CN212550250U - PVC type is soaking thick liquid device for conveyer belt - Google Patents

Abstract

The utility model belongs to the technical field of the conveyer belt band core soaks the thick liquid technical field, and especially, PVC type conveyer belt is with soaking thick liquid device, including soaking thick liquid pond, feed roller wheelset is through outside belt drive assembly drive operation feed roller wheelset rear soak and thick liquid pond in the advancing direction of following conveyer belt band core and set gradually shake mechanism, rolling mechanism, tuningout mechanism. The device adopts the conveying belt core with a certain length pre-stored at the feeding end, so that the conveying belt core is pre-soaked in pulp in a loose belt feeding mode, the conveying belt core keeps a loose state when entering a pulp tank, gaps on the belt core are effectively enlarged, and the pulp is favorably infiltrated; when the belt core of the conveying belt is immersed in the slurry pool and fed forward, the belt core is vibrated to facilitate slurry immersion; the reciprocating rolling of the belt core is realized through the rolling mechanism, so that sufficient size can be adhered to the yarn with the belt core.

Description

PVC type is soaking thick liquid device for conveyer belt

Technical Field

The utility model belongs to the technical field of the conveyer belt core soaking liquid technique and specifically relates to a PVC type is soaking liquid device for conveyer belt.

Background

The PVC conveyer belt need carry out the dipping process to the belt core usually in the in-process of production and handle, mainly is in order to guarantee the abundant dipping of belt core to guarantee the normal clear of subsequent handling, also can guarantee the final product quality of the conveyer belt of production simultaneously.

At present, the pulp soaking treatment of the belt core of the conveying belt is generally to tension the belt core of the conveying belt and draw the belt core of the conveying belt to pass through equipment filled with pulp at a stable moving speed so as to finish the pulp soaking process. This kind of traditional slurry dipping mode makes in the difficult abundant inside gap that permeates the conveyer belt core of thick liquids after with the tensioning of conveyer belt core, and the slurry dipping effect is poor, can't guarantee that the abundant infiltration of thick liquids and adhesion are on the belt core, influence going on of follow-up production process and the final quality of product.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve the technical scheme that one of above-mentioned technical problem adopted and be: the utility model provides a PVC type conveyer belt is with soaking thick liquid device, including inside thick liquid pond, the feeding roller group of setting at the feed end that soaks the thick liquid pond of soaking of being equipped with thick liquids, feeding roller group is through outside belt drive assembly drive operation feeding roller group rear soak the advancing direction of thick liquid pond along conveyer belt band core and set gradually shake mechanism, rolling mechanism, accent mechanism partially, the conveyer belt band core gets into from feeding roller group and soaks the thick liquid pond and pass through in proper order shake mechanism rolling mechanism the accent mechanism is outwards stretched out behind the mechanism partially and is pulled to next process.

And a plurality of reversing rollers are arranged in the slurry dipping tank.

Preferably, the feeding roller wheel set comprises two driving feeding rollers and two driven feeding rollers which are arranged along the horizontal direction at intervals, the two ends of each driving feeding roller are movably supported on feeding supports above the pulp soaking pool respectively, the feeding supports are fixedly arranged relative to the pulp soaking pool, the driving feeding rollers are connected with feeding motors on the belt driving components through belt wheel sets, and the belt cores of the conveying belts enter from the outer sides of the driving feeding rollers from top to bottom and are wound to the lower side by the driven feeding rollers to dip the pulp inside the pulp soaking pool in a loose state.

Preferably, the shake mechanism includes through support body fixed mounting soak the shake motor of the inside thick liquids top in thick liquids pond, it shakes and takes belt assembly to link firmly one on the motor shaft of shake motor, shake taking belt assembly shake take the action wheel with the motor shaft of shake motor links firmly, shake taking belt assembly shake and take the driven wheel to fix on the middle part outside wall of a lower axle, the both ends of lower axle are movable cartridge respectively and are stretched out the commentaries on classics hole of support body both ends bottom fixing base the both ends of lower axle fixed mounting respectively has a shake cam, two shake the cam and all be located the thick liquids and be used for promoting the conveyer belt core up-and-down motion of its top, two the top both sides of the conveyer belt core of shake cam position department are equipped with a spacing axle respectively.

