CN112723045A - Reducing guide type rubber and plastic pipe winding device - Google Patents

Abstract

The invention discloses a reducing guide type rubber and plastic pipe belt winding device. Including infinitely variable control reducing location guider, infinitely variable control reducing location guider is including setting up the stretch-draw formula reducing guide sleeve in the frame, is the axial respectively and evenly sets up in a plurality of widen open slots of stretch-draw formula reducing guide sleeve one end set up in the reducing annular of the widen open slot one end internal perisporium of stretch-draw formula reducing guide sleeve sets up in the open reducing spacing ring of this reducing annular to and toper regulation thread bush, stretch-draw formula reducing guide sleeve periphery wall sets up corresponding coupling screw thread, toper regulation thread bush is located through this coupling thread bush stretch-draw formula reducing guide sleeve. The reducing guide type rubber and plastic pipe winding device is simple and reasonable in structure, simple and convenient to use and adjust and high in universality.

Description

Reducing guide type rubber and plastic pipe winding device

Technical Field

The invention relates to a rubber tube production device, in particular to a reducing guide type rubber and plastic tube belt winding device.

Background

The automatic winding and taping device of the existing rubber tube has certain unreasonable positions due to the structure, if the conveying guide limiting device of the rubber tube is unstable in positioning, particularly, the relative position of the rubber tube with high motion flexibility and a winding strip material has large displacement, so that the rubber tube generates large amplitude vibration, shaking, local distortion deformation and the like, and the influence degree of the phenomenon is different along with the rigidity or flexibility of a pipeline, the hardness degree of the winding strip material, the winding tension force and the like, and the influence degrees can influence the winding and taping effect and the product quality. And for the automatic winding and wrapping device provided with the input guide pipe and the output guide pipe butt joint, the requirement on guiding and limiting is higher. Especially, current automatic winding belting adaptability is not enough, can only be applicable to the rubber tube of single specification type mostly, when the specification changes, needs to change different wind device parts, otherwise influences winding effect and around package quality, even unable normal operating.

Disclosure of Invention

The invention aims to provide a reducing guide type rubber and plastic pipe belt winding device aiming at the defects in the prior art. The reducing guide type rubber and plastic pipe winding device is simple and reasonable in structure, simple and convenient to use and adjust and high in universality.

The variable diameter guide type rubber and plastic pipe winding device comprises a stepless adjustment variable diameter positioning guide device, wherein the stepless adjustment variable diameter positioning guide device comprises a stretching type variable diameter positioning sleeve arranged on a rack, a plurality of width-widening open grooves axially and uniformly formed in one end of the stretching type variable diameter positioning guide sleeve, a variable diameter ring groove formed in the inner peripheral wall of one end of the width-widening open groove of the stretching type variable diameter positioning guide sleeve, an opening type variable diameter limiting ring arranged in the variable diameter ring groove, and a conical adjustment thread sleeve, corresponding coupling threads are arranged on the outer peripheral wall of the stretching type variable diameter positioning guide sleeve, and the conical adjustment thread sleeve is sleeved on the stretching type variable diameter positioning guide sleeve through the coupling threads.

The variable-diameter guide type rubber and plastic pipe wrapping device is suitable for wrapping rubber pipe strips with different diameters by corresponding stepless adjustment variable-diameter positioning guide devices on the basis of simple and reasonable structure, the gaps between the wrapped strips (such as wrapping strips) and the rubber pipes can be basically kept unchanged, the rubber pipes are stably and reliably positioned when wrapped, the rubber pipes cannot be locally bent and deformed or radially offset along with the feeding and pulling of the strips, the uniform wrapping intervals and consistent tightness of the strips are ensured, the wrapping performance effect is fundamentally improved, local deformation and the like after the pipelines are wrapped cannot be caused, the production quality is fundamentally improved, the wrapping process operation is simplified, and the production efficiency is improved. Because the device can be suitable for the winding and tensioning acting force of wrapping strips with different sizes, the quality of wrapping the wrapping strips by winding is relatively more reliable and the effect is better especially for soft large rubber tubes such as rubber and plastic tubes.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention; FIG. 2 is a schematic perspective view of the infinitely variable positioning and guiding device of the present invention; FIG. 3 is a schematic perspective view of an embodiment of the telescopic reducing positioning guide sleeve of the present invention; FIG. 4 is a schematic structural diagram of an embodiment of an open type reducing stop collar according to the present invention; FIG. 5 is a schematic cross-sectional view of an embodiment of the tape reel assembly of the present invention; fig. 6 is a schematic cross-sectional view of another embodiment of the tape reel device of the present invention; FIG. 7 is a schematic view of the balance guide of the present invention; FIG. 8 is an end view of FIG. 7; FIG. 9 is a schematic cross-sectional view of another embodiment of the infinitely variable positioning guide of the present invention; FIG. 10 is an end view of FIG. 9; FIG. 11 is a schematic structural diagram of a further embodiment of the present invention; fig. 12 is a schematic structural view of another embodiment of the feeder of the present invention.

