CN109773880B - Automatic brace of shrinkage pipe cuts off discharge apparatus - Google Patents

Abstract

An automatic brace cutting and discharging device for a cold shrink tube comprises a rack, a bottom plate module, a clamping module and a discharging module. The bottom plate module comprises a fixed bottom plate which is fixedly arranged at the top of the rack. The discharging module comprises a left bottom plate, a right bottom plate, a vertical plate, a left reinforcing rib plate, a right reinforcing rib plate, a left air cylinder mounting plate, a right air cylinder mounting plate, a left discharging air cylinder, a right discharging air cylinder, a left discharging block and a right discharging block; the left bottom plate and the right bottom plate are fixedly arranged on the fixed bottom plate close to the left side and the right side; the vertical plate is vertically installed and fixed on the left bottom plate and the right bottom plate; the left air cylinder mounting plate is fixedly arranged on the vertical plate and the left reinforcing rib plate; the right cylinder mounting plate is fixedly arranged on the vertical plate and the right reinforcing rib plate; the left discharging cylinder is fixedly arranged on the top surface of the left cylinder mounting plate; the right discharging cylinder is fixedly arranged on the top surface of the right cylinder mounting plate; the left discharging block is fixedly arranged on a piston rod of the left discharging cylinder; the right discharging block is installed and fixed on a piston rod of the right discharging cylinder.

Description

Automatic brace of shrinkage pipe cuts off discharge apparatus

Technical Field

The invention relates to automation equipment for bracing and cutting off a cold shrink tube.

Background

Along with the rapid development of the electronic industry, the market demands more and more cold-shrinkable tubes, and the support tubes of the cold-shrinkable tubes processed at present are too long, so that the support strips need to be pulled apart according to fixed lengths, and then redundant parts are cut off. The length of the brace is not uniform easily because the brace is finished manually, and the production is time-consuming. Due to the influence of the problems, the quality of the processed cold-shrink tube is unstable, the processing efficiency is low, and the labor cost is high.

Disclosure of Invention

The invention mainly solves the technical problems that: can carry out the accurate draw bar and cut off and automatic discharge according to the required size of cold-shrink tube.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides an automatic brace of shrinkage pipe cuts off unloading equipment, its includes frame (1), bottom plate module (2), presss from both sides tight module (3), module of unloading (7).

The bottom plate module (2) is fixedly arranged at the top of the frame (1);

the bottom plate module (2) comprises a fixed bottom plate (201) which is fixedly arranged at the top of the rack (1);

two supporting plates (203) are fixedly arranged at the upper rear end part of the top surface of the fixed bottom plate (201), and a cylinder mounting plate (205) is fixedly arranged on the top surfaces of the two supporting plates (203);

the clamping module (3) comprises a sliding table cylinder (301), a mould mounting plate (303), a fixed mould (305), a left clamping cylinder (307), a left moving mould (309), a right clamping cylinder (311) and a right moving mould (313);

the sliding table cylinder (301) is fixedly arranged on the cylinder mounting plate (205);

the sliding table cylinder (301) comprises a cylinder body (3012) which slides along the left-right direction;

the die mounting plate (303) is fixedly mounted at the top of the cylinder body (3012);

the fixed die (305) is fixedly arranged in the middle of the die mounting plate (303);

the left clamping cylinder (307) is fixedly arranged on the die mounting plate (303) and is positioned on the left side of the fixed die (305);

the left movable mould (309) is installed and fixed on a piston rod of the left clamping cylinder (307) and is positioned between the fixed mould (305) and the left clamping cylinder (307);

the right clamping cylinder (311) is fixedly arranged on the die mounting plate (303) and is positioned on the right side of the fixed die (305);

the right movable die (313) is arranged and fixed on a piston rod of the right clamping cylinder (311) and is positioned between the fixed die (305) and the right clamping cylinder (311);

the discharging module (7) comprises a left bottom plate (701), a right bottom plate (703), a vertical plate (705), a left reinforcing rib plate (707), a right reinforcing rib plate (709), a left cylinder mounting plate (711), a right cylinder mounting plate (713), a left discharging cylinder (715), a right discharging cylinder (717), a left discharging block (719) and a right discharging block (721);

the left bottom plate (701) is fixedly arranged on the left side of the fixed bottom plate (201);

the right bottom plate (703) is fixedly arranged on the fixed bottom plate (201) close to the right side;

the vertical plate (705) is vertically arranged and fixed on the left bottom plate (701) and the right bottom plate (703);

