CN220389617U - Feeding mechanism of automatic small-catheter hole cutting and forming production line - Google Patents

Abstract

The utility model discloses a feeding mechanism of an automatic small-catheter hole cutting and forming production line, and particularly relates to the technical field of small-catheter machining and feeding. According to the utility model, each guide pipe can be ensured to be uniformly led into the conveying bracket, the tapered ejection end is driven by the movable seat to eject the guide pipe into the feed inlet of the hole cutting equipment for processing, the feeding effect of the guide pipe is improved, and the processing efficiency of the production line is ensured.

Description

Feeding mechanism of automatic small-catheter hole cutting and forming production line

Technical Field

The utility model relates to the technical field of small-catheter processing and feeding, in particular to a feeding mechanism of an automatic small-catheter hole cutting and forming production line.

Background

The automatic small-catheter hole cutting and forming production line is automatic equipment for cutting holes of small catheters, is used for cutting holes of small catheters for advanced grouting of the small catheters, and a feeding mechanism of the automatic small-catheter hole cutting and forming production line is a mechanism for feeding the small catheters with holes to the hole cutting equipment, and is a precondition mechanism of the whole production line.

The utility model patent of patent application number CN201721850889.8 discloses a feeding mechanism of an automatic small-catheter hole cutting and forming production line, which comprises a raw material bracket and a feeding frame, wherein a catheter is arranged on the outer surface of the upper end of the raw material bracket, a baffle is fixedly arranged at the position of one side of the catheter, a guide plate is fixedly arranged on the outer surface of one side of the raw material bracket, a fixing plate is fixedly arranged on the outer surface of the upper end of the feeding frame, and a transmission chain end is fixedly arranged at the position of the upper end of the feeding frame, which is close to one side of the feeding frame. The structure has the advantages that the ejection of the small guide pipe can be facilitated, the ejection and feeding efficiency of the small guide pipe can be improved, the guide pipes of various types can be conveniently fed, and better use prospects are brought.

However, when the feeding mechanism is in actual use, as the small guide pipes on the raw material bracket roll to the feeding frame through the obliquely arranged guide plates, the guide pipes cannot enter the feeding frame to be conveyed in the process of rolling to the feeding frame, so that a large number of guide pipes are easily caused to enter the feeding frame together, and the feeding of the guide pipes is influenced to a certain extent.

Disclosure of Invention

The technical scheme of the utility model aims at the technical problem that the prior art is too single, provides a solution which is obviously different from the prior art, and provides a feeding mechanism of an automatic small-catheter hole cutting and forming production line for overcoming the defects of the prior art so as to solve the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an automatic change feed mechanism of little pipe cutting hole shaping production line, includes the raw materials bracket, one side of raw materials bracket is provided with the transport bracket, the rear side of transport bracket is provided with the guard plate, the surface of transport bracket is provided with the removal seat, the surface of removing the seat is provided with ejecting end, and ejecting end is the toper structure, the standing groove has been seted up on the surface of raw materials bracket, and the inside of standing groove has placed the pipe.

According to the structure, bundled guide pipes are hoisted on the raw material conveying frame of the slope, the guide pipes are located in the placing grooves, after the hoisting tool is loosened, the guide pipes roll to the conveying bracket, the movable seat is utilized to move to one side of the feeding port of the guide pipe hole cutting equipment, the movable seat drives the ejection end to eject the guide pipes into the feeding port of the guide pipe hole cutting equipment to conduct hole separation operation, and therefore feeding operation of the guide pipe hole cutting is achieved.

Preferably, a material guiding structure is arranged between the raw material bracket and the conveying bracket; the material guiding structure comprises a material guiding plate, wherein the material guiding plate is obliquely arranged between a raw material bracket and a conveying bracket, one end of the material guiding plate is hinged with the raw material bracket, the other end of the material guiding plate is erected on the surface of the conveying bracket, a supporting plate is arranged at the bottom of the material guiding plate between the raw material bracket and the conveying bracket, two electric push rods are arranged on the surface of the supporting plate, the output ends of the two electric push rods are respectively provided with a rotating block, the outer parts of the rotating blocks are provided with concave blocks, the top of the concave blocks are provided with guide blocks, the surface of the bottom of the material guiding plate is provided with two guide grooves, guide rods are arranged in the guide grooves, the output ends of the electric push rods are fixedly connected with the rotating blocks, the rotating blocks are rotationally connected in the concave blocks, the guide blocks are in the guide rods in the guide grooves and are in sliding connection with the concave blocks,

can see that in the above-mentioned structure, utilize electric putter to move the stock guide upwards for the turning block rotates in the inside of spill piece, and the spill piece drives the outside slip of guide bar, the stock guide angle with the slope changes, make the stock guide of slope form adjust to vertical form, and then other pipes of restriction enter into on the transport bracket together, guarantee the conveying efficiency of every pipe, moreover through adjusting the inclination of stock guide, can control the speed that the pipe on the raw materials bracket enters into transport bracket, the better material loading effect of assurance pipe.

