CN210596782U - Energy-saving gloves cutting device - Google Patents

Abstract

The utility model discloses an energy-saving glove die cutting device, which comprises a workbench, wherein the rear side of the workbench is connected with a mounting plate arranged above the workbench through a support plate, the workbench is provided with a conveyor belt driven by a driving wheel to rotate, the bottom of the mounting plate is connected with a die cutting group through a cylinder, a one-way transmission mechanism is arranged between the die cutting group and the driving wheel, and when the cylinder drives the die cutting group to move upwards, the driving wheel is driven to rotate through the one-way transmission mechanism; the one-way transmission mechanism comprises a driving rack which moves synchronously with the die cutting group, a ratchet and pawl component which is driven by the driving rack to rotate in one direction and an accelerating belt transmission component which is arranged between the ratchet and pawl component and the driving wheel; compared with the prior art, the utility model, this device convenient operation, machining efficiency is high and energy-conserving, has adopted some common spare parts to constitute simultaneously, and its equipment cost is lower.

Description

Energy-saving gloves cutting device

Technical Field

The utility model relates to a gloves processing technology field, concretely relates to energy-saving gloves cutting device.

Background

The skiing gloves are also called skiing sports gloves, are mainly applied to field exploration and skiing field sports, and are different from daily wearing heat preservation, labor protection and decoration gloves.

The liner of the ski glove and the heat-insulating material in the glove are processed primarily to perform the next step, and the whole raw material is usually cut in a copying cutting or manual cutting mode in the blanking process, so that the processing efficiency is low.

In order to improve the processing efficiency, automatic large-scale equipment is adopted to cut the whole raw material, after a plurality of glove-shaped cloth blocks are cut on the whole raw material, two glove-shaped cloth blocks are overlapped together through a sewing machine to be sewn into gloves; but purchasing large equipment is expensive and energy intensive for small process plants.

SUMMERY OF THE UTILITY MODEL

To the not enough that exists among the prior art, the utility model aims at providing an energy-saving gloves cutting device to solve prior art, purchase the expensive and high problem of power consumption of large-scale equipment expense to small-size processing factory.

In order to achieve the above purpose, the utility model adopts the following technical scheme: an energy-saving glove die-cutting device comprises a workbench, wherein the rear side of the workbench is connected with a mounting plate arranged above the workbench through a support plate, a conveying belt driven by a driving wheel to rotate is arranged on the workbench, the bottom of the mounting plate is connected with a die-cutting group through an air cylinder, a one-way transmission mechanism is arranged between the die-cutting group and the driving wheel, and when the air cylinder drives the die-cutting group to move upwards, the driving wheel is driven to rotate through the one-way transmission mechanism;

the one-way transmission mechanism comprises a driving rack which moves synchronously with the die cutting group, a ratchet and pawl assembly which is driven by the driving rack to rotate in one direction and an accelerating belt transmission assembly which is arranged between the ratchet and pawl assembly and the driving wheel.

Compared with the prior art, the utility model discloses following beneficial effect has:

the device uses the cylinder as a power source, the die cutting group is reciprocated above the workbench through the telescopic motion of the cylinder, the raw materials conveyed on the conveyor belt are continuously sheared, and the working efficiency is high; the driving wheel is rotated by a one-way transmission mechanism formed by common parts such as a driving rack, a ratchet wheel and pawl assembly, an accelerating belt transmission assembly and the like through the power generated when the cylinder drives the die cutting group to move upwards, and the raw materials to be processed are conveyed by the conveying belt to facilitate the next shearing work; when the cylinder drives the die cutting group to move downwards, the driving wheel stops rotating through the design of the one-way transmission mechanism, so that the die cutting group can stably shear the raw materials on the conveying belt; the whole operation process is convenient to operate, the machining efficiency is high, energy is saved, meanwhile, the machine is composed of common parts, and the equipment cost is low.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic connection diagram of the unidirectional transmission mechanism of the present invention;

FIG. 3 is a schematic view of the connection between the ratchet and pawl assembly and the drive rack of the present invention;

FIG. 4 is a cross-sectional view of the support frame of FIG. 1 taken along line A-A;

fig. 5 is a schematic diagram of a die-cutting set.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments:

reference numerals in the drawings of the specification include: the device comprises a workbench 1, a mounting plate 2, a driving wheel 3, a conveyor belt 4, a cylinder 5, a driving rack 6, a box body 7, a first belt wheel 8, a second belt wheel 9, a pinion 10, a large gear 11, a ratchet wheel 12, a pawl 13, a support frame 14, a vent hole 15, an adsorption cover 16, a suction machine 17, an inverted U-shaped frame 18, a mounting column 19 and a die cutting block 20.

