CN217171027U - Button cell packing plant - Google Patents

Abstract

The utility model discloses a button cell packaging device, which comprises a product assembly line, wherein a defective product assembly line is arranged on one side of the product assembly line; the height measuring device is arranged between the product production line and the defective product production line and is used for respectively conveying qualified products and defective products to the product production line and the defective product production line through the sorting mechanism after the height of the products is measured; the conduction testing device is arranged between the product production line and the defective product production line and used for testing the conduction performance of the product and then respectively sending the qualified product and the defective product to the product production line and the defective product production line through the sorting mechanism; one side of product assembly line and defective products assembly line is located respectively to two product receiving agencies for collect qualified products and defective products with the form of extraction dish respectively, the utility model discloses can measure the product through the height finding subassembly with switch on the test assembly automatically, last qualified products and defective products are collected with the form of extraction dish by product receiving agencies respectively, and degree of automation is high, has promoted production efficiency.

Description

Button cell packing plant

Technical Field

The utility model relates to a packing plant especially relates to a button cell packing plant.

Background

With the rapid development of electronic technology, electronic products have been popularized to every corner of our daily life, and many electronic products require batteries to provide power, so that the batteries become necessary accessories for some electronic products, especially button batteries, which can supply power stably for a long time with small volume to ensure the power of many electronic products, and are widely applied to various miniature electronic products.

Present button cell produces the back, need carry out the test of height and conduction performance, then carries out corresponding packing again, and current mode is mostly artifical a plurality of platforms and carries out the test of height and conduction performance respectively, then collects by the manual work again, and is not only inefficient like this, and the cost of labor is high, is not conform to the packing of batch product.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming prior art's not enough and providing a convenient operation, can carry out the test back of height finding and conductivity to the product automatically, collect certified products and defective products with the extraction dish, promote production efficiency's button cell packing plant.

In order to achieve the above purpose, the utility model adopts the technical scheme that: a button cell packaging device comprising:

a product line for conveying a product;

the defective product assembly line is arranged on one side of the product assembly line and used for conveying defective products;

the height measuring device is arranged between the product production line and the defective product production line and is used for respectively conveying qualified products and defective products to the product production line and the defective product production line through the sorting mechanism after the height of the products is measured;

the conduction testing device is arranged between the product production line and the defective product production line and used for respectively sending the qualified products and the defective products to the product production line and the defective product production line through the sorting mechanism after testing the conduction performance of the products;

and the two product receiving mechanisms are respectively arranged on one side of the product production line and one side of the defective product production line and are used for respectively loading the qualified products and the defective products into the extraction disc and then collecting the qualified products and the defective products in the form of the extraction disc.

Furthermore, the height measuring device comprises a height measuring bearing platform positioned between the product production line and the defective product production line, and a height measuring assembly is arranged above the height measuring bearing platform; one side of the height measuring bearing platform is provided with a first height measuring pushing cylinder; a second height measurement pushing cylinder for pushing the product into the height measurement bearing table is arranged on one side of the product assembly line, and a blocking induction block is arranged on one side, located on the second height measurement pushing cylinder, of the product assembly line; the blocking induction block induces the products and then blocks the products, and the first height measurement pushing cylinder pushes the products pushed by the second height measurement pushing cylinder to move forwards on the height measurement bearing platform.

Furthermore, the conduction test device comprises a conduction test bearing table positioned between the product production line and the defective product production line, and a conduction test assembly is arranged above the conduction test bearing table; one side of the conduction test bearing table is provided with a first conduction pushing cylinder; a second conduction pushing cylinder for pushing a product into the conduction test bearing table is arranged on one side of the product assembly line, and a blocking induction block is arranged on one side, located on the second conduction pushing cylinder, of the product assembly line; the product is blocked after the blocking induction block induces the product, and the first conduction pushing cylinder pushes the product pushed by the second conduction pushing cylinder to be pushed forwards on the conduction test bearing platform.