Preferably, two mounting grooves are formed in the surface of the conveying bracket, a screw rod is arranged in one mounting groove, a sliding rod is arranged in the other mounting groove, a threaded block and a sliding block are respectively arranged outside the screw rod and the sliding rod, a motor is arranged at one end of the screw rod, the output end of the motor is connected with the screw rod in one mounting groove in a coaxial transmission manner, the threaded block and the sliding block are respectively connected with the screw rod and the sliding rod in a threaded manner and are fixedly arranged at the bottom of the movable seat.

It can be seen that in the structure, the motor drives the screw rod to rotate in one of the installation grooves, so that the threaded block drives the movable seat to move, and the movable seat can slide outside the sliding block and the sliding rod to stably move, so that the movable seat can drive the conical ejection end to drive one end of the guide pipe to enter the feeding port of the hole cutting equipment for feeding treatment.

Preferably, two supporting blocks are arranged at the end part of the conveying bracket and at one side far away from the movable seat, a connecting rod is arranged between the two supporting blocks, and a rolling shaft is arranged on the outer portion of the connecting rod in a rotating mode.

It can be seen that in the structure, when the movable seat drives the ejection end to eject and feed the guide pipe, the guide pipe can move on the roller outside the connecting rod, and the roller rotates outside the connecting rod, so that the smoothness of pipeline feeding can be improved.

Preferably, a barrier strip is arranged on the surface of the conveying bracket and on one side close to the movable seat, and the barrier strip is consistent with the length of the conveying bracket.

It can be seen that in the structure, the arrangement of the barrier strips can prevent the pipeline rolling on the conveying bracket from falling outside the conveying bracket, and ensure that the pipeline is positioned on the surface of the conveying bracket.

The utility model has the technical effects and advantages that:

1. through setting up the guide structure, utilize electric putter to push up the stock guide for the turning block rotates in the inside of spill piece, and the spill piece drives the guide block and slides in the outside of guide bar, change the stock guide angle of slope, make the stock guide of slope form adjust to vertical form, and then other pipes of restriction enter into on the transport bracket together, guarantee the conveying efficiency of each pipe, and through adjusting the inclination of stock guide, the speed that the pipe on the raw materials bracket enters into the transport bracket can be controlled, better assurance pipe's material loading effect;

2. the screw rod is driven to rotate in one of the installation grooves through the motor, the threaded block drives the movable seat to move, the movable seat can slide outside the sliding block and the sliding rod to stably move, the movable seat can drive the conical ejection end to enable one end of the guide pipe to enter the feeding port of the hole cutting equipment for feeding, and the conical ejection end can adapt to ejection of the guide pipe with different thicknesses.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic diagram of a connection structure between an electric push rod and a rotating block according to the present utility model.

FIG. 3 is a schematic view of the bottom surface structure of the guide plate of the present utility model.

Fig. 4 is a schematic view of a mounting structure of a movable seat according to the present utility model.

Fig. 5 is a schematic diagram of a connection structure between a roller and a connecting rod according to the present utility model.

The reference numerals are: 1. a raw material bracket; 2. a conveying bracket; 3. a protection plate; 4. a movable seat; 5. ejecting the end head; 6. a material guide plate; 7. a support plate; 8. an electric push rod; 9. a rotating block; 10. a concave block; 11. a guide block; 12. a guide groove; 13. a guide rod; 14. a mounting groove; 15. a screw rod; 16. a slide bar; 17. a screw block; 18. a slide block; 19. a motor; 20. a support block; 21. a connecting rod; 22. a roller; 23. a placement groove; 24. a conduit; 25. and a barrier strip.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The feeding mechanism of the automatic small-catheter hole cutting and forming production line shown in the attached drawings 1-5 comprises a raw material bracket 1, wherein a conveying bracket 2 is arranged on one side of the raw material bracket 1, a protection plate 3 is arranged on the rear side of the conveying bracket 2, a movable seat 4 is arranged on the surface of the conveying bracket 2, an ejection end 5 is arranged on the surface of the movable seat 4, the ejection end 5 is of a conical structure, a placing groove 23 is formed in the surface of the raw material bracket 1, and a catheter 24 is placed in the placing groove 23.

