope base 20P is installed on the optical filter by screw and switches Device 30P, the sensitive chip 40P are mounted on the mainboard 50P, and the mainboard 50P is installed on the optical filter by screw and cuts Parallel operation 30P, and the camera lens 10P is located on the photosensitive path of the sensitive chip 40P.It is stronger on daytime or other light Environment in use the security protection camera module when, the optical-filter switcher 30P can filter the infrared light etc. in light, only Allow other kinds of light by being received after the camera lens 10P by the sensitive chip 40P, and color can be effectively prevented from Distortion；Correspondingly, when using the security protection camera module in night or other light weaker environment, the optical filter is cut Parallel operation 30P allows all light by being received after the camera lens 10P by the sensitive chip 40P, to substantially increase institute The Infravision for stating security protection camera module, the image for obtaining night are more clear.

However, the microscope base 20 of the security protection camera module of the prior art and the shell of the optical-filter switcher 30 use The mode of separate type, that is to say, that the microscope base 20 and the needs of the optical-filter switcher 30 are made, and are then passed through again The mode of assembling is mounted to be configured to security protection camera module, in this process, the microscope base 20 of separate type and the filter Mating plate switch 30 produces many problems.

Because the design method of separate type is used using the microscope base 20 and the optical-filter switcher 30, thus existing During the security protection camera module assembly of technology, the assembly process of security protection camera module, but also because institute are not only increased State between microscope base 20 and the optical-filter switcher 30 that there are mismachining tolerances and rigging error, when the security protection camera module is filled After completion, the problem of tilting between the microscope base 20 and the optical-filter switcher 30 will lead to, and then seriously Affect the consistency and its imaging effect of the security protection camera module.

In addition, the assembling process of the security protection camera module of the prior art is to assemble the camera lens by machinery positioning The components such as 10P, the microscope base 20P and the optical-filter switcher 30P, that is to say, that in this process, first will be described Camera lens 10P is installed on the microscope base 20P, then the microscope base 20P is fixed on the optical-filter switcher 30P by installation elements Predetermined position, then the optical-filter switcher 30P is screwed in the predetermined position of the mainboard 50P again, is led to The positioning that such mode realizes the camera lens 10P and the sensitive chip 40P indirectly is crossed, however, one side machinery positioning Positioning method there are error, on the other hand, there is also error, such sides between each component of the security protection camera module Formula easily causes the camera lens 10P to be not orthogonal to the photosurface of the sensitive chip 40P, so that influencing the security protection camera shooting The image quality of mould group.

In addition, each component of the security protection camera module of the prior art needs individually to be processed and made, and And the optical-filter switcher 30P, because the limitation of material cannot be introduced into dust-free workshop and be processed, this leads to the security protection Abnormal many and diverse of the assembling process of camera module, the production efficiency for not only resulting in the security protection camera module is low, Er Qie When assembling the security protection camera module in conventional environment, the component that also will cause inside the security protection camera module is dirty Dye, so that dirty bad point is caused in the inside of the security protection camera module, so that the product for influencing the security protection camera module is good Rate.

In addition, the sensitive chip 40P is directly mounted on the mainboard 50P, on the one hand because of the mainboard 50P's Thermally conductive and heat dissipation performance is poor, on the other hand because being additionally provided with other electronic components on the mainboard 50P, these electronics member Device can equally generate a large amount of heat at work, thus, the electronics between the sensitive chip 40P and the mainboard 50P It will appear the case where interfering with each other between component, so that influencing the precision of the sensitive chip 40P.

In addition, the optical-filter switcher 30P needs to realize electricity with control route in security protection camera module work Connection, the switching of the state of the optical-filter switcher 30P can be completed under the control of the control route, in existing skill It is to be connected by electric wire, and this connection type exists between the optical-filter switcher 30P and the control route in art The a series of problems such as change that processing complicates, structure is complicated and service life are short.

Summary of the invention

It is an object of the present invention to provide a kind of security system, security protection camera module and its manufacturing method, wherein institute It states security protection camera module and one mirror-seat structure is provided, the microscope base and shell of the mirror-seat structure are the structures of integral type, in such manner, it is possible to The mismachining tolerance and rigging error being present between the microscope base and the shell are greatly reduced and eliminate, thus described in improving Security protection camera module image quality.

It is an object of the present invention to provide a kind of security system, security protection camera module and its manufacturing method, wherein institute It states microscope base and the shell uses the structure of integral type, thus, enable the assembly of the security protection camera module in dust-free workshop Interior progress, in such manner, it is possible to which improving the security protection images the automatization level that do not organize in the fabrication process.

It is an object of the present invention to provide a kind of security system, security protection camera module and its manufacturing methods, described In the assembling process of security protection camera module, pollutant can be effectively prevented, the internal element of the security protection camera module is caused Pollution.

It is an object of the present invention to provide a kind of security system, security protection camera module and its manufacturing methods, provide One filtering assembly, the filter element of the filtering assembly can be operatively moved to the photosensitive path of photosensitive element, thus, it is described Filter element can be filtered into some light type in the light of the security protection camera module, and then prevent the security protection from taking the photograph The image fault acquired as mould group.For example, the filter element can be infrared filtering element, with can filter enter it is described Infrared part in the light of security protection camera module makes the security protection camera module in daytime or strong light environment in turn Also the clearly image information of the security protection camera module local environment can be acquired.

It is an object of the present invention to provide a kind of security system, security protection camera module and its manufacturing method, wherein institute Stating filtering assembly can also include an induction module, be used to incude the light of the ambient enviroment of the security protection camera module, with Subsequently through the state for automatically controlling the filter element, come make the security protection camera module in any light environment all It can be used.

It is an object of the present invention to provide a kind of security system, security protection camera module and its manufacturing method, wherein institute It states photosensitive element and does not paste and be directly mounted on mainboard, but it is empty to form a heat dissipation between the photosensitive element and the mainboard Between, it for the heat conduction for generating the photosensitive element and radiate, to improve dissipating for the security protection camera module Thermal energy power.

It is an object of the present invention to provide a kind of security system, security protection camera module and its manufacturing method, wherein institute Stating heat-dissipating space can also avoid other electronic components on the photosensitive element and the mainboard from the feelings interfered with each other occur Condition, to improve the service life of the security protection camera module.

It is an object of the present invention to provide a kind of security system, security protection camera module and its manufacturing method, wherein institute It states security protection camera module and one substrate is also provided, the substrate and the photosensitive element are mounted on a wiring board, wherein institute State substrate not only and mount the photosensitive element and the wiring board it is more smooth, but also the substrate can also improve it is described The heat-sinking capability of security protection camera module.

It is an object of the present invention to provide a kind of security system, security protection camera module and its manufacturing method, wherein institute State compact-sized, the compact of security protection camera module.

