CN111826799A - Variable-diameter telescopic pipe weaving equipment - Google Patents

Abstract

The invention relates to the field related to textile machines, in particular to a variable-diameter telescopic pipe knitting device, which comprises a box body, a box body cavity is arranged in the box body, a fixed plate is fixedly arranged on the top wall of the box body, a threaded rod penetrating through the left side wall of the box body is arranged in the box body cavity, the left end of the threaded rod is provided with a turntable, a winding rod penetrating through the middle of the fixed plate is arranged in the box body cavity, the right side of the threaded rod is provided with a clamping device for fixing the winding rod, the invention provides a variable-diameter telescopic pipe knitting device which can automatically complete the knitting process of telescopic pipes with different diameters, meanwhile, the hot melting knife can cut the telescopic pipe into a proper size, the problems that the diameter is unstable and the like caused by traditional weaving are solved, the product quality and the production rate are improved, and meanwhile, the manpower and the financial resources are saved to a certain extent.

Description

Variable-diameter telescopic pipe weaving equipment

Technical Field

The invention relates to the field related to textile machines, in particular to a variable-diameter telescopic pipe knitting device.

Background

The diameter is fixed when the traditional braider weaves the flexible pipe, generally forms through artifical manual work when needing to weave flexible pipe of variable diameter, and manual operation can cause flexible pipe pitch inhomogeneous, and the diameter size is unstable, and the yield is low, extravagant manpower, financial resources scheduling problem to influence the quality and the output of product.

Disclosure of Invention

The invention aims to provide a variable-diameter telescopic pipe weaving device which can overcome the defects in the prior art, so that the practicability of the device is improved.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a variable-diameter telescopic pipe weaving device, which comprises a box body, wherein a box body cavity is arranged in the box body, a fixed plate is fixedly arranged on the top wall of the box body, a threaded rod penetrating through the left side wall of the box body is arranged in the box body cavity, a rotary disc is arranged at the left end of the threaded rod, a winding rod penetrating through the middle of the fixed plate is arranged in the box body cavity, a clamping device for fixing the winding rod is arranged at the right side of the threaded rod, six rotating shafts penetrating through the fixed plate and symmetrical about the center of the winding rod are rotatably connected to the left side wall of the box body, weaving devices for weaving are fixedly arranged on the six rotating shafts, a motor is fixedly arranged on the left side wall of the box body, a motor shaft is dynamically connected onto the motor, a worm is fixedly arranged on the motor shaft, the improved telescopic pipe winding machine is characterized in that a worm wheel meshed with the worm is fixedly arranged on the first rotating shaft, a second rotating shaft which is rotatably connected to the front end wall and the rear end wall of the box body is arranged on the upper side of the first rotating shaft, symmetrical first belt pulleys are fixedly arranged on the first rotating shaft and the second rotating shaft, the two belt pulleys are connected through a first belt in a transmission mode, winding wheels used for winding telescopic pipes are fixedly arranged on the second rotating shaft, a length fixing device used for cutting the telescopic pipes is arranged on the right side of the first rotating shaft, a collecting box used for collecting the telescopic pipes is arranged on the right side of the box body, a collecting cavity is formed in the collecting box, and the motor.

Furthermore, the clamping device comprises a moving block which is rotatably connected to the threaded rod, fixed cavities which are symmetrical relative to the winding rod are arranged in the fixed plate, two tracks which are fixedly connected to the fixed plate are arranged on the left end faces of the two fixed cavities, two connecting rods which are symmetrical relative to the threaded rod are arranged on the moving block, two sliding blocks which can slide up and down are arranged on the two tracks, the upper end faces of the two sliding blocks are fixedly connected with the two connecting rods, two first springs are fixedly arranged between the end faces, far away from the winding rod, of the two fixed cavities and the side walls, far away from the winding rod, of the two sliding blocks, and three grabbing chucks are fixedly connected to the side walls, close to the winding rod, of the two sliding blocks.

