CN112804632A - Loudspeaker production equipment - Google Patents

Abstract

The invention discloses a loudspeaker production device, which comprises: the primary product assembling device is used for sequentially feeding and assembling the washer, the magnet and the bracket, and drying the washer, the magnet and the bracket to prepare a primary product; the attaching device is arranged on one side of the primary product assembling device and is used for attaching the sound mixing paper and the screen cloth to the primary product to prepare a secondary product; the first material moving device is arranged between the primary product assembling device and the attaching device and used for transferring the primary product to the attaching device; the magnetizing device is arranged on one side of the attaching device and is used for magnetizing the secondary product to prepare a finished product; and the second material moving device is arranged on one side of the attaching device and is used for transferring the secondary product to the magnetizing device for magnetizing. The loudspeaker production equipment can improve the production efficiency of the whole loudspeaker.

Description

Loudspeaker production equipment

Technical Field

The invention relates to the technical field of loudspeaker production, in particular to loudspeaker production equipment.

Background

The loudspeaker is an energy conversion device for sound-electricity conversion and mainly comprises a washer, a magnet, a support, a sound mixing paper and a mesh.

In the existing production technology, firstly, a semi-finished product is assembled by using glue for a washer, a magnet and a bracket, the semi-finished product is placed into an oven with the temperature of about 60 ℃ for baking, then, the tuning paper and the screen cloth are attached to the semi-finished product after baking is finished, and finally, the semi-finished product is placed into a magnetic machine for magnetizing. The assembling process, the baking process, the process of pasting the volume paper and the screen cloth and the magnetizing process are all required to be completed on respective equipment, and after one process is completed, the process of manual blanking and feeding is carried out again until the process is transferred to another process, so that the efficiency of the whole production process is low.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the invention provides loudspeaker production equipment which can improve the production efficiency.

According to a first aspect of the present invention, a horn production apparatus includes: the primary product assembling device is used for sequentially feeding and assembling the washer, the magnet and the bracket, and drying the washer, the magnet and the bracket to prepare a primary product; the attaching device is arranged on one side of the primary product assembling device and used for attaching the sound mixing paper and the screen cloth to the primary product to prepare a secondary product; the first material moving device is arranged between the primary product assembling device and the attaching device and used for transferring the primary products to the attaching device; the magnetizing device is arranged on one side of the attaching device and is used for magnetizing the secondary product to prepare a finished product; and the second material moving device is arranged on one side of the attaching device and is used for transferring the secondary product to the magnetizing device for magnetizing.

The loudspeaker production equipment provided by the embodiment of the invention at least has the following beneficial effects: through adopting elementary product assembly device to china department, magnet and support assemble and toast after carrying out the material loading in proper order and prepare into elementary product, the rethread first material device that moves shifts to attached device, attached tuning paper and screen cloth are prepared into secondary product, the rethread second material device that moves shifts secondary product shifts to the magnetization device and magnetizes into finished product loudspeaker, thereby whole production process can integrate and accomplish, the material loading is carried out again after the artifical unloading transport between the assembly device of difference, the production efficiency has been promoted, simultaneously space layout is reasonable between each device, the overall arrangement is compact, occupation space is few, manufacturer's land use cost has been practiced thrift.

According to some embodiments of the invention, the primary-product assembly device comprises: the washer feeding mechanism is used for feeding washers; the first glue dispensing mechanism is arranged on one side of the washer feeding mechanism and is used for dispensing glue on the surface of the washer; the magnet attaching mechanism is arranged on one side of the washer feeding mechanism, is used for feeding the magnets and is attached to the surface of the washer; the second glue dispensing mechanism is arranged on one side of the magnet attaching mechanism and used for dispensing glue on the surface of the magnet; the bracket mounting mechanism is arranged on one side of the magnet attaching mechanism and used for feeding the bracket and mounting the bracket on the surface of the magnet to prepare an assembly; the drying mechanism is arranged in parallel with the washer feeding mechanism, the first glue dispensing mechanism, the magnet attaching mechanism, the second glue dispensing mechanism and the bracket mounting mechanism and is used for baking and molding glue in the assembly so as to bond the washer, the magnet and the bracket into the primary product; the first conveying mechanism is used for conveying the washer, the magnet and the assembly object in sequence to the first dispensing mechanism, the magnet attaching mechanism, the second dispensing mechanism, the support mounting mechanism and the drying mechanism.