Further, the sorting mechanism comprises a sorting bracket, and a first sorting cylinder and a second sorting cylinder which are oppositely arranged are arranged on the sorting bracket; the front end of the first sorting cylinder is provided with a pushing block for pushing the qualified products for height measurement or the qualified products for conduction test to a product production line, and the second sorting cylinder is provided with a sorting sucker capable of moving up and down for adsorbing the defective products for height measurement or the defective products for conduction test and then sending the defective products to a defective product production line.

Further, the sorting mechanism comprises a defective product air blowing pipe and a qualified product air blowing pipe which are respectively arranged on one side of the product production line and one side of the defective product production line; the defective product air blowing pipe is used for blowing the height-measuring defective product or the conduction test defective product to a defective product production line, and the qualified product air blowing pipe is used for blowing the height-measuring qualified product or the conduction test qualified product to a product production line.

Further, the product receiving agencies includes:

the device comprises a lifting mechanism, a tray feeding mechanism and a tray lifting mechanism, wherein the lifting mechanism is used for sequentially lifting the tray upwards;

the collecting assembly line is arranged on one side of the extracting disc feeding mechanism and used for conveying the extracting discs forwards;

the extraction disc moving assembly is arranged above the extraction disc feeding mechanism and the material receiving assembly line and used for adsorbing the extraction discs on the extraction disc feeding mechanism and then sending the extraction discs to the material receiving assembly line;

the adsorption moving assembly is arranged above the material receiving assembly line and is used for conveying the qualified products/defective products on the assembly line to the extraction disc;

and the receiving mechanism is arranged at the tail end of the receiving assembly line and is used for collecting the qualified products/the defective products.

Further, the extraction disc moving assembly comprises a moving support capable of moving in the X-axis direction and the Z-axis direction, and a plurality of moving suction discs are arranged at the bottom of the moving support.

Further, the adsorption moving assembly comprises a product adsorption seat capable of moving in the Y-axis and Z-axis directions; the product adsorption seat is internally provided with a transverse moving shaft, the transverse moving shaft is provided with a plurality of sucking disc frames capable of moving transversely, the sucking disc frames are sequentially connected with one another, and the bottoms of the sucking disc frames are provided with product sucking discs; and an X-axis adjusting cylinder is arranged on one side of the product adsorption seat and used for pushing the plurality of sucker frames to synchronously and transversely move on the transverse moving shaft.

Furthermore, the material receiving mechanism comprises a plurality of lifting rods capable of moving up and down and is used for lifting the extraction disc positioned on the material receiving assembly line; two material receiving frames are respectively arranged at two ends of the jacking rod corresponding to the material receiving assembly line, and the four material receiving frames form a limiting space for limiting the extraction disc; and a bearing frame is arranged between the two material receiving frames on the same side, and a rotatable rotating plate is arranged on the bearing frame and used for bearing the extraction plate.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage:

the utility model discloses button cell packing plant of scheme, carry out the altitude measurement through the height finding subassembly with automatic transmission's product earlier, rethread conduction test subassembly carries out the measurement of conduction performance, last certified products flow in product assembly line department, the defective products flow in defective products assembly line department, then certified products and defective products are carried out respectively by the manual work after being collected with the form of extraction dish by product receiving agencies, whole packaging process full automation accomplishes, degree of automation is high, the operation is stable, the production efficiency is promoted, the cost of labor has been reduced, accord with the packing of big batch product, better practicality and popularization nature have.

