CN111578626A

CN111578626A - Single type NGV contact on-off baking scheme

Info

Publication number: CN111578626A
Application number: CN202010463144.6A
Authority: CN
Inventors: 张孝平; 文青松; 李政阳; 汪毅
Original assignee: Changzhou Dacheng Vacuum Technology Co ltd
Current assignee: Changzhou Dacheng Vacuum Technology Co ltd
Priority date: 2020-05-27
Filing date: 2020-05-27
Publication date: 2020-08-25

Abstract

The invention relates to the technical field of machining, in particular to a single NGV type contact on-off baking scheme, which comprises a ferry module, wherein at least one longitudinal and transverse integrated vehicle capable of moving longitudinally and transversely is arranged on the ferry module, a material trolley is movably arranged on the longitudinal and transverse integrated vehicle, material feeding and discharging modules for transferring materials are arranged on two sides of one end of the ferry module, a material feeding and discharging module for feeding the materials from the material feeding and discharging modules to the material trolley is arranged on one end of the material feeding and discharging module, and a plurality of vacuum chambers are arranged on two sides of the other end of the ferry module. The baking scheme replaces the traditional industrial robot, so that the cost is greatly saved; and compare with prior art saving dry air, the dew point is also better management and control.

Description

Single type NGV contact on-off baking scheme

Technical Field

The invention relates to the technical field of machining, in particular to a single type NGV contact on-off baking scheme.

Background

At present, the baking process design in the production of the battery core adopts integral sealing, a drying room needs to be made independently, a large industrial robot is needed to realize material operation, the area and equipment of the baked battery at the space communication position need to be kept dry, but the integral sealing has large consumption of dry air, and the control of the temperature (dew point) to which the gaseous water contained in the air is saturated and condensed into liquid water under the fixed air pressure is difficult.

Disclosure of Invention

In order to overcome the above-mentioned drawbacks of the prior art, the present invention provides a one-piece NGV contact on-off baking solution to solve the above-mentioned problems of the prior art.

The technical scheme adopted by the invention for solving the problems in the prior art is as follows: the single NGV contact on-off baking scheme comprises a ferry module, wherein at least one longitudinal and transverse integrated vehicle capable of moving longitudinally and transversely is arranged on the ferry module, a material trolley is movably arranged on the longitudinal and transverse integrated vehicle, feeding and discharging modules for transferring materials are arranged on two sides of one end of the ferry module, a feeding and discharging module for feeding the materials from the feeding and discharging modules to the material trolley is arranged at one end of the feeding and discharging module, and a plurality of vacuum chambers are arranged on two sides of the other end of the ferry module.

As a preferable scheme of the invention, a transfer module for transferring materials from a previous process to the feeding and discharging module is arranged at the other end of the feeding and discharging module, and a pull belt is arranged between the transfer module and the feeding and discharging module.

As a preferred scheme of the present invention, the feeding and discharging module includes a feeding module and a discharging module, the feeding module and the feeding module are disposed on one side of the ferry module, and the discharging module are disposed on the other side of the ferry module.

As a preferable scheme of the invention, a sealing cover is arranged on the pull belt arranged at one end of the discharging module.

According to the preferable scheme, the vacuum chamber comprises a chamber shell, an aerial plug group for wiring, an observation window and a positioning sensor for detecting whether the material trolley is accurately positioned in the vacuum chamber are arranged on the outer wall of the chamber shell, a chamber guide rail for enabling the longitudinal and transverse integrated trolley to enter the vacuum chamber is arranged in the chamber shell, chamber support columns are arranged on two sides of the chamber guide rail, a lower contact group and a heating plate are further arranged on the inner wall of the chamber shell, and an upper contact group is arranged on the material trolley matched with the lower contact group.

As a preferable scheme of the invention, a buffer position and a maintenance position are further arranged on two sides of the ferry module.

As a preferable scheme of the invention, one side of the ferry module is also provided with a vacuum pump and a pipeline system which are connected with the vacuum cavity.

As a preferable scheme of the invention, the feeding module is provided with a partition plate valve.

As a preferable scheme of the invention, the areas where the ferrying module, the discharging module, the blanking module, the vacuum chamber and the buffer position are located are drying areas.