In order to achieve the above object, the present invention provides a kind of security protection camera module comprising:

One optical lens；

One photosensitive element；

One filter element；And

One lens construction, the lens construction further comprises:

One microscope base, wherein the optical lens is installed on the microscope base, and the optical lens is located at the photosensitive member The photosensitive path of part；With

One shell, wherein the shell is integrally formed with the microscope base, the filter element is operably disposed in institute Shell is stated, and the filter element is able to filter the light for entering the security protection camera module via the optical lens.

A preferred embodiment according to the present invention, the security protection camera module further include a conducting subassembly, the biography Guide assembly is set to the shell, and the conducting subassembly includes a wiring board, and the photosensitive element is electrically connected to the line Road plate.

A preferred embodiment according to the present invention, the security protection camera module further include a mainboard, the shell peace Loaded on the mainboard, and a heat-dissipating space is formed between the conducting subassembly and the mainboard, for by the photosensitive member The heat that part generates conducts.

A preferred embodiment according to the present invention, the conducting subassembly further include a substrate, the photosensitive element and The substrate is mounted on the not ipsilateral of the wiring board respectively.

A preferred embodiment according to the present invention, the conducting subassembly further include a substrate, and the substrate includes one Radiating part and at least a heat-conducting part integrally extend the radiating part per the heat-conducting part；Correspondingly, the wiring board is equipped with At least one perforation, the radiating part are mounted on the wiring board, pass through per the heat-conducting part and are held in the every of the wiring board The perforation, the photosensitive element are mounted on per the heat-conducting part.

A preferred embodiment according to the present invention, the conducting subassembly further include a substrate, the photosensitive element and The wiring board is mounted on the not ipsilateral of the substrate respectively.

A preferred embodiment according to the present invention, the conducting subassembly further include a cap member, and the cap member covers It is placed on the photosensitive element, and light is able to be received through the cap member by the photosensitive element.

A preferred embodiment according to the present invention, the conducting subassembly further includes a full spectrum light element, described Full spectrum light element is set to the shell, and the full spectrum light element is located at the photosensitive road of the photosensitive element Diameter.

A preferred embodiment according to the present invention, the shell are equipped with an at least fixing body, divide per the fixing body The mainboard is not extended to from the shell, wherein the height per the fixing body is greater than the thickness of the conducting subassembly, thus The heat-dissipating space is formed between the conducting subassembly and the mainboard.

A preferred embodiment according to the present invention, the mainboard are equipped with an at least fixing body, divide per the fixing body The shell is not extended to from the mainboard, wherein the height per the fixing body is greater than the thickness of the conducting subassembly, thus The heat-dissipating space is formed between the conducting subassembly and the mainboard.

The present invention also provides a kind of security protection camera modules comprising:

One optical lens；

One photosensitive element；

One filter element；

One mainboard；

One conducting subassembly, the photosensitive element can conductively be set to the conducting subassembly；And

One mirror-seat structure, the mirror-seat structure further comprises:

One shell, wherein the filter element is operably disposed in the shell, and the filter element was able to Filter enters the light of the security protection camera module via the optical lens；Wherein the shell is installed on the mainboard, and And a heat-dissipating space is formed between the conducting subassembly and the mainboard, for the heat conduction for generating the photosensitive element It goes out.

The present invention also provides a kind of security systems, for a region to be monitored and managed, wherein the security system Include:

An at least acquisition module；With

One management module, the management module are managed per the acquisition module, wherein the management module further comprises:

One control data corporation；With

An at least district management unit is connected to the control data corporation per the district management unit communication；Its In per the district management unit by the region division be an at least administrative unit, per the acquisition module, acquisition is corresponding often The image information of the administrative unit, and a communication signal relevant to every administrative unit is generated, then the communication is believed Number being transferred to the control data corporation is managed, thus, the security system realizes monitoring and pipe to the region Reason.

A preferred embodiment according to the present invention is a security protection camera module per the acquisition module, wherein described Security protection camera module further comprises:

One optical lens；

One photosensitive element；

One filter element；And

One lens construction, the lens construction further comprises:

One optical lens；

One photosensitive element；

One filter element；

One mainboard；

One mirror-seat structure, the mirror-seat structure further comprises:

One shell, wherein the filter element is operably disposed in the shell, and the filter element was able to Filter enters the light of the security protection camera module via the optical lens；Wherein the shell is installed on the mainboard, and And a heat-dissipating space is formed between the conducting subassembly and the mainboard, for saying that the heat that the photosensitive element generates conducts It goes out.

The present invention also provides a kind of manufacturing methods of security protection camera module, wherein described method includes following steps:

(a) mirror-seat structure is provided, wherein the mirror-seat structure includes a microscope base and a shell, the microscope base and the shell Body is integrally formed；

(b) correspond to the shell and one photosensitive element is set；

(c) one optical lens of installation is in the microscope base, so that the optical lens is located at the photosensitive road of the photosensitive element Diameter；And

(d) filter element is operationally set in the shell, wherein the filter element is able to filter via described Optical lens enters the light of the security protection camera module.

A preferred embodiment according to the present invention, in above-mentioned steps (a), the microscope base and the shell pass through note Modeling technique is integrally formed.

A preferred embodiment according to the present invention, in the above-mentioned methods, further comprise the steps of: setting one conducting subassembly in The shell, wherein the conducting subassembly includes a wiring board, the photosensitive element is electrically connected to the wiring board.

A preferred embodiment according to the present invention further comprises the steps of: the installation shell and one in the above-mentioned methods Mainboard, and a heat-dissipating space is formed between the mainboard and the conducting subassembly, for what the photosensitive element was generated Heat conducts.

Detailed description of the invention

Fig. 1 is the stereoscopic schematic diagram of the security protection camera module of the prior art.

Fig. 2 is decomposition diagram of the peace meal to camera module of the prior art.

Fig. 3 is the stereoscopic schematic diagram of security protection camera module according to a preferred embodiment of the present invention.

Fig. 4 is the decomposition diagram of the security protection camera module of above preferred embodiment according to the present invention.

Fig. 5 is the half-section diagram of the mirror-seat structure of above preferred embodiment according to the present invention.

Fig. 6 is the section view signal of a use state of the security protection camera module of above preferred embodiment according to the present invention Figure.

Fig. 7 is that the section view of another use state of the security protection camera module of above preferred embodiment according to the present invention is shown It is intended to.

Fig. 8 is an embodiment party of the photosensitive element of above preferred embodiment according to the present invention, conducting subassembly and mainboard The schematic cross-sectional view of formula.

Fig. 9 is the section view of a variant embodiment of the security protection camera module of above preferred embodiment according to the present invention Schematic diagram.

Figure 10 is the another embodiment party of the photosensitive element of above preferred embodiment according to the present invention, conducting subassembly and mainboard The schematic cross-sectional view of formula.

