CN112605026B

CN112605026B - Mechanical rubber material surface treatment equipment

Info

Publication number: CN112605026B
Application number: CN202011380071.0A
Authority: CN
Inventors: 蒋浩
Original assignee: Hengyang Huayi Machinery Co ltd
Current assignee: Hengyang Huayi Machinery Co ltd
Priority date: 2020-11-30
Filing date: 2020-11-30
Publication date: 2022-10-11
Anticipated expiration: 2040-11-30
Also published as: CN112605026A

Abstract

The invention discloses mechanical rubber material surface treatment equipment, which can continuously treat the surface of a rubber material through machinery; the mechanical rubber material surface treatment equipment is used for processing a rubber belt, and two ends of the rubber belt are respectively assembled and fixed with an unwinding wheel and a winding wheel or wound; the telescopic plate comprises a shell, wherein a hollow rotating cavity is arranged in the shell, one end of the rotating cavity, which is close to the telescopic plate, is opened, and channels are respectively arranged on two sides of the opening end; the two ends of the rotating cavity are sealed in the axial direction, a rotating shaft is arranged in the rotating cavity in a circumferentially rotatable manner, a rotating sleeve is sleeved outside the rotating shaft, the rotating sleeve is directly or indirectly assembled with the hairbrush, and the surface of the rubber belt is continuously scrubbed by the hairbrush when the rubber belt is used, so that the surface of the rubber belt is treated; the ball is arranged in the rotating cavity and used for being matched with the hairbrush to brush the surface of the rubber belt; the shell is obliquely arranged, so that the opening of the rotating cavity is obliquely arranged from one end close to the square winding wheel to one end of the winding wheel.

Description

Mechanical rubber material surface treatment equipment

Technical Field

The invention relates to rubber material treatment equipment, in particular to mechanical rubber material surface treatment equipment.

Background

Rubber is one of the most commonly used materials at present, surface treatment is required in most cases when rubber products are manufactured, the existing treatment method mainly adopts chemical agents, and although the method is high in efficiency and high in speed, high cost is generated in subsequent water treatment, pollution discharge, chemical agent purchase and the like.

To this end, the applicant proposed a mechanical rubber material surface treatment apparatus which can continuously treat the surface of a rubber material by a machine.

Disclosure of Invention

In view of the above-mentioned defects of the prior art, the technical problem to be solved by the present invention is to provide a mechanical rubber material surface treatment device.

In order to achieve the purpose, the invention provides mechanical rubber material surface treatment equipment which is used for processing a rubber belt, wherein two ends of the rubber belt are respectively assembled and fixed with an unwinding wheel and a winding wheel or wound; the telescopic plate comprises a shell, wherein a hollow rotating cavity is arranged in the shell, one end of the rotating cavity, which is close to the telescopic plate, is opened, and channels are respectively arranged on two sides of the opening end; the two ends of the rotating cavity are sealed in the axial direction, a rotating shaft is arranged in the rotating cavity in a circumferentially rotatable manner, a rotating sleeve is sleeved outside the rotating shaft, the rotating sleeve is directly or indirectly assembled with the hairbrush, and the surface of the rubber belt is continuously scrubbed by the hairbrush when the rubber belt is used, so that the surface of the rubber belt is treated; the ball is arranged in the rotating cavity and used for being matched with the brush to brush the surface of the rubber belt;

the shell is obliquely installed, so that the opening of the rotating cavity is obliquely installed from one end close to the square winding wheel to one end of the winding wheel.

Preferably, the telescopic cylinder is mounted on the support plate, the guide cylinder is clamped with the guide shaft and can be assembled in an axial sliding mode, the guide shaft is fixedly assembled with the telescopic plate, the telescopic plate is assembled with one end of the telescopic shaft, and the other end of the telescopic shaft penetrates through the support plate and then is installed in the cylinder.

Preferably, the rubber belt conveyor further comprises a telescopic plate, wherein a shaft plate is mounted on the telescopic plate and assembled with a first roller shaft, a first roller is sleeved on the first roller shaft in a circumferentially rotatable manner, and the first roller is tightly pressed against one end face of the rubber belt;

the other end of the rubber belt is tightly pressed with a second roller, the second roller is sleeved on a second roller shaft in a circumferential rotating manner, and the second roller shaft is arranged on a roller support plate.