the left reinforcing rib plate (707) is fixedly arranged on the vertical plate (705) and the left bottom plate (701);

the right reinforcing rib plate (709) is fixedly arranged on the vertical plate (705) and the right bottom plate (703);

a left cylinder mounting plate (711) is fixedly arranged on the vertical plate (705) and the left reinforcing rib plate (707);

the right cylinder mounting plate (713) is fixedly mounted on the vertical plate (705) and the right reinforcing rib plate (709);

the left discharging cylinder (715) is fixedly arranged on the top surface of the left cylinder mounting plate (711);

the right discharging cylinder (717) is installed and fixed on the top surface of the right cylinder installation plate (713);

the left discharging block (719) is fixedly arranged on a piston rod of the left discharging cylinder (715);

the right discharging block (721) is arranged and fixed on a piston rod of the right discharging cylinder (717);

starting a left discharging cylinder (715) to push a left discharging block (719) backwards to enter a gap between a left moving die (309) and a fixed die (305);

the right dump cylinder (717) is activated to push the right dump block (721) back into the gap between the right moving mold (313) and the stationary mold (305).

The technical scheme is further limited in that a tank chain protective shell (207) is installed on the top surface of the fixed bottom plate (201) close to the right side, and a tank chain (209) is installed and fixed in the tank chain protective shell (207);

the automatic cold shrink tube brace cutting and discharging equipment further comprises a movement module (4), wherein the movement module (4) comprises an electric sliding table (401), an installation bottom plate (403), a motor installation plate (405), a stepping motor (407) and a transmission gear (409);

the electric sliding table (401) is fixedly arranged on the fixed bottom plate (201);

the mounting bottom plate (403) is slidably mounted on the top of the electric sliding table (401);

the motor mounting plate (405) is vertically mounted and fixed on the mounting bottom plate (403);

the stepping motor (407) is fixedly arranged on the motor mounting plate (405);

the transmission gear (409) is connected and fixed on a rotating shaft of the stepping motor (407);

the mounting bottom plate (403) is connected with the tank chain (209), and the tank chain (209) drives the mounting bottom plate (403), the motor mounting plate (405), the stepping motor (407) and the transmission gear (409) to move along the front-back direction.

The technical scheme is further limited in that the cold shrink tube automatic brace cutting and discharging equipment further comprises a brace module (5), wherein the brace module (5) is fixedly installed on a mounting bottom plate (403) of the moving module (4) and moves along the front-back direction along with the mounting bottom plate (403);

the brace module (5) comprises a front end fixing block (501), a middle fixing block (503), a fixing sleeve (505), two oilless bushings (507), a rotating shaft (509), a hook (511), an optical fiber rack (513), a right-angle optical fiber (515) and a driven gear (517);

the front end fixing block (501) is fixedly arranged at the front end of the mounting bottom plate (403);

the middle fixing block (503) is fixedly arranged at the rear end of the mounting bottom plate (403);

the front end of the fixed sleeve (505) is fixedly arranged in the front end fixed block (501), and the middle part of the fixed sleeve is fixedly arranged in the middle fixed block (503);

the two oilless bushings (507) are respectively installed and fixed at the front end and the rear end of the fixed sleeve (505);

a rotation shaft (509) is rotatably installed in the two oilless bushes (507);

the hook (511) is fixed on the rear end of the rotating shaft (509);

the optical fiber rack (513) is fixedly arranged at the rear end part of the fixed sleeve (505);

the right-angle optical fiber (515) is fixedly arranged on the optical fiber rack (513);

a driven gear (517) is fixedly mounted on the front end of the rotating shaft (509);

the driven gear (517) and the transmission gear (409) are meshed with each other, and the transmission gear (409) drives the driven gear (517) to rotate.

The technical scheme is further limited in that the automatic cold shrink tube brace cutting and discharging equipment further comprises a slitting module (6), and the slitting module (6) is fixedly installed on the fixed bottom plate (201).

Compared with the prior art, the invention has the following beneficial effects: the automatic brace cutting and discharging equipment for the cold shrink tube comprises a clamping module, a moving module, a brace module, a slitting module and a discharging module, and the work of bracing, slitting, discharging and the like can be realized fully automatically, so that the production efficiency is high, and the product quality is good.

Drawings

FIG. 1 is an overall structure view of the automatic bracing, cutting and discharging device for cold shrink tubes according to the present invention

Fig. 2 is an exploded view of a backplane module.

Fig. 3 is an exploded view of the clamping module.

Fig. 4 is an exploded view of the motion module and riblet module.