Figure 11 is the embodiment party a again of the photosensitive element of above preferred embodiment according to the present invention, conducting subassembly and mainboard The stereoscopic schematic diagram of formula.

Figure 12 is that section view of the security protection camera module in a state according to a further advantageous embodiment of the invention is shown It is intended to.

Figure 13 is that section view of the security protection camera module of above preferred embodiment according to the present invention in another state is shown It is intended to.

Figure 14 is the block diagram representation of the security system of above preferred embodiment according to the present invention.

Figure 15 to Figure 17 is a specifically used ring of the security system of above preferred embodiment according to the present invention respectively The schematic diagram in border.

Figure 18 to Figure 20 is the another specifically used ring of the security system of above preferred embodiment according to the present invention respectively The schematic diagram in border.

Figure 21 is the manufacturing process schematic diagram of the security protection camera module of above preferred embodiment according to the present invention.

Specific embodiment

It is described below for disclosing the present invention so that those skilled in the art can be realized the present invention.It is excellent in being described below Embodiment is selected to be only used as illustrating, it may occur to persons skilled in the art that other obvious modifications.It defines in the following description Basic principle of the invention can be applied to other embodiments, deformation scheme, improvement project, equivalent program and do not carry on the back Other technologies scheme from the spirit and scope of the present invention.

It is security protection camera module according to a preferred embodiment of the present invention as shown in Figures 3 to 5, wherein the security protection Camera module includes a photosensitive element 10, an optical lens 20, a filtering assembly 30, a mirror-seat structure 40 and other are possible Component.

Specifically, the mirror-seat structure 40 further comprises a microscope base 41 and a shell 42, the microscope base 41 and described Shell 42 is integrally formed.Preferably, the microscope base 41 of the mirror-seat structure 40 and the shell 42 can be by being molded work Skill is integrally formed.

The optical lens 20 is installed in the microscope base 41；The filtering assembly 30 further comprises a filter element 31, the filter element 31 can be operatively disposed in the shell 42；Correspondingly, the photosensitive element 10 is accordingly set It is placed in the shell 42, and there is the photosensitive element 10 photosurface 11 to be suitable for towards 20 direction of optical lens. That is, the optical lens 20 is located on the photosensitive path of the photosensitive element 10, to pass through the optical lens 20 The light for entering the security protection camera module is suitable for being received by the photosurface 11 of the photosensitive element 10.In addition, described Filter element 31 can be operable on the photosensitive path for being moved to the photosensitive element 10, in the present invention, the optical filtering member Part 31 can be between the optical lens 20 and the photosensitive element 10, that is to say, that by the optical lens 20 into Enter the light to the security protection camera module, additionally it is possible to be filtered by the filter element 31, then by the photosensitive element 10 The photosurface 11 receives.In other words, the optical lens 20, the filter element 31 and the photosensitive element 10 can be by edges Depth direction arrangement.

It is noted that in another embodiment of the invention, the optical lens 20 can also be arranged at described Between filter element 31 and the photosensitive element 10, that is to say, that the filter element 31, the optical lens 20 and the sense Optical element 10 can be arranged along depth direction, in this way, the light of object reflection can be first via 31 mistake of filter element Filter, then optical signal is processed by the optical lens 20, then received by the photosurface 11 of the photosensitive element 10.

Security protection camera module of the present invention has greatly different from the structure of the security protection camera module of the prior art.Tool Say to body, in the present invention, the microscope base 41 and the shell 42 of the mirror-seat structure 40 use the structure of integral type, this Sample can eliminate the mismachining tolerance and rigging error being present between the microscope base 41 and the shell 42, thus, when the light It learns camera lens 20 and the photosensitive element 10 is respectively arranged at after the microscope base 41 and the shell 42 of the mirror-seat structure 40, The optical axis of the optical lens 20 can perpendicular to the photosurface 11 of the photosensitive element 10, thus, it is subsequent make it is described More evenly, according to this, to improve the image quality of the security protection camera module, this is 11 light of the photosurface of photosensitive element 10 The security protection camera module of the prior art is unexpected, and this structure of security protection camera module of the present invention, makes described The image quality of security protection camera module has obtained great promotion.

It is noted that the filter element 31 of the filtering assembly 30 can be operatively disposed in the microscope base The shell 42 of structure 40, so that the filter element 31 can be located at the photosensitive path of the photosensitive element 10, thus, institute Filter element 31 is stated for filtering some light type of the light entered in the security protection camera module.For example, the filter Optical element 31 can be cutoff filter, in this way, entering the infrared ray portion in the light in the security protection camera module Point, it can be filtered when light passes through the filter element 31, in this way, the security protection camera module can be made The image of acquisition avoids being distorted.It will be appreciated by those skilled in the art that using ring according to the security protection camera module The type of the difference in border, the filter element 31 can be unrestricted, such as smalt etc., in addition, multiple identical or different classes The filter element 31 of type can also be superimposed use, to enhance the filter effect of the security protection camera module.

Further, position of the definition when the filter element 31 is located at the photosensitive path of the photosensitive element 10 is institute State a first position of filter element 31；Correspondingly, the photosensitive road that the filter element 31 is moved away from the photosensitive element 10 is defined Position when diameter is a second position of the filter element 31, and the filter element 31 can be in the first position and described It is moved between the second position, so that the security protection camera module can acquire the image of local environment in different light environments Information.

Specifically, as shown in fig. 6, working as the security protection camera module under daytime or strong light environment in use, described Filter element 31 can be moved to the first position from the second position, that is, the filter element 31 is located at the sense On the opticpath of optical element 10, at this point, the light of object reflection can be successively by the optical lens 20 processing to be converted into light Signal is filtered corresponding light type by the filter element 31, for example, infrared light, finally described in the photosensitive element 10 Photosurface 11 receives, to complete acquisition of the security protection camera module to the image information of locating ambient enviroment, in this way Mode, the image fault that the image information that can be acquired to avoid the security protection camera module acquires under daytime or strong light environment The case where occur.

Correspondingly, as shown in fig. 7, when the security protection camera module in the environment of night or dark in use, The filter element 31 can be moved to the second position from the first position, that is, the filter element 31 can be by Be moved away from the photosensitive path of the photosensitive element 10, at this point, object reflection light can successively by the optical lens 20 processing with Optical signal is converted into, then by all receiving of the photosurface of the photosensitive element 10 11, to make full use of all light Acquire the image information of object by the security protection camera module, so that the image quality of the security protection camera module be made to be mentioned It is high.That is, the light for entering the security protection camera module does not have when the filter element 31 is in the second position Have and filtered by the filter element 31, also can hence into the infrared portions for including in the light to the security protection camera module It is enough to be received by the photosurface 11 of the photosensitive element 10, in this way, using the peace even in the poor environment of light When anti-camera module, the relatively clear image information of the security protection camera module local environment can be also collected.