Preferably, one end of the roller support plate is hinged with a hinged plate through a roller pin, and the hinged plate is installed on the outer side wall of the shell.

Preferably, the roller support plate is further assembled and fixed with one end of an arc-shaped spring plate, the other end of the arc-shaped spring plate is assembled and fixed with the outer side wall of the shell, and the arc-shaped spring plate has elasticity and is used for applying elastic force to the roller support plate to rotate the rubber belt.

Preferably, the rotating sleeve is fixedly assembled with one end of the brush barrel, a brush hole is arranged in the brush barrel, the brush hole is clamped with one end of the brush seat and can be axially assembled in a sliding manner, a movable ring groove is formed in one end, which is assembled into the brush barrel, of the brush seat, and a screw penetrates through the brush barrel and then is assembled into the movable ring groove, so that the maximum displacement of the brush seat is limited in the axial direction of the movable ring groove; one end of the rotating shaft penetrates out of the shell and then is connected with an output shaft of the rotating motor; the end of the brush seat, which penetrates out of the brush barrel, is provided with a brush, and the brush is made of soft elastic materials.

Preferably, a brush spring is commercially installed in the part, located between the end face of the brush seat and the closed end of the brush hole, in the brush hole, and the brush spring is used for pushing the brush seat away from the rotating shaft.

Preferably, the number of the passages is at least two, the passages are respectively positioned at the rotary opening and two ends of the inner side of the rotary opening, one end of the rotary opening is communicated with the rotary cavity, the other end of the rotary opening is communicated with one end of a communicating pipe, two ends of the communicating pipe are respectively communicated with different ball inlets and outlets, the ball inlets and outlets are arranged on an auger shell of the flexible shaft auger, a hollow conveying passage is arranged in the auger shell, and the two passages are respectively communicated with two ends of the conveying passage;

different shaft seats are respectively arranged at two ends of the conveying channel, the two shaft seats are respectively assembled with two ends of the flexible shaft in a circumferential rotating and axial non-moving manner, the auger blade is sleeved outside the flexible shaft, and the outer wall of the auger blade is assembled with the inner wall of the conveying channel in a fitting manner; one end of the flexible shaft penetrates out of one shaft and then is connected with an output shaft of the auger motor.

Preferably, a tensioning ball is arranged on the end face of the shell close to the rubber belt in a spherical rolling manner, and the tensioning ball and the shell are assembled in a spherical rolling manner; the shell is provided with an elastic ring around the opening end of the rotating cavity, and the elastic ring is made of soft elastic materials; the elastic ring is tightly pressed with the rubber belt so as to relatively seal the opening end of the rotating cavity.

Preferably, the rotary cavity is communicated with one end of a first air pipe, the other end of the first air pipe is communicated with one end of a connector, the other end of the connector is connected into an air inlet of the air pump through a second air pipe, and an air outlet of the air pump is connected into a conveying channel close to a channel above the air pump through a third air pipe.

The invention has the beneficial effects that:

according to the invention, the surface of the rubber is treated by the brush and the ball, so that on one hand, the high cost caused by adopting a chemical agent can be avoided, on the other hand, the efficiency of the continuous treatment mode is not inferior to that of the chemical and agent treatment mode, and meanwhile, the continuous treatment mode is more environment-friendly.

Drawings

FIG. 1 is a schematic diagram of the present invention.

Fig. 2 is an enlarged view of fig. 1 at F1.

FIG. 3 is a schematic view of the structure of the flexible shaft auger.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1 to 3, the mechanical rubber material surface treatment equipment of the present invention includes a support plate 110 and a telescopic plate 120, the support plate 110 is fixedly assembled with a frame, the frame is installed on the ground, a guide cylinder 210 is installed on the support plate 110, the guide cylinder 210 is clamped with a guide shaft 220 and can be axially assembled in a sliding manner, the guide shaft 220 is fixedly assembled with the telescopic plate 120, the telescopic plate 120 is assembled with one end of a telescopic shaft 311, the other end of the telescopic shaft 311 penetrates through the support plate 110 and is then installed in an air cylinder 310, and the air cylinder 310 can drive the telescopic shaft to axially move after being started.