Compared with the prior art, the invention has the following technical effects:

according to the single type NGV contact on-off baking scheme, the operation of X-axis and Y-axis double axes is realized by adopting a longitudinal and transverse integrated vehicle, the baking scheme can reciprocate in a narrow space, a traditional industrial robot is replaced, and the cost is greatly saved; and do not need the regional drying area that sets up of material loading again, compare with prior art saving dry air, the dew point is also better the management and control.

Drawings

FIG. 1 is a schematic structural diagram of a one-piece NGV contact make-and-break baking arrangement of the present invention;

figure 2 is a block diagram of a vacuum chamber in a one piece NGV contact on-off baking scheme of the present invention.

Reference numbers in the figures: 1. a ferry module; 2. longitudinally and transversely integrated turning; 3. a material trolley; 4. a vacuum chamber; 5. a transfer module; 6. pulling the belt; 7. a feed module; 8. a discharging module; 9. a feeding module; 10. a blanking module; 11. a cache bit; 12. a maintenance position; 13. vacuum pumps and piping systems; 14. a partition plate valve; 41. a chamber housing; 42. aerial plug group; 43. an observation window; 44. a positioning sensor; 45. a cavity guide rail; 46. a cavity support pillar; 47. a lower contact group; 48. heating the plate.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in figure 1: the utility model provides a single formula NGV type contact break-make toasts scheme, includes ferry-boat module 1, but ferry-boat module 1 is last to be equipped with at least one vertically and horizontally integrated car 2 of longitudinal movement and lateral shifting, the activity is equipped with material dolly 3 on the vertically and horizontally integrated car 2, the both sides of ferry-boat module 1 one end are equipped with the business turn over material module 8 that shifts the material, the one end of business turn over material module 8 is equipped with the unloading module 10 of feeding the material from business turn over material module 8 to material dolly 3, the both sides of the module 1 other end of ferry-boat are equipped with a plurality of vacuum chamber 4.

Preferably, the other end of the feeding and discharging module 8 is provided with a transfer module 5 for transferring the material from the previous process to the feeding and discharging module 8, and a pull belt 6 is arranged between the transfer module 5 and the feeding and discharging module 8.

Preferably, the feeding and discharging module 8 includes a feeding module 7 and a discharging module 8, the feeding and discharging module 10 includes a feeding module 9 and a discharging module 10, the feeding module 7 and the feeding module 9 are disposed on one side of the ferry-boat module 1, the discharging module 8 and the discharging module 10 are disposed on the other side of the ferry-boat module 1, in this embodiment, the feeding module 7 and the feeding module 9 are located in the same chamber, and the discharging module 8 and the discharging module 10 are located in the same chamber.

Preferably, a sealing cover is arranged on the draw belt 6 arranged at one end of the discharging module 8, and the sealing cover ensures the drying of the materials in the transferring process.

Preferably, the vacuum chamber 4 includes a chamber housing 41, an aerial plug group 42 for wiring, an observation window 43 and a positioning sensor 44 for detecting whether the material trolley 3 is accurately positioned in the vacuum chamber 4 are arranged on an outer wall of the chamber housing 41, a chamber guide rail 45 for enabling the longitudinal and transverse integrated trolley 2 to enter the vacuum chamber 4 is arranged in the chamber housing 41, chamber support columns 46 are arranged on two sides of the chamber guide rail 45, and after the longitudinal and transverse integrated trolley 2 transversely enters the vacuum chamber 4 along the chamber guide rail 45, the longitudinal and transverse integrated trolley 2 places the material trolley 3 on the support column and then exits; the inner wall of the chamber shell 41 is also provided with a lower contact group 47 and a heating plate 48, an upper contact group (not marked in the figure) is arranged on the material trolley 3 and is matched with the lower contact group 47, when the upper contact of the material trolley 3 is contacted with the lower contact of the vacuum chamber 4 and is compressed by a certain amount, a circuit can be conducted, and the power-on heating is carried out.

Preferably, the both sides of ferry-boat module 1 still are equipped with buffer position 11 and maintenance position 12, and buffer position 11 is an empty parking stall, and in case of back process putty, the material on the material dolly 3 can not go down, and the material dolly 3 that goes up full of material can not enter the cavity, just puts on buffer position 11 earlier, and maintenance position 12 is when the integrative car 2 of vertically and horizontally or material dolly 3 breaks down, gets into the maintenance, and in this embodiment, maintenance position 12 is equipped with partition plate valve 14, and partition plate valve 14 keeps apart ordinary air and dry air.