According to some embodiments of the invention, the first conveying mechanism comprises a carrier conveying module and an assembly conveying module which are arranged in parallel, the carrier conveying module sequentially passes through the washer feeding mechanism, the first dispensing mechanism, the magnet attaching mechanism, the second dispensing mechanism and the bracket mounting mechanism to convey the washers, the magnets, the brackets and the assemblies, and the assembly conveying module passes through the drying mechanism to convey the assemblies into the drying mechanism to be baked to obtain the primary products.

According to some embodiments of the present invention, the primary product assembling apparatus further comprises a third transferring device, disposed between the carrier conveying module and the assembly conveying module, for transferring the assembly conveyed by the carrier conveying module to the assembly conveying module.

According to some embodiments of the invention, the washer feeding mechanism comprises a first machine table, the first material moving device is arranged on the first machine table, the magnet attaching mechanism comprises a second machine table, the first glue dispensing mechanism is arranged on the second machine table, the second machine table is arranged on one side of the first machine table and is independent of the first machine table, the support mounting mechanism comprises a third machine table, the second glue dispensing mechanism is arranged on the third machine table, the third machine table is arranged on one side of the second machine table and is independent of the second machine table, and the drying mechanism is erected on the first machine table, the second machine table and the third machine table.

According to some embodiments of the present invention, the attaching device, the magnetizing device, and the second material moving device are disposed on a fourth machine, and the fourth machine and the second machine are disposed on two opposite sides of the first machine.

According to some embodiments of the invention, the attaching means comprises: the rotating platform is arranged on one side of the primary product assembling device and is used for bearing and rotating the primary product; the first glue absorbing mechanism is arranged on one side of the first material moving device and one side of the rotating platform and is used for dispensing glue on the surface of the central part of the support; the first paper pasting mechanism is arranged on one side of the first glue absorbing mechanism and one side of the rotating platform and used for pasting the sound mixing paper to the center part of the support; the second glue sucking mechanism is arranged on one side of the first paper pasting mechanism and one side of the rotating platform and is used for dispensing glue on the peripheral part of the support; and the second paper pasting mechanism is arranged on one side of the second glue sucking mechanism and one side of the rotating platform and is used for pasting the screen cloth on the peripheral part of the support.

According to some embodiments of the invention, the magnetizing device is disposed below the second material moving device, and the second material moving device can transfer the secondary product to the magnetizing device for magnetizing and transfer the magnetized finished product out of the magnetizing device.

According to some embodiments of the invention, the device further comprises a third material moving device arranged on one side of the magnetizing device and used for blanking the finished product.

According to some embodiments of the invention, the horn production apparatus further comprises a second transfer mechanism for transferring the finished product to the fourth material moving device.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The invention is further described with reference to the following figures and examples, in which:

fig. 1 is a schematic structural view of a perspective view of a horn production apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic view of another perspective of the horn production apparatus of FIG. 1;

FIG. 3 is an enlarged view taken at point I in FIG. 1;

FIG. 4 is an enlarged view at II in FIG. 1;

FIG. 5 is an enlarged schematic view at III in FIG. 1;

FIG. 6 is a schematic structural view of the carrier transport module shown in FIG. 2;

FIG. 7 is a schematic structural view of the drying mechanism and the assembly conveying module shown in FIG. 2;

FIG. 8 is a schematic structural view of the rotary platform of FIG. 2;

FIG. 9 is a schematic structural view of the first pasting mechanism in FIG. 2;

FIG. 10 is a perspective view of a horn according to an embodiment of the present invention;

fig. 11 is an exploded view of the horn of fig. 10.

