CN217190613U - Automatic three-proofing coating process production line - Google Patents

Abstract

The utility model relates to a three proofings coating technical field, specifically be automatic three proofings coating technology production line, including first platform a and the first platform c of plugging into, be equipped with first coating machine, first platform b and the first infrared stove of plugging into in proper order between the first platform a of plugging into to the first platform c of plugging into, be equipped with second coating machine, second platform a and the second infrared stove of plugging into in proper order between the platform b of plugging into from the upset machine to the second; the coating program is selected by automatically identifying the type of the clamp, and the three coating lines are matched for operation and processing, so that the multi-type double-sided three-prevention coating machine can realize the compatibility of the multi-type clamp and the glue filling process, has high production efficiency and can effectively save the production cost.

Description

Automatic three-proofing coating process production line

Technical Field

The utility model relates to a three proofings coating technical field specifically is automatic three proofings coating technology production line.

Background

With the popularization of electronic products and the wide application of PCB boards, the development of the components in the PCB board manufacturing process is also vigorous. The PCB clamp is used for clamping and fixing the PCB when the PCB is manufactured or welded, so that the purpose of detecting the installation position of components on the PCB is achieved.

The PCB clamp needs to be subjected to three-proofing coating and AB glue filling and sealing processes during production. The three proofings coating production line that is used for processing PCB board anchor clamps that has now can only single product processing, single face coating, and three proofings coating and AB glue embedment process need use different equipment to process alone, so, production efficiency is comparatively low, and manufacturing cost also increases for it.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic three proofings coating technology production line to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: automatic change three proofings coating technology production line includes:

the first coating machine, the first connection table b and the first infrared furnace are sequentially arranged between the first connection table a and the first connection table c;

the second coating machine, the second connection table a and the second infrared furnace are sequentially arranged between the turnover machine and the second connection table b;

the third coating machine, the third connection platform a and the third infrared furnace are sequentially arranged between the overturning platform and the third connection platform b.

Furthermore, a first connection table a, a first coating machine, a first connection table b, a first infrared furnace and a first connection table c are matched with one another to form a first coating line.

Furthermore, a turnover machine, a second coating machine, a second connection table a, a second infrared furnace and a second connection table b are matched with each other to form a second coating line.

Furthermore, a third coating line is formed by mutually matching the overturning table, the third coating machine, the third connecting table a, the third infrared furnace and the third connecting table b.

Furthermore, the second coating line and the third coating line are arranged in parallel, a transplanting machine is arranged on one side of the second coating line and one side of the third coating line, and the second coating line and the third coating line are connected with the first coating line through the transplanting machine.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses an automatic discernment anchor clamps model selects the coating procedure, and still through the operation processing that cooperatees of three coating lines, can realize the polytypic of anchor clamps, and is two-sided, and three proofings coating is compatible with the encapsulating technology, then production efficiency is high, still can effectively practice thrift manufacturing cost.

Drawings

Fig. 1 is a schematic overall top view structure of the present invention;

fig. 2 is a schematic front view of the structure of the present invention.

The labels in the figure are: 10. a first coating line; 110. a first docking station a; 120. a first coating machine; 130. a first docking station b; 140. a first infrared oven; 150. a first docking station c; 20. a transplanting machine; 30. a second coating line; 310. a turnover machine; 320. a second coating machine; 330. a second docking station a; 340. a second infrared oven; 350. a second docking station b; 40. a third coating line; 410. a turning table; 420. a third coating machine; 430. a third docking station a; 440. a third infrared oven; 450. and a third docking station b.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the protection scope of the present invention based on the embodiments of the present invention.

In the first embodiment, please refer to fig. 1-2, the present invention provides the following technical solutions: automatic change three proofings coating technology production line includes:

the first coating machine 120, the first docking station b130 and the first infrared furnace 140 are sequentially arranged between the first docking station a110 and the first docking station c 150;

the turnover machine 310 and the second connection station b350 are sequentially provided with a second coating machine 320, a second connection station a330 and a second infrared furnace 340 from the turnover machine 310 to the second connection station b 350;

the turning table 410 and the third connecting table b450 are sequentially provided with a third coating machine 420, a third connecting table a430 and a third infrared furnace 440 from the turning table 410 to the third connecting table b 450.

Preferably, a first connection table a110, a first coating machine 120, a first connection table b130, a first infrared furnace 140 and a first connection table c150 are used in cooperation with each other to form a first coating line 10;

specifically, a user can place the clamp on the first docking station a110 in a state that the front side of the clamp faces upwards, the first docking station a110 recognizes different types of clamps through scanning two-dimensional codes on the clamp and calls programs, so that the first docking station a110 is controlled to perform corresponding coating operation, the first docking station a110 conveys the clamp to the first coating machine 120 for front side coating, the coated clamp is conveyed to the first infrared furnace 140 through the first docking station b130 for drying, the dried clamp is conveyed to the transplanting machine 20 through the first docking station c150 for distribution to be recognized, the clamp compatible with different types of clamps can be correspondingly coated through the arrangement, and the equipment investment cost is saved.

Preferably, the second coating line 30 and the third coating line 40 are installed in parallel, a transplanting machine 20 is provided at one side of the second coating line 30 and the third coating line 40, and the second coating line 30 and the third coating line 40 are connected to the first coating line 10 by the transplanting machine 20;

specifically, when conveying to transplanter 20 after first coating line 10 carries out the front with anchor clamps and coats well on, transplanter 20 carries out the breach design of automatic different model anchor clamps of discernment through the FPC function to carry out automatic branch model mode and transfer different model anchor clamps to corresponding second coating line 30 on or carry out reverse side coating and encapsulating on the third coating line 40, make through adding such setting up and carry out reverse side coating and encapsulating on transferring to corresponding coating line with different model anchor clamps classification automatically, certain practicality has been highlighted.

