CN216335711U - High efficiency low loss connects material area production facility - Google Patents

Abstract

The utility model provides high-efficiency low-loss material receiving belt production equipment, which relates to the technical field of material receiving belt production and processing and comprises a bearing table and a conveying table, wherein the top surface of the bearing table is provided with two processing devices, the two processing stations are symmetrically provided with two pushing hydraulic cylinders at two sides of the processing table, a double-shaft hydraulic cylinder is arranged between the adjacent pushing hydraulic cylinders, one side of the double-shaft hydraulic cylinder, which is far away from the processing table, is provided with a power motor, the surface of the processing table is provided with cutting grooves in a horizontal direction array, the surface of the processing table is fixedly provided with cutting strips, the cutting strips are vertically distributed with the cutting grooves, the two processing stations of the processing device are adopted to clamp and limit the material receiving belt, the cutting strips on the surface of the processing table and the cutting grooves are butted with the warp and weft directions of the material belt surface to generate indentations, the movable ends of the pushing hydraulic cylinders stretch to drive the two processing stations to generate displacement, so that the cutting strips on the surface of the processing table are butted with the warp direction to be cut off, the quick segmentation in material area is cut, and the cutting is accurate, improves production efficiency.

Description

High efficiency low loss connects material area production facility

Technical Field

The utility model relates to the technical field of material receiving belt production and processing, in particular to high-efficiency low-loss material receiving belt production equipment.

Background

The material receiving belt is divided into a single-face material receiving belt according to specifications, the double-face material receiving belt is all-round, the material receiving belt is special and automatic, the single-face material receiving belt is generally matched with material receiving pliers and used by material receiving copper buckles, skilled workers can directly receive the material belt adhesive material belt by four-side pieces without the material receiving pliers, the price is relatively low, the SMT double-face material receiving film is applicable to 8mm,12mm,16mm and 24mm, the yellow material receiving belt completely corresponds to the row holes in the two sides of the material receiving belt and the material belt, the yellow material receiving belt completely corresponds to the film on the material belt, the yellow material receiving belt is pasted, the price is moderate, and different models of the material receiving belt are selected to be used according to use requirements during production and use.

When existing materials are connected to a material belt to be produced and cut, the materials are connected to the surface of the material belt produced in a whole piece, the materials are cut for multiple times, the machine works frequently due to the multiple cutting, the working frequency is increased, energy consumption is high, meanwhile, cutting precision errors are easy to generate due to the multiple cutting, and the cutting efficiency is low, so that the materials are not beneficial to practical use.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects in the prior art, and provides high-efficiency low-loss material receiving belt production equipment.

In order to achieve the purpose, the utility model adopts the following technical scheme: the utility model provides a high efficiency low-loss connects material area production facility, includes bearing platform and conveying platform, bearing bench face is equipped with processingequipment, processingequipment includes the processing platform, and the processing platform is equipped with two, and processing platform longitudinal symmetry, processing platform bilateral symmetry is equipped with the promotion pneumatic cylinder, and is adjacent be equipped with the biax pneumatic cylinder between the promotion pneumatic cylinder, one side that the processing platform was kept away from to the biax pneumatic cylinder is equipped with motor power, the motor power bottom is equipped with the backup pad, the backup pad bottom surface is fixed with bearing platform bottom surface, processing platform surface horizontal direction array has been seted up and has been cut the groove, processing platform surface array is fixed and is equipped with the cutting strip, cutting strip and cut groove vertical distribution.

Preferably, processing platform one side is equipped with the conveying platform, conveying platform bottom surface and bearing platform bottom surface edge bolted connection, one side that the conveying platform was kept away from to the processing platform is equipped with the accumulator tank, and the accumulator tank bottom surface offsets with the bearing platform top surface.

Preferably, the processing platform side has seted up T type spacing groove, T type spacing inslot portion slides and is equipped with the stopper, the stopper side is with the expansion end thread tightening who promotes the pneumatic cylinder.