Fig. 5 is an exploded view of a riblet module.

Figure 6 is an exploded view of the discharge module.

Detailed Description

Referring to fig. 1 to 6, the present invention provides an automatic brace cutting and discharging apparatus for a cold shrink tube, which includes a frame 1, a bottom plate module 2, a clamping module 3, a moving module 4, a brace module 5, a slitting module 6, and a discharging module 7.

The frame 1 rests on the ground.

The bottom plate module 2 is fixedly arranged at the top of the frame 1.

The floor module 2 comprises a fixed floor 201 fixed on top of the frame 1.

Two supporting plates 203 are fixedly installed on the upper rear end portions of the top surfaces of the fixed base plates 201, and cylinder mounting plates 205 are fixedly installed on the top surfaces of the two supporting plates 203.

A tank chain protective housing 207 is installed on the top surface of the fixed base plate 201 close to the right side, and a tank chain 209 is installed and fixed in the tank chain protective housing 207.

The clamping module 3 comprises a sliding table cylinder 301, a die mounting plate 303, a fixed die 305, a left clamping cylinder 307, a left movable die 309, a right clamping cylinder 311 and a right movable die 313.

The sliding table cylinder 301 is fixedly mounted on the cylinder mounting plate 205.

The slide table cylinder 301 includes a cylinder body 3012 slidable in the left-right direction.

The die mounting plate 303 is fixedly mounted on the top of the cylinder 3012.

The fixed die 305 is fixed to the middle of the die mounting plate 303.

The left clamp cylinder 307 is fixedly mounted on the mold mounting plate 303 on the left side of the fixed mold 305.

The left moving mold 309 is mounted on a piston rod fixed to the left clamp cylinder 307 between the fixed mold 305 and the left clamp cylinder 307. .

The right clamp cylinder 311 is mounted and fixed to the mold mounting plate 303 on the right side of the fixed mold 305.

The right movable mold 313 is mounted on a piston rod fixed to the right clamp cylinder 311 between the fixed mold 305 and the right clamp cylinder 311.

After the left clamping cylinder 307 is started, the left movable mold 309 is driven to move along the left-right direction, when the left movable mold 309 moves rightwards, the left movable mold 309 is closer to the fixed mold 305, the left movable mold 309 and the fixed mold 305 are matched to clamp a cold shrink tube, when the left movable mold 309 moves leftwards, the left movable mold 309 is farther away from the fixed mold 305, and the clamped cold shrink tube is loosened.

After the right clamping cylinder 311 is started, the right movable mold 313 is driven to move along the left-right direction, when the right movable mold 313 moves leftwards, the right movable mold 313 is closer to the fixed mold 305, the right movable mold 313 and the fixed mold 305 cooperate to clamp a cold shrink tube, and when the right movable mold 313 moves rightwards, the right movable mold 313 is farther away from the fixed mold 305, and the clamped cold shrink tube is released.

The motion module 4 includes an electric sliding table 401, an installation bottom plate 403, a motor installation plate 405, a stepping motor 407, and a transmission gear 409.

Electric sliding table 401 is fixed on fixed bottom plate 201.

Mounting base plate 403 is slidably mounted on top of power slide 401.

The motor mounting plate 405 is vertically mounted and fixed on the mounting base plate 403.

The stepping motor 407 is fixedly mounted on the motor mounting plate 405.

The transmission gear 409 is connected and fixed on the rotating shaft of the stepping motor 407.

The stepping motor 407 is started, and the stepping motor 407 drives the transmission gear 409 to rotate.

The mounting base plate 403 is connected with a tank chain 209, and the tank chain 209 drives the mounting base plate 403, the motor mounting plate 405, the stepping motor 407 and the transmission gear 409 to move along the front-back direction.

The brace module 5 is mounted and fixed on the mounting base plate 403 of the moving module 4, and moves in the front-rear direction along with the mounting base plate 403.

The brace module 5 comprises a front end fixing block 501, a middle fixing block 503, a fixing sleeve 505, two oilless bushings 507, a rotating shaft 509, a hook 511, a fiber rack 513, a right-angle fiber 515 and a driven gear 517.

The front end fixing block 501 is fixed to the front end of the mounting base plate 403.

The middle fixing block 503 is fixedly installed at the rear end of the installation base plate 403.

The front end of the fixing sleeve 505 is fixedly arranged in the front end fixing block 501, and the middle part of the fixing sleeve is fixedly arranged in the middle fixing block 503.

Two oilless bushings 507 are respectively installed and fixed at the front and rear ends of the fixing sleeve 505.

