CN223480791U - An improved edge production device - Google Patents

Abstract

The utility model provides an improved surrounding edge production device which comprises a main body frame, a power part, a fixed part, a reinforcing part, a storage part and a control part, wherein the main body frame comprises a base, a processing seat, a bearing seat, a sewing machine body and a sewing machine base, the power part comprises a screw rod stepping motor, a movable carrier plate and a fixed box, the fixed part comprises a push rod motor, an electromagnet and a movable compression rod, the reinforcing part comprises an electric lifting device, an electric nailing machine, an electric heating knife and a composite base, and the storage part comprises a grabbing mechanism, a transferring mechanism and a storage mechanism. The method has the advantages that the positions of the surrounding edge and the rubber band can be quickly fixed, the working efficiency is greatly improved, the manufactured surrounding edge can be quickly transferred out of a processing area, a large amount of manpower and material resources are saved, the experience requirements on operators are reduced, the operation can be performed after simple training, and the production cost is remarkably reduced.

Description

Improved surrounding edge production device

Technical Field

The utility model relates to the field of textile processing, in particular to an improved surrounding edge production device.

Background

The surrounding edge is used for decorating or fixing a side edge structure of a textile in the textile field, for example, the surrounding edge of a mattress is an important part for manufacturing a high-quality spring mattress, and comprises cloth and rubber strings, and also comprises the surrounding edge for a pillow and the surrounding edge for a cushion. The utility model discloses an electric bed or an electric mattress lifting decorative surrounding edge as disclosed in Chinese patent CN216754006U, which comprises a mattress and a bed sheet paved on the mattress, wherein the outside of the bed sheet is provided with the surrounding edge, the surrounding edge comprises an elastic strip, the elastic strip is arranged at the top end of the surrounding edge and is arranged along the length direction of the surrounding edge, the elastic strip surrounds an annular structure, a fracture is formed in the surrounding edge, the fracture is movably connected through a connecting piece, the electric bed or the electric mattress lifting decorative surrounding edge is sleeved on the outside of the bed sheet through the arranged elastic strip, and then the elastic strip generates elasticity to fix the edge of the bed sheet on the outside of the mattress. Such as the above-described peripheral edge, the following drawbacks exist at the time of production:

firstly, the positions of the surrounding edge and the rubber band need to be frequently adjusted, so that the production efficiency is reduced;

Secondly, the surrounding edge needs to be manually transferred, so that a large amount of working space is occupied, and additional manpower is required;

Thirdly, the requirement on experience of operators is high, a great deal of time training is needed, and production cost is increased.

Disclosure of utility model

The utility model provides an improved surrounding edge production device which can effectively solve the problems in the background technology.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

An improved surrounding edge production device comprises a main body frame, a power part, a fixing part, a reinforcing part, a storage part and a control part.

Specifically, the main body frame comprises a base, a processing seat, a bearing seat, a sewing machine body and a sewing machine seat. The base comprises a cuboid hollow container I, a processing seat is arranged on the base through a support post I and comprises a cuboid hollow container II, a rectangular through hole I, a rectangular through hole II, a rectangular through hole III, a rectangular through hole IV, a strip-shaped groove I and a strip-shaped groove II are arranged on an upper bottom plate of the processing seat, the rectangular through hole III is located between the rectangular through hole I and the rectangular through hole II, a bearing seat is arranged on the base through the support post II and located above the processing seat, a rectangular through hole V is arranged on the bearing seat, and a sewing machine body is arranged on the bearing seat, and a sewing machine seat is arranged in the rectangular through hole IV and located below the sewing machine body.

Specifically, the power part comprises a screw rod stepping motor I, a movable carrier plate I, a fixed box I and a fixed box II. The screw rod stepping motor I is arranged on the inner wall of the lower bottom plate of the processing seat through a mounting frame, the movable carrier plate I is connected to the lower bottom plate of the processing seat through a sliding rod I in a sliding mode, the lower bottom surface of the movable carrier plate I is connected with a nut seat of the screw rod stepping motor I through a connecting component, the fixed box I and the fixed box II are arranged on the movable carrier plate I, the fixed box I is connected in a rectangular through hole I in a sliding mode, round pin holes I are formed in the upper bottom plate of the fixed box I at equal intervals, a rectangular through hole six is further formed in the upper bottom plate of the fixed box I, the fixed box II is connected in the rectangular through hole II in a sliding mode, and strip-shaped through holes I are formed in the upper bottom plate of the fixed box I at equal intervals.