Preferably, in some embodiments, the filter element 31 can do the rotary motion relative to the shell 42, That is, the filter element 31 can by driving and in rotary manner the first position and the second position it Between switch, in this way so that the use of the filtering assembly 30 not will increase the thickness of the security protection camera module, So that the volume of the security protection camera module is smaller, more compact structure, meet in the market for the security protection camera module Demand.

Preferably, in further embodiments, the filter element 31 can be slidably disposed in the shell 42, That is the filter element 31 can by driving and in a sliding manner between the first position and the second position Switching, in this way, the use of the filtering assembly 30 will not increase the thickness of the security protection camera module, thus Make that the volume of the security protection camera module is smaller, more compact structure.

Further, as shown in figure 3, the filter element 30 can also include a driving element 32, the driving element 32 are set to the shell 42, and the filter element 31 can be operatively disposed in the driving element 32, thus, the filter Optical element 31 can switch between the first position and the second position under the driving of the driving element 32.Into One step, the driving element 32 may include one drive circuit 321 and a driving mechanism 322, wherein the driving circuit 321 It is connected to the driving mechanism 322, the driving mechanism 322 is operably connected to the filter element 31, subsequent, the drive Dynamic circuit 321 is capable of providing driving force to the driving mechanism 322, so that the driving mechanism 322 drives the filter element 31 switch between the first position and the second position, thus, make the security protection camera module in any light environment It can be used to down acquire the image information of local environment.

Further, as shown in figure 3, the filtering assembly 30 can also include an induction module 33, the driving member The driving circuit 321 of part 32 is electrically connected to the induction module 33, wherein the induction module 33 is for incuding the peace Environment around locating for anti-camera module, and instruction relevant to ambient enviroment is generated, with the member that filters described in subsequent control The state of part 31.

Specifically, when the induction module 33 senses the light intensity enhancing of environment locating for the security protection camera module simultaneously When reaching preset threshold value, the induction module 33 can produce instruction related to this, and be produced by the driving circuit 321 Raw driving force, is moved to simultaneously with further operating the filter element 31 by the driving mechanism 322 from the second position It is held in the first position, at this point, entering by the optical lens 20 red in the light of the security protection camera module Outside line part can be filtered by the filter element 31, then, then be received by the photosurface 11 of the photosensitive element 10, with Subsequent photoelectric conversion is carried out, it is thus possible to avoid the security protection camera module because adopting under daytime or strong light environment The case where image fault of collection, occurs.

Correspondingly, when the induction module 33 senses the light intensity decreasing of environment locating for the security protection camera module and reaches When to preset threshold value, the induction module 33 can produce instruction related to this, and be generated by the driving circuit 321 Driving force, with further by the driving mechanism 322 operate the filter element 31 be moved to from the first position it is described The second position, at this point, can be by the photosensitive element by the light that the optical lens 20 enters the security protection camera module 10 photosurface 11 all receives, thus, the security protection camera module can fully utilize light, in darker light Clearly image information is collected under thread environment.

It will be appreciated by those skilled in the art that by the induction module 33, the security protection camera module according to The light of locating environment changes, and can adjust the position of the filter element 31 automatically to meet different use needs. In addition, the induction module 33 may be implemented as but be not limited to photo resistance.It is noted that the induction module 33 Threshold value can be pre-arranged, and the light of the locating environment of the threshold value of the induction module 33 and the induction module 33 The power of intensity is related, this also means that can preset the induction installing the security protection camera module when respective environment The threshold value of module 33, and during the security protection camera module is by use, the threshold value of the induction module 33 can also be with It is adjusted to expand the use scope of the security protection camera module.

In addition, the security protection camera module can also include a conducting subassembly 50, the photosensitive element 10 is electrically connected to institute Conducting subassembly 50 is stated, wherein the conducting subassembly 50 is used for the telecommunications for generating the photosensitive element 10 after carrying out photoelectric conversion It number conducts, to be subsequently generated image information.Specifically, the conducting subassembly 50 includes a wiring board 51, the sense Optical element 10 is electrically connected to the wiring board 51.

As shown in figure 8, in some embodiments, the photosensitive element 10 is mounted on the wiring board 51, the wiring board 51 are mounted on the shell 42, thus, the wiring board 51 is used to the photosensitive element 10 being packaged in the shell 42, and And during the security protection camera module use, make the optical axis of the optical lens 20 perpendicular to the photosensitive element always 10 photosurface 11, to guarantee the image quality of the security protection camera module.

Preferably, the wiring board 51 can be PCB circuit board, in this way, in the security protection camera module by use, institute It states the heat that photosensitive element 10 generates at work to be not easy to cause the deformation of the wiring board 51, to will not make described photosensitive The case where element 10 tilts.

Further, the conducting subassembly 50 can also include a substrate 52, and the substrate 52 is mounted on the wiring board 51, that is to say, that the photosensitive element 10 and the substrate 52 are mounted on the two sides of the wiring board 51 respectively, thus, pass through The substrate 52 can increase the intensity of the wiring board 51, to avoid the wiring board 51 in hot environment or wet environment Middle the case where deforming, thus, it is ensured that the wiring board 10 being mounted on the wiring board 51 will not tilt.It is preferred that Ground, the substrate 52 can be made of stainless steel material, aluminum alloy materials or aluminium etc., in this way, not only may be used To guarantee the intensity of the substrate 52, but also the security protection camera module can be assisted to radiate.That is, the photosensitive member The heat that part 10 generates at work can conduct by the pedestal 52 and be radiated to the external rings of the security protection camera module Border, thus, it is possible to the temperature inside the security protection camera module be reduced, to extend the use longevity of the security protection camera module Life.

It is noted that in further embodiments, the wiring board 51 can also be made without using PCB circuit board At, but the material for making the wiring board 51 is selected as flex circuit application, thus, the wiring board 51 and the photosensitive member The flatness of part 10 by substrate 52 described in the surface mount in the wiring board 51 realize, thus, the security protection image mould During group is by use, the wiring board 51 will not be deformed, and the photosensitive element 10 and the optical lens 20 Between flatness will not be affected, in turn, it is ensured that reliability of security protection camera module during by use And stability.

In addition, the conducting subassembly 50 can also include a transparent cap member 53, the cap member 53 can be covered in The photosurface 11 of the photosensitive element 10, with for protecting the photosurface 11 of the photosensitive element 10 not to be contaminated, And the cap member 53 allows the light entered inside the security protection camera module by the optical lens 20 to pass through, with Further received by the photosurface 11 of the photosensitive element 10.Preferably, the cap member 53 can be by glass material system At in this way, can be without losing ground by the light that the optical lens 20 enters the security protection camera module Received by the photosurface 11 of the photosensitive element 10, thus, the use of the cap member 53 will not influence the photosensitive member The photosensitive effect of part 10.

