CN215241187U - Automatic pipe feeding device - Google Patents

Abstract

The utility model discloses an automatic advance tub of device, including A to movable plate, removal square rail, A to advancing tub of wheel, synchronous motion piece, pipe cutting dabber, B to advancing tub of wheel two, B to movable plate and clamp and loosen the cylinder, the upper and lower both sides of removing the square rail are installed A respectively through removing the slider symmetry to movable plate and B to the movable plate, A is located the top of cutting the pipe dabber to the movable plate, B is located the below of cutting the pipe dabber to the movable plate, A is installed A to power wheel and B to power wheel to movable plate and B to the lateral symmetry that the movable plate deviates from to cut the pipe dabber, A is installed A to advancing tub of wheel and B to movable plate and B to the lateral symmetry that the movable plate is close to cutting the pipe dabber and is advanced tub of wheel two. The utility model discloses a cylinder can realize A to with B press from both sides tightly and loosen when advancing the pipe wheel, the unmanned automatic poling action of realization that can be better, alone can control many machines, work efficiency is high, reduces intensity of labour, improve equipment degree of automation.

Description

Automatic pipe feeding device

Technical Field

The utility model relates to an automatic tub technical field that advances of full-automatic pipe cutting machine specifically is an automatic advance tub of device.

Background

The principle of the pipe cutting machine is that through the mutual matching of air-pushing oil type, the movement direction of an air pressure system is controlled by an electrical system, an oil path is pushed to do linear reciprocating movement, and the movement of the air-oil path is controlled and changed according to a signal detected by limiting of a carriage in the reciprocating movement, so that an expected feed route is achieved.

Driven pipe cutting machine needs the manual work to penetrate the paper tube and cuts the hollow shaft, and work efficiency is low, alone can only operate a machine moreover, extravagant manpower and materials increase manufacturing cost.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic advance tub device possesses a cylinder and tightly presss from both sides tightly and unclamps simultaneously through the steerable pipe feeding wheel of controlling of synchronous motion piece of scissors formula, alone can control many machines and the advantage that work efficiency is high, has solved the manual work and has penetrated the paper tube and cut the problem that hollow shaft and work efficiency are low.

In order to achieve the above object, the utility model provides a following technical scheme: an automatic pipe feeding device comprises an A-direction moving plate, a moving square rail, an A-direction pipe feeding wheel, a synchronous moving plate, a pipe cutting mandrel, a B-direction pipe feeding wheel II, a B-direction moving plate and a clamping loosening cylinder, wherein the A-direction moving plate and the B-direction moving plate are symmetrically installed on the upper side and the lower side of the moving square rail respectively through moving sliders, the A-direction moving plate is located above the pipe cutting mandrel, the B-direction moving plate is located below the pipe cutting mandrel, an A-direction power wheel and a B-direction power wheel are symmetrically installed on one side, away from the pipe cutting mandrel, of the A-direction moving plate and the B-direction moving plate, the A-direction pipe feeding wheel and the B-direction pipe feeding wheel II are symmetrically installed on one side, close to the pipe cutting mandrel, of the A-direction moving plate and the B-direction moving plate, the A-direction moving plate and the B-direction moving plate are fixed together through the synchronous moving plate, and the central position of the synchronous moving plate and the axial position of the pipe cutting mandrel are located on the same horizontal line, the center position of the synchronous moving piece is fixed on a telescopic rod of the clamping and loosening cylinder, and the bottom of the clamping and loosening cylinder is fixed at the upper end of the B-direction moving plate.

Preferably, the pipe cutting mandrel is symmetrically fixed with two movable square rails at one end of the pipe feeding portion, the two movable square rails are respectively located at the front side and the rear side of the pipe cutting mandrel, paper pipes are arranged at the other ends of the two movable square rails, and the centers of the paper pipes and the pipe cutting mandrel are located on the same horizontal line.

Preferably, the A direction moving plate and the A direction power wheel are fixed together through a triangular belt to realize coaxial rotation, the B direction power wheel and the B direction tube feeding wheel are fixed together through a triangular belt to realize coaxial rotation, the B direction tube feeding wheel and the A direction tube feeding wheel are respectively fixed on the B direction moving plate and the A direction moving plate on two sides through bearings, the A direction tube feeding wheel is located above the tube cutting mandrel, and the B direction tube feeding wheel is located below the tube cutting mandrel.

Preferably, B is to advancing a tub wheel one to one side that tub wheel two deviates from B to the movable plate through the support mounting, B is fixed on the support of cutting tub dabber below through the bearing to advancing tub wheel one, B is to advancing tub wheel one and B to advancing to advance to realize coaxial rotation together through the V belt is fixed between the tub wheel two.

Preferably, the A-direction moving plate and the B-direction moving plate are symmetrically fixed at the upper end and the lower end of the synchronous moving plate through bolts, and the synchronous moving plate is located on one side, deviating from the pipe cutting mandrel, of the moving square rail.