The telescopic plate 120 is provided with a shaft plate 121, the shaft plate 121 is assembled with a first roller shaft 231, a first roller 411 is sleeved on the first roller shaft 231 in a circumferentially rotatable manner, and the first roller 411 is tightly pressed against one end face of the rubber belt 900. The other end of the rubber belt 900 is tightly pressed with the second roller 412, the second roller 412 is circumferentially and rotatably sleeved on the second roller shaft 232, the second roller shaft 232 is installed on the roller support plate 130, one end of the roller support plate 130 is hinged with the hinged plate 141 through the roller pin 240, and the hinged plate 141 is installed on the outer side wall of the housing 140; the roller support plate 130 is further assembled and fixed with one end of the arc-shaped spring plate 510, the other end of the arc-shaped spring plate 510 is assembled and fixed with the outer side wall of the housing 140, and the arc-shaped spring plate 510 has elasticity and is used for applying elastic force to the roller support plate 130 to rotate the rubber belt 900, so that the first roller 411 and the second roller 412 are respectively clamped on two end faces of the rubber belt 900 to clamp the rubber belt 900.

Two ends of the rubber belt 900 are respectively assembled and fixed with the unreeling wheel 910 and the reeling wheel 920 or are reeled, and the unreeling wheel 910 and the reeling wheel 920 are driven to rotate by the unreeling motor and the reeling motor respectively when the rubber belt winder is used, so that the untreated rubber belt is released from the unreeling wheel 910, and the treated rubber belt is reeled from the reeling wheel 920.

A hollow rotating cavity 142 is arranged in the shell 140, one end of the rotating cavity 142 close to the expansion plate 120 is open, and two sides of the open end are respectively provided with a channel 143; the two ends of the rotating cavity 142 are sealed in the axial direction, the rotating shaft 250 is installed in the rotating cavity 142 in a circumferential rotation mode, the rotating sleeve 260 is sleeved outside the rotating shaft 250, the rotating sleeve 260 is fixedly assembled with one end of the brush barrel 720, the brush hole 721 is arranged inside the brush barrel 720, the brush hole 721 is clamped with one end of the brush seat 710 and can be assembled in an axial sliding mode, a movable ring groove 712 is formed in one end, installed in the brush barrel 721, of the brush seat 710, a screw 730 penetrates through the brush barrel 720 and then is installed in the movable ring groove 712, and therefore the maximum displacement of the brush seat 720 in the axial direction of the movable ring groove 712 is limited. One end of the rotating shaft 250 penetrates out of the shell and then is connected with an output shaft of the rotating motor through a coupler, and the rotating motor can drive the rotating shaft to rotate circumferentially after being started.

The brush seat 710 is provided with a brush 711 at one end penetrating through the brush cylinder 720, the brush is made of soft elastic materials such as terylene and soft metal wires, and the surface of the rubber belt 900 is continuously brushed by the brush 711 during use, so that the surface of the rubber belt is treated.

A brush spring 740 is commercially installed in a portion of the brush hole 721 between the end surface of the brush holder 710 and the closed end of the brush hole 721, and the brush spring 740 is used to apply a pushing force to the brush holder 710 away from the rotation axis.

At least two channels 143 are respectively positioned at the opening of the rotating cavity 142 and at two ends of the inner side of the rotating cavity, one end of each channel 143 is communicated with the rotating cavity 142, the other end of each channel 143 is communicated with one end of a communicating pipe 750, two ends of each communicating pipe 750 are respectively communicated with different ball inlets and outlets 333, the ball inlets and outlets 333 are arranged on an auger shell 331 of the flexible shaft auger 330, a hollow conveying channel 334 is arranged in the auger shell 331, and the two channels 143 are respectively communicated with two ends of the conveying channel 334;

different axle seats 332 are respectively installed at two ends of the conveying passage 334, the two axle seats 332 are respectively assembled with two ends of the flexible shaft 810 in a circumferential rotating mode and in an axial non-moving mode, the auger blade 820 is sleeved outside the flexible shaft 810, and the outer wall of the auger blade 820 is assembled with the inner wall of the conveying passage 334 in a fitting mode. When the flexible shaft 810 rotates circumferentially, the auger blades 820 can be driven to rotate synchronously, so that the balls are conveyed from one channel to the other channel to be discharged. One end of the flexible shaft 810 penetrates through one of the shaft seats 332 and then is connected with an output shaft of the auger motor 340 through a coupling, and the auger motor 340 can drive the flexible shaft to rotate circumferentially after being started.