As shown in figure 5, the shell 42 of the mirror-seat structure 40 is equipped with a mount components 421, for mounting the biography The wiring board 51 of guide assembly 50.Specifically, the surrounding of the wiring board 51 extends respectively to the described of the shell 42 Mount components 421, thus, the periphery property of can choose of the wiring board 51 it is mounted on the mount components of the shell 42 421 end or inner wall, in this way, the photosensitive element 10 for being mounted on the wiring board 51 can be sealed Inside loaded on the shell 42.Preferably, the wiring board 51 can be pasted by sticker or equivalent embodiment The mount components 421 loaded on the shell 42, for example, the sticker can be glue.It is highly preferred that the attachment Plane where the end of element 421 protrudes from the plane where the shell 42, in order to by the wiring board 51 attachment with The mount components 421.

As shown in Figure 3 and Figure 4, the security protection camera module further includes a mainboard 60, and the mainboard 60 is provided with various electricity Sub- component is to cooperate the security protection camera module to acquire the image information of local environment.The route of the conducting subassembly 50 Plate 51 can be electrically connected to the mainboard 60, in addition, the filtering assembly 30 is also provided with a connecting element 34, the connection Element 34 is electrically connected to the driving circuit 321, and the connecting element 34 can be a standard connector, in this way, institute The mainboard 60 can be electrically connected to by way of installation by stating filtering assembly 30, compared with the existing technology by welding For, this mode provided by the invention can not only improve the assembly efficiency of the security protection camera module, and the optical filtering The reliability connecting between component 30 and the mainboard 60 can be also significantly increased.Correspondingly, the mirror-seat structure 40 shell 42 can be installed on the mainboard 60, the security protection camera module is made.

Further, after the shell 42 of the mirror-seat structure 40 is installed on mainboard 60, the conduction group A heat-dissipating space 100 is formed between part 50 and the main body 60, for the heat for generating the photosensitive element 10 at work It is radiated to the external environment of the security protection camera module.It will be appreciated by those skilled in the art that unlike the prior art, The wiring board 51 of security protection camera module of the present invention is not mounted on the mainboard 60, but by the wiring board 51 It is mounted on the shell 42, and there is no contacts between the wiring board 51 and the mainboard 60, thus, the photosensitive member The heat that part 10 generates will not be conducted on the mainboard 60, in turn, will not be to other electricity being set on the mainboard 60 Sub- component has a adverse impact, to guarantee reliability and stabilization of the security protection camera module during by use Property.

Specifically, the shell 42 is equipped with an at least fixing body 422 in some specific embodiments of the invention, It extends to and is installed on the mainboard 60 from the shell 42 per the fixing body 422, to make institute per the fixing body 422 It states and forms the heat-dissipating space between mainboard 60 and the shell 42.In other specific embodiments of the invention, every institute Stating fixing body 422 also can be set in the mainboard 60 (attached drawing is not shown), thus, per the fixing body 422 from the mainboard 60 extend to and are installed on the shell 42, and the height per the fixing body 422 is greater than the thickness of the conducting subassembly 50, To make to form the heat-dissipating space 100 between the mainboard 60 and the conducting subassembly 50 per the fixing body 422.In addition, One pad can also be set between the shell 42 and the mainboard 60, and the height of the pad is greater than the conducting subassembly 50 Thickness, for forming the heat-dissipating space 100 between the conducting subassembly 50 and the mainboard 60.

It is the embodiment of a deformation of above preferred embodiment according to the present invention as shown in Figure 9, wherein the filter Optical assembly 30 can also include a full spectrum light element 35, wherein the full spectrum light element 35 is set to the shell 42, and the full spectrum light element 35 is located on the photosensitive path of the photosensitive element 10, in this way, passing through the optical frames First 30 light for entering the security protection camera module can pass through the full spectrum light element 35 by the photosensitive element 10 The photosurface 11 receive.

35 property of can choose of full spectrum light element it is set to the two sides of the filter element 31, that is, at one In embodiment, the full spectrum light can be initially passed through by the light that the optical lens 20 enters the security protection camera module Element 35 is learned, the filter element 31 is then passed through, is then received by the photosurface 11 of the photosensitive element 10；At another In embodiment, the filter element can be initially passed through by the light that the optical lens 20 enters the security protection camera module 31, it is then passed through the full spectrum light element 35, is then received by the photosurface 11 of the photosensitive element 10.

For example, the security protection camera module is when in use, when the induction module 33 senses the security protection camera shooting mould When the light of the locating environment of group enhances and reaches preset threshold value, the induction module 33 can produce finger related to this It enables, and by the driving circuit 321 generation driving force, further by being electrically connected to described in the driving circuit 321 Driving mechanism 322 operates the filter element 31 and is moved to the first position from the second position, that is, the filter element 31 are moved to and are in the photosensitive path of the photosensitive element 10, at this point, entering the peace by the optical lens 20 The light of anti-camera module can first pass through the full spectrum light element 35, be then passed through the filter element 31, then with mistake Infrared part in optical filtering line, then can be described in the photosensitive element 10 by the filtered light of the filter element 31 Photosurface 11 receives.

Correspondingly, when the induction module 33 senses that the light of environment locating for the security protection camera module weakens and reaches When to preset threshold value, the induction module 33 can produce instruction related to this, and be generated by the driving circuit 321 Driving force, further to operate the filter element 31 by the driving mechanism 322 for being electrically connected to the driving circuit 321 The second position is moved to from the first position, that is, the hotel element 31 is displaced from the sense of the photosensitive element 10 Light path, at this point, the full spectrum light can be passed through by the light that the filter element 31 enters the security protection camera module Element 35 is learned, and is received in the photosurface 11 of the subsequent and described photosensitive element 10.That is, when the security protection images mould It, can't by the light that the optical lens 20 enters the security protection camera module when insufficient light of the locating environment of group By filtering infrared part, but the full spectrum light element 35 is completely extended across, so that the security protection camera module can fill Divide land productivity light, to obtain the image information of high definition.

Preferably, the full spectrum light element 35 can be full spectrum light glass elements.

It is another variant embodiment of above preferred embodiment according to the present invention as shown in Figure 10, wherein the peace Anti- camera module includes a conducting subassembly 50A, and the photosensitive element 10 is electrically connected to the conducting subassembly 50A, wherein the biography It is used to conduct the electric signal that the photosensitive element 10 generates after carrying out photoelectricity and turning to component 50A, to be subsequently generated Image information.Specifically, the conducting subassembly 50A includes a wiring board 51A and a substrate 52A, the wiring board 51A attachment In the wiring board 51A, the photosensitive element 10 is mounted on the substrate 52A, and the photosensitive element 10 is electrically connected to institute State wiring board 51A.That is, the photosensitive element 10 is not contacted with the wiring board 51A, thus, it is even described Wiring board 51A, which produces deformation, will not influence the flatness of the photosensitive element 10.