Reference numerals:

a horn production apparatus 100;

the assembly device comprises a primary product assembly device 110, a washer feeding mechanism 111, a first machine 1111, a first circular vibration mechanism 1112, a first straight vibration guide 1113, a CCD detector 1114, a defective product collection box 1115, a first adsorption mechanism 1116, a first glue dispensing mechanism 112, a magnet attaching mechanism 113, a second machine 1131, a second circular vibration mechanism 1132, a second straight vibration guide 1133, a second adsorption mechanism 1134, a first pressurization mechanism 1135, a second glue dispensing mechanism 114, a bracket mounting mechanism 115, a third machine 1151, a third circular vibration mechanism 1152, a third straight vibration guide 1153, a third adsorption mechanism 1154, a second pressurization mechanism 1155, a drying mechanism 116, a first transmission mechanism 117, a carrier 1171, a baffle 1172, a carrier conveying module 1173, a first section 11731, a second section 11732, a third section 11733, an assembly conveying module 1174, a fourth adsorption mechanism 1175, a fifth adsorption mechanism 1176 and a third material transfer device 118;

the device comprises an attaching device 120, a fourth machine table 121, a rotary platform 122, a station 1221, a driving motor 1222, a rotary table 1223, a first glue absorbing mechanism 123, a first paper attaching mechanism 124, a punching module 1241, a feeding module 1242, a material receiving module 124, a second glue absorbing mechanism 125, a second paper attaching mechanism 126 and a seventh absorbing mechanism 127;

a first material moving device 130, a mechanical arm 131 and a sixth adsorption mechanism 132;

a magnetizing device 140;

a second material transfer device 150;

a third transport mechanism 160;

a third material moving device 170 and a fifth machine 171;

a placing tray 180 and a placing grid 181;

a second transport mechanism 190;

a horn 200;

a washer 210;

a magnet 220;

a bracket 230;

a sound mixing paper 240;

a mesh cloth 250;

a primary product 260;

a secondary product 270.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, the meaning of a plurality is one or more, the meaning of a plurality is two or more, and the above, below, exceeding, etc. are understood as excluding the present numbers, and the above, below, within, etc. are understood as including the present numbers. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

In the description of the present invention, reference to the description of the terms "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Referring to fig. 1 to 11, a horn production apparatus 100 according to an embodiment of the present invention is used for producing a horn 200, where the horn 200 includes a washer 210, a magnet 220, a bracket 230, a tuning paper 240, and a mesh cloth 250, and a schematic view and an exploded view of the horn 200 refer to fig. 10 and 11.

The horn production apparatus 100 includes a primary product assembly device 110, an attaching device 120, a first material moving device 130, a magnetizing device 140, and a second material moving device 150.

Referring to fig. 1 and 2, the primary product assembly device 110 is used for sequentially feeding and assembling the washer 210, the magnet 220 and the bracket 230, and drying the washer to prepare a primary product 260; the attaching device 120 is arranged on one side of the primary product assembling device 110 and is used for attaching the mixing paper 240 and the mesh cloth 250 to the primary product 260 to prepare a secondary product 270; the first material moving device 130 is arranged between the primary product assembling device 110 and the attaching device 120 and is used for transferring the primary product 260 to the attaching device 120; the magnetizing device 140 is arranged on one side of the attaching device 120 and is used for magnetizing the secondary product 270 to prepare a finished product; the second material moving device 150 is disposed at one side of the attaching device 120, and is used for transferring the secondary product 270 to the magnetizing device 140 for magnetizing.