A tensioning ball 530 is arranged on the end surface of the shell 140 close to the rubber belt 900 in a ball-shaped rolling way, and the tensioning ball 530 is assembled with the shell in a ball-shaped rolling way; the elastic ring 540 is installed around the opening end of the rotating cavity of the housing 140, and the elastic ring 540 is made of soft elastic material, such as rubber, silica gel, etc. The elastic ring 540 is pressed against the rubber band 900 to seal the open end of the rotation chamber relatively. The design makes the ball in the rotating cavity not easy to leak.

The housing 140 is obliquely installed so that the opening of the rotating chamber 142 is inclined, specifically, from the end near the square winding wheel 910 to the end near the winding wheel. This causes the two channels 143 to be in an inclined state. When the rubber belt scrubbing device is used, the balls in the rotating cavity roll towards the channel 143 at the bottom, finally enter the ball inlet and outlet 333 corresponding to the rotating cavity, then the auger motor 340 is started, the auger blade is driven to rotate through the roller motor 340 to convey the balls to the higher channel 143, and then the balls roll into the rotating cavity from the channel 143, so that the ball and the brush are matched to scrub the surface of the rubber belt to improve the treatment efficiency and increase the treatment quality.

The rotating cavity 142 is further communicated with one end of a first air pipe 611, the other end of the first air pipe 611 is communicated with one end of a connector 520, the other end of the connector 520 is connected to an air inlet of the air pump 320 through a second air pipe 612, and an air outlet of the air pump 320 is connected to the conveying passage 334 close to the passage 143 above the air pump through a third air pipe 321. When the rubber belt cleaning device is used, the air pump is started, so that air in the rotary cavity is pumped into the third air pipe 321 and then is discharged into the conveying channel 334, air flow is blown out of the conveying channel 334 and the ball inlet and outlet 333 positioned above the conveying channel into the rotary cavity, on one hand, the balls can be blown out of the conveying channel 143 positioned below the air flow, on the other hand, the air flow is blown out of the surface of a cleaned rubber belt, and therefore the rubber belt is cooled in time, and thermal damage is prevented.

The rotation direction of the rotating shaft is opposite to the moving direction of the rubber belt, and the opening inclination angle of the rotating cavity is 5-10 degrees. Thereby can scrub fast the rubber tape, and the rubber tape is constantly removing to avoid the heat to concentrate, with increase treatment effect, treatment effeciency, finished product quality.

When the rubber belt winding device is used, the rubber belt 900 is firstly pulled out of the unwinding wheel, then passes through the space between the first roller and the second roller, and is finally fixed on the winding wheel, and then a certain amount of balls are led into the rotating cavity and are made of wear-resistant and light materials, such as aluminum alloy, ceramic and the like. And when the cylinder is started, the cylinder drives the expansion plate to move towards the second roller until the first roller and the second roller are respectively pressed against two end faces of the rubber belt, then the starting motor, the auger motor, the air pump and the rotating motor start to process the surface of the rubber belt, and the rotating speeds of the unwinding motor and the winding motor are matched to keep the rubber belt tensioned and continuously processed. After the treatment is finished, the cylinder drives the telescopic plate to move towards the support plate to reset, and then the rubber belt is taken out. The expansion plate 120 may be provided as a box with an open top so that balls falling from the rotation chamber can be caught. Preferably, a feeding channel communicated with the rotating cavity can be arranged on the shell, so that balls and other objects can be fed into the rotating cavity from the feeding channel, and the processing and the quality of finished products are improved.

The invention is not described in detail, but is well known to those skilled in the art.

The foregoing detailed description of the preferred embodiments of the invention has been presented. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.