More specifically, the substrate 52A includes a radiating part 521A and integrally formed extremely with the radiating part 521A A few heat-conducting part 522A respectively extends from the radiating part 521A per the heat-conducting part 522A；The wiring board 51A has at least One perforation 511A's, the substrate 52A is each passed through per the heat-conducting part 522A and is held in the every described of the wiring board 51A Perforate 511A, and the photosensitive element 10 is mounted on every heat-conducting part 522A of the substrate 52A, in this way, the photosensitive element 10 electric signals generated can be transferred out by being electrically connected to the wiring board 51A of the photosensitive element 10, described photosensitive The heat that element 10 generates can be by the heat-conducting part 522A and the radiating part 521A that are mounted by the photosensitive element 10 It is conducted and is radiated.

Preferably, the height of the heat-conducting part 522A is greater than the thickness of the wiring board 51A, in this way, working as the photosensitive member Part 10 is mounted on after the heat-conducting part 522A, and the photosensitive element 10 can not be contacted with the wiring board 51A.

It is another variant embodiment of above preferred embodiment according to the present invention as shown in figure 11, wherein the peace Anti- camera module includes that conducting subassembly a 50B, the conducting subassembly 50B further comprises a wiring board 51B and a substrate 52B, Wherein the photosensitive element 10 and the wiring board 51B are mounted on the two sides of the substrate 52B, and the photosensitive element respectively 10 are electrically connected to the wiring board 51B.That is, the substrate 52B is located at the photosensitive element 10 and the wiring board 51B Between, so that the photosensitive element 10 is not mounted on the wiring board 51B, but it is good described to be mounted on flatness On substrate 52B, in turn, when the even described wiring board 51B is deformed because of the influence of environment such as high temperature or humidity, The flatness of the photosensitive element 10 will not be had an impact.In this way, the optical axis of the optical lens 20 can Always perpendicular to the photosurface 11 of the photosensitive element 10, to advantageously ensure that the imaging of the security protection camera module Quality.

It is security protection camera module according to a further advantageous embodiment of the invention as shown in Figure 12 and Figure 13.The security protection Camera module includes a photosensitive element 10C, an optical lens 20C, a filtering assembly 30C and a mirror-seat structure 40C, the mirror Holder structure 40C further comprises a microscope base 41C and a shell 42C integrally formed with the microscope base 41C.The photosensitive element 10C is arranged corresponding to the shell 42C, wherein the photosensitive element 10C has a photosurface 11C for receiving optical signal；Institute It states optical lens 20C and is installed on the microscope base 41C, wherein the optical lens 20C is located at the photosensitive road of the photosensitive element 10C On diameter, to allow to enter the light of the security protection camera module by the institute of the photosensitive element 10 by the optical lens 20C State photosurface 11C receiving, it is preferable that the photosurface of the optical axis of the optical lens 20C perpendicular to the photosensitive element 10C 11C, in this way, the photosurface 11C of the photosensitive element 10C equably light can be made；The filtering assembly 30C includes one Filter element 31C, the filter element 31C can be operatively disposed in the shell 42C, and the filter element 31C is obtained To form a filter layer 311C on the photosensitive path of the photosensitive element 10C, for being filtered through the optical lens 20C Some types into the light of the security protection camera module, for example, the filter layer 311C energy of the filter element 31C The infrared part in light is enough filtered, to make the security protection camera module that can also obtain under daytime or strong light environment The clearly image information of locating ambient enviroment.

Further, the filtering assembly 30C can also include a driving element 32C, and the driving element 32C is set to The shell 42C, the filter element 31C can be operatively disposed in the driving element 32C, thus, the filter element 31C can form the filter layer on the photosensitive path of the photosensitive element 10C under the driving of the driving element 32C 311C。

Further, the filtering assembly 30C can also include an induction module 33C, and the driving element 32C is electrically connected It is connected to the induction module 33C, wherein the induction module 33C is used to incude the ring around locating for the security protection camera module Border, and instruction relevant to ambient enviroment is generated, with the state of the filter element 31C described in subsequent control.

Specifically, when the induction module 33C senses the light enhancing of environment locating for the security protection camera module And when reaching preset threshold value, the induction module 33C can produce instruction related to this, and pass through the driving element 32C operates the filter element 31C, to form the filter layer 311C on the photosensitive path of the photosensitive element 10C, this When, the infrared light entered in the light inside the security protection camera module by the optical lens 20C can be by the filter Photosphere 311C filtering, then, then by the photosurface 11C receiving of the photosensitive element 10C.

Correspondingly, when the induction module 33C senses the light enhancing of environment locating for the security protection camera module simultaneously When reaching preset threshold value, the induction module 33C can produce instruction related to this, and pass through the driving element 32C The filter element 31C is operated, at this moment, there is no the shapes on the photosensitive path of the photosensitive element 10C by the filter element 31C At the filter layer 311C, at this point, can be by the sense by the light that the optical lens 20C enters the security protection camera module The photosurface 11C of optical element 10C all receives.

It is different from one embodiment of security protection camera module of the present invention, in this embodiment, the filter layer 311C can be the filter element 31C and be formed through projection, thus, reserved institute is not needed in the shell 42C The space of filter element 31C switching position is stated, so as to so that the internal structure of the security protection camera module is more compact, into And keep the volume of the security protection camera module smaller.

As shown in figure 14, the present invention also provides a kind of security system, the security system is used to carry out a region 1400 Monitoring and management.Specifically, the security system includes a management module 1410 and an at least acquisition module 1420, per described 1420 signal of acquisition module is connected to the management module 1410, so that the management module 1410 can be managed per the acquisition Module 1420, wherein the image information in the region 1400 can be acquired per the acquisition module 1420 and generate a communication letter Number, the communication signal is transferred to the management module 1410 and is managed and handles.

Preferably, it can be realized and be connected by communication network with the management module 1410 per the acquisition module 1420, So that the layout of the security system can more flexibly, and communication network can also guarantee that the communication signal is passing Reliability in defeated process.

Further, the management module 1410 further comprises a control data corporation 1411 and an at least district management Module 1412 is communicatively coupled with the control data corporation 1411 per the district management module 1412, per the acquisition Module 1420 is managed by every district management module 1412.As shown in figure 14, being used for per the district management module 1412 will The region 1400 is divided at least one administrative unit 1401, monitors respectively per the acquisition module 1420 single per the management The state of member 1401, and image information of the synchronization gain per the administrative unit 1401 is to generate the communication signal, it is described logical News signal is transferred to the control data corporation 1411 after.

Preferably, the region 1400 is mutually indepedent per the administrative unit 1401, uses per the acquisition module 1420 In acquiring the image information at least one described administrative unit 1401, for example, two acquisition modules 1420 can be adopted The case where range of collection will appear mutual covering, can make all positions in the region 1400 all in this way It can be monitored to, to improve the safety in the region 1400.