Further, weave the device including fixed connection six epaxial intermeshing's of rotation first gear, six first gear right sides are provided with fixed connection and are in epaxial locating wheel rotates, the fixed four draw-in grooves that are provided with on the first gear, fixed link has the stick that is used for the unwrapping wire on the draw-in groove, stick right side fixedly connected with is used for crossing the ring of line, the motor shaft with be close to the fixed second belt pulley that is provided with the symmetry in the axis of rotation of motor shaft, connect through second belt drive between two second belt pulleys, two about the winding pole symmetry the fixed third belt pulley that is provided with the symmetry in the axis of rotation, complain and search through third belt drive between two third belt pulleys and connect. Further, the bag breaking device comprises a second gear, a cam is fixedly arranged on a second rotating shaft, a pulley is arranged on the outer surface of the cam in a sliding mode, a supporting plate is fixedly arranged on the fixing plate, a connecting rod penetrating through the supporting plate is rotatably connected to the pulley, a second spring is fixedly arranged between the pulley and the supporting plate, the tail end of the connecting rod is fixedly connected with a moving plate, and a cutter head is fixedly arranged at the tail end of the moving plate.

Furthermore, the length control device comprises a third rotating shaft which is rotatably connected to the front wall and the rear wall of the box body on the right side of the first rotating shaft, an incomplete gear is fixedly arranged on the third rotating shaft, symmetrical fourth belt pulleys are fixedly arranged on the third rotating shaft and the first rotating shaft, the two fourth belt pulleys are in transmission connection through a fourth belt, a fourth rotating shaft which is rotatably connected to the front end wall and the rear end wall of the box body is arranged on the right side of the third rotating shaft, a second gear which is meshed with the incomplete gear is fixedly arranged on the fourth rotating shaft, a third gear is fixedly arranged on the fourth rotating shaft, a fifth rotating shaft which is rotatably connected to the front wall and the rear wall of the box body is arranged on the upper side of the fifth rotating shaft, a fourth gear which is meshed with the third gear is fixedly arranged on the fourth rotating shaft, and symmetrical idler wheels are fixedly arranged on the fifth rotating shaft and, a sixth rotating shaft which is rotatably connected to the front wall and the rear wall of the box body is arranged on the right side of the fifth rotating shaft, a seventh rotating shaft which is rotatably connected to the front wall and the rear wall of the box body is arranged on the right side of the sixth rotating shaft, symmetrical fifth belt pulleys are fixedly arranged on the sixth rotating shaft and the seventh rotating shaft, the two fifth belt pulleys are connected through a conveying belt, an induction clamping plate for clamping a telescopic pipe is fixedly arranged on the conveying belt, a cutting box which is fixedly connected to the top wall of the box body is arranged on the upper side of the conveying belt, a cutting cavity with a downward opening is arranged in the cutting box, an eighth rotating shaft which is rotatably connected to the front end wall and the rear end wall of the cutting box is arranged in the cutting cavity, a cam is fixedly arranged on the eighth rotating shaft, sliding plates which are slidably connected to the upper sides of, the bottom surface of the sliding plate is fixedly provided with a hot melting knife.

The invention has the beneficial effects that: the invention provides a variable-diameter telescopic pipe weaving device which can automatically complete the weaving process of telescopic pipes with different diameters, and meanwhile, a hot melting knife can cut the telescopic pipes into proper sizes, so that the problems of unstable diameter and the like caused by traditional weaving are solved, the product quality and the production efficiency are improved, and meanwhile, the manpower and the financial resources are saved to a certain extent.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the overall structure of a variable diameter telescopic tube knitting apparatus according to the present invention;

FIG. 2 is a schematic view of the structure A-A of FIG. 1;

FIG. 3 is a schematic diagram of B-B of FIG. 1;

FIG. 4 is a schematic diagram of structure C of FIG. 1;

fig. 5 is a partial enlarged view of D-D in fig. 4.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

