CN210733361U - Compound device is glued to inlayer buffering of tempering palm cotton rope - Google Patents

Abstract

The utility model belongs to the field of triangular belt manufacturing, in particular to an inner layer buffer glue compounding device of a toughened palm fiber rope, which comprises an active winding roller and a passive winding roller which are arranged on a frame and are parallel to each other, wherein the toughened palm fiber rope is uniformly wound and tiled on the outer sides of the active winding roller and the passive winding roller to form a toughened palm fiber rope framework girdle band; a film winding roller is arranged on the inner side of the toughened palm fiber rope framework girdle, the film winding roller is parallel to the driving winding roller and the driven winding roller, the inner layer of the buffer film is sleeved on the film winding roller, and the outer layer of the inner layer of the buffer film is not contacted with the inner layer of the toughened palm fiber rope framework girdle; the meter rice ware is installed on the roller of initiative winding roller, and the built-in controller of meter rice ware is connected with the control circuit of motor, and this inlayer buffering glues set composite need not turn over the cotton rope again, can once only accomplish the laminating that the kinking in-process was glued to the inside and outside buffer layer.

Description

Compound device is glued to inlayer buffering of tempering palm cotton rope

Technical Field

The utility model belongs to the V belt inlayer glues the multiple unit field, concretely relates to composite set is glued in inlayer buffering of tempering palm cotton rope.

Background

The manufacturing process of the common V-belt roughly comprises the following steps: mixing rubber materials, extruding rubber strips, extruding cushion rubber, cutting rubber canvas in a non-dipping way, winding thread ropes, forming wrapping belts, vulcanizing and the like.

Most of framework materials adopted by the existing common triangular belt in the winding process are soft wire polyester cords and semi-hard polyester cords, but the toughened palm cords are applied to the framework materials of the triangular belt, and certain difficulty is brought to compounding of cushion layer glue. After ordinary flexible wires and semi-hard wires are wound on a winding machine, a thin buffer layer adhesive is attached to the surfaces of the flexible wires and the semi-hard wires, then the flexible wires and the semi-hard wires are taken down and turned over, and then the flexible wires and the semi-hard wires are placed on the winding machine to be attached to the thick buffer layer adhesive for the second time. However, the material of the toughened palm fiber thread rope is a hard thread body, the toughened palm fiber thread rope is a toughened palm fiber solid body without an adhesive single core, and the toughened palm fiber thread rope has no elasticity, and after a layer of thin buffer layer glue is pasted on the outer layer of the wound thread rope, certain difficulty is caused when the thread body is dismounted by pasting another layer of buffer layer glue on the inner layer of the thread body, so that the thread rope is easy to dismount, and the thread rope is twisted and cannot be turned over.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a set composite is glued in inlayer buffering of tempering palm fiber cotton rope for solve the problem that the indiscriminate line appears among the prior art, distortion cotton rope and turn over the area difficulty, this set composite is glued in inlayer buffering need not turn over the cotton rope again, can once only accomplish the laminating that the kinking in-process was glued to inside and outside buffer layer.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an inner layer buffer glue compounding device for a toughened palm fiber rope comprises a rack, and a driving winding roller and a driven winding roller which are arranged on the rack and are parallel to each other, wherein a roller shaft of the driving winding roller is in transmission connection with a motor, and the toughened palm fiber rope is uniformly wound and paved on the outer sides of the driving winding roller and the driven winding roller to form a toughened palm fiber rope framework girdle band; a film winding roll shaft and a film winding roll are arranged on the inner side of the toughened palm fiber rope framework girdle, the film winding roll shaft is fixedly arranged on the frame, the film winding roll is rotatably sleeved on the film winding roll shaft, the film winding roll is parallel to the driving winding roll and the driven winding roll, the inner layer of the buffering film is sleeved on the film winding roll, and the outer layer of the inner layer of the buffering film is not contacted with the inner layer of the toughened palm fiber rope framework girdle; and a meter counter is arranged on a roll shaft of the driving winding roll, and a controller arranged in the meter counter is connected with a control circuit of the motor.