Preferably, the clamping and loosening cylinder is in the vertical direction, the B-direction moving plate is located under the clamping and loosening cylinder and is fixedly provided with a clamping range adjusting screw rod, and a rotating hand wheel is installed at the bottom of the clamping range adjusting screw rod.

Compared with the prior art, the beneficial effects of the utility model are as follows: the utility model discloses a cylinder can realize A to with B press from both sides tightly and loosen when advancing the pipe wheel, the unmanned automatic poling action of realization that can be better, alone can control many machines, work efficiency is high, reduces the human cost, reduces intensity of labour, improve equipment degree of automation.

Drawings

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

in the figure: 1. a-direction power wheel; 2. moving the board in the A direction; 3. moving the square rail; 4. moving the slide block; 5. a is to entering the tube wheel; 6. synchronously moving the sheets; 7. cutting a pipe mandrel; 8. b, feeding a pipe wheel I in the direction B; 9. a second pipe feeding wheel is arranged in the direction B; 10. moving the board in the B direction; 11. a clamping and loosening cylinder; 12. a clamping range adjusting screw rod; 13. a power wheel in the direction B; 14. a paper tube; 15. a V-belt; 16. rotating a hand wheel; 17. and a bearing.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution of an automatic pipe feeding device: an automatic tube feeding device comprises an A-direction moving plate 2, a moving square rail 3, an A-direction tube feeding wheel 5 and a synchronous moving plate 6, the pipe cutting mandrel 7, the pipe feeding wheel II 9 in the B direction, the moving plate 10 in the B direction and the clamping and loosening cylinder 11, two moving square rails 3 are symmetrically fixed at one end, located at the pipe feeding, of the pipe cutting mandrel 7, the two moving square rails 3 are located at the front side and the rear side of the pipe cutting mandrel 7 respectively, paper tubes 14 are arranged at the other ends of the two moving square rails 3, the paper tubes 14 and the center of the pipe cutting mandrel 7 are located on the same horizontal line, the moving plate 2 in the A direction and the moving plate 10 in the B direction are symmetrically installed on the upper side and the lower side of the moving square rails 3 through moving sliders 4 respectively, the moving plate 2 in the A direction and the moving plate 10 in the B direction can move synchronously on the two moving square rails 3 through the moving sliders 4, the moving plate 2 in the A direction is located above the pipe cutting mandrel 7, and the moving plate 10 in the B direction is located below the pipe cutting mandrel 7.

An A-direction power wheel 1 and a B-direction power wheel 13 are symmetrically installed on one side of the A-direction moving plate 2 and the B-direction moving plate 10, which is far away from the tube cutting mandrel 7, an A-direction tube feeding wheel 5 and a B-direction tube feeding wheel two 9 are symmetrically installed on one side of the A-direction moving plate 2 and the B-direction moving plate 10, which is near to the tube cutting mandrel 7, the A-direction moving plate 2 and the A-direction power wheel 1 are fixed together through a triangular belt 15 to realize coaxial rotation, the B-direction tube feeding wheel 13 and the B-direction tube feeding wheel two 9 are fixed together through the triangular belt 15 to realize coaxial rotation, the B-direction tube feeding wheel two 9 and the A-direction tube feeding wheel 5 are respectively fixed on the B-direction moving plate 10 and the A-direction moving plate 2 on two sides through bearings 17, the A-direction tube feeding wheel 5 is positioned above the tube cutting mandrel 7, the B-direction tube feeding wheel two 9 is positioned below the tube cutting mandrel 7, the B-direction tube feeding wheel one side of the B-direction tube feeding wheel two 9, which is far away from the B-direction moving plate 10, is installed with a B-direction tube feeding wheel one 8 through a bracket, b is fixed on the support of cutting a tub dabber 7 below through bearing 17 to the inside of advancing tub wheel 8, and B realizes coaxial rotation to advancing tub wheel 8 and B and advancing between tub wheel two 9 through V belt 15 fixed together, through setting up AB to advancing the tub wheel, makes the paper tube can move toward one direction, makes the paper tube can advance smoothly and cut tub dabber 7.