Preferably, the rolling mechanism comprises a rolling motor fixed above the slurry in the slurry soaking pool through an installation frame, a rotating disc is fixedly connected to a motor shaft, a rolling wheel set is arranged in the slurry soaking pool on the rear side of the rotating disc, a triangular pushing frame is arranged between the rolling wheel set and the rotating disc, one end of the triangular pushing frame is movably hinged to the eccentric edge of the rotating disc, and the other end of the triangular pushing frame is movably hinged to two ends of the rolling wheel set respectively.

Preferably, the rolling wheel group comprises two parallel lead screw rollers arranged at intervals horizontally, the two lead screw rollers are arranged in an inner frame of a pushing frame, two end parts of the two lead screw rollers are respectively and movably hinged in rotating holes of side walls of the inner frame of the pushing frame, the triangular pushing frame is respectively and movably hinged in the rotating holes of the side walls of the two ends of the pushing frame through rotating shafts, and outer side walls of the lead screw rollers are respectively provided with lead screw external threads for rolling the surfaces of belt cores of the conveying belts.

Preferably, the deviation adjusting mechanism comprises two inverted U-shaped frames fixedly arranged at the top of the slurry soaking pool in the width direction, a fine adjustment lifting frame is arranged in each U-shaped frame, two sides of each fine adjustment lifting frame are respectively clamped in sliding grooves in the side walls of the inner frame of the U-shaped frame in a sliding manner, an adjusting screw rod is vertically screwed in a central screw hole in the top of the U-shaped frame, the lower end of each adjusting screw rod downwards penetrates through the U-shaped frame at the corresponding position and is movably inserted in a stepped circular groove in the top of the fine adjustment lifting frame through an inverted T-shaped flange in a stepped shaft shape, a rotating hand wheel is fixedly connected to the top of each adjusting screw rod, and two ends of a fine adjustment roller arranged between the two fine adjustment lifting frames are respectively movably inserted in inner frames of the fine adjustment lifting frames at the corresponding positions.

In the subsequent optimization scheme, the outer side walls of the two sides of the fine adjustment roller are respectively provided with a gear ring; meanwhile, opposite surfaces of the two gear rings can be provided with opposite sensors, and automatic centering and fine adjustment can be realized by matching with the existing controller.

The beneficial effects of the utility model are embodied in:

1. the device adopts the conveying belt core with a certain length pre-stored at the feeding end, so that the conveying belt core is pre-soaked in pulp in a loose belt feeding mode, the conveying belt core keeps a loose state when entering a pulp tank, gaps on the conveying belt core are effectively enlarged, and the pulp is favorably infiltrated;

2. when the belt core of the conveying belt is immersed in the slurry pool and fed forward, the belt core of the conveying belt is vibrated to facilitate slurry immersion;

3. the rolling of the cored yarn is realized by a rolling mechanism, so that the cored yarn can be adhered with sufficient sizing agent.

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 embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or components are generally identified by like reference numerals. In the drawings, elements or components are not necessarily drawn to scale.

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

Fig. 2 is a schematic view of a local overlooking structure of the rolling mechanism of the present invention.

Fig. 3 is a schematic top view of the offset adjusting mechanism in a partial sectional view.

Fig. 4 is a schematic diagram of the partially enlarged structure of the deviation adjusting mechanism of fig. 1 according to the present invention.

In the figure, 1, a pulp soaking pool; 2. A feeding roller set; 21. a driving feed roll; 22. a passive feed roll; 23. a feeding support; 24. a pulley set; 25. a feeding motor; 3. a belt drive assembly; 4. A conveyor belt core; 5. A shaking mechanism; 51. a frame body; 52. a dithering motor; 53. a belt shaking belt assembly; 531. a belt shaking driving wheel; 532. shaking and driving a driven wheel; 54. a lower shaft; 55. a dither cam; 56. a limiting shaft; 6. a rolling mechanism; 61. a mounting frame; 62. a rolling motor; 63. rotating the disc; 64. a rolling wheel set; 641. a lead screw roller; 642. a pushing frame; 643. external threads of the lead screw; 65. a triangular pushing frame; 7. a deviation adjusting mechanism; 71. a U-shaped frame; 72. finely adjusting the lifting frame; 73. a chute; 74. adjusting the screw rod; 75. a T-shaped flange; 76. a stepped circular groove; 77. rotating a hand wheel; 78. and (4) fine adjustment of the rollers.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1-4, a PVC type slurry dipping device for a conveyor belt comprises a slurry dipping pool 1 filled with slurry inside, and a feeding roller set 2 arranged at a feeding end of the slurry dipping pool 1, wherein the feeding roller set 2 is driven by an external belt driving component 3 to operate, a shaking mechanism 5, a rolling mechanism 6 and a deviation adjusting mechanism 7 are sequentially arranged in the slurry dipping pool 1 behind the feeding roller set 2 along a traveling direction of a conveyor belt core 4, and the conveyor belt core 4 enters the slurry dipping pool 1 from the feeding roller set 2 and sequentially passes through the shaking mechanism 5, the rolling mechanism 6 and the deviation adjusting mechanism 7 to extend outwards to be drawn to a next process.