As shown in the accompanying figures 1, 2 and 3, a material guiding structure is arranged between the raw material bracket 1 and the conveying bracket 2; the material guiding structure comprises a material guiding plate 6, wherein the material guiding plate 6 is obliquely arranged between a raw material bracket 1 and a conveying bracket 2, one end of the material guiding plate 6 is hinged with the raw material bracket 1, the other end is erected on the surface of the conveying bracket 2, a supporting plate 7 is arranged at the bottom of the material guiding plate 6 between the raw material bracket 1 and the conveying bracket 2, two electric push rods 8 are arranged on the surface of the supporting plate 7, rotating blocks 9 are arranged at the output ends of the two electric push rods 8, a concave block 10 is arranged outside the rotating blocks 9, a guide block 11 is arranged at the top of the concave block 10, two guide grooves 12 are formed in the surface of the bottom of the material guiding plate 6, guide rods 13 are arranged inside the guide grooves 12, the output ends of the electric push rods 8 are fixedly connected with the rotating blocks 9, the rotating blocks 9 are rotatably connected inside the concave block 10, the guide blocks 11 are slidably connected outside the guide rods 13 inside the guide grooves 12, in order to avoid a large number of guide pipes 24 rolling onto the conveying bracket 2 together, the guide pipes 24 are limited to be conveyed, the guide pipes 24 push the guide pipes 6 upwards by utilizing the electric push rod 8 in the process that the inclined guide pipes 6 enter the conveying bracket 2 on the inclined raw material bracket 1, so that the rotating block 9 rotates in the concave block 10, the concave block 10 drives the guide blocks 11 to slide outside the guide rods 13, the inclined guide pipes 6 are changed in angle, the inclined guide pipes 6 are adjusted to be vertical, and further, the limited other guide pipes 24 enter the conveying bracket 2 together, so that the conveying efficiency of each guide pipe 24 is ensured, and the speed of the guide pipes 24 on the raw material bracket 1 entering the conveying bracket 2 can be controlled by adjusting the inclined angle of the guide pipes 6, the feeding effect of the guide tube 24 is better ensured.

In a preferred embodiment, as shown in fig. 1 and 4, two mounting grooves 14 are formed in the surface of the conveying bracket 2, a screw rod 15 is arranged in one mounting groove 14, a slide rod 16 is arranged in the other mounting groove 14, a threaded block 17 and a slide block 18 are respectively arranged outside the screw rod 15 and the slide rod 16, a motor 19 is arranged at one end of the screw rod 15, the output end of the motor 19 is coaxially and in transmission connection with the screw rod 15 in one mounting groove 14, the threaded block 17 and the slide block 18 are respectively in threaded connection and sliding connection with the screw rod 15 and the slide rod 16, the threaded block 17 and the slide block 18 are fixedly arranged at the bottom of the movable seat 4, so that the motor 19 drives the screw rod 15 to rotate in one of the mounting grooves 14, the threaded block 17 drives the movable seat 4 to move, and the movable seat 4 can slide stably outside the slide block 18 and the slide rod 16, so that the movable seat 4 can drive the conical ejection end 5 to insert one end of the guide pipe 24 into a feed port of a hole cutting device for feeding treatment.

In a preferred embodiment, as shown in fig. 1 and 5, two supporting blocks 20 are disposed at the end of the conveying bracket 2 and at a side far away from the moving seat 4, a connecting rod 21 is disposed between the two supporting blocks 20, and a roller 22 is disposed on the outer side of the connecting rod 21 in a rotating manner, so that when the moving seat 4 drives the ejection end 5 to eject and feed the guide tube 24, the guide tube 24 can move on the roller 22 on the outer side of the connecting rod 21, and the roller 22 rotates on the outer side of the connecting rod 21, so that smoothness of feeding of a pipeline can be improved.

In a preferred embodiment, as shown in fig. 1, a blocking strip 25 is arranged on the surface of the conveying bracket 2 and on the side close to the movable seat 4, and the blocking strip 25 is consistent with the length of the conveying bracket 2, so that the blocking strip 25 can prevent the pipeline rolling on the conveying bracket 2 from falling to the outside of the conveying bracket 2, and ensure that the pipeline is on the surface of the conveying bracket 2.