Detailed Description

The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which embodiments of the invention are shown.

As shown in fig. 1-5, the diameter-variable guiding type rubber-plastic pipe wrapping device of this embodiment includes a stepless adjusting diameter-variable positioning guiding device 10, an input device and an output device of a rubber pipe 9 may be respectively disposed on an input side and an output side of the stepless adjusting diameter-variable positioning guiding device 10, and the input and output devices may be similar guiding conveying devices 11 and/or traction devices 12 in the prior art.

The stepless adjusting reducing positioning guide device comprises a stretching reducing positioning guide sleeve (or a stretching reducing positioning guide sleeve) 1 arranged on a frame 23, a conical adjusting thread sleeve 5 with a small head positioned at one end of an opening of a widening open slot 3, an opening reducing spacing ring 6 and the like, wherein the input end of the stretching reducing positioning guide sleeve 1 is uniformly provided with 3-5 wedge widening open slots 3 at intervals around the peripheral wall thereof, the wedge widening open slots are axial, the opening thereof is positioned at the input end of the stretching reducing positioning guide sleeve 1, the peripheral wall of the stretching reducing positioning guide sleeve 1 close to the input end is provided with a coupling thread 2, the inner peripheral wall of the stretching reducing positioning guide sleeve close to the input end is provided with a reducing ring slot 4 in a winding way, and the inner peripheral wall surface of the opening reducing spacing ring 6 protrudes out of the inner peripheral wall surface of the corresponding part of the stretching reducing positioning guide sleeve 1, namely, the inner diameter of the open reducing limiting ring 6 is smaller than the inner diameter of the corresponding part of the expanding reducing positioning guide sleeve 1.

The expanding type reducing positioning guide sleeve is of an integral straight cylinder type in an initial state without opening or reducing, or of a circular truncated cone type in an initial state of a part of the expanding type reducing positioning guide sleeve provided with a widened open slot. The conical adjusting threaded sleeve 5 is sleeved on the expanding and contracting type reducing positioning guide sleeve 1 through conical threads on the conical inner peripheral wall surface of the conical adjusting threaded sleeve and the coupling threads 3. When the conical adjusting thread sleeve rotates towards the input direction or the output direction of the rubber pipe, the conical adjusting thread sleeve can press and adjust the expansion or the reduction of the inner diameter of the open type reducing limiting ring 6 through the expansion or the reduction of the inner diameter of the reducing ring groove 4, and the rubber pipe can be suitable for the wrapping of rubber pipes with different diameters. The inner peripheral wall surface of the open reducing limiting ring 6 can be a plane wall surface (also can be an arc-shaped or circular wall surface). The open type reducing limiting ring 6 arranged in the reducing ring groove 4 of the stretch type reducing positioning guide sleeve is in a one-circle (as shown in figure 4) or multi-circle spiral shape under the initial state without the action of the conical adjusting thread sleeve 5. The length of the coupling thread section of the expanding type reducing positioning guide sleeve or the stroke of the conical adjusting thread sleeve corresponds to the reducing or reducing amount of the open type reducing limiting ring. The length of the wedge-shaped widening open groove 3 is longer than the set length of the coupling thread 3. The rubber tube required to be wound with the strip passes through the open type reducing limiting ring.

