CN217993195U - Edge baffle system for vulcanizing continuous press - Google Patents

Abstract

The utility model discloses an edge baffle system for a continuous vulcanizing press, which is characterized by comprising two sets of edge baffle systems, wherein the two sets of edge baffle systems are arranged on the left side and the right side of a steel belt of the continuous vulcanizing press and follow the steel belt to move circularly and synchronously; each set of edge baffle system comprises an edge baffle bracket, an annular belt and an annular belt transmission system for driving the annular belt to do circular motion, wherein the annular belt transmission system is arranged on the edge baffle bracket. The utility model discloses it becomes possible to make the rubber tape adopt to vulcanize continuous press production to promote the equipment technique of rubber tape production greatly, made the output of rubber tape, quality all have simultaneously and increased substantially.

Description

Edge baffle system for vulcanizing continuous press

Technical Field

The utility model relates to a vulcanize continuous press technical field, in particular to vulcanize edge baffle system that continuous press used.

Background

In order to obtain the required width in the production of rubber belts, it is necessary to have dams that approximate the thickness of the slab on both sides of the slab in the width direction to measure the width during vulcanization. The traditional rubber belt vulcanizing press is generally a gap type press, a baffle plate comprises a steel plate strip (the length of the baffle plate is the same as that of a hot pressing plate) and an automatic jacking device, and the thickness or the width of the steel plate strip is changed when rubber belts with different thicknesses or widths are produced (a plurality of steel plate strips with certain widths can be arranged in parallel, and the total width of the steel plate strip can be changed by changing the number of the steel plate strips).

Although the traditional gap type rubber belt vulcanizing press is widely applied, the defects of large energy waste, low production efficiency, repeated vulcanization and the like inevitably exist, and in recent years, people continuously try to adopt the mature concept of a continuous press for producing artificial boards to be applied to the production of rubber belts, but the production is still stopped due to baffles.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that to because the reason of baffle, can't adopt the problem that the ripe continuous press of wood-based plate production made the rubber tape and provide an edge baffle system that vulcanizes continuous press and use.

In order to realize the aim, the utility model discloses an edge baffle system for a continuous vulcanizing press, which comprises two sets of edge baffle systems, wherein the two sets of edge baffle systems are arranged on the left side and the right side of a steel belt of the continuous vulcanizing press and move along with the steel belt in a circulating and synchronous manner; each set of edge baffle system comprises an edge baffle bracket, an annular belt and an annular belt transmission system for driving the annular belt to do circular motion, wherein the annular belt transmission system is arranged on the edge baffle bracket.

In a preferred embodiment of the present invention, the running speed of the endless belt is synchronized with the running speed of the steel belt.

In a preferred embodiment of the invention, the width between the endless belts used by the two sets of edge dam systems is adjusted according to the width of the rubber belt being produced.

In a preferred embodiment of the invention, the thickness of the endless belt is adjusted in accordance with the thickness of the rubber belt to be produced.

In a preferred embodiment of the utility model, the annular belt is an annular belt which can resist the temperature of more than or equal to 180 ℃.

In a preferred embodiment of the present invention, the endless belt drive system includes an endless belt drive system, a plurality of endless belt guide rollers, the endless belt drive system and the plurality of endless belt guide rollers are installed on the edge dam support, and the endless belt is wound around the endless belt drive system and the plurality of endless belt guide rollers and driven by the endless belt drive system.

In a preferred embodiment of the present invention, the endless belt driving system includes an endless belt driving roller and an electric control device for driving the endless belt driving roller to rotate the speed reduction motor and controlling the operating state of the speed reduction motor, and the endless belt is wound around the endless belt driving roller and driven by the endless belt driving roller.

In a preferred embodiment of the invention, the endless belt of both sets of edge dam systems may also be driven by the same endless belt drive roller.

In a preferred embodiment of the present invention, the endless belt drive system further includes an endless belt tensioning system, the endless belt tensioning system is installed on the edge guard support and includes an endless belt tensioning roller and a drive the tensioning device that the endless belt tensioning roller moves, the endless belt passes around the endless belt tensioning roller, and the endless belt is tensioned by the movement of the endless belt tensioning roller.

