CN209921672U

CN209921672U - Glass bottle clamp with adjustable distance

Info

Publication number: CN209921672U
Application number: CN201920547228.0U
Authority: CN
Inventors: 罗习达; 陈优飞; 吴娟娥; 王忠岐
Original assignee: Keda Clean Energy Co Ltd
Current assignee: Keda Clean Energy Co Ltd
Priority date: 2019-04-19
Filing date: 2019-04-19
Publication date: 2020-01-10
Anticipated expiration: 2029-04-19

Abstract

The utility model provides a glass bottle clamp with adjustable distance, which comprises a frame, a length direction driving component, a width direction driving component, a clamping jaw component and a shifting pin component; the length direction driving assembly comprises a length direction servo motor, a length direction screw rod and a shifting pin assembly, and the width direction driving assembly comprises a width direction servo motor, a width direction screw rod and a plurality of guide rod shaft assemblies; the distance between the movable claws in the length direction can be adjusted by driving the screw rod in the length direction to rotate through the servo motor in the length direction; the distance between the movable claws in the width direction can be adjusted by driving the screw rod in the width direction to rotate through the servo motor in the width direction; the structure is simple, and the appearance is beautiful; the full-automatic intelligent boxing device is high in operation speed, high in space utilization rate and accurate in control, is suitable for glass bottles of different specifications and boxing specification requirements, and achieves full-automatic intelligent boxing requirements.

Description

Glass bottle clamp with adjustable distance

Technical Field

The utility model relates to an anchor clamps field especially relates to a apart from adjustable glass bottle anchor clamps.

Background

The existing glass bottle boxing machine is a machine for placing glass bottles in a packaging box, a set of glass bottle clamp is installed at the front end of a mechanical arm, a movable claw is installed at the front end of the clamp, the glass bottle clamp moves downwards along with the mechanical arm, the movable claw grabs the glass bottles on a conveying line, and then the glass bottles are lifted and placed in the packaging box. The existing glass bottle clamp can only be suitable for glass bottle specifications, glass bottles with uniform glass bottle packing quantity are packed, when the glass bottle specifications are changed or the packing specifications are changed, the operation needs to be stopped, and the glass bottle clamp meeting the requirements is manually replaced. Although the method can realize the boxing of glass bottles with different specifications, the method wastes time and labor and increases the labor cost; a plurality of sets of clamps are required to be prepared, so that the material cost is increased; the manual replacement of the clamp is long, the boxing efficiency is reduced, and full automation is not realized.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides a glass bottle clamp with adjustable distance, which comprises a length direction driving component and a width direction driving component, wherein the length direction driving component comprises a length direction servo motor, a length direction lead screw and a shifting pin component; the width direction driving assembly comprises a width direction servo motor and a width direction screw rod; the distance between the movable claws in the length direction can be adjusted by driving the screw rod in the length direction to rotate through the servo motor in the length direction; the distance between the width direction movable claws can be adjusted by driving the width direction screw rod to rotate through the width direction servo motor, and the specific contents are as follows:

a glass bottle clamp with adjustable distance comprises a frame, a length direction driving assembly, a width direction driving assembly, a clamping jaw assembly and a poking pin assembly; the length direction driving assembly comprises a length direction servo motor, a length direction screw rod and a shifting pin assembly; the shifting pin assembly is sleeved on the length direction screw rod; the width direction driving assembly comprises a width direction servo motor, a width direction screw rod, a plurality of guide rod shafts, a first movable jaw mounting side plate, a second movable jaw mounting side plate and a third movable jaw mounting side plate; the clamping jaw assembly comprises a plurality of movable jaw mounting seats; the number of the guide rod shafts is equal to the number of the rows of the movable claw mounting seats; each guide rod shaft sequentially passes through a first movable jaw mounting side plate, a row of movable jaw mounting seats and a third movable jaw mounting side plate and can slide on the first movable jaw mounting side plate and the third movable jaw mounting side plate along the length direction of the frame; a first movable jaw mounting side plate and a third movable jaw mounting side plate are sleeved on the width direction screw rod, a second movable jaw mounting side plate is fixedly connected with the frame, and a second row of movable jaw mounting seats are in sliding connection with the second movable jaw mounting side plate; the pin pulling assembly is used for pulling the sliding claw mounting seats of the second row.