Claims

1. A mechanical rubber material surface treatment device is used for processing a rubber belt, wherein two ends of the rubber belt are respectively assembled and fixed with an unwinding wheel and a winding wheel or wound; the method is characterized in that: the telescopic device comprises a shell and a support plate, wherein a guide cylinder is mounted on the support plate, the guide cylinder is clamped with a guide shaft and can be axially assembled in a sliding manner, the guide shaft is fixedly assembled with a telescopic plate, the telescopic plate is assembled with one end of the telescopic shaft, the other end of the telescopic shaft penetrates through the support plate and then is arranged in a cylinder, a hollow rotating cavity is arranged in the shell, the rotating cavity is close to an opening at one end of the telescopic plate, and channels are respectively arranged on two sides of the opening end; the two ends of the rotating cavity are sealed in the axial direction, a rotating shaft is arranged in the rotating cavity in a circumferentially rotatable manner, a rotating sleeve is sleeved outside the rotating shaft, the rotating sleeve is directly or indirectly assembled with the hairbrush, and the surface of the rubber belt is continuously scrubbed by the hairbrush when the rubber belt is used, so that the surface of the rubber belt is treated; the ball is arranged in the rotating cavity and used for being matched with the brush to brush the surface of the rubber belt;

the shell is obliquely installed, so that the opening of the rotating cavity is obliquely installed upwards from one end close to the unwinding wheel to one end of the winding wheel;

the device comprises a flexible shaft auger, at least two passages, a rotary cavity, a communicating pipe, a ball inlet and a ball outlet, wherein the rotary cavity is arranged on the inner side of the flexible shaft auger, the communicating pipe is provided with a rotary opening, the rotary cavity is arranged on the inner side of the flexible shaft auger, the communicating pipe is provided with a hollow conveying passage, and the two passages are respectively communicated with the two ends of the conveying passage;

2. The mechanical rubber material surface treatment apparatus of claim 1, wherein: the rubber belt conveyor is characterized by further comprising a telescopic plate, wherein a shaft plate is mounted on the telescopic plate and assembled with a first roller shaft, a first roller is sleeved on the first roller shaft in a circumferentially rotatable manner, and the first roller is tightly pressed with one end face of the rubber belt;

3. The mechanical rubber material surface treatment apparatus of claim 2, wherein: one end of the roller support plate is hinged with a hinged plate through a roller pin, and the hinged plate is arranged on the outer side wall of the shell.

4. The mechanical rubber material surface treatment apparatus of claim 3, wherein: the roller supporting plate is further fixedly assembled with one end of the arc-shaped spring plate, the other end of the arc-shaped spring plate is fixedly assembled with the outer side wall of the shell, and the arc-shaped spring plate has elasticity and is used for applying elasticity to the roller supporting plate to rotate the rubber belt.

5. The mechanical rubber material surface treatment apparatus as set forth in claim 1, wherein: the rotating sleeve is fixedly assembled with one end of the brush barrel, a brush hole is formed in the brush barrel, the brush hole is clamped with one end of the brush seat and can be axially assembled in a sliding mode, a movable ring groove is formed in one end, installed in the brush barrel, of the brush seat, and a screw penetrates through the brush barrel and then is installed in the movable ring groove, so that the maximum displacement of the brush seat is limited in the axial direction of the movable ring groove; one end of the rotating shaft penetrates out of the shell and then is connected with an output shaft of the rotating motor; the end of the brush seat, which penetrates out of the brush barrel, is provided with a brush, and the brush is made of soft elastic materials.

6. The mechanical rubber material surface treatment apparatus of claim 5, wherein: and a brush spring is arranged in the part, positioned between the end surface of the brush seat and the closed end of the brush hole, in the brush hole and used for applying thrust far away from the rotating shaft to the brush seat.

7. The mechanical rubber material surface treatment apparatus as set forth in claim 1, wherein: a tensioning ball is arranged on the end face, close to the rubber belt, of the shell in a spherical rolling manner, and the tensioning ball and the shell are assembled in a spherical rolling manner; the shell is provided with an elastic ring around the opening end of the rotating cavity, and the elastic ring is made of soft elastic materials; the elastic ring is pressed against the rubber belt so as to relatively seal the opening end of the rotating cavity.

8. The mechanical rubber material surface treatment apparatus as claimed in any one of claims 1 to 7, wherein: the rotary cavity is communicated with one end of a first air pipe, the other end of the first air pipe is communicated with one end of a connector, the other end of the connector is connected into an air inlet of the air pump through a second air pipe, and an air outlet of the air pump is connected into a conveying passage close to a passage above the air pump through a third air pipe.