Specifically, the fixed part comprises a first push rod motor, a second push rod motor, an electromagnet I, an electromagnet II, a first movable compression rod and a second movable compression rod. The push rod motor I is arranged in the fixed box I and is positioned below the circular pin hole I, the electromagnet I is arranged on the movable end of the push rod motor I, the movable press rod I is a regular quadrangular prism, a circular groove I is arranged on the bottom surface of the square prism, an iron sheet I is arranged in the circular groove I, the iron sheet I is matched with the electromagnet I, the push rod motor II is arranged in the fixed box II and is positioned below the strip-shaped through hole I, an L-shaped support rod is arranged on the movable end of the push rod motor II, a J-shaped mounting hook is arranged on the L-shaped support rod, an electromagnet II is arranged on the J-shaped mounting hook, the movable press rod II is a regular quadrangular prism, an iron sheet II is arranged on the movable press rod II, and the iron sheet II is matched with the electromagnet II.

Specifically, the reinforcing part comprises an electric lifting device, an electric nailing machine, an electric heating knife and a composite base. The electric lifting device is arranged on the lower bottom surface of the bearing seat, the electric nailing machine and the electric heating knife are arranged on the movable end of the electric lifting device, the composite base is arranged in the rectangular through hole IV and positioned below the electric lifting device, the strip-shaped groove III and the strip-shaped groove IV are arranged on the composite base and are respectively matched with the electric nailing machine and the electric heating knife.

Specifically, the storage section includes a gripping mechanism, a transfer mechanism, and a storage mechanism. The transfer mechanism comprises a screw rod stepping motor II and a movable carrier plate II, wherein the screw rod stepping motor II is arranged on the bearing seat, and the movable carrier plate II is arranged on a nut seat of the screw rod stepping motor II through a connecting component. The grabbing mechanism comprises an electric telescopic rod, a clamping jaw motor and a pushing rod motor III, wherein the electric telescopic rod is arranged on a movable carrier plate II, the clamping jaw motor is arranged on the movable end of the electric telescopic rod, the pushing rod motor III is arranged on the inner wall of the upper bottom plate of the fixed box I, a limiting rod is arranged on the movable end of the pushing rod motor III, and the limiting rod is located below the rectangular through hole III. The storage mechanism comprises a screw rod stepping motor III, a movable carrier plate III and a storage bin, wherein the screw rod stepping motor III is arranged on the base, the movable carrier plate III is connected to the base in a sliding mode, a strip-shaped baffle is arranged on the lower bottom surface of the movable carrier plate III, a push rod motor IV is arranged on a nut seat of the screw rod stepping motor III, and the storage bin is detachably connected to the movable carrier plate III.

Specifically, the control system comprises a control mechanism, a feedback mechanism and a PLC controller. The control mechanism comprises a start switch, a fixed switch, a processing switch, an unloading switch and a pause switch. The feedback mechanism comprises a plurality of distance sensor modules.

More specifically, the connecting component comprises a U-shaped connecting frame, a second slide bar, a connecting slide block and a reset spring, wherein the second slide bar is arranged on the U-shaped connecting frame, the connecting slide block is connected to the second slide bar in a sliding manner, and the connecting slide block is connected with the U-shaped connecting frame through the reset spring.

Further, a rope chain is additionally arranged between the L-shaped supporting rod and the movable compression rod II, and an anti-skid silica gel strip is additionally arranged on the movable compression rod II.

Compared with the prior art, the beneficial effects are that:

In the utility model, through the integral arrangement of the main body frame, the power part, the fixing part, the reinforcing part, the storage part and the control part, the following functions are realized:

First, can fix the position of surrounding edge and rubber band fast, improve work efficiency by a wide margin.

Secondly, the manufactured surrounding edge can be quickly transferred out of a processing area, so that a large amount of manpower and material resources are saved.