Preferably, the movable ends of the two sides of the double-shaft hydraulic cylinder are fixed on the surfaces of the upper pushing hydraulic cylinder and the lower pushing hydraulic cylinder, the pushing hydraulic cylinders are controlled relatively and independently, and the running directions of the pushing hydraulic cylinders on the side surfaces of the machining table are opposite.

Preferably, the top surface of the conveying table and the top surface of the processing table close to the bearing table are located on the same plane, and the top end of the recovery tank is located at the bottom of one side of the bottom surface of the processing table.

Preferably, the bottom surface of the power motor is connected with the top surface of the supporting plate through bolts, an output shaft of the power motor is fixed to the center of the side surface of the double-shaft hydraulic cylinder, and the two movable ends of the double-shaft hydraulic cylinder synchronously run.

Preferably, the abutting surfaces of the adjacent processing tables are planes, the surface structures of the processing tables are the same, and the cutting strips on the surface of the processing table close to the top of the bearing table correspond to the cutting grooves on the surface of the processing table far away from the bearing table in position.

Advantageous effects

According to the utility model, the two processing tables of the processing device are adopted to clamp and limit the material belt, the cutting strips on the surface of the processing table and the cutting grooves are used for generating indentations in the warp and weft directions of the surface of the material belt, the two processing tables are driven to displace by pushing the movable ends of the hydraulic cylinders to stretch, so that the cutting strips on the surface of the processing tables are cut off in the warp direction and dotted indentation breakpoints are generated in the weft direction, the material belt is cut rapidly, the cutting is accurate, and the production efficiency is improved.

According to the utility model, the material belt is cut in a fixed size by adopting the surface of the processing table, and the processing table with the corresponding specification is selected to be used for cutting according to the sizes of the material belt with different sizes required by cutting, so that the material belt is more convenient to cut, and the energy consumption is saved and the use is convenient while the cutting efficiency is improved compared with the traditional multiple cutting method by cutting the whole material belt once.

Drawings

Fig. 1 is a schematic perspective view of a high-efficiency low-loss material receiving belt production device;

FIG. 2 is a front cross-sectional view of a high efficiency low loss splicing tape production apparatus;

FIG. 3 is a partial structure diagram of a processing device of a high-efficiency low-loss material receiving belt production device;

fig. 4 is an enlarged view of fig. 3 at a.

Illustration of the drawings:

1. a bearing table; 2. a transfer table; 3. a recovery tank; 4. a processing device; 401. a processing table; 402. cutting the groove; 403. cutting the strips; 404. a T-shaped limiting groove; 5. pushing the hydraulic cylinder; 6. a double-shaft hydraulic cylinder; 7. a power motor; 8. a support plate; 9. and a limiting block.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the utility model easily understood, the utility model is further described below with reference to the specific embodiments and the attached drawings, but the following embodiments are only the preferred embodiments of the utility model, and not all embodiments. Based on the embodiments in the implementation, other embodiments obtained by those skilled in the art without any creative efforts belong to the protection scope of the present invention.

Specific embodiments of the present invention are described below with reference to the accompanying drawings.

The specific embodiment is as follows:

referring to fig. 1-4, a high-efficiency low-loss material receiving belt production device comprises a bearing table 1 and a conveying table 2, wherein a processing device 4 is arranged on the top surface of the bearing table 1, the processing device 4 comprises two processing tables 401, the processing tables 401 are vertically symmetrical, two sides of each processing table 401 are symmetrically provided with two pushing hydraulic cylinders 5, a double-shaft hydraulic cylinder 6 is arranged between every two adjacent pushing hydraulic cylinders 5, the movable end of each double-shaft hydraulic cylinder 6 extends to drive the two processing tables 401 to move reversely, so that the processing tables 401 are opened to receive a material receiving belt on the surface of the conveying table 2, when the material receiving belt completely enters the surface of the processing table 401, the movable end of each double-shaft hydraulic cylinder 6 contracts to drive the two processing tables 401 to approach each other to compress the surface of the material belt, cutting grooves 402 are arranged in an array in the horizontal direction on the surface of the processing tables 401, cutting strips 403 are fixedly arranged in the array on the surface of the processing table 401, the cutting strips 403 are vertically distributed with the cutting grooves 402, abutting surfaces of adjacent processing tables 401 are planes, the surface structures of the processing tables 401 are the same, the cutting strips 403 on the surfaces of the processing tables 401 close to the top of the bearing table 1 correspond to the positions of the cutting grooves 402 on the surfaces of the processing tables 401 far away from the bearing table 1, the compressed material receiving belt is limited on the inner surface under the action of the cutting strips 403 on the surfaces of the processing tables 401 at two sides and the cutting grooves 402, the cutting strips 403 on the surfaces of the processing tables 401 at the top correspond to the cutting grooves 402 on the surfaces of the processing tables 401 at the bottom, when the two processing tables 401 abut, the bottom ends of the cutting strips 403 penetrate through the surfaces of the material receiving belt, a space is arranged between the adjacent cutting strips 403, when the processing tables 401 abut, the cutting strips 403 only abut against the surfaces of the material receiving belt to generate dotted indentation breakpoints of the same straight line, the movable ends of the hydraulic cylinders 5 are pushed to extend to drive the two processing tables 401 to generate dislocation sliding, and the side surfaces of the cutting strips 403 are penetrated material receiving belt to be penetrated, thereby the broken line indentation break point is penetrated, the material receiving belt is cut off, the cut material receiving belt is in a strip shape, each material receiving belt is provided with equidistant broken line indentations in the horizontal direction for power off, the subsequent folding and boxing use is convenient, two processing tables 401 of a processing device 4 are adopted for clamping and limiting the material receiving belt, the cutting strips 403 on the surfaces of the processing tables 401 and the cutting grooves 402 are used for generating indentations in the warp and weft directions of the surfaces of the material receiving belt, the movable ends of a pushing hydraulic cylinder 5 stretch to drive the two processing tables 401 to displace, the cutting strips 403 on the surfaces of the processing tables 401 are used for cutting off the material receiving belt in the warp direction, the material receiving belt is quickly divided, the cutting is accurate, the production efficiency is improved, one side of the processing tables 401 is provided with a conveying table 2, the bottom surface of the conveying table 2 is connected with the bottom surface of a bearing table 1 through bolts, one side of the processing tables 401 far away from the conveying table 2 is provided with a recovery groove 3, and the bottom surface of the recovery groove 3 is abutted against the top surface of the bearing table 1, conveying the produced material receiving belt on the surface of a conveying table 2, wherein the top surface of the conveying table 2 and the top surface of a processing table 401 close to a bearing table 1 are positioned on the same plane, the top end of a recovery tank 3 is positioned at the bottom of one side of the bottom surface of the processing table 401 and is flush with the top surface of the processing table 401 through the top surface of the conveying table 2, so that the material receiving belt can be conveyed to the surface of the processing table 401 for cutting treatment, the recovery tank 3 is used for carrying and recovering the cut material receiving belt and is convenient for boxing and sorting, a T-shaped limiting groove 404 is arranged on the side surface of the processing table 401, a limiting block 9 is arranged in the T-shaped limiting groove 404 in a sliding manner, the side surface of the limiting block 9 is fixed with the movable end of a pushing hydraulic cylinder 5 through threads, the limiting block 9 is used for connecting the pushing hydraulic cylinder 5 with the processing table 401, the model of the processing table 401 is convenient to change, the material receiving belt with a fixed size is cut by adopting the surface of the processing table 401, and the material receiving belt with different sizes required by cutting, the cutting and using of the processing table 401 with corresponding specifications are selected, so that the material receiving belt is more convenient to cut, the cutting efficiency is improved when the whole material receiving belt is cut once compared with the traditional multiple cutting, the energy consumption is saved, the use is convenient, the movable ends of two sides of a double-shaft hydraulic cylinder 6 are fixed with the surfaces of an upper pushing hydraulic cylinder 5 and a lower pushing hydraulic cylinder 5, the pushing hydraulic cylinders 5 are controlled independently, the running directions of the pushing hydraulic cylinders 5 on the side surfaces of the processing table 401 are opposite, one side of the double-shaft hydraulic cylinder 6, which is far away from the processing table 401, is provided with a power motor 7, the bottom of the power motor 7 is provided with a supporting plate 8, the bottom of the supporting plate 8 is fixed with the bottom of a bearing table 1, the bottom of the power motor 7 is connected with the top of the supporting plate 8 through bolts, the output shaft of the power motor 7 is fixed with the center of the side surfaces of the double-shaft hydraulic cylinder 6, the two movable ends of the double-shaft hydraulic cylinder 6 run synchronously, the power motor 7 runs, the whole processing device 4 is driven to turn and tilt through the double-shaft hydraulic cylinder 6, processing platform 401 opens the back, and the material area that connects on surface slides along the inclined plane and retrieves to accumulator 3 is inside, and the material area that connects after the cutting presents the strip that the surface has dotted line indentation breakpoint, can directly strip dress box during dress box, can follow simultaneously and pack the box after dotted line indentation breakpoint folding, when using, cuts along dotted line indentation breakpoint according to use length and open and use.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a high efficiency low loss connects material area production facility, includes bearing platform (1) and conveying platform (2), its characterized in that: bearing platform (1) top surface is equipped with processingequipment (4), processingequipment (4) are including processing platform (401), and processing platform (401) are equipped with two, and processing platform (401) longitudinal symmetry, processing platform (401) bilateral symmetry is equipped with and promotes pneumatic cylinder (5), and is adjacent it is equipped with biax pneumatic cylinder (6) to promote between pneumatic cylinder (5), one side that processing platform (401) were kept away from in biax pneumatic cylinder (6) is equipped with motor power (7), motor power (7) bottom is equipped with backup pad (8), backup pad (8) bottom surface is fixed with bearing platform (1) bottom surface, processing platform (401) surface horizontal direction array has been seted up and has been cut groove (402), processing platform (401) surface array is fixed and is equipped with cutting strip (403), cutting strip (403) and cutting groove (402) vertical distribution.

