CN218320625U - Fork mechanism of cloth feeding machine - Google Patents

Abstract

The utility model discloses a fork mechanism of a cloth feeding machine, which comprises a fork bottom plate, wherein a first slide rail is arranged in the length direction of the fork bottom plate, a first slide block capable of sliding is arranged on the first slide rail, and a fork middle plate is arranged on the first slide block; a fork motor mounting seat for mounting a fork motor is arranged on the lower end surface of the fork bottom plate; an output shaft of the fork motor is provided with a gear, a rack is arranged on the middle plate of the fork, and the gear is meshed with the rack.

Description

Fork mechanism of cloth feeding machine

Technical Field

The utility model belongs to the technical field of the tailoring and specifically relates to a fork mechanism that is used for cloth to roll up last cloth machine of carrying.

Background

The patent number 201620667811.1 is a cloth feeding lifting device for a cloth paving machine, which comprises a left support and a right support, wherein a lifting platform is arranged between the left support and the right support, and the lifting platform moves up and down along the height direction of the left support and the right support under the action of a driving device. The cloth lifting device that goes up that this patent discloses has certain defect, for example need the manual work to lift the charging tray to the backup pad on, wait the backup pad to rise to set for the height after again the manual work with the charging tray push away follow-up station the workstation on, the workman operates very expense manpower and time, degree of automation is lower.

Disclosure of Invention

The utility model discloses to the not enough technical problem of prior art degree of automation, and provide a go up cloth machine, can realize getting automatically and put the charging tray to control charging tray horizontal motion, receive the cloth that the shop's cloth device spread out, and rise to the automatic charging tray of delivering to after the take off and place the frame.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: a fork mechanism of a cloth feeding machine comprises a fork bottom plate, wherein a first sliding rail is arranged in the length direction of the fork bottom plate, a first sliding block capable of sliding is arranged on the first sliding rail, and a fork middle plate is arranged on the first sliding block; a fork motor mounting seat for mounting a fork motor is arranged on the lower end surface of the fork bottom plate; an output shaft of the fork motor is provided with a gear, a rack is arranged on the middle plate of the fork, and the gear is meshed with the rack.

In order to optimize the technical proposal, the utility model discloses still include following modified technical proposal.

A first synchronizing wheel mounting seat and a second synchronizing wheel mounting seat are respectively arranged on two sides of the middle plate of the fork; the first synchronizing wheel mounting seat and the second synchronizing wheel mounting seat are respectively provided with a first synchronizing wheel and a second synchronizing wheel; the first synchronizing wheel is connected with the second synchronizing wheel through a first synchronizing belt.

One side of the first synchronous belt is fixedly connected with the upper surface of the pallet fork bottom plate through a first belt connecting block and a first fixing block; the other side of the first synchronous belt is fixedly connected with the lower end face of the upper plate of the goods fork through a second belt connecting block and a second fixing block.

The length direction of the middle plate of the fork is provided with a second slide rail, a second slide block capable of sliding is arranged on the second slide rail, and the upper plate of the fork is arranged on the second slide block.

A fourth fork connecting plate is mounted on one side of the fork bottom plate, a fourth sliding rail is arranged in the length direction of the fourth fork connecting plate, a fourth sliding block capable of sliding is mounted on the fourth sliding rail, the fourth sliding block is connected with a fifth fork connecting plate, and the fifth fork connecting plate is fixedly connected with a fork middle plate.

A third synchronizing wheel mounting seat and a fourth synchronizing wheel mounting seat are respectively arranged on two sides of the goods fork upper plate; a third synchronizing wheel and a fourth synchronizing wheel are respectively arranged on the third synchronizing wheel mounting seat and the fourth synchronizing wheel mounting seat; the third synchronous wheel is connected with the fourth synchronous wheel through a second synchronous belt; one side of the second synchronous belt is connected with a first fork connecting plate through a third belt connecting block and a third fixed block, and the first fork connecting plate is fixedly connected to a fork middle plate; the other side of the second synchronous belt is connected with the second fork connecting plate through a fourth belt connecting block and a fourth fixed block.

A third slide rail is arranged in the length direction of the upper plate of the fork, a third slide block capable of sliding is arranged on the third slide rail, and a second fork connecting plate is arranged on the third slide block; the second fork connecting plate is connected with a third fork connecting plate, and the third fork connecting plate is connected with a tray handle placing plate; a convex limiting block is arranged on the tray handle placing plate.

The two sides of the fork bottom plate are respectively provided with a first sensor, the middle part of the fork bottom plate is also provided with a second sensor, and the middle plate of the fork is provided with an induction sheet.