Thirdly, the experience requirement on operators is greatly reduced, the operation can be performed after simple training, and the production cost is remarkably reduced.

Drawings

FIG. 1 is a schematic top view of the present utility model;

FIG. 2 is a schematic top view partially in section;

FIG. 3 is a schematic view of a front partial cross-sectional structure of the present utility model;

FIG. 4 is a schematic view of a partially enlarged cross-sectional structure in front view of the present utility model;

FIG. 5 is a schematic diagram A of the system structure of the present utility model;

Fig. 6 is a schematic diagram B of the system structure of the present utility model.

In the figure, 101, 102, processing stand, 103, load bearing stand, 104, stitching machine body, 105, stitching machine stand, 201, screw stepper motor, 202, movable carrier plate, 203, fixed case, 204, fixed case, 205, slide bar, 301, push rod motor, 302, movable push rod, 303, push rod motor, 304, movable push rod, 401, electric lifting device, 402, composite base, 501, screw stepper motor, 502, movable carrier plate, 503, electric telescopic rod, 504, jaw motor, 505, push rod motor, 506, screw stepper motor, 507, push rod motor, 508, storage bin.

Detailed Description

Embodiment 1 referring to fig. 1 to 6, an improved peripheral edge producing apparatus includes a main body frame, a power section, a fixing section, a reinforcing section, a storage section, and a control section.

The main body frame includes a base 101, a processing seat 102, a bearing seat 103, a sewing machine body 104, and a sewing machine base 105.

The base 101 includes a rectangular parallelepiped hollow vessel one.

The processing seat 102 is disposed on the base 101 through a first pillar.

The processing seat 102 comprises a second cuboid hollow container.

The upper bottom plate of the processing seat 102 is provided with a first rectangular through hole, a second rectangular through hole, a third rectangular through hole, a fourth rectangular through hole, a first strip-shaped groove and a second strip-shaped groove, wherein the third rectangular through hole is positioned between the first rectangular through hole and the second rectangular through hole.

The bearing seat 103 is arranged on the base 101 through the second support post and is positioned above the processing seat 102.

The bearing seat 103 is provided with a rectangular through hole five.

The sewing machine body 104 is arranged on the bearing seat 103.

The sewing machine base 105 is disposed in the rectangular through hole four and is located below the sewing machine body 104.

The power part comprises a screw rod stepping motor I201, a movable carrier plate I202, a fixed box I203 and a fixed box II 204.

The first screw stepping motor 201 is arranged on the inner wall of the lower bottom plate of the processing seat 102 through a mounting frame.

The movable carrier plate I202 is connected to the lower bottom plate of the processing seat 102 in a sliding way through a sliding rod I205, and the lower bottom surface of the movable carrier plate I202 is connected with the nut seat of the screw rod stepping motor I201 through a connecting component.

The first fixing case 203 and the second fixing case 204 are disposed on the first movable carrier 202.

The first fixing box 203 is slidably connected to the first rectangular through hole.

Circular pin holes I are formed in the upper bottom plate of the first fixing box 203 at equal intervals.

The upper bottom plate of the first fixing box 203 is provided with a rectangular through hole six.

The second fixing box 204 is slidably connected to the second rectangular through hole.

The upper bottom plate of the second fixing box 204 is provided with strip-shaped through holes I at equal intervals.

The fixed part comprises a first push rod motor 301, a second push rod motor 303, a first electromagnet, a second electromagnet, a first movable compression rod 302 and a second movable compression rod 304.

The first push rod motor 301 is disposed in the first fixing box 203 and is located below the first circular pin hole.

The electromagnet one is arranged on the movable end of the push rod motor one 301.

The movable press bar one 302 is a regular quadrangular prism.

A circular groove I is formed in the bottom surface of the movable compression bar I302, an iron sheet I is arranged in the circular groove I, and the iron sheet I is matched with the electromagnet I.

The second push rod motor 303 is disposed in the second fixing case 204 and is located below the first bar-shaped through hole.

An L-shaped supporting rod is arranged at the movable end of the second push rod motor 303, a J-shaped mounting hook is arranged on the L-shaped supporting rod, and an electromagnet second is arranged on the J-shaped mounting hook.

The movable compression bar II 304 is a regular quadrangular prism.