A plurality of reversing rollers are arranged in the pulp soaking pool 1.

This slurry soaking device adopts the conveyer belt core 4 of certain length of feed end prestore, makes it soak the thick liquid in advance with the mode that relaxes into the area for conveyer belt core 4 keeps lax state when getting into the thick liquids pond, the effectual gap that has enlarged on the conveyer belt core 4 is favorable to thick liquids infiltration.

The slurry dipping is assisted by vibrating the belt core 4 by the operation of the shaker mechanism 5 as the belt core 4 is fed forward while immersed in the slurry pool.

The reciprocating rolling of conveyer belt core 4 is realized through rolling mechanism 6 after the slurry dipping, and the abundant sizing agent that glues of conveyer belt core 4 is guaranteed to effectual improvement slurry dipping effect.

Preferably, the feeding roller set 2 includes two active feeding rollers 21 and two passive feeding rollers 22 arranged in parallel at intervals along the horizontal direction, two ends of the active feeding rollers 21 and the passive feeding rollers 22 are respectively and movably supported on a feeding support 23 above the slurry immersion pool 1, the feeding support 23 and the slurry immersion pool 1 are relatively fixedly arranged, the active feeding rollers 21 are connected with a feeding motor 25 on the belt driving assembly through a belt roller set 24, and the belt core 4 of the conveying belt enters from the outside of the active feeding rollers 21 from top to bottom and winds from the upper side of the passive feeding rollers 22 to the lower side to immerse into the slurry in the slurry immersion pool 1 in a loose state.

The main traction structure of the belt driving assembly 3 matched with the follow-up process during feeding realizes traction feeding of the conveying belt core 4, the conveying belt core 4 is always kept in a loose state in the feeding process, the conveying belt core 4 can be effectively guaranteed to be fully soaked, and the soaking effect is improved.

Preferably, the shaking mechanism 5 comprises a shaking motor 52 fixedly mounted on the upper portion of the slurry inside the slurry soaking pool 1 through a frame body 51, a shaking belt assembly 53 is fixedly connected to a motor shaft of the shaking motor 52, a shaking driving wheel 531 of the shaking belt assembly 53 is fixedly connected with the motor shaft of the shaking motor 52, a shaking driven wheel 532 of the shaking belt assembly 53 is fixed on the outer side wall of the middle of a lower shaft 54, two ends of the lower shaft 54 are movably inserted and extended out respectively from rotating holes of bottom fixing seats 511 at two ends of the frame body 51, two ends of the lower shaft 54 are fixedly provided with shaking cams 55 respectively, two shaking cams 55 are located in the slurry and used for pushing the conveying belt cores 4 above the shaking cams to move up and down, and two limiting shafts are arranged on two sides of the upper portions of the conveying belt cores 4 at positions of the shaking cams 55 respectively.

The main effect of shake mechanism 5 is that the mode that drives the conveyer belt core 4 that is located the thick liquids below and shakes from top to bottom realizes abundant contact conveyer belt core 4 repeatedly, concrete motion process is through starting the operation of shake motor 52, it is rotatory to drive fixed lower shaft 54 by trembling the belt subassembly 53, thereby can drive two shake cam 55 operations on it, shake cam 55 at the moving in-process and cooperate conveyer belt core 4 dead weight, can drive conveyer belt core 4 up-and-down motion on it, appear after touching two spacing axles 56 and pause and contort, thereby realize the effect of shake, guarantee fully to soak the thick liquid.

Preferably, the rolling mechanism 6 comprises a rolling motor 62 fixed above the slurry in the slurry soaking tank 1 through an installation frame 61, a rotation disc 63 is fixedly connected to the motor shaft, a rolling wheel set 64 is arranged in the slurry soaking tank 1 at the rear side of the rotation disc 63, a triangular pushing frame 65 is arranged between the rolling wheel set 64 and the rotation disc 63, one end of the triangular pushing frame 65 is movably hinged to the eccentric edge of the rotation disc 63, and the other end of the triangular pushing frame 65 is respectively movably hinged to two ends of the rolling wheel set 64.