Drawings

The technical scheme of the utility model is further explained by combining the attached drawings as follows:

fig. 1 is a schematic perspective view of a first embodiment of the present invention;

FIG. 2 is a schematic structural diagram of the product assembly line, the defective product assembly line, the height measuring device and the sorting mechanism in the first embodiment;

FIG. 3 is an enlarged view of portion A of FIG. 2;

fig. 4 is a schematic perspective view of a conduction testing apparatus according to a first embodiment;

FIG. 5 is a schematic structural view of two product receiving mechanisms in cooperation with a product line and a defective product line in the first embodiment;

fig. 6 is a schematic structural view of a tray moving assembly according to the first embodiment;

FIG. 7 is a schematic structural diagram of a suction moving assembly according to the first embodiment;

FIG. 8 is a schematic structural view of a receiving mechanism in the first embodiment;

fig. 9 is a schematic perspective view of a sorting mechanism in the second embodiment of the present invention;

wherein: a product assembly line 1, a defective product assembly line 2, a height measuring device 3, a conduction testing device 4, a product receiving mechanism 5, a product 6, a sorting mechanism 7, an extraction disc 8, a qualified product gas blow pipe 10, a blocking induction block 11, a defective product gas blow pipe 20, a height measuring bearing platform 30, a height measuring assembly 31, a first height measuring pushing cylinder 32, a second height measuring pushing cylinder 33, a testing bearing platform 40, a conduction testing assembly 41, a first conduction pushing cylinder 42 and a second conduction pushing cylinder 43, the device comprises a plate extracting and feeding mechanism 50, a material receiving assembly line 51, a plate extracting and moving assembly 52, an adsorption and moving assembly 53, a material receiving mechanism 54, a lifting mechanism 500, a moving support 520, a moving suction cup 521, an adsorption seat 530, a transverse moving shaft 531, a suction cup frame 532, an X-axis adjusting cylinder 533, a product suction cup 534, a sorting support 700, a first sorting cylinder 701, a second sorting cylinder 702, a pushing block 703 and a sorting suction cup 704.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and do not constitute limitations on the invention.

Example one

Referring to fig. 1, a button cell packaging device according to an embodiment of the present invention includes a product assembly line 1, a defective product assembly line 2, a height measuring device 3, a conduction testing device 4, and a product receiving mechanism 5; the product assembly line 1 is used for conveying products forwards; the defective product assembly line 2 and the product assembly line 1 are arranged in parallel to each other and are used for transmitting detected defective products; the product assembly line 1 and the defective product assembly line 2 are in linear transmission and are both conveyor belts driven by motors to transmit.

Specifically, referring to fig. 2-3, the height measuring device 3 includes a height measuring platform 30 located between the product line 1 and the defective product line 2, and a height measuring assembly 31 is disposed above the height measuring platform 30 for measuring the height of the product 6; a first height measurement pushing cylinder 32 is arranged on the height measurement bearing table 30 in the X-axis direction, a second height measurement pushing cylinder 33 is arranged on one side of the product assembly line 1, and a blocking induction block 11 is arranged on one side, located on the second height measurement pushing cylinder 33, of the product assembly line 1; when the height measuring device works, after the blocking induction block 11 induces a product, the product on the product assembly line 1 is blocked, the second height measuring pushing cylinder 33 pushes the product 6 on the product assembly line 1 onto the height measuring bearing table 30, and the height of the product is measured by the height measuring assembly 31; after the measurement is finished, the first height-measuring pushing cylinder 32 pushes the product forward to the sorting mechanism 7 in the X-axis direction.

Specifically, the sorting mechanism 7 in this embodiment is two parallel defective product blowpipes 20 and two parallel qualified product blowpipes 10 respectively disposed on one side of the product flow line 1 and the defective product flow line 2; the sorting mechanism 7 starts to operate when the first height-finding pushing cylinder 32 pushes the products 6 forward to the sorting mechanism 7.

If the height measuring component 31 measures that the height of the product 6 is a qualified product, the qualified product is blown into the product production line 1 by the two qualified product blowing pipes 10 to be continuously transmitted; if the height measuring component 31 measures that the height of the product 6 is defective, the defective products are blown onto the defective product production line 2 by the two defective product blowing pipes 20 to be continuously transmitted.