The input end of the telescopic reducing positioning guide sleeve 1 is correspondingly provided with a winding rotating sleeve device, the winding rotating sleeve device comprises a winding rotating sleeve 19 which is rotatably arranged on a rack 23 through a corresponding bearing device or a corresponding shaft sleeve 22, the winding rotating sleeve 19 is provided with a feeder of a winding strip material (a cloth tape in the example) 18a, and the feeder of the winding strip material is a feeding guide notch 7 which is opened on one side wall of the output end of the winding rotating sleeve and is provided with the winding strip material. At a position of the winding rotary sleeve 19 corresponding to the feed guide slit 7, a reel device is provided which includes the winding reel 18 and a reel shaft 28 having one end fixedly attached to the winding rotary sleeve. The reel shaft and the winding reel thereof are obliquely arranged, and the inclination degree of the reel shaft is that the included angle between the axis of the reel shaft and the axis of the rubber tube or the expanding and contracting type reducing positioning guide sleeve 1 is greater than 0 degree and smaller than 90 degrees. The winding rotating sleeve 19 is provided with a transmission gear 8, and the winding rotating sleeve 19 is in transmission connection with a rotating driver through the transmission gear 8.

The belt reel device comprises a multifunctional self-locking self-adaptive damping device, the multifunctional self-locking self-adaptive damping device comprises a plurality of avoidance energy storage grooves 25 which are uniformly distributed around the axis of the multifunctional self-locking self-adaptive damping device and are arranged on the peripheral wall of the free end of the belt reel shaft, and self-adaptive locking damping elastomers 24 which correspond to the winding belt reel and are arranged in the avoidance energy storage grooves respectively, the curved free coupling end 24a of each self-adaptive locking damping elastomer 24 is curved to be arc-shaped or parabolic, and each self-adaptive locking damping elastomer 24 is formed by bending an elastic steel wire or a plate spring. The end face of one end, close to the free end of the reel shaft, of the avoidance energy storage groove 25 is provided with a straight blind hole 25b, and the end face of the other end of the avoidance energy storage groove 25 extends into the inner side direction of the winding reel or is flush with the end face of the corresponding end of the winding reel. The main body portion of the adaptive locking damping elastomer 24 connecting end to curved free coupling end 24a may be slightly bent to create a large arching spring force. The connecting end 24b of the self-adaptive locking damping elastomer 24 is connected in a plug-in manner in the straight blind hole 25b of the avoidance energy storage groove 25, and stable connection is formed through the elastic deformation action of the self-adaptive locking damping elastomer. The reel shaft of the winding reel is fixed to the winding rotary sleeve by a holder 19 a.

When the winding reel is installed in the reel shaft, the pushing and pressing force of the reel shaft hole wall of the winding reel to the self-adaptive locking damping elastic body presses the self-adaptive locking damping elastic body into the avoidance energy storage groove, the winding reel can be directly pushed into the reel shaft, after the self-adaptive locking damping elastic body is pushed in place, the self-adaptive locking damping elastic body bounces after being separated from the winding reel, the curved free coupling end of the self-adaptive locking damping elastic body bounces out of the avoidance energy storage groove 25, the arc-shaped end or the parabolic end of the self-adaptive locking damping elastic body abuts against the corresponding end face of the winding reel, the winding reel can be locked, and certain rotary damping acting force is formed. It can be adapted to the winding force required by the strips with different hardness and the rubber pipes with corresponding strength. A very good winding effect of the delivered wound strip (tape) is obtained. Unloading the winding belt disc: pressing down positions such as the middle part of self-adaptation locking damping elastomer 24, pushing back the winding tep reel relatively and making it push down behind arc or the parabola shape tip and can remove the pressing force, continue to push back the winding tep reel and can conveniently lift off the winding tep reel.