Preferably, still include the moulding deflector roll parallel with the film winding up roller, the roller of moulding deflector roll is installed in the frame, and moulding deflector roll rotates the cover and locates on the roller, moulding deflector roll is located the inboard of tempering palm cotton rope skeleton clitellum, and the lower terminal surface of moulding deflector roll contacts with the inlayer of the lower part of tempering palm cotton rope skeleton clitellum to moulding deflector roll is located between film winding up roller, the initiative winding up roller, the inlayer buffering is glued and is rolled the back and then is walked around the initiative winding up roller through moulding deflector roll earlier.

Preferably, the meter counter comprises a meter counting wheel, the meter counting wheel provided with the marking detection point is sleeved on a roll shaft of the driving winding roll, and a fixed probe used for collecting the passing times of the marking detection point is arranged on the rack.

Preferably, the meter counter further comprises a counting panel, a number button is arranged on the counting panel, and the counting panel is electrically connected with the controller.

Preferably, the diameters of the active winding roller and the passive winding roller are equal, the diameter of the film winding roller is smaller than that of the active winding roller, and the belt surface of the toughened palm fiber rope framework ring belt between the active winding roller and the passive winding roller is horizontally arranged.

The utility model has the advantages that: the utility model discloses a composite set is glued to inlayer buffering of tempering palm cotton rope, simple structure is practical, combines tempering palm cotton rope itself matter hard, turns over the characteristic of taking the difficulty and designs, has saved the cotton rope area after the single face rubberizing and has carried out the process of turning over the area, guarantees to treat that the winding displacement of tempering palm cotton rope skeleton clitellum of inlayer rubberizing is neat even, and the film is high in quality with the cotton rope laminating to can once only accomplish the laminating of gluing to inside, outer buffer layer.

This device is at initiative winding roller, add the film winding up roller between the passive winding up roller, the film winding up roller is located tempering palm silk cotton rope skeleton ring, the buffering film of lapping overlaps in advance on the film winding up roller, be in the buffering film along with tempering palm silk cotton rope inlayer laminating by synchronous drive pivoted in-process, the buffering film of lapping is rotated gradually from the film winding up roller and is taken out in step, afterwards by initiative winding up roller, the passive winding up roller rolls the level and smooth laminating of realizing buffering film and line rope area inlayer, need not turn over the area with the line rope area, the cotton rope is in disorder has been avoided, the distortion phenomenon, the rubberizing standard is high. Whole process need not additionally increase power device, utilizes the turning force of tempering palm cotton rope self to tear the film out in step, realizes automatic rubberizing, removes artifical rubberizing from, and is fast.

In addition, the device can synthesize the two procedures of inner-layer rubberizing and outer-layer rubberizing into one procedure, so that the inner layer and the outer layer of the toughened palm fiber rope are rubberized simultaneously, and time is saved. Compared with the prior art that the inner layer glue is pasted after the outer layer glue is pasted, the process of turning over the toughened palm fiber rope is omitted, and the problem that the toughened palm fiber rope is hard and difficult to turn over is completely solved.

Drawings

In order to more clearly illustrate the embodiments of the present 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, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural view of embodiment 2.

Fig. 3 is a control block diagram.