Preferably, the second movable jaw mounting side plate is L-shaped and comprises a side wall and a bottom; and a sliding rail is arranged at the bottom of the second movable jaw mounting side plate, each movable jaw mounting seat in the second row is fixedly connected with a corresponding sliding block, and the sliding blocks all slide on the sliding rail.

Preferably, the glass bottle clamp further comprises a plurality of ejector pin assemblies; the number of the knock pin assemblies is equal to the number of the rows of the movable claw mounting seats; the knock pin subassembly includes slider mount pad, knock pin pole, spring and knock pin board, the slider mount pad is the U type, including two lateral walls and a bottom, two lateral walls divide into first lateral wall and second lateral wall be provided with first mounting hole on the first lateral wall be provided with the second mounting hole on the second lateral wall, the knock pin board sets up between first lateral wall and the second lateral wall, the spring sets up between knock pin board and the second lateral wall, the knock pin board supports and leans on the second movable claw installation curb plate, the knock pin pole passes in proper order the mounting hole on mounting hole, knock pin board, spring and the second lateral wall on the first lateral wall, and with knock pin board fixed connection, it is used for stirring to dial the round pin subassembly the knock pin subassembly. The knock pin assembly can fix the movable jaw mounting seat of each row at any position along the length direction of the frame. When the distance of the clamping jaw along the length direction of the frame needs to be adjusted, the ejector pin plate is pushed through the air cylinder, then the push rod of the air cylinder abuts against the slider mounting seat, the whole ejector pin plate assembly can move along with the movement of the air cylinder, and therefore the distance of the clamping jaw along the length direction of the frame is adjusted.

Preferably, each guide rod shaft assembly comprises a first guide rod shaft and a second guide rod shaft, the first guide rod shaft and the second guide rod shaft are parallel and opposite in direction, two shaft shoulders are arranged on the first guide rod shaft, and the first movable jaw mounting side plate is arranged between the two shaft shoulders of the first guide rod shaft; two shaft shoulders are arranged on the second guide rod shaft, and the third movable claw mounting side plate is arranged between the two shaft shoulders of the second guide rod shaft.

Preferably, the number of the width direction screw rods is two, the two width direction screw rods are respectively arranged at the front end and the rear end of the frame and are connected through a synchronous belt.

Preferably, the length direction driving assembly further comprises a length direction guide rod, and the pin pulling assembly is sleeved on the length direction guide rod. The length direction guide rod plays a guiding role, so that the length direction screw rod of the shifting pin assembly is more stable when sliding upwards.

Preferably, the pin pulling assembly comprises an air cylinder and an air cylinder push rod.

The utility model has the advantages that:

the distance between the movable claws in the length direction can be adjusted by driving the screw rod in the length direction to rotate through the servo motor in the length direction; the distance between the movable claws in the width direction can be adjusted by driving the screw rod in the width direction to rotate through the servo motor in the width direction; the glass bottle clamp with adjustable distance disclosed by the utility model has simple structure and beautiful appearance; the full-automatic intelligent boxing device is high in operation speed, high in space utilization rate and accurate in control, is suitable for glass bottles of different specifications and boxing specification requirements, and achieves full-automatic intelligent boxing requirements.

Drawings

FIG. 1 is a first directional view of a distance adjustable glass bottle holder of the present invention;

FIG. 2 is a second directional view of the distance adjustable glass bottle holder of the present invention;

FIG. 3 is a structural diagram of the guide rod shaft of the present invention;

FIG. 4 is a schematic view of the knock pin assembly of the present invention;

fig. 5 is a structural diagram of the pin pulling assembly of the present invention.