In example 2, as shown in FIGS. 6-10. The deep groove 25a is formed in the bottom wall surface of one end of the curved free coupling end 24a, close to the self-adaptive locking damping elastic body 24, of the avoidance energy storage groove 25, and when the integral setting depth of the avoidance energy storage groove is limited, the deep groove 25a can adapt to the longer bending length of the curved free coupling end of the self-adaptive locking damping elastic body. An inclined blind hole 25c inclined towards the axial center direction of the belt disc is arranged on the end face of one end of the avoidance energy storage groove 25 close to the free end of the belt disc shaft. The damping device is convenient to manufacture, simple in manufacturing process and capable of obtaining relatively better elastic connection and damping stability.

This embodiment reducing direction formula rubber and plastic pipe kinking area device still includes balanced guider, balanced guider is including setting up in the unilateral stabilizer 20 of operation in the corresponding one side of winding swivel mount device, and the unilateral stabilizer 20 of operation comprises the transversal curved sheave of personally submitting in its groove, and the unilateral stabilizer 20 of operation is located winding swivel mount device by the output outside, its arc wall corresponds with the corresponding lateral wall of rubber tube, and the arc wall carries out the unilateral skew of antiwind to the rubber tube and carries out the self-adaptation spacing. Two ends of a wheel shaft 21 of the operation unilateral balance wheel 20 are respectively provided with a bearing or a rolling shaft sleeve, the bearing or the rolling shaft sleeve is fixedly connected with the winding rotary sleeve 19 through an elastic connecting arm 29, and the elastic connecting arm 29 is composed of a spring rod or a plate spring. The limit position or the balance pressure contact force of the running unilateral balance wheel is self-adaptively adjusted by the elastic force of the elastic connecting arm 29.

The winding acting force direction of the belt reel device corresponds to the arrangement position or direction of the operating unilateral balance wheel in an opposite way, namely, the operating unilateral balance wheel and the belt material winding of the winding belt reel respectively act on the rubber tube in an opposite way, and the acting force of the rubber tube is mutually offset. So that the rubber tube is always kept in a straight line in the process of winding the strip. Relatively better conveying smoothness and winding effect can be obtained.

The stepless regulation reducing positioning guide device comprises a stretching reducing positioning guide sleeve 1 and a linkage regulation device, wherein the peripheral wall of one end of the stretching reducing positioning guide sleeve is uniformly provided with a plurality of radial widening open slots, and the linkage regulation device is used for controlling the opening of the stretching reducing positioning guide sleeve. The linkage adjusting device comprises a tapered sliding sleeve 16, a coupling thread, an adjusting nut 14 and a linkage frame, wherein the tapered sliding sleeve 16 is sleeved at one end of a width-variable open slot of the stretching and shrinking type diameter-variable positioning guide sleeve, the inner peripheral wall of the tapered sliding sleeve is tapered, the coupling thread is arranged at the outer peripheral wall of the other end of the stretching and shrinking type diameter-variable positioning guide sleeve, the adjusting nut 14 is in threaded connection with the coupling thread of the stretching and shrinking type diameter-variable positioning guide. The peripheral wall of the adjusting nut 14 is provided with a stroke guide ring groove 33, the conical sliding sleeve 16 is provided with a reducing guide ring groove 34, and the linkage frame comprises a connecting ring body 30, 3-5 connecting rods 15 and the like which are uniformly distributed around the connecting ring body. The adjusting nut and the conical sliding sleeve are respectively provided with corresponding connecting coupling devices, and the connecting coupling devices of the adjusting nut comprise a plurality of radial shafts 31 which are uniformly distributed and fixedly connected with the connecting ring body, and rollers or bearings 32 which are respectively sleeved between each shaft 31 and the stroke guide ring groove 33. The coupling means of the tapered sliding bush is a guide cylinder 35 respectively connected between the corresponding end of each connecting rod 15 and the reducing guide ring groove 34 of the tapered sliding bush 16. The other end of the connecting rod 15 is fixedly connected with the connecting ring body. The stroke guide ring groove of the adjusting nut and the roller or the bearing provide displacement guide in the axial direction for the conical sliding sleeve, and the reducing guide ring groove 34 of the conical sliding sleeve 16 and the corresponding guide cylinder provide displacement guide in the radial direction for the conical sliding sleeve. The widening open slot of the expanding reducing positioning guide sleeve is trapezoidal (or rectangular) in the projection view in the radial direction. The inner diameter or the diameter of the open type reducing limiting ring 6 can be adjusted by rotating the adjusting nut or the linkage frame. The rest of the structure of the present example and the corresponding method for using, operating and manufacturing the same can be similar to the above-mentioned embodiments.