In a preferred embodiment of the present invention, the tensioning device is one of a cylinder type tensioning device, a hydraulic type tensioning device, and a mechanical type tensioning device, or a combination of any two or more of them.

In a preferred embodiment of the present invention, the endless belt transmission system further includes a plurality of endless belt rollers, and the endless belt rollers are installed on the edge guard support and located below the return section of the endless belt, and slidably support the endless belt of the return section.

In the utility model discloses a preferred embodiment, the endless belt transmission system still includes a plurality of endless belt top tight detection device, and each endless belt top advances detection device includes top cylinder, top tight disc and top tight detection switch, the top cylinder is installed on the edge baffle support, the tight disc in top is installed on the push rod of top cylinder, the drive of top cylinder the tight disc in top is right the lateral surface of endless belt carries out top tightly and relaxs, the tight detection switch in top is installed on the edge baffle support and right whether the endless belt is tightly detected by the top.

In a preferred embodiment of the present invention, the thickness of the tightening disk is slightly smaller than the thickness of the annular belt.

Due to the adoption of the technical scheme, the rubber belt can be produced by adopting a vulcanization continuous press machine, so that the equipment technology for producing the rubber belt is greatly improved, and the yield and the quality of the rubber belt are greatly improved.

Drawings

Figure 1 is an assembly side view between the edge dam system and the curing continuous press of the present invention.

Fig. 2 is a top view of the assembly between the edge dam system and the curing continuous press of the present invention.

Detailed Description

The invention is further described below with reference to the accompanying drawings and the detailed description.

Referring to fig. 1 and 2, an edge dam system for a continuous vulcanizing press is shown, which comprises two sets of edge dam systems 100, wherein the two sets of edge dam systems 100 are arranged on the left and right sides of a lower steel strip 210 of a continuous vulcanizing press 200 and move along with the circulation of the lower steel strip 210 synchronously. The vulcanizing continuous press 200 further includes an upper steel belt 220 which runs in synchronization with the lower steel belt 210, and the rubber belt 300 is vulcanized between the upper steel belt 220 and the lower steel belt 210 and moves after being vulcanized.

Each set of edge dam systems 100 includes an edge dam holder (not shown), an endless belt 110, and an endless belt drive system for driving the endless belt 110 in an endless motion. The width between the two sets of edge dam systems 100 is adjusted depending on the width of the rubber strip 300 being produced.

The thickness of the endless belt 110 is adjusted according to the thickness of the rubber belt 300 produced, and the width of the endless belt 110 is adjusted according to the width of the rubber belt 300 produced. The annular belt 110 is an annular belt which can resist the temperature of more than or equal to 180 ℃ so as to meet the requirement of 300 vulcanization temperature of the rubber belt.

First, the endless belt driving system includes an endless belt driving system 120, a plurality of endless belt guide rollers 130, and the endless belt driving system 120 and the plurality of endless belt guide rollers 130 are installed on the edge dam holder. The endless belt driving system 120 includes an endless belt driving roller 121, a speed reducing motor (not shown) for driving the endless belt driving roller 121 to rotate, and an electric control device (not shown) for controlling an operating state of the speed reducing motor, and the endless belt 110 passes around the endless belt driving roller 121 and is driven by the endless belt driving roller 121. The endless belts 110 in both sets of edge dam systems 100 can also be driven by the same endless belt drive roller 121.

In addition, the endless belt driving system further includes an endless belt tensioning system 140, the endless belt tensioning system 140 being mounted on the edge dam support and including an endless belt tensioning roller 141 and a tensioning device (not shown) for driving the endless belt driving roller 141 to move, the endless belt 110 being passed around the endless belt tensioning roller 141, and the endless belt 110 being tensioned by the movement of the endless belt tensioning roller 141. The tensioning device can be one of a cylinder type tensioning device, a hydraulic type tensioning device and a mechanical type tensioning device or a combination of more than two of the cylinder type tensioning device, the hydraulic type tensioning device and the mechanical type tensioning device.