A rotation shaft 509 is rotatably installed in the two oilless bushings 507.

The hook 511 is fixedly attached to the rear end of the rotary shaft 509.

The fiber holder 513 is fixedly mounted to the rear end of the fixture housing 505.

The right-angle optical fiber 515 is mounted and fixed on the optical fiber rack 513.

The driven gear 517 is fixedly attached to the distal end of the rotary shaft 509.

The driven gear 517 and the transmission gear 409 are meshed with each other, and the transmission gear 409 drives the driven gear 517 to rotate.

The slitting module 6 is fixedly arranged on the fixed base plate 201 and is positioned between the clamping module 3 and the moving module 4.

The discharging module 7 comprises a left bottom plate 701, a right bottom plate 703, a vertical plate 705, a left reinforcing rib plate 707, a right reinforcing rib plate 709, a left cylinder mounting plate 711, a right cylinder mounting plate 713, a left discharging cylinder 715, a right discharging cylinder 717, a left discharging block 719 and a right discharging block 721.

The left base plate 701 is fixedly installed on the fixed base plate 201 close to the left side and located at the junction position of the clamping module 3 and the moving module 4.

The right bottom plate 703 is fixed to the fixed bottom plate 201 near the right side and located at the junction of the clamping module 3 and the moving module 4.

The vertical plate 705 is vertically fixed on the left base plate 701 and the right base plate 703.

And a left reinforcing rib plate 707 is fixedly arranged on the vertical plate 705 and the left bottom plate 701, so that the vertical plate 705 is firmly arranged.

The right reinforcing rib 709 is fixedly installed on the vertical plate 705 and the right bottom plate 703, so that the vertical plate 705 is firmly installed.

And a left cylinder mounting plate 711 is fixedly arranged on the vertical plate 705 and the left reinforcing rib plate 707.

The right cylinder mounting plate 713 is fixedly mounted on the vertical plate 705 and the right reinforcing rib plate 709.

The left discharging cylinder 715 is fixedly arranged on the top surface of the left cylinder mounting plate 711.

The right discharge cylinder 717 is fixedly installed on the top surface of the right cylinder mounting plate 713.

And a left discharging block 719 is fixedly mounted on the piston rod of the left discharging cylinder 715.

The right discharging block 721 is installed and fixed on the piston rod of the right discharging cylinder 717.

And starting the left discharging cylinder 715 to push the left discharging block 719 backwards, so that the left discharging block enters a gap between the left moving die 309 and the fixed die 305, and the cold-shrink tube positioned in the left discharging block is pushed backwards to realize discharging.

And starting the right discharging air cylinder 717, pushing the right discharging block 721 back, entering a gap between the right moving die 313 and the fixed die 305, and pushing the cold shrinkage pipe located in the gap back to realize discharging.

The invention has the following beneficial effects: the automatic brace cutting and discharging equipment for the cold shrink tube comprises a clamping module 3, a moving module 4, a brace module 5, a slitting module 6 and a discharging module 7, wherein the work of bracing, slitting, discharging and the like can be realized fully automatically, the production efficiency is high, and the product quality is good.

Claims (1)

1. Automatic brace cutting and discharging equipment for cold shrink tubes is characterized by comprising a rack (1), a bottom plate module (2), a clamping module (3), a moving module (4), a brace module (5) and a discharging module (7);

the bottom plate module (2) is fixedly arranged at the top of the frame (1);

the bottom plate module (2) comprises a fixed bottom plate (201) which is fixedly arranged at the top of the rack (1);

two supporting plates (203) are fixedly arranged at the upper rear end part of the top surface of the fixed bottom plate (201), and a cylinder mounting plate (205) is fixedly arranged on the top surfaces of the two supporting plates (203);

a tank chain protective shell (207) is arranged on the top surface of the fixed bottom plate (201) close to the right side, and a tank chain (209) is fixedly arranged in the tank chain protective shell (207);

the clamping module (3) comprises a sliding table cylinder (301), a mould mounting plate (303), a fixed mould (305), a left clamping cylinder (307), a left moving mould (309), a right clamping cylinder (311) and a right moving mould (313);

the sliding table cylinder (301) is fixedly arranged on the cylinder mounting plate (205);

the sliding table cylinder (301) comprises a cylinder body (3012) which slides along the left-right direction;

the die mounting plate (303) is fixedly mounted at the top of the cylinder body (3012);

the fixed die (305) is fixedly arranged in the middle of the die mounting plate (303);