In the figure: the method comprises the following steps of 1-driving winding rollers, 2-driven winding rollers, 3-toughened palm fiber rope framework ring belts, 4-winding roller shafts, 5-film winding rollers, 6-inner layer buffer glue and 7-glue pressing guide rollers.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example 1: the utility model provides a compound device is glued to inlayer buffering of tempering palm cotton rope, as shown in figure 1, 3, includes the frame and installs the initiative winding roll 1, the passive winding roll 2 that are parallel to each other in the frame, and the roller of initiative winding roll 1 is connected with motor drive, provides the required power source of rotation for whole device. Tempering palm cotton rope is evenly twined at initiative winding roll 1 after the kinking process, the outside of passive winding roll 2, thereby form the tiling at initiative winding roll, tempering palm cotton rope skeleton clitellum 3 in the passive winding roll outside, initiative winding roll, the diameter of passive winding roll equals, initiative winding roll, the band face of tempering palm cotton rope skeleton clitellum 3 between the passive winding roll is the horizontal band face, paste the one deck cushion gum respectively in tempering palm cotton rope skeleton clitellum 3's inlayer after that. Wherein the outer layer cushion gum can be directly attached, and the inner layer cushion gum is realized by the film roller 5. The film winding roller 5 is parallel to the driving winding roller 1 and the driven winding roller 2, the diameter of the film winding roller 5 is smaller than that of the driving winding roller 1, the film winding roller 5 is positioned at the inner side of the toughened palm fiber rope framework girdle 3, the film winding roller 5 is rotatably sleeved on the winding roller shaft 4 fixedly arranged on the frame, a film roll of inner-layer buffer glue 6 is sleeved on the film winding roller 5, the outer layer of the film roll of the inner-layer buffer glue 6 is not contacted with the inner layer of the toughened palm fiber rope framework girdle 3, the end part of the inner-layer buffer glue 6 is firstly pulled out by manpower and adhered at the inner side (A position in figure 1) of the toughened palm fiber rope framework girdle 3, then the driving winding roller 1 of a motor is started to rotate to drive the toughened palm fiber rope framework girdle 3 to synchronously rotate, and the end part of the inner-layer buffer glue 6 is adhered to the toughened palm fiber rope framework girdle 3, so that the inner-layer buffer glue 6 sleeved on the film winding roller, the inner layer buffer glue 6 after being dispersed and the toughened palm fiber rope framework girdle 3 jointly pass through the inner side of the driving winding roller 1, are firstly rolled, pass through the inner side of the driven winding roller 2, are secondly rolled until the inner layer of the toughened palm fiber rope framework girdle 3 is completely stuck with the buffer glue, the motor stops, and the inner layer buffer glue 6 is cut off from the buffer film. The meter counter is installed on the roller shaft of the driving winding roller 1 and comprises a meter counting wheel and a controller, the meter counting wheel is electrically connected with the input end of the controller, and the output end of the controller is connected with a control circuit of the motor to control the motor to start and stop. The metering wheel provided with the mark detection point is sleeved on a roll shaft of the driving winding roll, the fixed probe used for collecting the passing times of the mark detection point is arranged on the rack, the metering wheel and the driving winding roll rotate synchronously, the number of rotation turns of the driving winding roll 1 is calculated through the metering wheel, so that a controller arranged in the metering device can obtain the length of the buffer glue bypassing the driving winding roll 1, and when the length of the buffer glue wound on the inner layer of the toughened palm fiber rope framework girdle 3 reaches a preset value of the metering device (the length of the whole toughened palm fiber rope framework girdle), the controller arranged in the metering device immediately controls the motor to stop rotating; wherein, the preset value of the meter counter is input into the controller in advance by workers through the counting panel.

Example 2: the inner layer buffer glue compounding device of a tempered palm fiber rope of the present embodiment is mainly explained with the difference from embodiment 1.

When the driving winding roller 1 stops rotating, the toughened palm fiber rope framework girdle 3 can synchronously stop rotating, but the film winding roller 5 continues to rotate for 0.5-1 circle around the winding roller shaft 4 under the action of inertia, at the moment, the inner layer buffer glue 6 on the film winding roller 5 can also continue to be scattered for a section of redundant length, so that the inner layer buffer glue 6 near the bonding part (the initial limit of the inner layer buffer glue at the position A in the figure 2) of the toughened palm fiber rope framework girdle 3 is in a loose state, and a worker is required to reversely rotate the film winding roller 5 to take back the redundant inner layer buffer glue 6 to be tightened and then cut. Therefore, in this embodiment, a glue pressing guide roller 7 parallel to the film winding roller 5 is additionally installed on the inner side of the toughened palm fiber cord framework ring belt 3, as shown in fig. 2, a roller shaft of the glue pressing guide roller 7 is installed on the frame, the glue pressing guide roller 7 is rotatably sleeved on the roller shaft, the lower end surface of the glue pressing guide roller 7 contacts with the inner layer of the lower belt surface of the toughened palm fiber cord framework ring belt 3 and has a certain pressure, and the standard of the contact pressure is as follows: when external force draws inlayer buffering glue 6, inlayer buffering glue 6 can be smoothly passed through between moulding deflector roll 7 and tempering palm cotton rope buffer strip 3 to when no external force draws inlayer buffering glue 6, inlayer buffering glue 6 then blocks between moulding deflector roll 7 and tempering palm cotton rope skeleton clitellum 3 under the effect of frictional force. In addition, the glue pressing guide roller 7 is positioned between the film winding roller 5 and the driving winding roller 1, namely, the inner layer buffer glue 6 scattered from the film winding roller 5 is firstly pulled out a small section by a worker from between the glue pressing guide roller 7 and the toughened palm fiber rope framework girdle 3, after the initial rolling by the glue pressing guide roller 7, the tail end part of the buffer glue is adhered to the toughened palm fiber rope framework girdle 3 by the worker, then the motor is started, the buffer glue synchronously bypasses the driving winding roller 1 along with the toughened palm fiber rope framework girdle 3 to be rolled for the second time, and finally, the buffer glue is rolled for the third time by the driven winding roller 2. When the motor stops, although the film roller continues to rotate for 0.5-1 circle under the inertia effect, the buffer film on the film roller 5 can continue to be scattered for a section of redundant length, because a certain pressure and friction force exist between the glue pressing guide roller 7 and the toughened palm fiber rope framework ring belt 3, the pressure is enough to block the redundant scattered inner layer buffer glue 6 under the inertia effect at one side of the glue pressing guide roller 7, and the length of the inner layer buffer glue 6 at the other side (between the glue pressing guide roller 7 and the active winding roller 1) of the glue pressing guide roller 7 is not changed, namely, the inner layer buffer glue 6 between the glue pressing guide roller 7 and the active winding roller 1 is always kept in a tight state, a worker can directly operate an apparatus to cut, the distortion can be effectively prevented, the step of winding the redundant inner layer buffer glue 6 onto the film roller 5 to keep the buffer film tight is omitted, efficiency is improved, and one person can finish the operation.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (5)