The technical features indicated by the reference numerals in the drawings are as follows:

1. a length direction drive assembly; 2. a frame; 3. a width direction drive assembly; 4. a jaw assembly; 5. a deadbolt assembly; 1.1, a servo motor in the length direction; 1.2, a length direction screw rod; 1.3, a length direction guide rod; 3.1, a servo motor in the width direction; 3.2, synchronous belts; 3.3, a width direction screw rod; 3.4, a guide rod shaft assembly; 3.5, mounting a side plate on the first movable claw; 3.6, mounting a side plate on the second movable claw; 3.7, mounting a side plate on the third movable claw; 3.8, a shaft shoulder; 3.4.1, a first guide rod shaft; 3.4.2, a second guide rod shaft; 4.1, a movable claw mounting seat; 7. a sliding groove; 8. a slider; 9. a knock pin assembly; 9.1, a pin jacking rod; 9.2, a spring; 9.3, a knock pin plate; 9.4, a slide block mounting seat; 9.4.1, a first side wall; 9.4.2, a second side wall; 9.4.3, bottom.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings:

a distance adjustable carafe clamp as shown in figure 1 comprises a frame 2, a length direction drive assembly 1, a width direction drive assembly 3, a jaw assembly 4 and a deadbolt assembly 5. Clamping jaw subassembly 4 includes a plurality of movable claw mount pad 4.1, movable claw mount pad 4.1 is the matrix arrangement, along the length direction of frame 2 is the line number of movable claw mount pad 4.1, along the width direction of frame 2 is the column number of movable claw mount pad 4.1, in this embodiment, the line number of movable claw mount pad 4.1 is 12 lines, and the column number is 3 columns.

As shown in fig. 2, the length direction driving assembly comprises a length direction servo motor 1.1, a length direction screw rod 1.2 and a shifting pin assembly 5; the length direction servo motor 1.1 is used for driving the length direction screw rod 1.2 to rotate, and the pin pulling assembly 5 is sleeved on the length direction screw rod 1.2, so that the pin pulling assembly 5 can slide on the length direction screw rod 1.2. The length direction driving assembly further comprises a length direction guide rod 1.3, the pin pulling assembly 5 is also sleeved on the length direction guide rod 1.3, and the length direction guide rod 1.3 plays a role in guiding, so that the length direction screw rod of the pin pulling assembly 5 is more stable when sliding upwards. As shown in fig. 5, the deadbolt assembly 5 includes an air cylinder.

The width direction driving assembly comprises a width direction servo motor 3.1, a width direction screw rod 3.3, a plurality of guide rod shaft assemblies 3.4, a first movable claw mounting side plate 3.5, a second movable claw mounting side plate 3.6 and a third movable claw mounting side plate 3.7, the width direction servo motor 3.1 is used for driving the width direction screw rod 3.3 to rotate, the number of the width direction screw rods 3.3 is two, the two width direction screw rods are respectively arranged at the front end and the rear end of the frame 2, and the two width direction screw rods 3.3 are connected through a synchronous belt 3.2. The length direction along the frame 2 is the fore-and-aft direction, the width direction along the frame 2 is the left-and-right direction, and two width direction lead screws 3.3 are connected through a synchronous belt 3.2, so that the two width direction lead screws 3.3 can move simultaneously under the drive of one width direction servo motor 3.1. Two ends of the first movable claw installation side plate 3.5 are respectively sleeved on the two width direction screw rods 3.3, two ends of the third movable claw installation side plate 3.7 are respectively sleeved on the two width direction screw rods 3.3, the thread directions of the upper part and the lower part of the width direction screw rods 3.3 are opposite, so when the width direction screw rods 3.3 rotate, the movement directions of the first movable claw installation side plate 3.5 and the third movable claw installation side plate 3.7 are opposite. The number of the guide rod shaft assemblies 3.4 is equal to the number of the movable jaw mounting seats 4.1, each guide rod shaft assembly 3.4 sequentially penetrates through a first movable jaw mounting side plate 3.5, a row of movable jaw mounting seats 4.1 and a third movable jaw mounting side plate 3.7, the guide rod shaft assemblies 3.4 are fixedly connected with a first row of movable jaw mounting seats 4.1 and a third row of movable jaw mounting seats, and the guide rod shaft assemblies 3.4 are movably connected with a second row of movable jaw mounting seats 4.1; and each said guide bar axle assembly 3.4 comprises a first guide bar axle 3.4.1 and a second guide bar axle 3.4.2, and first guide bar axle 3.4.1 is parallel and opposite to second guide bar axle 3.4.2, two shoulders 3.8 are provided on said first guide bar axle 3.4.1, said first moveable jaw mounting side plate 3.5 is provided between two shoulders 3.8 of said first guide bar axle 3.4.1; as shown in fig. 3, the second guide link shaft 3.4.2 has two shoulders 3.8 disposed thereon, and the third moveable jaw mounting side plate 3.7 is disposed between the two shoulders 3.8 of the second guide link shaft 3.4.2. Every guide shaft subassembly 3.4 all can slide along length direction on first movable claw installation curb plate 3.5 and the third movable claw installation curb plate 3.7, because first movable claw installation curb plate 3.5 and third movable claw installation curb plate 3.7 block respectively in shaft shoulder 3.8, so when width direction lead screw 3.3 rotates, first movable claw installation curb plate 3.5 can drive first row movable claw mount pad 4.1 and remove along the width direction of frame 2, third movable claw installation curb plate 3.7 can drive third row movable claw mount pad 4.1 and remove along the width direction of frame 2.