Examples

Referring to fig. 1 to 5: an energy-saving glove die-cutting device comprises a workbench 1, wherein the rear side of the workbench 1 is connected with a mounting plate 2 arranged above the workbench 1 through a support plate, a conveyor belt 4 driven by a driving wheel 3 to rotate is arranged on the workbench 1, a driven wheel matched with the driving wheel 3 is further arranged on the conveyor belt 4, the bottom of the mounting plate 2 is connected with a die-cutting group through an air cylinder 5, a one-way transmission mechanism is arranged between the die-cutting group and the driving wheel 3, and the driving wheel 3 is driven to rotate through the one-way transmission mechanism when the air cylinder 5 drives the die-cutting group to move upwards; one-way drive mechanism includes and carries out synchronous motion's drive rack 6 with the cross cutting group, by the one-way pivoted ratchet pawl subassembly of drive rack 6 drive, the setting is at the acceleration belt drive subassembly between ratchet pawl subassembly and action wheel 3 and the fixed box 7 that sets up in the backup pad, drive rack 6 slides and sets up in box 7 and the upper end and the lower extreme of drive rack 6 all wear out from box 7 and freely slide, ratchet pawl subassembly and acceleration belt drive subassembly are located box 7 and acceleration belt drive subassembly have partial structure to wear out from box 7, protect each part through box 7.

The accelerating belt transmission assembly in the device comprises a first belt wheel 8 and a second belt wheel 9, wherein the first belt wheel 8 is coaxially connected with the driving wheel 3, the first belt wheel 8 is in belt transmission, the second belt wheel 9 is coaxially connected with a small gear 10, and the small gear 10 is meshed with a large gear 11 connected with the ratchet wheel and pawl assembly; the ratchet wheel and pawl assembly comprises a ratchet wheel 12 coaxially connected with the large gear 11 and a pawl 13 connected with the ratchet wheel 12 in a matched mode, and the power output end of the pawl 13 is driven by gear teeth on the sliding driving rack 6 to swing in a reciprocating mode; the second belt wheel 9, the small gear 10, the large gear 11, the ratchet wheel 12 and the pawl 13 are all arranged in the box body 7, a belt penetrates out of the box body 7 and moves freely, and the first belt wheel 8 is arranged outside the box body 7; when the cylinder 5 drives the die cutting group to move downwards for cutting, the driving rack 6 moves downwards along with the die cutting group, and due to the one-way transmission function of the ratchet wheel 12 and the pawl 13, although the pawl 13 swings back and forth due to the movement of the driving rack 6, the ratchet wheel 12 does not rotate, so that the driving wheel 3 has no power source, the conveyor belt 4 is static, and the die cutting group can stably shear the raw materials on the conveyor belt 4 in a pressing mode; when the cylinder 5 drives the die cutting group to move upwards for cutting, the driving rack 6 moves upwards along with the die cutting group, the pawl 13 drives the ratchet wheel 12 to rotate, so that the large gear 11 rotates along with the ratchet wheel 12, the transmission process of the acceleration belt transmission assembly is accelerated through the matching arrangement of the large gear 11 and the small gear 10, so that the second belt wheel 9 rotates rapidly, the driving wheel 3 rotates through power transmission of the belt and the first belt wheel 8, the raw material on the conveying belt 4 is conveyed forwards, and the uncut position of the raw material is conveniently moved to the lower part of the die cutting group for next cutting work; the matching arrangement of the large gear 11 and the small gear 10 enables the small stroke of the air cylinder 5 to drive the large stroke of the conveyor belt 4.

In order to ensure that the conveying belt 4 has enough supporting force when the raw materials are sheared by the die-cutting group and improve the quality of gloves in the shearing process, the worktable 1 is provided with supporting frames 14 penetrating through two sides of the conveying belt 4, and the tops of the supporting frames 14 are abutted against the inner wall of the top of the conveying belt 4; the conveyor belt 4 is supported by the support frame 14, so that the stability of the die cutting group during shearing is improved.