Above-mentioned loudspeaker production facility 100, through adopting elementary product assembly device 110 to china department 210, magnet 220 and support 230 assemble and toast after carrying out the material loading in proper order and prepare into elementary product 260, the rethread first material device 130 that moves shifts to attached device 120, attached tuning paper 240 and screen cloth 250 prepare into secondary product 270, rethread second material device 150 that moves shifts secondary product 270 shifts to magnetization device 140 and magnetizes into finished product loudspeaker 200, thereby whole production process can be integrated and is accomplished, the material loading is carried out again after the artifical unloading transport between the assembly device of difference, production efficiency has been promoted, simultaneously space layout is reasonable between each device, the overall arrangement is compact, occupation space is few, manufacturer's land use cost has been practiced thrift.

Referring to fig. 2, in one embodiment of the present invention, the primary product assembly apparatus 110 includes: the automatic gluing device comprises a washer feeding mechanism 111, a first gluing mechanism 112, a magnet attaching mechanism 113, a second gluing mechanism 114, a bracket mounting mechanism 115, a drying mechanism 116 and a first conveying mechanism 117.

Referring to fig. 6, the first conveying mechanism 117 is provided with a carrier 1171 for carrying the washer 210, the magnet 220 and the bracket 230. Each carrier 1171 is separated by a baffle 1172, so that the carriers 1171 can independently operate to avoid interference.

The first conveying mechanism 117 in this embodiment includes a carrier conveying module 1173 and an assembly conveying module 1174 that are arranged in parallel, the carrier conveying module 1173 sequentially passes through the washer feeding mechanism 111, the first dispensing mechanism 112, the magnet attaching mechanism 113, the second dispensing mechanism 114, and the bracket mounting mechanism 115 to convey the washer 210, the magnet 229, the bracket 230, and the assembly of the three, which are placed on the carrier 1171, and the assembly conveying module 1174 passes through the drying mechanism 116 to convey the assembly into the drying mechanism 116 to be baked to obtain the primary product 260.

Referring to fig. 3, the washer feeding mechanism 111 is used for feeding washers 210. Wherein the washer feeding mechanism 111 in this embodiment comprises a first machine 1111, a first circular vibration mechanism 1112, a first linear vibration guide 1113, a CCD detector 1114, a defective product collecting box 1115 and a first adsorption mechanism 1116.

The carrier conveying module 1173, the CCD detector 1114, the defective product collecting box 1115 and the first adsorption mechanism 1116 are arranged on the first machine 1111, the first circular vibration mechanism 1112 is arranged on one side of the first machine 1111, the first straight vibration guide rail 1113 is connected between the first circular vibration mechanism 1112 and the first machine 1111, the washer 210 is loaded into the first circular vibration mechanism 1112, the washer 210 is vibrated into the first straight vibration guide rail 1113 by the first circular vibration mechanism 1112, the CCD detector 1114 performs front-back detection on the washer 210 transmitted from the first straight vibration guide rail 1113, the washer 210 meeting the production standard is adsorbed onto the carrier 1171 in the carrier conveying module 1173 by the first adsorption mechanism 1116, and the washer 210 not meeting the production standard is blown down into the defective product collecting box 1115.

The first dispensing mechanism 112 is disposed on one side of the washer feeding mechanism 111, and is configured to dispense glue on the surface of the washer 210 for assembly with the magnet 220.

Referring to fig. 4, the magnet attaching mechanism 113 is disposed at one side of the washer feeding mechanism 111, and is used for feeding the magnet 220 and attaching the magnet to the surface of the washer 210.

The magnet attaching mechanism 113 includes a second machine 1131, a second circular vibration mechanism 1132, a second linear vibration guide 1133, a second adsorption mechanism 1134, and a first pressurizing mechanism 1135.

The second circular vibration mechanism 1131 is disposed on one side of the second machine 1131, the first dispensing mechanism 112, the carrier conveying module 1173, the second adsorption mechanism 1134 and the first pressurization mechanism 1135 are disposed on the second machine 1131, the second straight vibration guide track 1133 is connected between the second circular vibration mechanism 1132 and the second machine 1131, the magnet 220 is installed in the second circular vibration mechanism 1132, the second circular vibration mechanism 1132 vibrates the magnet 220 into the second straight vibration guide track 1133, the second adsorption mechanism 1134 sucks the magnet 220 into the carrier 1171 of the carrier conveying module 1173, and covers the washer 210, and then the magnet 220 is pressurized and driven to rotate by the first pressurization mechanism 1135, so as to be tightly attached to the washer 210.