In embodiment 3, a plurality of diameter-variable guide holes are uniformly distributed on the circumferential wall of the tapered sliding sleeve, and each guide cylinder of the tapered sliding sleeve is connected to each corresponding connecting rod and the diameter-variable guide hole respectively. The coupling device of the adjusting nut is a cylindrical guide cylinder. The rest of the structure of the present example and the corresponding method for using, operating and manufacturing the same can be similar to the above-mentioned embodiments.

Example 4 is shown in FIG. 11. In the embodiment, the device comprises two stepless adjusting and reducing positioning and guiding devices, wherein one end of a stretching and contracting type reducing positioning and guiding sleeve 1 of one stepless adjusting and reducing positioning and guiding device is rotatably arranged on a frame through a corresponding bearing device, a transmission gear 8 is arranged on the stretching and contracting type reducing positioning and guiding sleeve 1 of the rotating stepless adjusting and reducing positioning and guiding device, the rotating stretching and contracting type reducing positioning and guiding sleeve is in transmission connection with a rotary driver through the transmission gear 8, a winding rotary sleeve is formed by the stretching and contracting type reducing positioning and guiding sleeve of the rotating stepless adjusting and reducing positioning and guiding device, the two stepless adjusting and reducing positioning and guiding sleeves are correspondingly arranged in opposite directions, and the rotating stepless adjusting and reducing positioning and guiding device is arranged on the input side of a rubber tube. The widening open slot of the rotary stepless adjusting reducing positioning guide device is arranged at the output end of the guide device. The distance between the two stepless adjusting reducing positioning guide devices is set so as to meet the requirement of normal operation of oblique winding of the strip. The feeder is a feeding guide nose 17 fixedly connected with the rotary stepless adjusting diameter-changing guiding and positioning device, and the feeding guide nose 17 is longer than the output end part of the corresponding rotary stepless adjusting diameter-changing guiding and positioning device and corresponds to the corresponding side of the strip. The nostril of feeding guide nose is the rectangle, and feeding guide nose comprises a rectangle framework, and its nostril is constituteed to the inner space of rectangle framework, and the strip feeds through the nostril.

The open type reducing limiting ring between the two opposite stepless adjusting reducing positioning guide devices has short spacing distance, so that the rubber pipe has small deformation when the strip is wound, high winding stability and good quality, and under the condition that the winding tightness of the strip is the same, the required winding tension is small and the relative power consumption is low because the stress deformation of the rubber pipe is small. The winding effect is better especially for rubber tubes which are easy to deform and have larger elasticity. The rest of the structure of the present example and the corresponding method for using, operating and manufacturing the same can be similar to the above-mentioned embodiments.

Example 5 is shown in FIG. 12. The feeder comprises a feed guide nose 17 and a feed roller 26 which is sleeved on a corresponding side frame edge of the feed guide nose. The avoidance energy storage groove 25 of the multifunctional self-locking self-adaptive damping device is rectangular. The connecting end of the self-adaptive locking damping elastic body 24 is fixedly connected to the bottom wall surface of the avoidance energy storage groove 25 through a screw. The rest of the structure and the corresponding operation and manufacturing method of the present embodiment can be similar to the above embodiments.

It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Claims (1)

1. The utility model provides a reducing direction formula rubber and plastic pipe twines belting, characterized by includes infinitely variable control reducing location guider, infinitely variable control reducing location guider is evenly seted up in the axial including setting up the stretch-draw type reducing direction position sleeve in the frame respectively a plurality of widen open slots of stretch-draw type reducing location sleeve one end are seted up in the reducing annular of the internal perisporium of the widen open slot one end of stretch-draw type reducing location sleeve sets up in the open reducing spacing ring of this reducing annular to and toper adjusting thread cover, stretch-draw type reducing location sleeve periphery wall sets up corresponding coupling screw thread, toper adjusting thread cover is located through this coupling thread cover stretch-draw type reducing location sleeve.

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