The first guide rod shaft 3.4.1 is fixedly connected with the movable claw mounting seats of the first row, and the first guide rod shaft 3.4.1 is movably connected with the movable claw mounting seats of the third row; the second guide link shaft 3.4.2 is fixedly connected to the moveable jaw mount of the third row, and the second guide link shaft 3.4.2 is movably connected to the moveable jaw mount of the first row; the second guide bar shaft 3.4.2 acts as a guide when the moveable jaw mount of the first row moves in the width direction of the frame 2, and the first guide bar shaft 3.4.1 acts as a guide when the moveable jaw mount of the third row moves in the width direction of the frame 2.

Second movable claw installation curb plate 3.6 with 2 fixed connection of frame, second movable claw installation curb plate is the L type, including lateral wall and bottom the bottom of installation curb plate 3.6 is provided with slide rail (not shown in the figure) second movable claw installation curb plate 3.6 and second are listed as and are provided with slider mount pad 9.4 between the movable claw mount pad 4.1, every that the second was listed as movable claw mount pad 4.1 with slider mount pad 9.4 fixed connection is every fixed slider 8 that is provided with on the slider mount pad, slider 8 is in slide on the slide rail. The glass bottle clamp further comprises a plurality of ejector pin assemblies 9, the number of the ejector pin assemblies 9 is equal to the number of rows of the movable jaw installation seats 4.1, namely, each movable jaw installation seat 4.1 in the second row corresponds to one ejector pin assembly 9, as shown in fig. 4, each ejector pin assembly comprises an ejector pin rod 9.1, a spring 9.2, an ejector pin plate 9.3 and a sliding block installation seat 9.4, and a sliding groove 7 is formed in the second movable jaw installation side plate 3.6; the slider mount pad is the U type, including two lateral walls and a bottom 9.4.3, two lateral walls divide into first lateral wall 9.4.1 and second lateral wall 9.4.2 be provided with first mounting hole on first lateral wall 9.4.1 be provided with the second mounting hole on the second lateral wall 9.4.2, knock board 9.3 sets up between first lateral wall 9.4.1 and the second lateral wall 9.4.2, spring 9.2 sets up between knock board 9.3 and the second lateral wall 9.4.2, knock rod 9.1 passes in proper order the mounting hole on first lateral wall 9.4.1, the mounting hole on knock board 9.3, spring 9.2 and the second lateral wall 9.4.2, knock board 9.3 support and lean on the second portable claw installation curb plate 3.6, knock rod 9.1 with knock board 9.3 fixed connection, fixed connection can be welding or other conventional fixed connection modes.

The knock pin plate 9.3 protrudes from the first side wall 9.4.1 along the length of the second moveable jaw mounting side plate 3.6 so that the push rod of the cylinder can push the knock pin plate 9.3 after passing through the sliding slot 7. When the distance along the length direction of the frame does not need to be adjusted, the ejector pin plate 9.3 is pushed against the second movable jaw mounting side plate 3.6 by the compression force of the spring 9.2 so as to fix the movable jaw mounting seats 4.1 of each row. When the distance in the length direction needs to be adjusted, the cylinder acts, the cylinder push rod extends out to push the ejector pin plate 9.3 and then the spring 9.2 is compressed, so that the movable jaw mounting seat 4.1 in each row is loosened from the second movable jaw mounting side plate 3.6, then the push rod of the cylinder abuts against the side part of the first side wall 9.4.1 of the slider mounting seat 9.4, and when the cylinder moves, the movable jaw mounting seat 4.1 in each row can be driven to move, so that the distance in the length direction is adjusted.