Compared with the prior art, the fork mechanism of the utility model drives the fork middle plate, the fork upper plate and the second fork connecting plate to move to the side through the fork motor, and receives the material tray for placing the material on the cloth laying device; then the lifting motor drives the lifting mounting plate to lift the material tray to a certain height through a lifting synchronous belt; at last, the fork motor drives the fork medium plate, the fork upper plate and the second fork connecting plate to move towards the other side, and the material tray is conveyed to the material box placing frame, so that the automatic material tray conveying is realized, the labor intensity of workers is reduced, and the working efficiency is greatly improved.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention.

Fig. 2 is a schematic structural view of the elevating mechanism.

Fig. 3 is a schematic structural view of the fork mechanism of fig. 1.

Fig. 4 is a schematic view of another perspective of the fork mechanism.

Fig. 5 is an exploded view of fig. 3.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings.

Fig. 1 to 5 are schematic structural views of the present invention.

Wherein the reference numerals are: the automatic lifting device comprises a rack 1, a lifting motor 2, a lifting driving shaft 3, a first lifting synchronous wheel 4, a lifting synchronous belt 5, a second lifting synchronous wheel 6, a fork bottom plate 7, a fork motor 8, a fork motor mounting seat 9, a rack 10, a fork middle plate 11, a first slide rail 12, a first slide block 13, a first synchronous wheel mounting seat 14, a second synchronous wheel mounting seat 15, a first synchronous belt 16, a first synchronous wheel 17, a second synchronous wheel 18, a first fixed block 19, a second slide rail 20, a second slide block 21, a fork upper plate 22, a third synchronous wheel 23, a fourth synchronous wheel 24, a third connecting block belt 25, a third fixed block 26, a first fork connecting plate 27, a fourth belt connecting block 28, a fourth fixed block 29, a second fork connecting plate 30, a third fork connecting plate 31, a tray handle placing plate 32, a limiting block 33, a tray 34, a lifting mounting plate 35, a lifting sliding block 36, a lifting sliding block 37, a reversing module 38, a second synchronous belt 39, a first connecting block 40, a second belt connecting block 41, a second belt connecting block 42, a third sliding block 42, a fourth sliding block 44, a fourth fork sensor 46 and a fourth fork sensor 46.

The utility model discloses a go up cloth machine, include frame 1, locate elevating system in frame 1 and be used for getting the fork mechanism of putting the material.

The lifting mechanism comprises a lifting motor 2 arranged above the frame 1, and an output shaft of the lifting motor 2 drives the left lifting driving shaft 3 and the right lifting driving shaft 3 to rotate through a reversing module 38. The lifting drive shaft 3 is rotatably mounted on the upper end of the frame 1. One end of the lifting driving shaft 3 is connected with an output shaft of the reversing module 38, the other end of the lifting driving shaft is connected with a first lifting synchronous wheel 4 on the rack 1, and the first lifting synchronous wheel 4 is connected with a second lifting synchronous wheel 6 of a bottom plate of the rack 1 through a lifting synchronous belt 5.

The frame 1 comprises posts on two sides and two cross rods connected with the posts on the two sides, a lifting mounting plate 35 capable of moving up and down is arranged between the posts on each side, and a fork mechanism is arranged on each lifting mounting plate 35 on the two sides. The lifting mounting plate 35 is fixedly connected with a lifting slider 36, and the lifting slider 36 is fixedly connected with one side of the lifting synchronous belt 5 through a lifting fixing block 37. The lifting motor 2 can drive the lifting mounting plate 35 to move up and down through the lifting driving shaft 3 and the lifting synchronous belt 5, so that the lifting of the fork mechanism is realized.

The both sides of lift mounting panel 35 respectively are equipped with one row and post complex wheel, and these two rows of wheels cooperate respectively with two sides of post, provide spacing direction for the elevating movement of lift mounting panel 35.

A cloth laying device for laying cloth on the material tray 34 is arranged on the left side of the frame 1, and a plurality of layers of material tray placing frames for placing the material tray 34 are arranged on the right side.

The fork mechanism comprises a fork bottom plate 7, and a fork motor mounting seat 9 for mounting a fork motor 8 is arranged on the lower end face of the fork bottom plate 7. An output shaft of the fork motor 8 is provided with a gear, a rack 10 is arranged on a fork middle plate 11, and the gear and the rack 10 are in meshing transmission. A first sliding rail 12 is arranged in the length direction of the pallet fork bottom plate 7, a first sliding block 13 capable of sliding is arranged on the first sliding rail 12, and a pallet fork middle plate 11 is arranged on the first sliding block 13. The gear is driven by the fork motor 8 to rotate, and the gear is meshed with the rack 10 for transmission, so that the middle plate 11 of the fork is driven to move left and right along the first sliding rail 12.