The second dispensing mechanism 114 is disposed at one side of the magnet attaching mechanism 113 for dispensing the surface of the magnet 220 for assembling with the bracket 230.

Referring to fig. 5, the rack mounting mechanism 115 is disposed at one side of the magnet attaching mechanism 113, and includes a third machine 1151, a third circular vibration mechanism 1152, a third vertical vibration guide 1153, a third adsorption mechanism 1154, and a second pressurization mechanism 1155.

The second dispensing mechanism 114, the carrier transport module 1173, the third adsorption mechanism 1154 and the second pressurization mechanism 1155 are disposed on the third machine 1151, the third circular vibration mechanism 1152 is disposed on one side of the third machine 1151, the third straight vibration guide 1153 is connected between the third circular vibration mechanism 1152 and the third machine 1151, the rack 230 is installed in the third circular vibration mechanism 1152, the third circular vibration mechanism 1152 vibrates the rack 230 into the third straight vibration guide 1153, the third adsorption mechanism 1154 sucks the rack 230 into the surface of the magnet 220, and then the rack 230, the magnet 220 and the wafer 210 are compressed into an assembly through the second pressurization mechanism 1155.

In an embodiment of the present invention, please refer to fig. 1 and 2, since the whole speaker production equipment 100 occupies a large floor space, and in order to facilitate the assembly of the whole speaker production equipment 100, the first machine 1111, the second machine 1131 and the third machine 1151 are independent from each other, so that some mechanisms can be removed according to actual production requirements, the washer feeding mechanism 111, the magnet attaching mechanism 113 and the bracket mounting mechanism 115 can be assembled respectively, which is convenient for a manufacturer to freely assemble and match according to production requirements, and facilitates the use of the whole equipment.

Since the first machine 1111, the second machine 1131 and the third machine 1151 are independent from each other, and the carrier transport module 1173 is disposed on the first machine 1111, the second machine 1131 and the third machine 1151, the carrier transport module 1173 of the present embodiment may be mounted after the first machine 1111, the second machine 1131, the third machine 1151 and the corresponding devices thereon are assembled, that is, the carrier transport module 1173 may span three machines as a whole, or may be disposed with a separate transport section on each machine.

In this embodiment, referring to fig. 2, the vehicle transport module 1173 includes a first section 11731, a second section 11732, and a third section 11733, thereby facilitating the installation of the entire vehicle transport module 1173. The first section 11731 is disposed on the first platform 1111, the second section 11732 is disposed on the second platform 1131, and the third section 11733 is disposed on the third platform 1151.

Referring to fig. 5 and 6, in order to transfer materials among the first section 11731, the second section 11732 and the third section 11733, a fourth adsorption mechanism 1175 is disposed between the first section 11731 and the second section 11732, and a fifth adsorption mechanism 1176 is disposed between the second section 11732 and the third section 11733, so that the whole transfer is normally performed.

Referring to fig. 5, in an embodiment of the invention, since the first transfer mechanism 117 includes two separated parallel carrier transport modules 1173 and assembly transport modules 1174, a transfer medium is required to be disposed between the carrier transport module 1173 and the assembly transport module 1174, the preliminary product assembly apparatus 110 further includes a third material transfer device 118, and the third material transfer device 118 is disposed between the carrier transport module 1173 and the assembly transport module 1174, and is used for transferring the assemblies transferred by the carrier transport module 1173 to the assembly transport module 1174.

In this embodiment, the transport directions of the carrier transport module 1173 and the assembly transport module 1174 are opposite, so that the carrier 1171 can perform a cyclic process on the primary product assembly apparatus 110, thereby saving the installation space of the whole apparatus.