Referring to fig. 4, the conduction testing apparatus 4 includes a conduction testing carrier 40 located between the product production line 1 and the defective product production line 2, and a conduction testing assembly 41 is disposed above the conduction testing carrier 40 for testing whether the conduction performance of the product is a qualified product; the conduction test bearing table 40 is provided with a first conduction pushing cylinder 42 in the X-axis direction; a second conduction pushing cylinder 43 for pushing the product into the conduction test bearing table 40 is arranged on one side of the product assembly line 1, and a blocking induction block 11 is also arranged on one side of the product assembly line 1, which is positioned on the second height measurement pushing cylinder 33; during operation, block that response piece 11 senses the product after, block the product on the product assembly line 1, the second switches on and promotes cylinder 43 and pushes qualified product after the height measurement subassembly test to switching on test plummer 40, switches on test subassembly 41 and tests the conduction performance of product, and after the test was accomplished, first switching on promotes cylinder 42 will be in by the product after the test the position of setting for is promoted forward on the test plummer.

If the conduction testing component 41 detects that the conduction performance of the product 6 is a qualified product, the qualified product is blown into the product production line 1 by the two qualified product blowing pipes 10 to be continuously transmitted; if the conduction testing component 41 detects that the conduction performance of the product 6 is a defective product, the defective product is blown into the defective product production line 2 by the two defective product blowing pipes 20 to continue transmission.

The sequence positions of the height measuring component 31 and the conduction testing component 41 are not fixed, and can be selected according to actual requirements.

Specifically, the two product receiving mechanisms 5 are respectively arranged on one side of the product production line 1 and one side of the defective product production line 2; referring to fig. 5, the product receiving mechanism 5 includes a tray feeding mechanism 50, a receiving assembly line 51, a tray moving assembly 52, an adsorption moving assembly 53, and a receiving mechanism 54; the extraction disc feeding mechanism 50 comprises a plurality of extraction discs 8 arranged on a lifting mechanism 500, and the lifting mechanism 500 is used for lifting the extraction discs 8 upwards in sequence and then grabbing the extraction discs by an extraction disc moving assembly 52.

The receiving assembly line 51 is arranged on one side of the extraction disc feeding mechanism 50 and is used for conveying the extraction disc 8 forwards.

Referring to fig. 5 and 6, the extraction tray moving assembly 52 is disposed above the extraction tray feeding mechanism 50 and the receiving assembly line 51, the extraction tray moving assembly 52 includes a moving bracket 520 capable of moving in the X-axis and Z-axis directions, and four moving suction cups 521 are disposed at four corners of the bottom of the moving bracket 520; during operation, the movable suction cup 521 is used for sucking the extraction disc 8 and then sending the extraction disc to the material receiving assembly line 51.

Referring to fig. 5 and 7, the suction moving assembly 53 includes a product suction base 530 movable in Y-axis and Z-axis directions; the product adsorption seat is internally provided with two parallel transverse shafts 531, five transverse shafts 531 are provided with five vertically parallel sucking disc frames 532 which can move transversely, the five sucking disc frames 532 are sequentially connected with each other, the bottom of each sucking disc frame 532 is provided with a product sucking disc 534, and the five product sucking discs 534 are arranged because one row of the extraction disc 8 is provided with five containing cavities, so that five products can be taken out from a product assembly line at one time and sent into the extraction disc; an X-axis adjusting cylinder 533 is disposed on one side of the product adsorbing seat 530 for pushing the five sucker frames 532 to move transversely on the transverse moving shaft 531 synchronously, so as to ensure that five products are fed into the five accommodating cavities of the extraction tray at one time.

Specifically, referring to fig. 8, the material receiving mechanism 54 includes four lifting rods 540 capable of moving up and down, two material receiving frames 541 are respectively disposed on two ends of the lifting rods 540 corresponding to the material receiving assembly line 1, and the material receiving frames 541 are in a long strip L shape; the four material receiving frames 541 form a limiting space for limiting the extraction disc 8, so that when the extraction disc 8 is conveyed forwards to a certain position through the material receiving assembly line, the position is limited through the four material receiving frames 541.