The rolling mechanism 6 is mainly used for rolling the belt core 4 of the conveyer belt back and forth, so that the yarns on the belt core 4 of the conveyer belt are fully mixed with the pulp, and the pulp soaking effect is guaranteed; the rotary disk 63 and the cam carriage 65 arranged here form an eccentric wheel arrangement, so that the rolling wheel set 64 is driven by the rotation of the rolling motor 62 to roll the conveyor belt core 4 in the front-rear direction.

Preferably, the rolling wheel group 64 includes two screw rollers 641 arranged in parallel and horizontally at an interval, the two screw rollers 641 are arranged in an inner frame of a pushing frame 642, two end portions of the two screw rollers 641 are respectively and movably hinged in rotating holes of side walls of the inner frame of the pushing frame 642, the triangular pushing frame 65 is respectively and movably hinged in rotating holes of side walls of two ends of the pushing frame 642 through a rotating shaft, and an outer wall of each screw roller 641 is provided with a screw outer thread 643 for rolling the surface of the belt core 4 of the conveyor belt.

The purpose that sets up two lead screw rollers 641 is mainly to guarantee rolled stability, increases rolled length scope simultaneously, through set up the lead screw on the outside wall at lead screw roller 641, and the area is pressed in reduction that can be abundant, dynamics and effect when guaranteeing to press for lead screw external screw thread 643 can be abundant impress to the seam of conveyer belt core 4 in, guarantee to press the effect.

Preferably, the deviation adjusting mechanism 7 comprises two inverted U-shaped frames 71 respectively fixedly arranged at the top of the width direction of the slurry soaking pool 1, a fine adjustment lifting frame 72 is respectively arranged in the U-shaped frame 71 of each U-shaped frame 71, two sides of each fine adjustment lifting frame 72 are respectively clamped in the sliding grooves 73 on the side wall of the inner frame of the U-shaped frame 71 in a sliding way, an adjusting screw 74 is vertically screwed in a central screw hole at the top of the U-shaped frame 71, the lower end of each adjusting screw 74 respectively penetrates out of the U-shaped frame 71 at the corresponding position downwards and is movably inserted in a stepped circular groove 76 at the top of the fine adjustment lifting frame 72 through a stepped shaft-shaped inverted T-shaped flange 75, the top of each adjusting screw 74 is fixedly connected with a rotating handwheel 77, and both ends of a fine adjusting roller 78 arranged between the two fine adjusting lifting frames 72 are movably inserted into the inner frames of the fine adjusting lifting frames 72 at the corresponding positions respectively.

The deviation adjusting mechanism is mainly arranged for matching with a subsequent extrusion type production process, and the centering effect of the conveying belt core 4 during output is ensured; during adjustment, each rotating hand wheel 77 can be adjusted in a manual adjustment mode, so that the adjusting screw 74 is driven to drive the fine adjustment lifting frame 72 to lift, the relative heights of the two ends of the fine adjustment roller 78 corresponding to the end portion of the fine adjustment lifting frame are adjusted, and the adjustment is convenient and simple.

In addition, in order to make the centering adjustment more convenient and faster, in the subsequent optimization scheme, a gear ring is respectively arranged on the outer side walls of the two sides of the fine adjustment roller 78; meanwhile, opposite surfaces of the two gear rings can be provided with opposite sensors, and the opposite sensors are matched with the existing controller and a fine tuning motor to drive the corresponding adjusting screw 74 to rotate, so that rapid automatic centering and fine tuning can be realized in an automatic or semi-automatic mode.

The working principle is as follows:

the conveying belt core 4 enters the slurry soaking pool 1 from the feeding roller group 2, sequentially passes through the shaking mechanism 5, the rolling mechanism 6 and the deviation adjusting mechanism 7, then extends outwards and is drawn to the next procedure; before working, the power supply of each power part is switched on.

This slurry soaking device adopts the conveyer belt core 4 of certain length of feed end prestore, makes it soak the thick liquid in advance with the mode that relaxes into the area for conveyer belt core 4 keeps lax state when getting into the thick liquids pond, the effectual gap that has enlarged on the conveyer belt core 4 is favorable to thick liquids infiltration.

The slurry dipping is assisted by vibrating the belt core 4 by the operation of the shaker mechanism 5 as the belt core 4 is fed forward while immersed in the slurry pool.