The two sides of the fork middle plate 11 are respectively provided with a first synchronizing wheel mounting seat 14 and a second synchronizing wheel mounting seat 15, the first synchronizing wheel mounting seat 14 and the second synchronizing wheel mounting seat 15 are respectively provided with a first synchronizing wheel 17 and a second synchronizing wheel 18, and the first synchronizing wheel 17 is connected with the second synchronizing wheel 18 through a first synchronous belt 16. One side of the first synchronous belt 16 is fixedly connected with the upper surface of the pallet fork bottom plate 7 through a first belt connecting block 40 and a first fixing block 19, and the other side of the first synchronous belt 16 is fixedly connected with the lower end surface of the pallet fork upper plate 22 through a second belt connecting block 41 and a second fixing block 42. The length direction of the middle plate 11 of the fork is provided with a second slide rail 20, a second slide block 21 capable of sliding is arranged on the second slide rail 20, and an upper plate 22 of the fork is arranged on the second slide block 21. The first timing belt 16 is rotated while the fork middle plate 11 is moved, and the rotation of the first timing belt 16 pulls the fork upper plate 22 to move left and right along the second slide rail 20.

A fourth fork connecting plate 47 is installed on one side of the fork bottom plate 7, a fourth slide rail 48 is arranged in the length direction of the fourth fork connecting plate 47, a fourth slide block 49 capable of sliding is installed on the fourth slide rail 48, the fourth slide block 49 is connected with a fifth fork connecting plate 50, and the fifth fork connecting plate 50 is fixedly connected with the fork middle plate 11, so that the fork middle plate 11 can stably slide on the fork bottom plate 7.

A third synchronizing wheel mounting seat and a fourth synchronizing wheel mounting seat are respectively arranged on two sides of the goods fork upper plate 22, a third synchronizing wheel 23 and a fourth synchronizing wheel 24 are respectively arranged on the third synchronizing wheel mounting seat and the fourth synchronizing wheel mounting seat, and the third synchronizing wheel 23 is connected with the fourth synchronizing wheel 24 through a second synchronous belt 39. One side of the second synchronous belt 39 is connected with the first fork connecting plate 27 through the third belt connecting block 25 and the third fixing block 26, and the first fork connecting plate 27 is fixedly connected to the fork middle plate 11. The other side of the second synchronous belt 39 is connected with the second fork connecting plate 30 through a fourth belt connecting block 28 and a fourth fixing block 29. The length direction of fork upper plate 22 is equipped with third slide rail 43, is equipped with slidable third slider 44 on the third slide rail 43, is equipped with second fork connecting plate 30 on the third slider 44. The second fork connecting plate 30 is connected with a third fork connecting plate 31, and the third fork connecting plate 31 is connected with a tray handle placing plate 32. The tray handle placing plate 32 is provided with a convex limiting block 33 which limits the tray 34 handle so as to prevent the tray 34 from falling. The fork upper plate 22 can drive the second synchronous belt 39 to rotate when moving, and the second synchronous belt 39 rotates and can pull the second fork connecting plate 30 to move left and right along the third sliding rail 43, so that the material tray handle placing plate 32 is driven to move left or right, and the material tray 34 on the cloth spreading device is forked or the forked material tray 34 is sent to the material tray placing frame.

The two sides of the pallet fork bottom plate 7 are respectively provided with a first sensor 45, the middle part of the pallet fork bottom plate 7 is also provided with a second sensor 51, and the middle plate 11 of the pallet fork is provided with a sensing piece 46. When the fork middle plate 11 slides to the leftmost side or the rightmost side, the first sensors 45 positioned at the two sides of the fork bottom plate 7 receive the position information of the sensing piece 46, and can control the fork motor 8 to stop to prevent the fork middle plate 11 from sliding out of the safe distance of the first slide rail 12. When the fork middle plate 11 retracts, the second sensor 51 located in the middle of the fork bottom plate 7 receives the position information of the sensing piece 46, and controls the fork motor 8 to stop to return the fork middle plate 11 to the original position.