Further, the security system can also include a terminal installation 1430, and the management module 1410 can communicate Ground is connected to the terminal installation 1430, it is preferable that the control data corporation 1411 is communicatively coupled with the terminal dress 1430 are set, the terminal installation 1430 can be used in showing the figure per the acquisition module 1420 region 1400 collected As information.Such as the terminal installation 1430 can be but not limited to display device.

In security system of the present invention, the acquisition module 1420 may be implemented as the security protection camera module, It when using the security system, is installed in per the security protection camera module per the administrative unit 1401, in this way, per described Security protection camera module 1420 either has under any light environment such as daytime or night and can collect per the management The image information of unit 1401, reliability when guaranteeing that the security system is used.

It is the schematic diagram of a specific embodiment of the security system of the invention as shown in Figure 15 to Figure 17.Tool It says to body, the security system is for being monitored and managing to by a community (region 1400 i.e. of the invention).It is described Security system includes a management module 1410 and at least one described acquisition module 1420, per the acquisition module 1420 It can also include a security protection camera module, the entrance position of the community is arranged at per the security protection camera module It sets, for acquiring the pedestrian and the vehicle that pass in and out the community by the entrance.Communicably per the acquisition module 1420 It is connected to the management module 1410, thus, per the acquisition module 1420, the image of acquisition can be transferred to the management mould Block 1410, and shown subsequently through the terminal installation 1430 for being communicatively coupled to the management module 1410, That is, the terminal installation 1430 is interacted with the security protection camera module.

As shown in Figure 16 and Figure 17, the society can be acquired by way of shooting picture per the security protection camera module The image information of the entrance in area.It will be appreciated by those skilled in the art that may be used also per the security protection camera module The image information of the entrance of the community is acquired in a manner of through shooting video, to can be realized pair subsequent The entrance of the community is monitored and manages.

In security system of the present invention, the security protection camera module can collect under any possible light The clearly image information of the entrance of the community, such as when the light such as daytime are preferable, the security protection camera shooting The filter element 31 of mould group, which can be driven from the second position, is moved to the first position, so that the optical filtering is first Part 31 can be filtered through the light that the optical lens 20 enters the security protection camera module, then again by the photosensitive member The photosurface 11 of part 10 receives, so as to be effectively prevented the distortion of image, as shown in figure 16；Correspondingly, at night When waiting light poor, the security protection camera module, which can be driven, is moved to the second position from the first position, thus The filter element 31 will not be filtered through the light that the optical lens 20 enters the security protection camera module at this moment, So that all light can be received by the photosurface 11 of the photosensitive element 10, believe to obtain clearly image Breath.By the security protection camera module, the security system effectively can be monitored and manage to the community.

It is the schematic diagram of the another specific embodiment of security system according to the present invention as shown in Figure 18 to Figure 20.Tool It says to body, the security system is for being monitored and being managed by the running environment of vehicle periphery.The security system packet A management module 1410 and at least one acquisition module 1420 are included, is installed in vehicle per the acquisition module 1420 Top or inside, wherein can also include a security protection camera module per the acquisition module 1420, for collecting vehicle Running environment around.Per the acquisition module 1420, the image of acquisition can be transferred to the management module 1410, and It is shown subsequently through the terminal installation 1430 for being communicatively coupled to the management module 1410, that is to say, that institute Terminal installation 1430 is stated to interact with the security protection camera module.

It will be appreciated by those skilled in the art that the acquisition module 1420 may be implemented as a driving recording Instrument.When vehicle in daytime or the preferable environment of other light when driving, the filter element of the security protection camera module 31 can be driven from the second position and be moved to the first position, so that the filter element 31 can be filtered through institute The light that optical lens 20 enters the security protection camera module is stated, is then connect by the photosurface 11 of the photosensitive element 10 By so as to be effectively prevented image fault, as shown in figure 19；Correspondingly, when vehicle at night or other light are poor Environment in when driving, the filter element 31 of the security protection camera module, which can be driven from the first position, to be moved to The second position, so that entering all light in the security protection camera module all by the optical lens 20 It can be received by the photosurface 11 of the photosensitive element 10, to obtain clearly image information.It is taken the photograph by the security protection As group, the security system effectively can not be managed and monitor to the driving safety of vehicle.

As shown in figure 21, the present invention also provides a kind of manufacturing methods of security protection camera module, wherein the method includes such as Lower step:

(a) mirror-seat structure 40 is provided, wherein the mirror-seat structure 40 includes a microscope base 41 and a shell 42, the microscope base 41 and the shell 42 be integrally formed, in this way, for security protection camera module compared with the existing technology, one The mirror-seat structure 40 of formula can eliminate the rigging error being present between the microscope base 41 and the shell 42.

(b) correspond to the shell 42 and a photosensitive element 10 is set；

(c) one optical lens 20 of installation is in the microscope base 41, so that the optical lens 20 is located at the photosensitive element 10 Photosensitive path；And

(d) filter element 31 is operationally set in the shell 42, wherein the filter element 31 is able to filtering warp The light of the security protection camera module is entered by the optical lens 20.

It is noted that in the present invention, the step (a), the step (b), the step (c) and the step (d) filter element 31 in no particular order, such as first can be operably disposed in the shell 42 by sequence, then be divided again The photosensitive element 10 and the optical lens 20 are not installed.

Preferably, in the step (a), the microscope base 41 and the shell 42 are integrally formed by Shooting Technique.

Preferably, the manufacturing method of the security protection camera module further comprises the steps of: one conducting subassembly 50 of setting in the shell Body, wherein the conducting subassembly 50 includes a wiring board 51, the photosensitive element 10 is electrically connected to the wiring board 51.

Preferably, the manufacturing method of the security protection camera module further comprises the steps of: the installation shell 42 and a mainboard 60, And a heat-dissipating space 100 is formed, between the mainboard 60 and the conducting subassembly 50 for producing the photosensitive element 10 Raw heat conducts.

It should be understood by those skilled in the art that foregoing description and the embodiment of the present invention shown in the drawings are only used as illustrating And it is not intended to limit the present invention.The purpose of the present invention has been fully and effectively achieved.Function and structural principle of the invention exists It shows and illustrates in embodiment, under without departing from the principle, embodiments of the present invention can have any deformation or modification.