Furthermore, in order to ensure that the raw materials are orderly attached to the conveyor belt 4 for conveying, and simultaneously avoid the glove-shaped cloth or the raw materials after the cutting is finished once being taken away by the power when the die cutting group moves upwards; a plurality of vent holes 15 are uniformly distributed on the conveyor belt 4, an adsorption cover 16 which is attached to the inner wall of the top of the conveyor belt 4 is arranged in the middle of the top of the support frame 14, the adsorption cover 16 is connected with a suction machine 17 through a communicating pipe, and the communicating pipe penetrates through the side wall of the support frame 14; the suction machine 17 provides suction power for the interior of the suction cover 16, provides suction force for the raw materials through the vent holes 15, and enables the raw materials to be orderly attached to the conveyor belt 4 for shearing and conveying.

In order to further improve the shearing efficiency, the die cutting group comprises an inverted U-shaped frame fixedly connected to a telescopic shaft of the air cylinder 5, the inverted U-shaped frame is arranged along the width direction of the conveyor belt 4, a plurality of mounting columns 19 positioned between two vertical plates of the inverted U-shaped frame are arranged on a transverse plate of the inverted U-shaped frame along the length direction of the transverse plate, and each mounting column 19 can be detachably and fixedly connected with a die cutting block 20; the structural design of cross cutting group makes once can cut and form a plurality of gloves type cloth, improves machining efficiency, and the connected mode between erection column 19 and the cross cutting piece 20 can be threaded connection simultaneously, is convenient for conveniently change different die cutting pieces 20, and cross cutting piece 20 is current gloves type cloth shearing die.

When the cutting die is used, the raw materials are placed on the conveying belt 4, and the suction machine 17 and the air cylinder 5 are started, so that the cutting die set can be cut conveniently and quickly; the cost of the parts of the device is only 2000 yuan, and the device is suitable for small-sized processing plants.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (6)

1. An energy-saving glove die-cutting device comprises a workbench and is characterized in that the rear side of the workbench is connected with a mounting plate arranged above the workbench through a support plate, a conveying belt driven by a driving wheel to rotate is arranged on the workbench, the bottom of the mounting plate is connected with a die-cutting group through an air cylinder, a one-way transmission mechanism is arranged between the die-cutting group and the driving wheel, and when the air cylinder drives the die-cutting group to move upwards, the driving wheel is driven to rotate through the one-way transmission mechanism;

the one-way transmission mechanism comprises a driving rack which moves synchronously with the die cutting group, a ratchet and pawl assembly which is driven by the driving rack to rotate in one direction and an accelerating belt transmission assembly which is arranged between the ratchet and pawl assembly and the driving wheel.

2. The energy efficient glove die cutting apparatus according to claim 1, wherein: the accelerating belt transmission assembly comprises a first belt wheel and a second belt wheel, the first belt wheel is coaxially connected with the driving wheel, the second belt wheel is in belt transmission, the second belt wheel is coaxially connected with a small gear, and the small gear is meshed with a large gear connected with the ratchet wheel and pawl assembly.

3. The energy efficient glove die cutting apparatus according to claim 2, wherein: the ratchet wheel and pawl assembly comprises a ratchet wheel coaxially connected with the large gear and a pawl matched and connected with the ratchet wheel, and the power output end of the pawl is driven by gear teeth on the sliding driving rack to swing in a reciprocating mode.

4. An energy efficient glove die cutting apparatus as claimed in any one of claims 1 to 3 wherein: the supporting frames are arranged on the two sides of the conveying belt in a penetrating mode, and the top of each supporting frame is abutted to the inner wall of the top of the conveying belt.

5. The energy efficient glove die cutting apparatus according to claim 4, wherein: the conveying belt is evenly provided with a plurality of air holes, the middle part of the top of the supporting frame is provided with an adsorption cover which is attached to the inner wall of the top of the conveying belt, and the adsorption cover is connected with a suction machine through a communicating pipe.

6. The energy efficient glove die cutting apparatus according to claim 1, wherein: the cross cutting group includes that fixed connection falls "U" type frame on the telescopic shaft of cylinder, falls "U" type frame and arranges along the width direction of conveyer belt, is provided with a plurality of erection columns that lie in between two risers of falling "U" type frame along its length direction on the diaphragm of falling "U" type frame, all can dismantle fixedly connected with mould stripping and slicing on every erection column.

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