The reciprocating rolling of conveyer belt core 4 is realized through rolling mechanism 6 after the slurry dipping, and the abundant sizing agent that glues of conveyer belt core 4 is guaranteed to effectual improvement slurry dipping effect.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification; to those skilled in the art, any alternative improvements or changes made to the embodiments of the present invention are all within the scope of the present invention.

The parts of the present invention not described in detail are the known techniques of those skilled in the art.

Claims (6)

1. The utility model provides a PVC type conveyer belt is with soaking thick liquid device, includes that inside is equipped with the thick liquid pond of soaking of thick liquids, sets up the feeding roller group at the feed end in the pond of soaking, feeding roller group passes through the operation of outside belt drive assembly drive, its characterized in that: and the conveying belt core enters the slurry dipping tank from the feeding roller set and sequentially passes through the shaking mechanism, the rolling mechanism and the deviation adjusting mechanism and then extends outwards to be drawn to the next procedure.

2. The slurry dipping device for the PVC type conveyor belt according to claim 1, wherein: the feeding roller wheel set comprises two driving feeding rollers and two driven feeding rollers which are arranged at intervals in parallel along the horizontal direction, the two ends of each driving feeding roller are movably supported on feeding supports above the slurry immersion pool respectively, the feeding supports are fixedly arranged relative to the slurry immersion pool, the driving feeding rollers are connected with a feeding motor on the belt driving assembly through belt wheel sets, and a conveying belt core enters from the outer side of the driving feeding rollers from top to bottom and is immersed into the slurry immersion pool in a loose state from the upper side to the lower side of the driven feeding rollers.

3. The slurry dipping device for the PVC type conveyor belt according to claim 2, wherein: the utility model discloses a slurry soaking machine, including a frame body, a motor, a shaking mechanism, a shaking motor, a shaking belt assembly, a shaking driving wheel, a shaking cam core, a limiting shaft, a shaking motor, a shaking belt assembly, a shaking driving wheel, a shaking driven wheel, a shaking cam core, a shaking cam, a limiting shaft, a motor shaft, a shaking motor, a shaking belt assembly, a shaking driving wheel, a shaking driven wheel, a shaking cam, a motor shaft, a shaking cam core, a shaking cam shaft, a.

4. The slurry dipping device for the PVC type conveyor belt according to claim 3, characterized in that: the roller pressing mechanism comprises a rolling motor fixed above slurry in the slurry soaking pool through an installation frame, a rotating disc is fixedly connected to a motor shaft, a rolling wheel set is arranged on the rear side of the rotating disc in the slurry soaking pool, a triangular pushing frame is arranged between the rolling wheel set and the rotating disc, one end of the triangular pushing frame is movably hinged to the eccentric edge of the rotating disc, and the other end of the triangular pushing frame is movably hinged to the two ends of the rolling wheel set respectively.

5. The slurry dipping device for the PVC type conveyor belt according to claim 4, characterized in that: the rolling wheel group comprises two parallel lead screw rollers horizontally arranged at intervals, the two lead screw rollers are arranged in an inner frame of a pushing frame, two end parts of the lead screw rollers are movably hinged in rotating holes of side walls of the inner frame of the pushing frame respectively, the triangular pushing frame is movably hinged in the rotating holes of the side walls of the two ends of the pushing frame respectively through rotating shafts, and lead screw external threads used for rolling the surfaces of belt cores of the conveying belts are arranged on outer side walls of the lead screw rollers respectively.

6. The slurry dipping device for the PVC type conveyor belt according to claim 5, characterized in that: the deviation adjusting mechanism comprises two inverted U-shaped frames which are fixedly arranged at the top of the slurry soaking pool in the width direction, fine adjusting lifting frames are arranged in the U-shaped frames of the U-shaped frames respectively, two sides of each fine adjusting lifting frame are clamped in sliding grooves in the side walls of inner frames of the U-shaped frames in a sliding mode respectively, an adjusting screw rod is vertically screwed in a central screw hole in the top of the U-shaped frame, the lower end of each adjusting screw rod penetrates out of the U-shaped frame at the corresponding position downwards and is movably inserted in a stepped circular groove in the top of the fine adjusting lifting frame through an inverted T-shaped flange in a stepped shaft shape, a rotating hand wheel is fixedly connected to the top of each adjusting screw rod respectively, and two ends of a fine adjusting roller arranged between the two fine adjusting lifting frames are movably inserted in inner frames of the fine adjusting lifting frames at the corresponding positions respectively.

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