In addition, a bearing frame 542 is arranged between the two material receiving frames on the same side, and the bearing frame is provided with a rotatable rotating plate 543, so that when the extraction plate 8 reaches the position limited by the four material receiving frames 541, the lifting rod jacks up the extraction plate, the extraction plate jacks up the rotating plate, then the rotating plate penetrates through the rotating plate, and then the extraction plate is lowered down, so that the bottom of the extraction plate is fixed between the two rotating plates 543.

Two product receiving agencies 5 are located product assembly line 1 and defective products assembly line 2 respectively for carry out the collection of certified products and defective products with the form of extraction dish after respectively packing into the extraction dish with certified products and defective products.

Example two

The difference between the present embodiment and the first embodiment is that the sorting mechanism, referring to fig. 9, the sorting mechanism 7 in the present embodiment includes a sorting bracket 700, and the sorting bracket 700 has a first sorting cylinder 701 and a second sorting cylinder 702 which are oppositely disposed.

During operation, the front end of the first sorting cylinder 701 is provided with a pushing block 703 for pushing a qualified product for height measurement or a qualified product for conduction test to the product assembly line 1, and the second sorting cylinder 702 is provided with a sorting sucker 704 capable of moving up and down for adsorbing a defective product for height measurement or a defective product for conduction test and then sending the adsorbed defective product to the defective product assembly line 2.

The utility model discloses a button cell packing plant, carry out the altitude measurement through the height finding subassembly with automatic conveying's product earlier, rethread conduction test subassembly carries out the measurement of conduction performance, last certified products flows in product assembly line department, the defective products flows in defective products assembly line department, then certified products and defective products are carried out by the manual work respectively after being collected with the form of extraction dish by product receiving agencies, whole packaging process full automation is accomplished, and the automation is high, the operation is stable, and the production efficiency is improved, the cost of labor has been reduced, accord with the packing of big batch product, and has better practicality and popularization nature.

The above is only a specific application example of the present invention, and does not constitute any limitation to the protection scope of the present invention. All the technical solutions formed by equivalent transformation or equivalent replacement fall within the protection scope of the present invention.

Claims (9)

1. A button cell packing device, characterized by comprising:

a product line for conveying a product;

the defective product assembly line is arranged on one side of the product assembly line and used for conveying defective products;

the height measuring device is arranged between the product production line and the defective product production line and is used for respectively conveying qualified products and defective products to the product production line and the defective product production line through the sorting mechanism after the height of the products is measured;

the conduction testing device is arranged between the product production line and the defective product production line and used for respectively sending the qualified products and the defective products to the product production line and the defective product production line through the sorting mechanism after testing the conduction performance of the products;

and the two product receiving mechanisms are respectively arranged on one side of the product production line and one side of the defective product production line and are used for respectively loading the qualified products and the defective products into the extraction disc and then collecting the qualified products and the defective products in the form of the extraction disc.

2. The button cell packaging device according to claim 1, wherein: the height measuring device comprises a height measuring bearing platform positioned between the product production line and the defective product production line, and a height measuring assembly is arranged above the height measuring bearing platform; one side of the height measuring bearing platform is provided with a first height measuring pushing cylinder; a second height measurement pushing cylinder for pushing the product into the height measurement bearing table is arranged on one side of the product assembly line, and a blocking induction block is arranged on one side, located on the second height measurement pushing cylinder, of the product assembly line; the blocking induction block induces the products and then blocks the products, and the first height measurement pushing cylinder pushes the products pushed by the second height measurement pushing cylinder to move forwards on the height measurement bearing platform.