Preferably, a vacuum pump and a pipeline system 13 connected with the vacuum cavity are further arranged on one side of the ferry module 1.

Preferably, the feeding module 9 is provided with a partition plate valve 14, and the partition plate valve 14 separates the common air at one side of the feeding module 9 from the dry air.

Preferably, the areas of the ferry module 1, the discharging module 8, the blanking module 10, the vacuum chamber 4 and the buffer position 11 are dry areas.

The working principle is as follows: the transfer module grabs and then places the materials of the previous working procedure on the drawstring 6, the drawstring 6 is transferred to the feeding module 7, the feeding module 9 grabs and places the materials at the feeding module 7 on the material trolley 3 on the longitudinal and transverse integrated trolley 2, and after the feeding of the material trolley 3 is finished, the material trolley 2 is operated into the vacuum chamber 4 by the longitudinal and transverse integrated trolley 2 to carry out heating and vacuum-pumping processes; the roasted material is operated to the blanking module 10 by the longitudinal and transverse integrated vehicle 2, the material at the blanking module 10 is grabbed by the discharging module 8 and placed on the drawstring 6, and the material on the drawstring 6 is transferred to the next procedure by the transferring module.

Compared with the prior art, the invention has the following technical effects:

according to the single type NGV contact on-off baking scheme, the operation of X-axis and Y-axis double axes is realized by adopting the longitudinal and transverse integrated vehicle 2, the reciprocating motion can be realized in a narrow space, the traditional industrial robot is replaced, and the cost is greatly saved; and do not need the regional drying area that sets up of material loading again, compare with prior art saving dry air, the dew point is also better the management and control.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The single NGV contact on-off baking scheme is characterized by comprising a ferry module, wherein at least one longitudinal and transverse integrated vehicle capable of moving longitudinally and transversely is arranged on the ferry module, a material trolley is movably arranged on the longitudinal and transverse integrated vehicle, feeding and discharging modules for transferring materials are arranged on two sides of one end of the ferry module, a feeding and discharging module for feeding the materials from the feeding and discharging modules to the material trolley is arranged at one end of the feeding and discharging module, and a plurality of vacuum chambers are arranged on two sides of the other end of the ferry module.

2. The unitary NGV contact make and break toasting scheme according to claim 1 wherein: the other end of the feeding and discharging module is provided with a transferring module which transfers materials to the feeding and discharging module from the previous working procedure, and a pull belt is arranged between the transferring module and the feeding and discharging module.

3. The unitary NGV contact make and break toasting scheme according to claim 2 wherein: the feeding and discharging module comprises a feeding module and a discharging module, the feeding module and the feeding module are arranged on one side of the ferry module, and the discharging module are arranged on the other side of the ferry module.

4. A unitary NGV contact make and break toasting scheme according to claim 3 wherein: and a sealing cover is arranged on the pull belt arranged at one end of the discharging module.

5. The unitary NGV contact make and break toasting scheme according to claim 1 wherein: the vacuum chamber includes the cavity casing, be equipped with the navigation that is used for the wiring on the outer wall of cavity casing and insert group, observation window and detect whether the material dolly is at the indoor accurate positioning's of vacuum positioning sensor, be equipped with the cavity guide rail that makes integrative car with great ease get into the vacuum chamber in the cavity casing, the both sides of cavity guide rail are equipped with the cavity support column, still be equipped with down contact group and hot plate on the cavity casing inner wall, with contact group matched with is equipped with the contact group down on the material dolly.

6. The unitary NGV contact make and break toasting scheme according to claim 1 wherein: and a buffer position and a maintenance position are further arranged on two sides of the ferry module.

7. The unitary NGV contact make and break toasting scheme according to claim 1 wherein: and a vacuum pump and a pipeline system connected with the vacuum cavity are further arranged on one side of the ferry module.

8. A unitary NGV contact make and break toasting scheme according to claim 3 wherein: and the feeding module is provided with a partition plate valve.

9. A unitary NGV contact make and break toasting scheme according to claim 3 wherein: the regions where the ferrying module, the discharging module, the vacuum chamber and the buffer are located are dry regions.