With reference to fig. 1-5, the variable diameter telescopic tube knitting apparatus includes a box body 10, a box body cavity 11 is provided in the box body 10, a fixing plate 16 is fixedly provided on a top wall of the box body 10, a threaded rod 21 penetrating through a left side wall of the box body 10 is provided in the box body cavity 11, a rotary table 22 is provided at a left end of the threaded rod, a winding rod 70 penetrating through a middle of the fixing plate 16 is provided in the box body cavity 11, a holding device 101 for fixing the winding rod 70 is provided on a right side of the threaded rod 21, six rotating shafts 23 penetrating through the fixing plate 16 and being centrosymmetric with respect to the winding rod 70 are rotatably connected to a left side wall of the box body 10, a knitting device 102 for knitting is fixedly provided on the six rotating shafts 23, a motor 27 is fixedly provided on the left side wall of the box body 10, and a, a worm 30 is fixedly arranged on the motor shaft 28, a first rotating shaft 71 which is rotatably connected on the front end wall and the rear end wall of the box body 10 is arranged on the upper side of the motor shaft 28, a worm wheel 31 engaged with the worm 30 is fixedly arranged on the first rotating shaft 71, a second rotating shaft 72 rotatably connected to the front and rear end walls of the box body 10 is arranged on the upper side of the first rotating shaft 71, symmetrical first belt pulleys 32 are fixedly arranged on the first rotating shaft 71 and the second rotating shaft 72, the two belt pulleys 32 are in transmission connection through the first belt 33, the winding wheel 29 for winding the telescopic pipe is fixedly arranged on the second rotating shaft 72, the right side of the first rotating shaft 71 is provided with a length control device 103 for cutting the telescopic pipes, the right side of the box body 10 is provided with a collecting box 38 for collecting the telescopic pipes, the collecting chamber 37 is arranged in the collecting box 38, and the motor shaft 28 is rotatably connected to the left side wall of the collecting box 38.

Advantageously, the clamping device 101 includes a moving block 20 rotatably connected to the threaded rod 21, a fixed cavity 75 symmetrical with respect to the winding rod 70 is provided in the fixed plate 16, two rails 64 fixedly connected to the fixed plate 16 are provided on left end surfaces of the two fixed cavities 75, two connecting rods 60 symmetrical with respect to the threaded rod 21 are provided on the moving block 20, two sliding blocks 59 capable of sliding up and down are provided on the two rails 64, upper end surfaces of the two sliding blocks 59 are fixedly connected to the two connecting rods 60, two first springs 58 are fixedly provided between end surfaces of the two fixed cavities 75 far away from the winding rod 70 and side walls of the two sliding blocks 59 far away from the winding rod 70, and three catching chucks 62 are fixedly connected to side walls of the two sliding blocks 59 near the winding rod 70.

Advantageously, the weaving device 102 includes first gears 56 fixedly connected to the six rotating shafts 23, the six first gears 56 are provided with positioning wheels 55 fixedly connected to the rotating shafts 23 on the right sides thereof, the first gears 56 are fixedly provided with four slots 57, bars 13 for unwinding are fixedly connected to the slots 57, rings 12 for winding are fixedly connected to the right sides of the bars 13, the motor shaft 28 and the rotating shaft 23 near the motor shaft 28 are fixedly provided with symmetrical second pulleys 25, the two second pulleys 25 are in transmission connection through a second belt 26, the two rotating shafts 23 symmetrical with respect to the winding rod 70 are fixedly provided with symmetrical third pulleys 18, and the two third pulleys 18 are in transmission connection through a third belt 19.