The second movable pressing rod 304 is provided with a second iron sheet which is matched with the second electromagnet.

The reinforcement part comprises an electric lifting device 401, an electric nailing machine, an electric heating knife and a composite base 402.

The electric lifting device 401 is arranged on the lower bottom surface of the bearing seat 103.

An electric nailing machine and an electric heating knife are arranged on the movable end of the electric lifting device 401.

The composite base 402 is disposed in the fourth rectangular through hole and is located below the electric lifting device 401.

The composite base 402 is provided with a third strip-shaped groove and a fourth strip-shaped groove.

The strip-shaped groove III and the strip-shaped groove IV are respectively matched with an electric nailing machine and an electric heating knife.

The storage portion includes a gripping mechanism, a transfer mechanism, and a storage mechanism.

The transfer mechanism comprises a screw rod stepping motor II 501 and a movable carrier plate II 502.

The second screw stepping motor 501 is disposed on the bearing seat 103.

The second movable carrier 502 is disposed on the nut seat of the second screw stepper motor 501.

The grasping mechanism includes an electric telescopic rod 503, a jaw motor 504, and a push rod motor three 505.

The electric telescopic rod 503 is arranged on the movable carrier plate II 502 through a connecting column.

A jaw motor 504 is provided on the movable end of the electric telescopic rod 503.

The third push rod motor 505 is disposed on the inner wall of the upper bottom plate of the first fixing box 203.

And a limiting rod is arranged at the movable end of the push rod motor III 505 and is positioned below the rectangular through hole VI.

The storage mechanism comprises a screw rod stepping motor III 506, a movable carrier plate III and a storage bin 508.

The screw stepping motor three 506 is disposed on the base 101.

The movable carrier plate three is slidably connected to the base 101.

The lower bottom surface of the movable carrier plate III is provided with a strip-shaped baffle.

A nut seat of the screw rod stepping motor III 506 is provided with a push rod motor IV 507.

The storage bin 508 is detachably connected to the third movable carrier.

The control system comprises a control mechanism, a feedback mechanism and a PLC controller.

The control mechanism comprises a start switch, a fixed switch, a processing switch, an unloading switch and a pause switch.

The start switch, the fixed switch, the processing switch, the unloading switch and the pause switch are arranged on the side plate of the processing seat 102.

The feedback mechanism comprises a first distance sensor module, a second distance sensor module and a third distance sensor module.

The first distance sensor module is disposed on the sewing machine body 104 and is used for assisting the PLC controller to detect the position of the surrounding edge.

The second distance sensor module is disposed on the electric lifting device 401 and is used for assisting the PLC controller to detect the position of the surrounding edge.

The third distance sensor module is arranged on the second movable carrier plate 502 and used for assisting the PLC to detect the position of the surrounding edge.

The PLC controller is disposed within the base 101.

The working principle and the using method are as follows:

First, presetting:

And pressing a start switch to debug the power supply of the device. According to the width of the surrounding edge to be processed, a corresponding push rod motor 301 and a corresponding push rod motor 303 are selected.

Second, fixing:

The raw material cloth roll with the surrounding edge to be processed and the rubber band (or elastic band) are placed on the first fixing box 203 and the second fixing box 204, the surrounding edge cloth is folded in half, and the rubber band is placed in the middle of the surrounding edge cloth. One end of the surrounding cloth is placed below the movable compression bar II 304, and the other end is placed below the movable compression bar I302.

Then, the fixed switch is pressed, and the PLC outputs signals to the first push rod motor 301, the second push rod motor 303, the first electromagnet and the second electromagnet.

The electromagnet I and the electromagnet II are started, and the push rod motor I301 and the push rod motor II 303 drive the movable press rod I302 and the movable press rod II 304 to move downwards to finish fixation.

Thirdly, processing:

The processing switch is pressed, and the PLC outputs signals to the screw rod stepping motor I201 and the sewing machine.

The screw rod stepping motor I201 drives the fixed box I203 and the fixed box II 204 to move. When the surrounding edge cloth containing the rubber band is positioned below the distance sensor module, the PLC controller controls the starting of the sewing machine to carry out surrounding edge processing.