In this embodiment, the third material moving device 118 is a mechanical arm, so as to achieve a larger transfer coverage.

Referring to fig. 7, the assembly conveying module 1174 drives the carrier 1171 and the assembly to pass through the drying mechanism 116, so that the drying mechanism 116 dries the glue, and the washer 210, the magnet 220 and the bracket 230 are attached to form the primary product 260.

Referring to fig. 1 and 2, in one embodiment of the present invention, the first material moving device 130 is disposed on the first machine 1111 and located at the end of the transporting direction of the assembly transporting module 1174 for transferring the primary products 260 and the carriers 1171. The attaching device 120, the magnetizing device 140 and the second material moving device 150 are disposed on the fourth machine table 121, and the fourth machine table 121 and the second machine table 1131 are disposed on two opposite sides of the first machine table 1111, so that the primary product 260 can enter a sticker stage after being circulated back, and the whole equipment occupies less space and has reasonable layout.

The apparatus further comprises a third conveying mechanism 160, wherein the third conveying mechanism 160 spans the first station 1111 and the fourth station 121 for transferring the primary product 260 to the fourth station 121. Specifically, the first material transferring device 130 includes a robot 131 and a sixth adsorption mechanism 132, the robot 131 is used for transferring the elementary products 260 and the carriers 1171 to the carrier transporting module 1173, and the sixth adsorption mechanism 132 is used for adsorbing the elementary products to the third conveying mechanism 160.

Referring to fig. 1 and fig. 2, in the present embodiment, the attaching device 120 includes a fourth machine 121, a rotating platform 122, a first glue absorbing mechanism 123, a first paper attaching mechanism 124, a first glue absorbing mechanism 125, and a second paper attaching mechanism 126.

The rotary platform 122, the first glue absorbing mechanism 123, the first paper pasting mechanism 124, the second glue absorbing mechanism 125, and the second paper pasting mechanism 126 are all disposed on the fourth machine 121, i.e., on one side of the primary product assembly device 110, and the first glue absorbing mechanism 123, the first paper pasting mechanism 124, the second glue absorbing mechanism 125, and the second paper pasting mechanism 126 are all disposed around the rotary platform 122.

Referring to fig. 8, the rotary platform 122 is used for carrying and rotating the primary products 260, a plurality of stations 1221 are disposed on the rotary platform 122, each station is provided with a carrier 1171, and each carrier 1171 is provided with a primary product 260. The rotary platform 122 includes a driving motor 1222 and a rotary table 1223, and the driving motor 1222 drives the rotary table 1223 to rotate.

It can be understood that after the primary product 260 is transferred from the first machine 1111 to the fourth machine 121 by the third conveying mechanism 160, the primary product 260 needs to be transferred to the rotating platform 122, and therefore, the attaching device 120 of the embodiment further includes a seventh suction mechanism 127, wherein the seventh suction mechanism 127 is disposed at the end of the moving stroke of the third conveying mechanism 160, and is used for transferring the primary product 260 to the rotating platform 122, and a suction nozzle is mounted on the seventh suction mechanism 127 and is used for suction.

The first glue absorbing mechanism 123 is disposed on one side of the first material moving device 130 and the rotating platform 122, and is configured to perform glue dispensing on a part of the periphery of the bracket 230 on the primary product 260 on the rotating platform 122, so as to prepare for subsequently attaching the tuning paper 240. In this embodiment, the first glue absorbing mechanism 123 firstly absorbs liquid glue in the container, and then coats a part of the periphery of the bracket 230.

The first paper sticking mechanism 124 is disposed on one side of the first glue absorbing mechanism 123 and the rotary platform 122, and is used for sticking the tuning paper 240 to a part of the periphery of the bracket 230. Referring to fig. 9, the first paper sticking mechanism 124 includes a punching module 1241, a feeding module 1242 and a receiving module 1243, the feeding module 1242 is used for discharging the tuning paper 240, and the punching module 1241 punches the tuning paper 240 and then winds the tuning paper 240 by the receiving module 1243.