Third, the endless belt drive system further comprises a plurality of endless belt idlers 150, which are mounted on the edge dam support and located below the return run of the endless belt 110 to slidably support the endless belt 110 in the return run.

Fourth, endless belt transmission system still includes a plurality of endless belts and pushes up tight detection device 160, each endless belt pushes up detection device 160 and includes the cylinder 161 of advancing in the top, push up tight disc 162 and the tight detection switch 163 in top, the cylinder 161 of advancing in the top is installed on the edge baffle support, the tight disc 162 in top is installed on the push rod of the cylinder 161 of advancing in the top, the cylinder 161 drive that advances in the top pushes up tight disc 162 and carries out the top tightly and relax to the lateral surface of endless belt 110, the tight detection switch 163 in top is installed on the edge baffle support and whether the top tightly detects the endless belt 110. The thickness of the tightening disk 162 is slightly less than the thickness of the annular band 110.

Claims (13)

1. The edge baffle system for the continuous vulcanizing press is characterized by comprising two sets of edge baffle systems, wherein the two sets of edge baffle systems are arranged on the left side and the right side of a steel belt of the continuous vulcanizing press and move along with the steel belt in a circulating and synchronous manner; each set of edge dam system comprises an edge dam support, an endless belt, and an endless belt drive system for driving the endless belt to move in a circular motion, wherein the endless belt drive system is mounted on the edge dam support.

2. The edge dam system for a curing continuous press of claim 1, wherein the speed of travel of said endless belt is synchronized with the speed of travel of said steel belt.

3. An edge dam system for a continuous vulcanization press as set forth in claim 1 wherein the width of the endless belt used for both sets of edge dam systems is adjusted in accordance with the width of the rubber belt being produced.

4. An edge dam system for a continuous vulcanization press as set forth in claim 3 wherein the thickness of said endless belt is adjusted in accordance with the thickness of the rubber belt being produced.

5. An edge dam system for a continuous vulcanization press as set forth in claim 4 wherein said endless belt is one which is resistant to temperatures of greater than or equal to 180 ℃.

6. An edge dam system for a continuous vulcanization press as set forth in any one of claims 1-5 wherein said endless belt drive system includes an endless belt drive system and a plurality of endless belt guide rollers mounted on said edge dam support, said endless belt being trained about and driven by said endless belt drive system and said plurality of endless belt guide rollers.

7. An edge dam system for a continuous vulcanization press as set forth in claim 6 wherein said endless belt drive system includes an endless belt drive roller and a gear motor for driving said endless belt drive roller in rotation and an electrical control device for controlling the operating condition of the gear motor, said endless belt being trained around and driven by said endless belt drive roller.

8. The edge dam system for a curing continuous press of claim 7, wherein the endless belts in both sets of edge dam systems are also driven by the same endless belt drive roller.

9. The edge dam system for a continuous vulcanization press of claim 7, wherein the endless belt drive system further includes an endless belt tensioning system mounted on the edge dam support and including an endless belt tensioning roller around which the endless belt is trained by movement of the endless belt tensioning roller and a tensioner that drives the endless belt tensioning roller into motion.

10. The edge dam system of claim 9, wherein the tensioning device is one of a cylinder type tensioning device, a hydraulic type tensioning device, a mechanical type tensioning device, or a combination of any two or more thereof.

11. The edge dam system for a continuous vulcanization press of claim 7, wherein the endless belt drive system further includes a plurality of endless belt idlers mounted on the edge dam support and positioned below the return run of the endless belt for slidably supporting the endless belt in the return run.

12. The edge dam system of claim 11, wherein the endless belt drive system further comprises a plurality of endless belt tightening detection devices, each endless belt tightening detection device comprises a tightening cylinder, a tightening disc, and a tightening detection switch, the tightening cylinder is mounted on the edge dam support, the tightening disc is mounted on a push rod of the tightening cylinder, the tightening cylinder drives the tightening disc to tighten and loosen the outer side surface of the endless belt, and the tightening detection switch is mounted on the edge dam support and detects whether the endless belt is tightened.

13. The edge dam system for a curing continuous press of claim 12, wherein the thickness of said take-up disk is slightly less than the thickness of said endless belt.

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