The A-direction moving plate 2 and the B-direction moving plate 10 are fixed together through a synchronous moving plate 6, the synchronous moving plate is based on a parallelogram principle, the A-direction moving plate 2 and the B-direction moving plate 10 are symmetrically fixed at the upper end and the lower end of the synchronous moving plate 6 through bolts, the synchronous moving plate 6 is positioned at one side of a moving square rail 3 departing from a pipe cutting mandrel 7, the central position of the synchronous moving plate 6 and the axial position of the pipe cutting mandrel 7 are positioned on the same horizontal line, the central position of the synchronous moving plate 6 is fixed on an expansion link of a clamping and loosening cylinder 11, the bottom of the clamping and loosening cylinder 11 is fixed at the upper end of the B-direction moving plate 10, the clamping and loosening cylinder 11 is positioned in the vertical direction, a clamping range adjusting screw rod 12 is fixed right below the clamping and loosening cylinder 11 of the B-direction moving plate 10, a rotating hand wheel 16 is installed at the bottom of the clamping range adjusting screw rod 12, and the rotating hand wheel 16 on the clamping range adjusting screw rod 12 is adjusted, can control B to wheel and the distance of pipe cutting dabber 7, the utility model discloses a cylinder can realize A to with B press from both sides tightly and loosen when advancing the pipe wheel, the unmanned automatic poling action of realization that can be better, alone can control many machines, work efficiency is high, reduces the human cost, reduces intensity of labour, improve equipment degree of automation.

The working principle is as follows: the automatic pipe feeding device drives a B-direction moving plate 10 to slide on a moving square rail 3 through the action of a clamping and loosening cylinder 11, the B-direction moving plate 10 slides to drive a synchronous moving plate 6 to stretch, the synchronous moving plate 6 is fixed through the center, and two ends of the synchronous moving plate are symmetrically moved at the same time.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an automatic advance a tub device, includes A to movable plate (2), removal square rail (3), A to advancing tub wheel (5), synchronous motion piece (6), pipe cutting dabber (7), B to advancing tub wheel two (9), B to movable plate (10) and press from both sides tight cylinder (11) of unclamping, its characterized in that: the upper side and the lower side of the moving square rail (3) are respectively provided with an A direction moving plate (2) and a B direction moving plate (10) through a moving slider (4) in a symmetrical mode, the A direction moving plate (2) is positioned above a pipe cutting mandrel (7), the B direction moving plate (10) is positioned below the pipe cutting mandrel (7), the A direction moving plate (2) and the B direction moving plate (10) are provided with an A direction power wheel (1) and a B direction power wheel (13) in a symmetrical mode towards one side departing from the pipe cutting mandrel (7), the A direction moving plate (2) and the B direction moving plate (10) are provided with an A direction pipe feeding wheel (5) and a B direction pipe feeding wheel (9) in a symmetrical mode towards one side close to the pipe cutting mandrel (7), the A direction moving plate (2) and the B direction moving plate (10) are fixed together through a synchronous moving sheet (6), the central position of the core shaft of the synchronous moving sheet (6) and the axis position of the pipe cutting mandrel (7) are positioned on the same horizontal line, the center position of the synchronous moving piece (6) is fixed on a telescopic rod of a clamping and loosening cylinder (11), and the bottom of the clamping and loosening cylinder (11) is fixed at the upper end of a B-direction moving plate (10).

2. An automatic pipe feeding device according to claim 1, wherein: cut a tub dabber (7) and be located the one end symmetry of advancing the pipe and be fixed with two and remove square rail (3), two remove square rail (3) and be located the front and back both sides position of cutting tub dabber (7) respectively, the other end of two removal square rail (3) is equipped with paper tube (14), and paper tube (14) are located same water flat line with the center of cutting tub dabber (7).

3. An automatic pipe feeding device according to claim 1, wherein: a is fixed to be in the same place through V belt (15) and realizes coaxial rotation to between movable plate (2) and the A to power wheel (1), B is fixed to be in the same place through V belt (15) to power wheel (13) and B between advancing tub of wheel two (9), B is fixed respectively to movable plate (10) and A to movable plate (2) of both sides through bearing (17) to advancing tub of wheel two (9) and A to the inside of advancing tub of wheel (5), A is located the top of cutting tub dabber (7) to advancing tub of wheel (5), B is located the below of cutting tub dabber (7) to advancing tub of wheel two (9).

4. An automatic pipe feeding device according to claim 1, wherein: b deviates from B to one side of moving plate (10) to advancing tub wheel two (9) and has B to advance tub wheel (8) through the support mounting, B is fixed on the support of cutting tub dabber (7) below through bearing (17) to the inside of advancing tub wheel (8), B is fixed together through V belt (15) to advancing tub wheel one (8) and B to advancing between tub wheel two (9) and realizes coaxial rotation.

5. An automatic pipe feeding device according to claim 1, wherein: the A-direction moving plate (2) and the B-direction moving plate (10) are symmetrically fixed at the upper end and the lower end of the synchronous moving plate (6) through bolts, and the synchronous moving plate (6) is located on one side, deviating from the pipe cutting mandrel (7), of the moving square rail (3).

6. An automatic pipe feeding device according to claim 1, wherein: the clamping and loosening air cylinder (11) is located in the vertical direction, the B-direction moving plate (10) is located under the clamping and loosening air cylinder (11) and is fixedly provided with a clamping range adjusting screw rod (12), and a rotating hand wheel (16) is installed at the bottom of the clamping range adjusting screw rod (12).

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