After the machining is finished, and the first screw stepping motor 201 drives the first fixing box 203 and the second fixing box 204 to move below the electric lifting device 401, the second distance sensor module outputs signals to the PLC, and the PLC outputs signals to the electric lifting device 401, the electric nailing machine and the electric heating knife.

The electric lifting device 401 drives the electric nailing machine and the electric heating knife to move downwards, and the electric nailing machine and the electric heating knife are orderly started to realize the cutting of the wire ends and the fixing of the end heads.

Fourth, store and transfer:

after the processing is finished, the PLC delays and outputs signals to a screw rod stepping motor II 501, an electric telescopic rod 503, a clamping jaw motor 504 and a push rod motor III 505.

The screw rod step motor II 501 drives the movable carrier plate II 502 to move to the fixed box I203 and the fixed box II 204, and when the clamping jaw motor 504 is positioned below the distance sensor module III, the PLC controller controls the electric telescopic rod 503 and the clamping jaw motor 504 to start orderly to finish grabbing the surrounding edge (the clamping jaw motor 504 presses the surrounding edge part area into the rectangular through hole III).

The PLC controller controls the push rod motor one 301 and the push rod motor two 303 to reset in a delayed mode. The push rod motor III 505 drives the limit rod to be far away from the rectangular through hole six.

Afterwards, the electric telescopic rod 503 drives the surrounding edge to separate from the first fixing box 203 and the second fixing box 204. The screw rod stepping motor II 501 transports the screw rod stepping motor II to the upper part of the storage bin 508 and places the screw rod stepping motor II into the storage bin 508.

Fifth step, unloading:

And pressing an unloading switch, and outputting signals to a screw rod stepping motor III 506 and a push rod motor IV 507 by the PLC.

The screw rod stepping motor III 506 and the push rod motor IV 507 are started, and the loaded storage bin 508 is transferred out of the lower part of the screw rod stepping motor II 501. And then, transferring the empty storage bin 508 to the lower part of the screw stepping motor II 501.

In the embodiment 2, on the basis of the embodiment 1, a rope chain is additionally arranged between the L-shaped supporting rod and the movable compression rod II 304, and an anti-skid silica gel strip is additionally arranged on the movable compression rod II 304.

The screw rod stepping motor comprises a servo motor, a ball screw pair and a nut seat, wherein screw rods are in transmission between the servo motor and the ball screw pair. The ball screw pair comprises a ball screw, a ball nut, a rotary steel ball and a combination of circulating pieces. The nut seat is connected with a ball nut of the ball screw pair.

Claims (10)

1. An improved surrounding edge production device is characterized by comprising a main body frame, a power part, a fixing part, a reinforcing part, a storage part and a control part, wherein the main body frame comprises a base (101), a processing seat (102), a bearing seat (103), a sewing machine body (104) and a sewing machine base (105), the power part comprises a screw rod stepping motor I (201), a movable carrier plate I (202), a fixing box I (203) and a fixing box II (204), the fixing part comprises a push rod motor I (301), a push rod motor II (303), an electromagnet I, an electromagnet II, a movable compression rod I (302) and a movable compression rod II (304), the reinforcing part comprises an electric lifting device (401), an electric nailing machine, an electric heating knife and a composite base (402), the electric lifting device (401) is arranged on the lower bottom surface of the bearing seat (103), the electric nailing machine and the electric heating knife is arranged on the movable end of the electric lifting device (401), the composite base (402) is arranged in a rectangular through hole IV and is arranged below the electric lifting device (401), and provided with a strip-shaped groove III and a strip-shaped groove IV, the groove IV and the strip-shaped groove IV are respectively matched with the electric nailing machine, the electric heating knife and the storage part comprises a strip-shaped grabbing mechanism.

2. The improved surrounding edge production device according to claim 1, wherein the base (101) comprises a first cuboid hollow container, the processing seat (102) is arranged on the base (101) through a first support column and comprises a second cuboid hollow container, a first rectangular through hole, a second rectangular through hole, a third rectangular through hole, a fourth rectangular through hole, a first strip-shaped groove and a second strip-shaped groove are arranged on the upper bottom plate of the second cuboid hollow container, the third rectangular through hole is arranged between the first rectangular through hole and the second rectangular through hole, the bearing seat (103) is arranged on the base (101) through the second support column and is arranged above the processing seat (102), a fifth rectangular through hole is arranged on the bearing seat (103), the sewing machine body (104) is arranged on the bearing seat (103), and the sewing machine seat (105) is arranged in the fourth rectangular through hole and is arranged below the sewing machine body (104).