1. The utility model provides a composite set is glued to inlayer buffering of tempering palm cotton rope which characterized in that: the toughened palm fiber rope frame comprises a rack, and a driving winding roller and a driven winding roller which are arranged on the rack and are parallel to each other, wherein a roller shaft of the driving winding roller is in transmission connection with a motor, and toughened palm fiber ropes are uniformly wound and paved on the outer sides of the driving winding roller and the driven winding roller to form a toughened palm fiber rope frame girdle band; a film winding roll shaft and a film winding roll are arranged on the inner side of the toughened palm fiber rope framework girdle, the film winding roll shaft is fixedly arranged on the frame, the film winding roll is rotatably sleeved on the film winding roll shaft, the film winding roll is parallel to the driving winding roll and the driven winding roll, a film roll of inner-layer buffer glue is sleeved on the film winding roll, and the outer layer of the inner-layer buffer film is not in contact with the inner layer of the toughened palm fiber rope framework girdle; and a meter counter is arranged on a roll shaft of the driving winding roll, and a controller arranged in the meter counter is connected with a control circuit of the motor.

2. The inner layer buffer glue compounding device of the tempered palm fiber rope is characterized in that: still include the pressure that is parallel with the film winding up roller and glue the deflector roll, the roller of pressure that glues the deflector roll is installed in the frame, and pressure glues the deflector roll and rotates the cover and locate on the roller, the pressure glues the deflector roll and is located the inboard of tempering palm cotton rope skeleton clitellum, and the lower terminal surface of pressure that glues the deflector roll contacts with the inlayer of the lower part of tempering palm cotton rope skeleton clitellum to pressure glues the deflector roll and is located between film winding up roller, the initiative winding roller, the inlayer buffering is glued and is rolled the back through pressure gluey deflector roll earlier and then is walked around the initiative.

3. The inner layer buffer glue compounding device of the tempered palm fiber rope is characterized in that: the meter counter comprises a meter counting wheel, the meter counting wheel provided with a mark detection point is sleeved on a roller shaft of the driving winding roller, and a fixed probe used for collecting the passing times of the mark detection point is arranged on the rack.

4. The inner layer buffer glue compounding device of the tempered palm fiber rope is characterized in that: the meter counter further comprises a counting panel, digital keys are arranged on the counting panel, and the counting panel is electrically connected with the controller.

5. The inner layer buffer glue compounding device of the tempered palm fiber rope is characterized in that: the diameters of the driving winding roller and the driven winding roller are equal, the diameter of the film winding roller is smaller than that of the driving winding roller, and the belt surface of a toughened palm fiber rope framework ring belt between the driving winding roller and the driven winding roller is horizontally arranged.

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