the left clamping cylinder (307) is fixedly arranged on the die mounting plate (303) and is positioned on the left side of the fixed die (305);

the left movable mould (309) is installed and fixed on a piston rod of the left clamping cylinder (307) and is positioned between the fixed mould (305) and the left clamping cylinder (307);

the right clamping cylinder (311) is fixedly arranged on the die mounting plate (303) and is positioned on the right side of the fixed die (305);

the right movable die (313) is arranged and fixed on a piston rod of the right clamping cylinder (311) and is positioned between the fixed die (305) and the right clamping cylinder (311);

the motion module (4) comprises an electric sliding table (401), an installation bottom plate (403), a motor installation plate (405), a stepping motor (407) and a transmission gear (409);

the electric sliding table (401) is fixedly arranged on the fixed bottom plate (201);

the mounting bottom plate (403) is slidably mounted on the top of the electric sliding table (401);

the motor mounting plate (405) is vertically mounted and fixed on the mounting bottom plate (403);

the stepping motor (407) is fixedly arranged on the motor mounting plate (405);

the transmission gear (409) is connected and fixed on a rotating shaft of the stepping motor (407);

the mounting bottom plate (403) is connected with a tank chain (209), and the tank chain (209) drives the mounting bottom plate (403), the motor mounting plate (405), the stepping motor (407) and the transmission gear (409) to move along the front-back direction;

the brace module (5) is fixedly arranged on the mounting bottom plate (403) of the motion module (4) and moves along the front-back direction along with the mounting bottom plate (403);

the brace module (5) comprises a front end fixing block (501), a middle fixing block (503), a fixing sleeve (505), two oilless bushings (507), a rotating shaft (509), a hook (511), an optical fiber rack (513), a right-angle optical fiber (515) and a driven gear (517);

the front end fixing block (501) is fixedly arranged at the front end of the mounting bottom plate (403);

the middle fixing block (503) is fixedly arranged at the rear end of the mounting bottom plate (403);

the front end of the fixed sleeve (505) is fixedly arranged in the front end fixed block (501), and the middle part of the fixed sleeve is fixedly arranged in the middle fixed block (503);

the two oilless bushings (507) are respectively installed and fixed at the front end and the rear end of the fixed sleeve (505);

a rotation shaft (509) is rotatably installed in the two oilless bushes (507);

the hook (511) is fixed on the rear end of the rotating shaft (509);

the optical fiber rack (513) is fixedly arranged at the rear end part of the fixed sleeve (505);

the right-angle optical fiber (515) is fixedly arranged on the optical fiber rack (513);

a driven gear (517) is fixedly mounted on the front end of the rotating shaft (509);

the driven gear (517) is meshed with the transmission gear (409), and the transmission gear (409) drives the driven gear (517) to rotate;

the discharging module (7) comprises a left bottom plate (701), a right bottom plate (703), a vertical plate (705), a left reinforcing rib plate (707), a right reinforcing rib plate (709), a left cylinder mounting plate (711), a right cylinder mounting plate (713), a left discharging cylinder (715), a right discharging cylinder (717), a left discharging block (719) and a right discharging block (721);

the left bottom plate (701) is fixedly arranged on the left side of the fixed bottom plate (201);

the right bottom plate (703) is fixedly arranged on the fixed bottom plate (201) close to the right side;

the vertical plate (705) is vertically arranged and fixed on the left bottom plate (701) and the right bottom plate (703);

the left reinforcing rib plate (707) is fixedly arranged on the vertical plate (705) and the left bottom plate (701);

the right reinforcing rib plate (709) is fixedly arranged on the vertical plate (705) and the right bottom plate (703);

a left cylinder mounting plate (711) is fixedly arranged on the vertical plate (705) and the left reinforcing rib plate (707);

the right cylinder mounting plate (713) is fixedly mounted on the vertical plate (705) and the right reinforcing rib plate (709);

the left discharging cylinder (715) is fixedly arranged on the top surface of the left cylinder mounting plate (711);

the right discharging cylinder (717) is installed and fixed on the top surface of the right cylinder installation plate (713);

the left discharging block (719) is fixedly arranged on a piston rod of the left discharging cylinder (715);

the right discharging block (721) is arranged and fixed on a piston rod of the right discharging cylinder (717);

starting a left discharging cylinder (715) to push a left discharging block (719) backwards to enter a gap between a left moving die (309) and a fixed die (305);

the right dump cylinder (717) is activated to push the right dump block (721) back into the gap between the right moving mold (313) and the stationary mold (305).

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