3. The improved surrounding edge production device according to claim 1, wherein the first screw rod stepping motor (201) is arranged on the inner wall of a lower bottom plate of the processing seat (102) through a mounting frame, the first movable carrier plate (202) is connected to the lower bottom plate of the processing seat (102) through a first sliding rod (205) in a sliding mode, the lower bottom surface of the first movable carrier plate (202) is connected with a nut seat of the first screw rod stepping motor (201) through a connecting component, the first fixed box (203) and the second fixed box (204) are arranged on the first movable carrier plate (202), the first fixed box (203) is connected to the first rectangular through hole in a sliding mode, the first circular pin hole and the sixth rectangular through hole are formed in the upper bottom plate of the first fixed box (203) and the second fixed box (204) is connected to the second rectangular through hole in a sliding mode, and the first strip-shaped through hole is formed in the upper bottom plate of the second fixed box.

4. The improved surrounding edge production device according to claim 1 is characterized in that a push rod motor I (301) is arranged in a fixed box I (203) and located below a circular pin hole I, an electromagnet I is arranged on a movable end of the push rod motor I (301), a circular groove I is formed in the bottom surface of a movable press rod I (302), an iron sheet I is arranged in the circular groove I and is matched with the electromagnet I, a push rod motor II (303) is arranged in a fixed box II (204), an L-shaped supporting rod is arranged on the movable end of the push rod motor II, a J-shaped mounting hook is arranged on the L-shaped supporting rod, an electromagnet II is arranged on the J-shaped mounting hook, an iron sheet II is arranged on a movable press rod II (304), and the iron sheet II is matched with the electromagnet II.

5. The improved surrounding edge production device according to claim 1, wherein the transfer mechanism comprises a second screw rod stepping motor (501) and a second movable carrier plate (502), the second screw rod stepping motor (501) is arranged on the bearing seat (103), and the second movable carrier plate (502) is arranged on a nut seat of the second screw rod stepping motor (501).

6. The improved surrounding edge production device according to claim 1, wherein the grabbing mechanism comprises an electric telescopic rod (503), a clamping jaw motor (504) and a pushing rod motor III (505), the electric telescopic rod (503) is arranged on a movable carrier plate II (502) through a connecting column, the clamping jaw motor (504) is arranged on a movable end of the electric telescopic rod (503), the pushing rod motor III (505) is arranged on the inner wall of an upper bottom plate of the fixed box I (203), a limiting rod is arranged on the movable end of the pushing rod motor III, and the limiting rod is located below the rectangular through hole III.

7. The improved surrounding edge production device according to claim 1, wherein the storage mechanism comprises a screw rod stepping motor III (506), a movable carrier plate III and a storage bin (508), the screw rod stepping motor III (506) is arranged on the base (101), the movable carrier plate III is connected to the base (101) in a sliding mode, a strip-shaped baffle is arranged on the lower bottom surface of the movable carrier plate III, a push rod motor IV (507) is arranged on a nut seat of the screw rod stepping motor III (506), and the storage bin (508) is detachably connected to the movable carrier plate III.

8. An improved surrounding edge production device according to claim 3, wherein the connecting member comprises a U-shaped connecting frame, a second slide rod, a connecting slide block and a reset spring, the second slide rod is arranged on the U-shaped connecting frame, the connecting slide block is connected to the second slide rod in a sliding manner, and the connecting slide block is connected with the U-shaped connecting frame through the reset spring.

9. The improved surrounding edge production device according to claim 4, wherein a rope chain is additionally arranged between the L-shaped supporting rod and the movable compression rod II (304), and an anti-slip silica gel strip is additionally arranged on the movable compression rod II (304).

10. The improved apparatus for manufacturing a peripheral edge as claimed in claim 4, wherein the first movable compression bar (302) and the second movable compression bar (304) are regular prisms.