The working principle of the utility model is as follows:

when the structure is specifically used, the device is firstly arranged at the feed inlet of the pipe 24 hole cutting equipment, a bundle of pipes 24 is hoisted on a slope raw material conveying frame, the pipes 24 are positioned in a placing groove 23, and after the hoisting tool is loosened, the pipes 24 roll onto a conveying bracket 2 through a material guide plate 6 and impact a barrier strip 25;

at this time, the motor 19 is utilized to drive the screw rod 15 to rotate in one of the mounting grooves 14, so that the threaded block 17 drives the movable seat 4 to move, and the movable seat 4 can slide and stably move outside the sliding block 18 and the sliding rod 16, so that the movable seat 4 can drive the conical ejection end 5 to drive one end of the guide pipe 24 to enter a feed inlet of the hole cutting equipment for feeding treatment;

when the guide pipe 24 performs ejection feeding through the ejection end 5, the guide pipe 24 can move on the roller 22 outside the connecting rod 21, and the roller 22 rotates outside the connecting rod 21, so that the smoothness of pipeline feeding can be improved;

further, the guide pipe 24 is in the process of entering the conveying bracket 2 through the inclined guide plate 6 on the inclined raw material bracket 1, the guide plate 6 is pushed upwards by the electric push rod 8, so that the rotating block 9 rotates in the concave block 10, the concave block 10 drives the guide block 11 to slide outside the guide rod 13, the angle of the inclined guide plate 6 is changed, the inclined guide plate 6 is adjusted to be vertical, and other limited guide pipes 24 enter the conveying bracket 2 together, so that the conveying efficiency of each guide pipe 24 is ensured, and the speed of entering the conveying bracket 2 by the guide pipe 24 on the raw material bracket 1 can be controlled by adjusting the inclined angle of the guide plate 6, so that the feeding effect of the guide pipe 24 is better ensured.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (7)

1. The utility model provides an automatic change feed mechanism of little pipe cutting hole shaping production line, includes raw materials bracket (1), its characterized in that: a conveying bracket (2) is arranged on one side of the raw material bracket (1), a protection plate (3) is arranged on the rear side of the conveying bracket (2), a movable seat (4) is arranged on the surface of the conveying bracket (2), an ejection end (5) is arranged on the surface of the movable seat (4), and a material guiding structure is arranged between the raw material bracket (1) and the conveying bracket (2);

the guide structure comprises a guide plate (6), wherein the guide plate (6) is obliquely arranged between a raw material bracket (1) and a conveying bracket (2), one end of the guide plate (6) is hinged to the raw material bracket (1), the other end of the guide plate is arranged on the surface of the conveying bracket (2), a supporting plate (7) is arranged at the bottom of the guide plate (6) between the raw material bracket (1) and the conveying bracket (2), two electric pushing rods (8) are arranged on the surface of the supporting plate (7), rotating blocks (9) are arranged at the output ends of the electric pushing rods (8), concave blocks (10) are arranged outside the rotating blocks (9), guide blocks (11) are arranged at the top of the concave blocks (10), two guide grooves (12) are formed in the surface of the bottom of the guide plate (6), and guide rods (13) are arranged in the guide grooves (12).

2. The feeding mechanism of an automatic small-pipe hole cutting and forming production line according to claim 1, wherein: two mounting grooves (14) are formed in the surface of the conveying bracket (2), a screw rod (15) is arranged in one mounting groove (14), a sliding rod (16) is arranged in the other mounting groove (14), a threaded block (17) and a sliding block (18) are respectively arranged outside the screw rod (15) and the sliding rod (16), and a motor (19) is arranged at one end of the screw rod (15).

3. The feeding mechanism of an automatic small-pipe hole cutting and forming production line according to claim 2, wherein: the output end of the motor (19) is coaxially connected with a screw rod (15) in one of the mounting grooves (14) in a transmission way, the threaded block (17) and the sliding block (18) are respectively connected with the screw rod (15) and the sliding rod (16) in a threaded way and in a sliding way, and the threaded block (17) and the sliding block (18) are fixedly arranged at the bottom of the movable seat (4).

4. The feeding mechanism of an automatic small-pipe hole cutting and forming production line according to claim 1, wherein: two supporting blocks (20) are arranged at the end part of the conveying bracket (2) and far away from one side of the movable seat (4), a connecting rod (21) is arranged between the two supporting blocks (20), and a rolling shaft (22) is arranged outside the connecting rod (21) in a rotating mode.

5. The feeding mechanism of an automatic small-pipe hole cutting and forming production line according to claim 1, wherein: a placing groove (23) is formed in the surface of the raw material bracket (1), and a guide pipe (24) is placed in the placing groove (23).

6. The feeding mechanism of an automatic small-pipe hole cutting and forming production line according to claim 1, wherein: the output end of the electric push rod (8) is fixedly connected with the rotating block (9), the rotating block (9) is rotationally connected in the concave block (10), the guide block (11) is in sliding connection with the outside of the guide rod (13) in the guide groove (12), and the guide block (11) is fixedly connected with the concave block (10).

7. The feeding mechanism of an automatic small-pipe hole cutting and forming production line according to claim 1, wherein: and a blocking strip (25) is arranged on the surface of the conveying bracket (2) and close to one side of the movable seat (4), and the length of the blocking strip (25) is consistent with that of the conveying bracket (2).