Advantageously, the length control device 103 includes a third rotating shaft 73 rotatably connected to the right side of the first rotating shaft 71 on the front and rear walls of the box 10, an incomplete gear 36 is fixedly disposed on the third rotating shaft 73, symmetrical fourth belt pulleys 35 are fixedly disposed on the third rotating shaft 73 and the first rotating shaft 71, the two fourth belt pulleys 35 are in transmission connection through a fourth belt 34, a fourth rotating shaft 74 rotatably connected to the front and rear end walls of the box 10 is disposed on the right side of the third rotating shaft 73, a second gear 50 engaged with the incomplete gear 36 is fixedly disposed on the fourth rotating shaft 74, a third gear 49 is fixedly disposed on the fourth rotating shaft 74, a fifth rotating shaft 79 rotatably connected to the front and rear walls of the box 10 is disposed on the upper side, and a fourth gear 48 engaged with the third gear 49 is fixedly disposed on the fourth rotating shaft 74, symmetrical rollers 51 are fixedly arranged on the fifth rotating shaft 79 and the fourth rotating shaft 74, a sixth rotating shaft 76 rotatably connected to the front wall and the rear wall of the box body 10 is arranged on the right side of the fifth rotating shaft 79, a seventh rotating shaft 42 rotatably connected to the front wall and the rear wall of the box body 10 is arranged on the right side of the sixth rotating shaft 76, symmetrical fifth belt pulleys 41 are fixedly arranged on the sixth rotating shaft 76 and the seventh rotating shaft 76, the two fifth belt pulleys are connected through a conveyor belt 40, an induction clamping plate 39 for clamping a telescopic pipe is fixedly arranged on the conveyor belt 40, a cutting box 43 fixedly connected to the top wall of the box body 10 is arranged on the upper side of the conveyor belt 40, a cutting cavity 77 with a downward opening is arranged in the cutting box 43, eighth rotating shafts 46 rotatably connected to the front end wall and the rear end wall of the cutting box 43 are arranged in the cutting cavity 77, and a cam 47 is fixedly, sliding plates 45 which are connected to the upper sides of the two side walls of the cutting box 43 in a sliding mode are arranged on the lower sides of the cams 47, the bottom surfaces of the sliding plates 45 and the lower end surface of the cutting cavity 77 are fixedly connected with second springs 44, and hot melting knives 78 are fixedly arranged on the bottom surfaces of the sliding plates.

Examples of the fixing method include, but are not limited to, bolting, welding, and the like.

Sequence of mechanical actions of the whole device: before the device works, the winding rod 70 is inserted into the fixed plate 16, the rotating disc 22 is rotated, the moving block 20 moves to the side far away from the fixed plate 16, so that the two sliding blocks 59 are driven to slide to the side close to the threaded rod 70, so that the three-grip chuck 62 is driven to fix the threaded rod 70, the wires on the wire rod 13 are fixed on the threaded rod 70, when the device starts to work, the motor 27 is started, so that the threaded rod 28 is driven to rotate, the six rotating shafts 23 are driven to rotate through belt transmission, so that the first gears 56 are driven to be mutually meshed, so that the wire rod 13 is driven to rotate around the winding rod 70 for weaving, after a certain length of the wire rod is woven, the woven telescopic pipe is wound on the winding wheel 29, and the motor shaft 28 drives the winding wheel 71 to rotate through the worm 30, thereby driving the winding wheel 29 to rotate, when the telescopic tube is cut to length, the telescopic tube passes through the space between the two rollers 51, the clamping plate 39 on the conveyor belt 40 clamps the telescopic tube, the fifth rotating shaft 79 drives the eighth rotating shaft 46 to rotate through belt transmission, thereby driving the cam 47 to rotate, and when the clamping plate 39 clamps the telescopic tube for the second time, the cam 47 drives the sliding plate 45 to move downwards, thereby enabling the hot melting knife 78 to complete the cutting process of the telescopic tube.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (4)

1. A variable-diameter telescopic pipe weaving device comprises a box body and is characterized in that a box body cavity is arranged in the box body, a fixed plate is fixedly arranged on the top wall of the box body, a threaded rod penetrating through the left side wall of the box body is arranged in the box body cavity, a rotary disc is arranged at the left end of the threaded rod, a winding rod penetrating through the middle of the fixed plate is arranged in the box body cavity, a clamping device used for fixing the winding rod is arranged at the right side of the threaded rod, six rotating shafts penetrating through the fixed plate and symmetrical about the center of the winding rod are rotatably connected to the left side wall of the box body, weaving devices used for weaving are fixedly arranged on the six rotating shafts, a motor is fixedly arranged on the left side wall of the box body, a motor shaft is dynamically connected to the motor, a worm is fixedly arranged on the motor shaft, a first, the improved telescopic pipe winding machine is characterized in that a worm wheel meshed with the worm is fixedly arranged on the first rotating shaft, a second rotating shaft which is rotatably connected to the front end wall and the rear end wall of the box body is arranged on the upper side of the first rotating shaft, symmetrical first belt pulleys are fixedly arranged on the first rotating shaft and the second rotating shaft, the two belt pulleys are connected through a first belt in a transmission mode, winding wheels used for winding telescopic pipes are fixedly arranged on the second rotating shaft, a length fixing device used for cutting the telescopic pipes is arranged on the right side of the first rotating shaft, a collecting box used for collecting the telescopic pipes is arranged on the right side of the box body, a collecting cavity is formed in the collecting box, and the motor.