Preferably, the turnover machine 310, the second coating machine 320, the second docking station a330, the second infrared furnace 340 and the second docking station b350 are used in cooperation with each other to jointly form a second coating line 30;

specifically, when the transplanter 20 transfers the clamps of the corresponding models to the second coating line 30, the turnover machine 310 turns the clamps to a state that the reverse sides face upward, the turnover machine 310 conveys the clamps to the second coating machine 320 for reverse side coating and glue filling, at this time, the second connection station a330 conveys the coated and glue filled clamps to the second infrared furnace 340 for drying, the dried clamps are conveyed out of the second infrared furnace 340 by the second connection station b350, the clamps are processed, the coating and glue filling of the clamps can be integrated by adding the arrangement, and the production efficiency is greatly improved.

Preferably, the third coating line 40 is formed by mutually matching the overturning table 410, the third coating machine 420, the third docking station a430, the third infrared furnace 440 and the third docking station b 450;

specifically, when the transplanter 20 transfers the clamps of the corresponding models to the third coating line 40, the overturning table 410 overturns the clamps to a state that the reverse sides of the clamps face upward, the overturning table 410 conveys the clamps to the third coating machine 420 for reverse side coating and glue filling, at this time, the third docking table a430 conveys the coated and glue filled clamps to the third infrared furnace 440 for drying, the dried clamps are conveyed out of the third infrared furnace 440 by the third docking table b450, the clamps are processed, the coating and glue filling of the clamps can be integrated by adding the arrangement, and the production efficiency is greatly improved.

The working principle is as follows: firstly, a user can place the clamp on the first docking station a110 in a state that the front side of the clamp faces upwards, the first docking station a110 identifies different types of clamps through scanning two-dimensional codes on the clamp and calls programs, so that the first docking station a110 is controlled to perform corresponding coating operation, the first docking station a110 transmits the clamp to the first coating machine 120 for front side coating, the coated clamp is transmitted to the first infrared furnace 140 through the first docking station b130 for drying, the dried clamp is transmitted to the transplanting machine 20 through the first docking station c150 for distribution to be identified, and therefore the clamp compatible with different types of clamps can perform corresponding coating, and the equipment investment cost is saved.

Then, when the first coating line 10 carries out front coating on the clamps and then conveys the clamps to the transplanter 20, the transplanter 20 carries out notch design for automatically identifying different models of clamps through the FPC function, thereby carrying out automatic model division mode to transfer different models of clamps to the corresponding second coating line 30 or the third coating line 40 for back coating and glue pouring, and further carrying out back coating and glue pouring by automatically transferring different models of clamps to the corresponding coating lines in a classified manner, and a certain practical performance is highlighted.

Then, when the transplanter 20 transfers the corresponding type of the fixture to the second coating line 30, the turnover machine 310 turns the fixture to a state that the reverse side faces upward, the turnover machine 310 conveys the fixture to the second coating machine 320 for reverse side coating and glue pouring, at this time, the second docking station a330 conveys the coated and glue-poured fixture to the second infrared furnace 340 for drying, and the dried fixture is conveyed out of the second infrared furnace 340 by the second docking station b350, so that the fixture is processed, thereby realizing the integration of fixture coating and glue pouring, and greatly improving the production efficiency.

Finally, when the transplanter 20 transfers the clamps of the corresponding models to the third coating line 40, the overturning table 410 overturns the clamps to a state that the reverse sides of the clamps face upward, the overturning table 410 conveys the clamps to the third coating machine 420 for reverse side coating and glue pouring, at this time, the third docking table a430 conveys the coated and glue-poured clamps to the third infrared furnace 440 for drying, and the dried clamps are conveyed out of the third infrared furnace 440 by the third docking table b450, so that the clamps are processed, thereby realizing the integration of the clamp coating and glue pouring and greatly improving the production efficiency.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. Automatic change three proofings coating technology production line, its characterized in that includes:

the device comprises a first connection table a (110) and a first connection table c (150), wherein a first coating machine (120), a first connection table b (130) and a first infrared furnace (140) are sequentially arranged between the first connection table a (110) and the first connection table c (150);

the device comprises a turnover machine (310) and a second connection table b (350), wherein a second coating machine (320), a second connection table a (330) and a second infrared furnace (340) are sequentially arranged between the turnover machine (310) and the second connection table b (350);

the device comprises a turnover table (410) and a third connection table b (450), wherein a third coating machine (420), a third connection table a (430) and a third infrared furnace (440) are sequentially arranged between the turnover table (410) and the third connection table b (450).

2. The automated three-proofing coating process production line according to claim 1, wherein the first coating line (10) is formed by the mutual cooperation of the first docking station a (110), the first coating machine (120), the first docking station b (130), the first infrared furnace (140) and the first docking station c (150).

3. The automated three-proofing coating process production line according to claim 1, wherein the tipper (310), the second coating machine (320), the second docking station a (330), the second infrared oven (340) and the second docking station b (350) are used in cooperation with each other to jointly form a second coating line (30).

4. The automated three-proofing coating process production line according to claim 1, wherein the third coating line (40) is formed by the mutual cooperation of the overturning station (410), the third coating machine (420), the third docking station a (430), the third infrared furnace (440) and the third docking station b (450).

5. The automated three-proofing coating process production line according to claim 3, wherein the second coating line (30) and the third coating line (40) are arranged in parallel, a transplanter (20) is arranged on one side of the second coating line (30) and the third coating line (40), and the second coating line (30) and the third coating line (40) are connected with the first coating line (10) through the transplanter (20).

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