Preferably, the ejector pin plate 9.3 protrudes out of the left side and the right side of the first side wall 9.4.1 at the same time, the left side and the right side of the ejector pin plate 9.3 refer to two sides along the length direction of the second movable jaw mounting side plate 3.6, and the ejector pin plate 9.3 protrudes out of the left side and the right side of the first side wall 9.4.1 at the same time, so that the air cylinder can push the ejector pin plate 9.3 on the left side or the right side, thereby driving the movable jaw mounting seat 4.1 of each row to move forwards or backwards along the length direction. A push rod groove is formed in the side portion of the first side wall 9.4.1, and a push rod of the air cylinder is clamped in the push rod groove and can easily push the movable jaw mounting seat in each row.

As another embodiment, a third mounting hole is further formed on the first side wall 9.4.1, the cylinder push rod pushes the knock plate 9.3 after passing through the third mounting hole, and a guide structure is provided on the third mounting hole, so that the cylinder push rod can easily extend into the third mounting hole.

The frame is installed on the mechanical arm, the movable claw installing seat 4.1 is connected with a movable claw, and the movable claw can complete the grabbing of the glass bottle. When boxing, the arm downstream, the movable claw snatchs the glass bottle on the transfer chain, then mentions the glass bottle and places in the packing box, realizes full-automatic intelligent vanning. The utility model discloses a distance adjustable glass bottle anchor clamps's working procedure as follows:

1. a program sends an instruction, a length direction servo motor 1.1 drives a length direction screw rod 1.2 to rotate, so as to drive a shifting pin assembly 5 to move along a length direction guide rod 1.3, the shifting pin assembly 5 comprises an air cylinder and an air cylinder push rod, when the shifting pin assembly 5 reaches the position beside a single movable claw mounting seat 4.1 of a second row, the air cylinder acts, the air cylinder push rod extends out to push out a push pin plate on a push pin assembly 9, a spring is compressed, so that the push pin assembly 9 can be released from a second movable claw mounting side plate, and the push rod of the air cylinder abuts against the sliding block mounting seat, so that the air cylinder can drive the single movable claw mounting seat 4.1 to move when moving, and as the movable claw mounting seats 4.1 of each row are connected in series on the guide rod shaft, the single movable claw mounting seat 4.1 can drive the movable claw mounting seat of a certain row to move; the distance change of two adjacent movable jaw mounting seats is realized, when the distance meets the requirement of a command, the push rod of the air cylinder is retracted, the ejector pin component 9 rebounds to fix the movable jaw mounting seats, and the pin poking component 5 moves to the position close to the position of the next movable jaw mounting seat 4.1 to continue the action until the length direction completely meets the requirement of the program command.

2. When the distance in the length direction meets the requirement, the servo motor 3.1 in the width direction acts to simultaneously drive the two lead screws 3.3 in the width direction to rotate through the synchronous belt 3.2, so that the first movable jaw mounting side plate 3.5 and the third movable jaw mounting side plate 3.7 can simultaneously move up and down on the lead screws 3.3, and the upper part and the lower part of the lead screws 3.3 in the width direction are opposite in thread direction, so that the first movable jaw mounting side plate 3.5 and the third movable jaw mounting side plate 3.7 are opposite in movement direction, namely simultaneously move towards the second movable jaw mounting side plate 3.6 or simultaneously move away from the second movable jaw mounting side plate 3.6; the first movable jaw mounting side plate 3.5 drives the movable jaw mounting seats 4.1 in the first row to move; and the third movable jaw mounting side plate 3.7 drives the movable jaw mounting seats 4.1 in the third row to move, so that the distance between the clamps in the width direction is changed, and when the distance meets the instruction requirement, the servo motor 3.1 stops acting.