Claims

1. a kind of security protection camera module characterized by comprising

One optical lens；

One photosensitive element；

One filter element；And

One lens construction, the lens construction further comprises:

One microscope base, wherein the optical lens is installed on the microscope base, and the optical lens is located at the photosensitive element Photosensitive path；With

One shell, wherein the shell is integrally formed with the microscope base, the filter element is operably disposed in the shell Body, and the filter element is able to filter the light for entering the security protection camera module via the optical lens；

One conducting subassembly, wherein the conducting subassembly includes a wiring board, the photosensitive element is electrically connected to the wiring board, institute It states wiring board and is mounted on the shell；

One mainboard wherein the shell is installed in the mainboard, and forms one between the shell and the mainboard and dissipates Heat space, the heat-dissipating space is looped around the surrounding of the photosensitive element, and the heat-dissipating space is connected to the security protection camera shooting The outside of mould group, so that the heat for generating the photosensitive element conducts.

2. security protection camera module as described in claim 1, wherein the conducting subassembly further includes a substrate, the photosensitive element It is mounted on the not ipsilateral of the wiring board respectively with the substrate.

3. security protection camera module as described in claim 1, wherein the conducting subassembly further includes a substrate, the substrate includes One radiating part and at least a heat-conducting part integrally extend the radiating part per the heat-conducting part；Correspondingly, the wiring board is set There is at least one perforation, the radiating part is mounted on the wiring board, passes through per the heat-conducting part and is held in the wiring board Per the perforation, the photosensitive element is mounted on per the heat-conducting part.

4. security protection camera module as described in claim 1, wherein the conducting subassembly further includes a substrate, the photosensitive element It is mounted on the not ipsilateral of the substrate respectively with the wiring board.

5. the security protection camera module as described in any in Claims 1-4, wherein the conducting subassembly further includes a cap member, The cap member is covered in the photosensitive element, and light is able to be received through the cap member by the photosensitive element.

6. the security protection camera module as described in any in Claims 1-4, wherein the conducting subassembly further includes a full spectrum light Element is learned, the full spectrum light element is set to the shell, and the full spectrum light element is located at the photosensitive member The photosensitive path of part.

7. security protection camera module as described in claim 1, wherein the shell is equipped with an at least fixing body, per the fixing body The mainboard is extended to from the shell respectively, wherein the height per the fixing body is greater than the thickness of the conducting subassembly, from And the heat-dissipating space is formed between the conducting subassembly and the mainboard.

8. security protection camera module as described in claim 1, wherein the mainboard is equipped with an at least fixing body, per the fixing body The shell is extended to from the mainboard respectively, wherein the height per the fixing body is greater than the thickness of the conducting subassembly, from And the heat-dissipating space is formed between the conducting subassembly and the mainboard.

9. a kind of security system, for a region to be monitored and managed characterized by comprising

An at least acquisition module, wherein each acquisition module respectively includes an at least security protection camera module, wherein each institute Stating security protection camera module further comprises:

One optical lens；

One photosensitive element；

One filter element；And

One lens construction, the lens construction further comprises:

One mainboard wherein the shell is installed in the mainboard, and forms one between the shell and the mainboard and dissipates Heat space, the heat-dissipating space is looped around the surrounding of the photosensitive element, and the heat-dissipating space is connected to the security protection camera shooting The outside of mould group, so that the heat for generating the photosensitive element conducts；With

One control data corporation；With

An at least district management unit is connected to the control data corporation per the district management unit communication；It is wherein every The region division is an at least administrative unit by the district management unit, and per the acquisition module, acquisition is corresponding per described The image information of administrative unit, and generate and the often relevant communication signal of the administrative unit, then the communication signal quilt The control data corporation is transmitted to be managed, thus, the security system realizes the monitoring and management to the region.

10. security system as claimed in claim 9, wherein the conducting subassembly further includes a substrate, the photosensitive element and The substrate is mounted on the not ipsilateral of the wiring board respectively.

11. security system as claimed in claim 9, wherein the conducting subassembly further includes a substrate, the substrate includes one Radiating part and at least a heat-conducting part integrally extend the radiating part per the heat-conducting part；Correspondingly, the wiring board is equipped with At least one perforation, the radiating part are mounted on the wiring board, pass through per the heat-conducting part and are held in the every of the wiring board The perforation, the photosensitive element are mounted on per the heat-conducting part.

12. security system as claimed in claim 9, wherein the conducting subassembly further includes a substrate, the photosensitive element and The wiring board is mounted on the not ipsilateral of the substrate respectively.

13. the security system as described in any in claim 9 to 12, wherein the conducting subassembly further includes a cap member, institute It states cap member and is covered in the photosensitive element, and light is able to be received through the cap member by the photosensitive element.

14. the security system as described in any in claim 9 to 12, wherein the conducting subassembly further includes a full spectrum light Element, the full spectrum light element is set to the shell, and the full spectrum light element is located at the photosensitive element Photosensitive path.

15. security system as claimed in claim 9 is divided wherein the shell is equipped with an at least fixing body per the fixing body The mainboard is not extended to from the shell, wherein the height per the fixing body is greater than the thickness of the conducting subassembly, thus The heat-dissipating space is formed between the conducting subassembly and the mainboard.

16. security system as claimed in claim 9 is divided wherein the mainboard is equipped with an at least fixing body per the fixing body The shell is not extended to from the mainboard, wherein the height per the fixing body is greater than the thickness of the conducting subassembly, thus The heat-dissipating space is formed between the conducting subassembly and the mainboard.

17. a kind of manufacturing method of security protection camera module, which is characterized in that described method includes following steps:

(a) mirror-seat structure is provided, wherein the mirror-seat structure includes a microscope base and a shell, the microscope base and the shell one Body it is made；

(b) correspond to the shell and one photosensitive element is set；

(c) one optical lens of installation is in the microscope base, so that the optical lens is located at the photosensitive path of the photosensitive element；With And

(d) filter element is operationally set in the shell, wherein the filter element is able to filter via the optics Camera lens enters the light of the security protection camera module；

Wherein in the above-mentioned methods, the photosensitive element is electrically connected to a wiring board, and the wiring board is mounted on described Shell, so that the photosensitive element be made to correspond to the shell；

Wherein in the above-mentioned methods, the shell is installed in a mainboard, and form one between the mainboard and the shell Heat-dissipating space, the heat-dissipating space is looped around the surrounding of the photosensitive element, and the heat-dissipating space is connected to the security protection and takes the photograph As the outside of mould group, so that the heat for generating the photosensitive element conducts.

18. manufacturing method as claimed in claim 17, in above-mentioned steps (a), the microscope base and the shell pass through injection molding Technique is integrally formed.

19. manufacturing method as claimed in claim 17 is divided wherein the shell is equipped with an at least fixing body per the fixing body The mainboard is not extended to from the shell, wherein the height per the fixing body is greater than the thickness of the conducting subassembly, thus The heat-dissipating space is formed between the conducting subassembly and the mainboard.

20. manufacturing method as claimed in claim 18 is divided wherein the shell is equipped with an at least fixing body per the fixing body The mainboard is not extended to from the shell, wherein the height per the fixing body is greater than the thickness of the conducting subassembly, thus The heat-dissipating space is formed between the conducting subassembly and the mainboard.