The second glue sucking mechanism 125 is disposed at one side of the first pasting mechanism 124 and the rotating platform 122, and is used for dispensing a part of the periphery of the support 230 for subsequent pasting of the mesh cloth 250. In this embodiment, the second glue absorbing mechanism 125 firstly absorbs the liquid glue in the container, and then coats a part of the periphery of the bracket 230.

The second pasting mechanism 126 is disposed at one side of the second glue absorbing mechanism 125 and the rotating platform 122, and is used for pasting the mesh cloth to the periphery of the support 230. The second paper pasting mechanism 126 comprises a punching module, a feeding module and a receiving module, the feeding module is used for discharging the screen cloth 250, and the punching module is used for punching the screen cloth 250 and then rolling the screen cloth by the receiving module.

Referring to fig. 1 and 2, in an embodiment of the present invention, the magnetizing device 140 is disposed at one side of the attaching device 120 and below the second material moving device 150, and the second material moving device 150 can transfer the secondary product 270 to the magnetizing device 140 for magnetizing and transfer the magnetized finished product out of the magnetizing device 140, so that one device can achieve multiple material moving functions, and not only can perform blanking from the rotating platform 122, but also can transfer the secondary product 270 to the magnetizing device 140 for magnetizing and transfer the magnetized horn finished product out of the magnetizing device 140, thereby saving space and energy without providing more devices.

Referring to fig. 1 and 2, in an embodiment of the present invention, the horn production apparatus 100 further includes a third material moving device 170, and the third material moving device 170 is disposed at one side of the magnetizing device 140 and is used for blanking the finished horn 200. The third material moving device 170 in this embodiment is a mechanical arm, so that a larger movable coverage area can be provided.

When finished products are discharged, the finished products are placed on the placing plate 180 one by one through mechanical arm movement, a plurality of placing grids 181 are arranged on the placing plate 180, and each placing grid 181 is used for placing one finished product.

It can be understood that after the magnetizing and blanking are completed by the magnetizing device 140, the finished products need to be transferred to the third material moving device 170, in this embodiment, the third material moving device 170 includes a fifth machine table 171, the horn production apparatus 100 further includes a second transfer mechanism 190, the second transfer mechanism 190 is configured to transfer the finished products to the third material moving device 170, wherein the second transfer mechanism 190 spans the fourth machine table 121 and the fifth machine table 171 and is configured to transfer the magnetized finished products to the third material moving device 170, so that the third material moving device 170 transfers the finished products to the placing tray 180.

Above-mentioned loudspeaker production facility 100 through the mode that is equipped with mutually independent first board 1111, second board 1131, third board 1151, fourth board 121 and fifth board 171, make each different device assemble after installing respectively, the equipment of the whole equipment of being convenient for, through locating fourth board 121 and second board 1131 in proper order in the relative both ends of first board 1111, can circulate again after the preparation of elementary product 260 finishes and carry out sticker and magnetization after the original initial end, practice thrift the installation space of whole equipment.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention. Furthermore, the embodiments of the present invention and the features of the embodiments may be combined with each other without conflict.

Claims (10)

1. Loudspeaker production facility, its characterized in that includes:

the primary product assembling device is used for sequentially feeding and assembling the washer, the magnet and the bracket, and drying the washer, the magnet and the bracket to prepare a primary product;

the attaching device is arranged on one side of the primary product assembling device and used for attaching the sound mixing paper and the screen cloth to the primary product to prepare a secondary product;

the first material moving device is arranged between the primary product assembling device and the attaching device and used for transferring the primary products to the attaching device;

the magnetizing device is arranged on one side of the attaching device and is used for magnetizing the secondary product to prepare a finished product;

and the second material moving device is arranged on one side of the attaching device and is used for transferring the secondary product to the magnetizing device for magnetizing.