2. The apparatus for producing a high efficiency low loss splicing tape of claim 1, wherein: processing platform (401) one side is equipped with conveying platform (2), conveying platform (2) bottom surface and bearing platform (1) bottom surface edge bolted connection, one side that conveying platform (2) were kept away from in processing platform (401) is equipped with accumulator (3), and accumulator (3) bottom surface offsets with bearing platform (1) top surface.

3. The apparatus for producing a high efficiency low loss splicing tape of claim 1, wherein: t type spacing groove (404) have been seted up to processing platform (401) side, T type spacing groove (404) inside slides and is equipped with stopper (9), stopper (9) side and the expansion end thread tightening who promotes pneumatic cylinder (5).

4. The apparatus for producing a high efficiency low loss splicing tape of claim 1, wherein: the double-shaft hydraulic cylinder (6) is characterized in that the movable ends on two sides of the double-shaft hydraulic cylinder are fixed on the surfaces of an upper pushing hydraulic cylinder (5) and a lower pushing hydraulic cylinder (5), the pushing hydraulic cylinders (5) are controlled relatively and independently, and the running directions of the pushing hydraulic cylinders (5) on the side surfaces of the processing table (401) are opposite.

5. The apparatus for producing a high efficiency low loss splicing tape as claimed in claim 2, wherein: the top surface of the conveying table (2) and the top surface of a processing table (401) close to the bearing table (1) are located on the same plane, and the top end of the recovery tank (3) is located at the bottom of one side of the bottom surface of the processing table (401).

6. The apparatus for producing a high efficiency low loss splicing tape of claim 1, wherein: the bottom surface of the power motor (7) is connected with the top surface of the supporting plate (8) through bolts, the output shaft of the power motor (7) is fixed to the center of the side surface of the double-shaft hydraulic cylinder (6), and the two movable ends of the double-shaft hydraulic cylinder (6) run synchronously.

7. The apparatus for producing a high efficiency low loss splicing tape of claim 1, wherein: the abutting surfaces of the adjacent processing tables (401) are planes, the surface structures of the processing tables (401) are the same, and the cutting strips (403) on the surfaces of the processing tables (401) close to the top of the bearing table (1) correspond to the cutting grooves (402) on the surfaces of the processing tables (401) far away from the bearing table (1).

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