When materials are taken, the fork motor 8 drives the fork middle plate 11 to move leftwards along the first slide rail 12 through the gear and the rack 10, meanwhile, the first synchronous belt 16 is also driven to move leftwards, and the first synchronous belt 16 pulls the fork upper plate 22 to move leftwards along the second slide rail 20; the second synchronous belt 39 is driven to move leftwards, and the second synchronous belt 39 pulls the second fork connecting plate 30 to move leftwards along the third slide rail 43, so that the material tray handle placing plate 32 is driven to move leftwards. The moving distance of the tray handle placing plate 32 relative to the bottom plate 7 of the fork is three times that of the middle plate 11 of the fork, so that the fork can conveniently take the tray 34 on the cloth spreading device. The lifting motor 2 can drive the material tray 34 to move up and down through the lifting driving shaft 3 and the lifting synchronous belt 5, and the material tray is moved to the corresponding material box placing frame. The fork motor 8 then reverses its direction of rotation to feed the tray 34 onto the magazine placement frame. And finally, the fork motor 8 drives the fork middle plate 11, the fork upper plate 22 and the tray handle placing plate 32 to return to the original position, and the lifting motor 2 drives the lifting mounting plate 35 to return to the original position.

While the preferred embodiments of the present invention have been illustrated, various changes and modifications may be made by those skilled in the art without departing from the scope of the present invention.

Claims (8)

1. The utility model provides a fork mechanism of cloth loading machine which characterized in that: the fork comprises a fork bottom plate (7), wherein a first sliding rail (12) is arranged in the length direction of the fork bottom plate (7), a first sliding block (13) capable of sliding is arranged on the first sliding rail (12), and a fork middle plate (11) is arranged on the first sliding block (13); a fork motor mounting seat (9) for mounting a fork motor (8) is arranged on the lower end face of the fork bottom plate (7); an output shaft of the fork motor (8) is provided with a gear, a rack (10) is arranged on a fork middle plate (11), and the gear is meshed with the rack (10).

2. The fork mechanism of claim 1 wherein: a first synchronizing wheel mounting seat (14) and a second synchronizing wheel mounting seat (15) are respectively arranged on two sides of the pallet fork middle plate (11); a first synchronizing wheel (17) and a second synchronizing wheel (18) are respectively arranged on the first synchronizing wheel mounting seat (14) and the second synchronizing wheel mounting seat (15); the first synchronous wheel (17) is connected with the second synchronous wheel (18) through a first synchronous belt (16).

3. The fork mechanism of claim 2 wherein: one side of the first synchronous belt (16) is fixedly connected with the upper surface of the pallet fork bottom plate (7) through a first belt connecting block (40) and a first fixing block (19); the other side of the first synchronous belt (16) is fixedly connected with the lower end face of the pallet fork upper plate (22) through a second belt connecting block (41) and a second fixing block (42).

4. The fork mechanism of claim 3 wherein: the fork is characterized in that a second sliding rail (20) is arranged in the length direction of the middle plate (11) of the fork, a second sliding block (21) capable of sliding is arranged on the second sliding rail (20), and the upper plate (22) of the fork is arranged on the second sliding block (21).

5. The fork mechanism of claim 4 wherein: a fourth fork connecting plate (47) is installed on one side of the fork bottom plate (7), a fourth sliding rail (48) is arranged in the length direction of the fourth fork connecting plate (47), a fourth sliding block (49) capable of sliding is installed on the fourth sliding rail (48), the fourth sliding block (49) is connected with a fifth fork connecting plate (50), and the fifth fork connecting plate (50) is fixedly connected with the fork middle plate (11).

6. The fork mechanism of claim 5 wherein: a third synchronizing wheel mounting seat and a fourth synchronizing wheel mounting seat are respectively arranged on two sides of the goods fork upper plate (22); a third synchronizing wheel (23) and a fourth synchronizing wheel (24) are respectively arranged on the third synchronizing wheel mounting seat and the fourth synchronizing wheel mounting seat; the third synchronous wheel (23) is connected with the fourth synchronous wheel (24) through a second synchronous belt (39); one side of the second synchronous belt (39) is connected with a first fork connecting plate (27) through a third belt connecting block (25) and a third fixing block (26), and the first fork connecting plate (27) is fixedly connected to the fork middle plate (11); the other side of the second synchronous belt (39) is connected with a second fork connecting plate (30) through a fourth belt connecting block (28) and a fourth fixed block (29).

7. The fork mechanism of claim 6 wherein: a third slide rail (43) is arranged in the length direction of the fork upper plate (22), a third slide block (44) capable of sliding is arranged on the third slide rail (43), and the second fork connecting plate (30) is arranged on the third slide block (44); the second fork connecting plate (30) is connected with a third fork connecting plate (31), and the third fork connecting plate (31) is connected with a tray handle placing plate (32); a convex limit block (33) is arranged on the tray handle placing plate (32).

8. The fork mechanism of claim 7 wherein: the fork is characterized in that a first sensor (45) is respectively arranged on two sides of the fork bottom plate (7), a second sensor (51) is arranged in the middle of the fork bottom plate (7), and an induction sheet (46) is arranged on the fork middle plate (11).

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