It is right above that the utility model provides a apart from adjustable glass bottle anchor clamps embodiment elaborated. The principles and embodiments of the present invention have been explained herein using specific examples, and the above descriptions of the embodiments are only used to help understand the core concepts of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can also make several improvements and modifications, and these improvements and modifications also fall into the protection scope of the claims of the present invention.

Claims

1. The utility model provides a apart from adjustable glass bottle anchor clamps which characterized in that: comprises a frame, a length direction driving component, a width direction driving component, a clamping jaw component and a poking pin component; the length direction driving assembly comprises a length direction servo motor, a length direction screw rod and a shifting pin assembly; the shifting pin assembly is sleeved on the length direction screw rod; the width direction driving assembly comprises a width direction servo motor, a width direction screw rod, a plurality of guide rod shaft assemblies, a first movable jaw mounting side plate, a second movable jaw mounting side plate and a third movable jaw mounting side plate; the clamping jaw assembly comprises a plurality of movable jaw mounting seats which are arranged in a matrix manner; the number of the guide rod shaft assemblies is equal to the number of the movable claw mounting seats; each guide rod shaft assembly sequentially passes through the first movable jaw mounting side plate, one row of movable jaw mounting seats and the third movable jaw mounting side plate and can slide on the first movable jaw mounting side plate and the third movable jaw mounting side plate along the length direction of the frame; the guide rod shaft assembly is fixedly connected with the first row of movable jaw mounting seats and the third row of movable jaw mounting seats, and the guide rod shaft assembly is movably connected with the second row of movable jaw mounting seats; a first movable jaw mounting side plate and a third movable jaw mounting side plate are sleeved on the width direction screw rod, a second movable jaw mounting side plate is fixedly connected with the frame, and a second row of movable jaw mounting seats are in sliding connection with the second movable jaw mounting side plate; the pin pulling assembly is used for pulling the sliding claw mounting seats of the second row.

2. A distance adjustable carafe clamp as claimed in claim 1, wherein: the second movable claw mounting side plate is L-shaped and comprises a side wall and a bottom; and a sliding rail is arranged at the bottom of the second movable jaw mounting side plate, each movable jaw mounting seat in the second row is fixedly connected with a corresponding sliding block, and the sliding blocks all slide on the sliding rail.

3. A distance adjustable carafe clamp as claimed in claim 2, wherein: the glass bottle clamp also comprises a plurality of ejector pin components; the number of the knock pin assemblies is equal to the number of the rows of the movable claw mounting seats; the knock pin subassembly includes slider mount pad, knock pin pole, spring and knock pin board, the slider mount pad is the U type, including two lateral walls and a bottom, two lateral walls divide into first lateral wall and second lateral wall be provided with first mounting hole on the first lateral wall be provided with the second mounting hole on the second lateral wall, the knock pin board sets up between first lateral wall and the second lateral wall, the spring sets up between knock pin board and the second lateral wall, the knock pin board supports and leans on the second movable claw installation curb plate, the knock pin pole passes in proper order the mounting hole on mounting hole, knock pin board, spring and the second lateral wall on the first lateral wall, and with knock pin board fixed connection, it is used for stirring to dial the round pin subassembly the knock pin subassembly.

4. A distance adjustable carafe clamp as claimed in claim 1, wherein: each guide rod shaft assembly comprises a first guide rod shaft and a second guide rod shaft, the first guide rod shaft and the second guide rod shaft are parallel and opposite in direction, two shaft shoulders are arranged on the first guide rod shaft, and the first movable jaw mounting side plate is arranged between the two shaft shoulders of the first guide rod shaft; two shaft shoulders are arranged on the second guide rod shaft, and the third movable claw mounting side plate is arranged between the two shaft shoulders of the second guide rod shaft.

5. A distance adjustable carafe clamp as claimed in claim 1, wherein: the number of width direction lead screw is two, sets up respectively both ends around the frame, two connect through the hold-in range between the width direction lead screw.

6. A distance adjustable carafe clamp as claimed in claim 1, wherein: the length direction driving assembly further comprises a length direction guide rod, and the shifting pin assembly is sleeved on the length direction guide rod.

7. A distance adjustable carafe clamp as claimed in claim 3, wherein: the pin pulling assembly comprises an air cylinder and an air cylinder push rod.