3. The button cell packaging device according to claim 1, wherein: the conduction test device comprises a conduction test bearing table positioned between a product production line and a defective product production line, and a conduction test assembly is arranged above the conduction test bearing table; one side of the conduction test bearing table is provided with a first conduction pushing cylinder; a second conduction pushing cylinder for pushing a product into the conduction test bearing table is arranged on one side of the product assembly line, and a blocking induction block is arranged on one side, located on the second conduction pushing cylinder, of the product assembly line; the product is blocked after the blocking induction block induces the product, and the first conduction pushing cylinder pushes the product pushed by the second conduction pushing cylinder to be pushed forwards on the conduction test bearing platform.

4. The button cell packaging device according to claim 1, wherein: the sorting mechanism comprises a sorting support, and a first sorting cylinder and a second sorting cylinder which are oppositely arranged are arranged on the sorting support; the front end of the first sorting cylinder is provided with a pushing block for pushing the qualified products for height measurement or the qualified products for conduction test to a product production line, and the second sorting cylinder is provided with a sorting sucker capable of moving up and down for adsorbing the defective products for height measurement or the defective products for conduction test and then sending the defective products to a defective product production line.

5. The button cell packaging apparatus according to claim 1, wherein: the sorting mechanism comprises a defective product air blowing pipe and a qualified product air blowing pipe which are respectively arranged on one side of the product production line and one side of the defective product production line; the defective product air blowing pipe is used for blowing the height-measuring defective product or the conduction test defective product to a defective product production line, and the qualified product air blowing pipe is used for blowing the height-measuring qualified product or the conduction test qualified product to a product production line.

6. The button cell packaging device according to claim 1, wherein the product receiving mechanism comprises:

the device comprises a plate extracting and feeding mechanism, a plate extracting and feeding mechanism and a lifting mechanism, wherein the plate extracting and feeding mechanism comprises a plurality of plate extracting plates arranged on the lifting mechanism, and the lifting mechanism is used for sequentially lifting the plurality of plate extracting plates upwards;

the collecting assembly line is arranged on one side of the extracting disc feeding mechanism and used for conveying the extracting discs forwards;

the extraction disc moving assembly is arranged above the extraction disc feeding mechanism and the material receiving assembly line and used for adsorbing the extraction discs on the extraction disc feeding mechanism and then sending the extraction discs to the material receiving assembly line;

the adsorption moving assembly is arranged above the material receiving assembly line and is used for conveying the qualified products/defective products on the assembly line to the extraction disc;

and the receiving mechanism is arranged at the tail end of the receiving assembly line and is used for collecting the qualified products/the defective products.

7. The button cell packaging device according to claim 6, wherein: the extraction disc moving assembly comprises a moving support capable of moving in the X-axis direction and the Z-axis direction, and a plurality of moving suction discs are arranged at the bottom of the moving support.

8. The button cell packaging device according to claim 6, wherein: the adsorption moving assembly comprises a product adsorption seat capable of moving in the Y-axis and Z-axis directions; the product adsorption seat is internally provided with a transverse moving shaft, the transverse moving shaft is provided with a plurality of sucking disc frames capable of moving transversely, the sucking disc frames are sequentially connected with one another, and the bottoms of the sucking disc frames are provided with product sucking discs; and an X-axis adjusting cylinder is arranged on one side of the product adsorption seat and used for pushing the plurality of sucker frames to synchronously and transversely move on the transverse moving shaft.

9. The button cell packaging device according to claim 1, wherein: the material receiving mechanism comprises a plurality of lifting rods capable of moving up and down and is used for lifting the extraction disc positioned on the material receiving assembly line; two material receiving frames are respectively arranged at two ends of the jacking rod corresponding to the material receiving assembly line, and the four material receiving frames form a limiting space for limiting the extraction disc; and a bearing frame is arranged between the two material collecting frames at the same side, and a rotatable rotating plate is arranged on the bearing frame and used for bearing the extracting plate.

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