2. A variable diameter telescopic tube knitting apparatus according to claim 1, characterized by: the clamping device comprises a moving block which is rotatably connected to the threaded rod, fixed cavities which are symmetrical to the winding rod are arranged in the fixed plate, two tracks which are fixedly connected to the fixed plate are arranged on the left end faces of the two fixed cavities, two connecting rods which are symmetrical to the threaded rod are arranged on the moving block, two sliding blocks which can slide up and down are arranged on the two tracks, the upper end faces of the two sliding blocks are fixedly connected with the two connecting rods, two first springs are fixedly arranged between the side walls, far away from the winding rod, of the two fixed cavities and the side walls, far away from the winding rod, of the two sliding blocks, and three grabbing chucks are fixedly connected to the side walls, close to the winding rod, of the two sliding blocks.

3. A variable diameter telescopic tube knitting apparatus according to claim 1, characterized by: weave the device including fixed connection six epaxial intermeshing's of rotation first gear, six first gear right sides are provided with fixed connection and are in epaxial locating wheel rotates, the fixed four draw-in grooves that are provided with on the first gear, fixed link has the line stick that is used for the unwrapping wire on the draw-in groove, line stick right side fixedly connected with is used for crossing the ring of line, the motor shaft with be close to the fixed second belt pulley that is provided with the symmetry in the axis of rotation of motor shaft, connect through second belt drive between two second belt pulleys, two about the winding pole symmetry the fixed third belt pulley that is provided with the symmetry in the axis of rotation, complain and connect through third belt drive between two third belt pulleys of fox.

4. A variable diameter telescopic tube knitting apparatus according to claim 1, characterized by: the length fixing device comprises a third rotating shaft which is rotatably connected to the front wall and the rear wall of the box body on the right side of the first rotating shaft, an incomplete gear is fixedly arranged on the third rotating shaft, symmetrical fourth belt pulleys are fixedly arranged on the third rotating shaft and the first rotating shaft, the two fourth belt pulleys are in transmission connection through a fourth belt, a fourth rotating shaft which is rotatably connected to the front end wall and the rear end wall of the box body is arranged on the right side of the third rotating shaft, a second gear which is meshed with the incomplete gear is fixedly arranged on the fourth rotating shaft, a third gear is fixedly arranged on the fourth rotating shaft, a fifth rotating shaft which is rotatably connected to the front wall and the rear wall of the box body is arranged on the upper side of the fifth rotating shaft, a fourth gear which is meshed with the third gear is fixedly arranged on the fourth rotating shaft, symmetrical rollers are fixedly arranged on the fifth rotating shaft and the fourth rotating shaft, and a sixth rotating shaft which is rotatably connected to the front wall, a seventh rotating shaft which is rotatably connected with the front wall and the rear wall of the box body is arranged at the right side of the sixth rotating shaft, fifth belt pulleys which are symmetrical are fixedly arranged on the sixth rotating shaft and the seventh rotating shaft, the two fifth belt pulleys are connected through a conveyor belt, an induction clamping plate for clamping the extension tube is fixedly arranged on the conveyor belt, a cutting box fixedly connected to the top wall of the box body is arranged on the upper side of the conveyor belt, a cutting cavity with a downward opening is arranged in the cutting box, an eighth rotating shaft which is rotatably connected with the front end wall and the rear end wall of the cutting box is arranged in the cutting cavity, a cam is fixedly arranged on the eighth rotating shaft, sliding plates which are connected to the upper sides of the two side walls of the cutting box in a sliding mode are arranged on the lower side of the cam, the bottom surface of each sliding plate and the lower end face of the corresponding cutting cavity are fixedly connected with second springs, and hot melting knives are fixedly arranged on the bottom surfaces of the sliding plates.

Images