2. The horn production apparatus of claim 1, wherein the primary product assembly device comprises:

the washer feeding mechanism is used for feeding washers;

the first glue dispensing mechanism is arranged on one side of the washer feeding mechanism and is used for dispensing glue on the surface of the washer;

the magnet attaching mechanism is arranged on one side of the washer feeding mechanism, is used for feeding the magnets and is attached to the surface of the washer;

the second glue dispensing mechanism is arranged on one side of the magnet attaching mechanism and used for dispensing glue on the surface of the magnet;

the bracket mounting mechanism is arranged on one side of the magnet attaching mechanism and used for feeding the bracket and mounting the bracket on the surface of the magnet to prepare an assembly;

the drying mechanism is arranged in parallel with the washer feeding mechanism, the first glue dispensing mechanism, the magnet attaching mechanism, the second glue dispensing mechanism and the bracket mounting mechanism and is used for baking and molding glue in the assembly so as to bond the washer, the magnet and the bracket into the primary product;

the first conveying mechanism is used for conveying the washer, the magnet and the assembly object in sequence to the first dispensing mechanism, the magnet attaching mechanism, the second dispensing mechanism, the support mounting mechanism and the drying mechanism.

3. The loudspeaker production equipment of claim 2, wherein the first conveying mechanism comprises a carrier conveying module and an assembly conveying module which are arranged in parallel, the carrier conveying module sequentially passes through the washer feeding mechanism, the first dispensing mechanism, the magnet attaching mechanism, the second dispensing mechanism and the support mounting mechanism and is used for conveying the washers, the magnets, the supports and the assemblies, and the assembly conveying module passes through the drying mechanism and is used for conveying the assemblies into the drying mechanism to be baked so as to obtain the primary products.

4. The horn production apparatus of claim 3, wherein the primary product assembling device further comprises a third transferring device, the third transferring device is disposed between the carrier conveying module and the assembly conveying module, and is configured to transfer the assembly conveyed by the carrier conveying module to the assembly conveying module.

5. The loudspeaker production facility of claim 2, wherein the washer feed mechanism comprises a first machine, the first material moving device is arranged on the first machine, the magnet attaching mechanism comprises a second machine, the first gluing mechanism is arranged on the second machine, the second machine is arranged on one side of the first machine and is independent of the first machine, the bracket mounting mechanism comprises a third machine, the second gluing mechanism is arranged on the third machine, the third machine is arranged on one side of the second machine and is independent of the second machine, and the drying mechanism is arranged on the first machine, the second machine and the third machine.

6. The loudspeaker production equipment of claim 5, wherein the attaching device, the magnetizing device and the second moving device are arranged on a fourth machine table, and the fourth machine table and the second machine table are arranged on two opposite sides of the first machine table.

7. The horn production apparatus of claim 1, wherein the attaching means comprises:

the rotating platform is arranged on one side of the primary product assembling device and is used for bearing and rotating the primary product;

the first glue absorbing mechanism is arranged on one side of the first material moving device and one side of the rotating platform and is used for dispensing glue on the surface of the central part of the support;

the first paper pasting mechanism is arranged on one side of the first glue absorbing mechanism and one side of the rotating platform and used for pasting the sound mixing paper to the center part of the support;

the second glue sucking mechanism is arranged on one side of the first paper pasting mechanism and one side of the rotating platform and is used for dispensing glue on the peripheral part of the support;

and the second paper pasting mechanism is arranged on one side of the second glue sucking mechanism and one side of the rotating platform and is used for pasting the screen cloth on the peripheral part of the support.

8. The loudspeaker production equipment of claim 1, wherein the magnetizing device is arranged below the second material moving device, and the second material moving device can transfer the secondary product to the magnetizing device for magnetizing and transfer the magnetized finished product out of the magnetizing device.

9. The loudspeaker production equipment of claim 1, further comprising a third material moving device arranged on one side of the magnetizing device and used for blanking the finished product.

10. The horn production apparatus of claim 9, further comprising a second transfer mechanism for transferring the finished product to the third transfer device.

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