KR20100034639A - Rubber vulcanizer - Google Patents

Abstract

PURPOSE: A rubber vulcanizer is provided to facilitate a forming operation by the mechanical entry and exit of a mold. CONSTITUTION: A rubber vulcanizer comprises a lower and an upper base(101,102), a press base(105), a lower, a middle, and an upper heater plate(108,109,110), and a mold bed(115). The lower and the upper base are kept by a guide bar(103). The press base is connected to a press unit(104) of the upper base. The lower, the middle, the upper plate has a heater supplying heat to the lower and the upper mold(106,107). The mold bed enables the entry and exit of the upper and the lower mold. The lower and the upper heater plate are fixed on the upper side of the lower base and the lower side of the press base. The middle heater plate is lifted by a plate finger to supply and separate the lower and the upper mold.

Description

Rubber Vulcanizer Forming Equipment {RUBBER VULCANIZER}

The present invention relates to a rubber vulcanization molding apparatus, and more particularly, to a provision of a vulcanization molding apparatus improved to increase productivity by using a plurality of molds in one apparatus.

In the case of manufacturing a product using rubber, the raw rubber may not be completed through pressure molding or heat molding, but may be completed through vulcanization molding.

Vulcanization molding is required to form rubber products by adding sulfur to raw rubber, heating and pressurizing it to make a desired shape, and increasing the elasticity and resistance while not dissolving in a solvent.

The apparatus for vulcanization as described above is a situation in which various types have been developed and used in the related art.

The rubber vulcanization molding apparatus to which the prior art is applied is provided with an upper mold and a lower mold in which a heating means for supplying a heating device or water vapor is provided inside a main body provided as a press type, and vulcanization molding is performed inside the mold. The rubber is put in to press to form the desired shape.

In the prior art as described above, the size of the molding apparatus increases because the product to be molded is mainly made of a product such as a sheet having a plate shape having a relatively large width and width rather than thickness.

Since a single mold is used and molded in a large main body as described above, although a large space is required for installing a large device and a considerable cost is required for operation, productivity is not high compared to the size of the device.

This takes a considerable amount of time to mold a single product, so the production cycle is not efficient, resulting in an increase in production costs and weakening of external competitiveness.

In addition, since supplying a sample to the inside of the mold and drawing out a molded product is not fully automated, this also adversely affects the overall operation, which causes a decrease in productivity and does not increase productivity. Several problems are occurring.

In the present invention, the lower base and the upper base, which is invented to solve the above problems, is maintained as a guide bar, the pressing base provided in the guide bar and connected to the pressing means installed on the upper base, and the lower base and the pressing base. A lower heater plate, a middle heater plate and an upper heater plate provided with a heater to supply heat to a lower mold and an upper mold supplied for vulcanization between the lower mold and the lower mold on both sides of the lower base and the pressing base. The lower mold and the upper heater plate are fixed to the upper surface of the lower base and the lower surface of the pressurizing base, and the middle heater plate is pressurized to supply and detach the lower mold and the upper mold. Plates provided at the front and rear of the base The mold bed is connected to the upper end of the bed frame and the lower end of the upper mold and the traction ring including a retractor to move in and out by reciprocating by the drive means, two molds in one molding cycle It is possible to achieve the purpose to double the productivity and reduce the production cost by the simultaneous molding by.

The present invention allows the rubber product to be vulcanized by using a plurality of molds in one vulcanization molding machine, while maximizing productivity in the same manufacturing cycle while performing the mold mechanically and facilitating the molding operation. It is an invention having various effects such as lowering and securing external competitiveness.

Hereinafter, with reference to the accompanying drawings will be described a preferred configuration and operation of the present invention for achieving the above object.

1 is an overall front configuration diagram showing a rubber vulcanization molding apparatus to which the technique of the present invention is applied, FIG. 2 is a cross-sectional view of a plate finger applied to the rubber vulcanization molding apparatus to which the technique of the present invention is applied, and FIG. It demonstrates together as a perspective view which shows the mold bed applied to the rubber vulcanization apparatus to which the technique was applied.

The rubber vulcanization molding apparatus 100 to which the technique of the present invention is applied maintains the lower base 101 and the upper base 102 as the guide bar 103, and the guide bar 103 is installed in the upper base 102. And a pressing base 105 connected with the pressing means 104.

The pressurizing means 104 is installed above the upper base 102 of the hydraulic cylinder capable of generating a high pressure, connecting the rod of the hydraulic cylinder with the upper surface of the pressing base 105 to the expansion and contraction of the hydraulic cylinder As a result, the pressing base 105 is held on the guide bar 103 so that the pressing base 105 can be moved up and down.

The hydraulic cylinder may be installed below the lower base 101 to operate in reverse.

The lower heater plate 108 having a heater H to supply heat to the lower mold 106 and the upper mold 107 which are supplied for vulcanization of rubber between the lower base 101 and the pressurized base 105. ) And a middle heater plate 109 and an upper heater plate 110.

The lower and upper heater plates 108 and 110 are fixed to the upper surface of the lower base 101 and the lower surface of the pressing base 105, and the middle heater plate 109 is capable of supplying and detaching the lower and upper molds 106 and 107. It is to be maintained by the plate finger 111 provided on the front, rear of the pressing base 105.

The plate finger 111 protrudes downward from the finger body 112 fixed to the front and rear edges of the pressing base 105 by bolts, and at the edge of the middle heater plate 109 at the lower end of the finger body 112. It is configured to protrude a finger 114 that can be pulled by walking the engaging jaw 113 is formed.

Both sides of the lower base 101 and the pressing base 105 are provided with different heights of the mold bed 115 so as to allow the lower mold 106 and the upper mold 107 to enter and exit.

The mold bed 115 is a steel material retractor 118 to be connected to the traction ring 117 provided at one end of the lower and upper molds 106 and 107 above the bed frame 116 is provided in a grid form. It is provided.

The retractor 118 is connected to the retractor 122 composed of a combination of the chain gear 120 and the chain 121 receives the power of the drive means 119, such as a motor, left and right of the bed frame 116 The lower and upper molds 106 and 107 are moved in and out while moving in the directions.

The retractor 118 is described as a chain gear and chain combination, but may be implemented in various forms such as a belt driving type, a gear driving type, or a sliding movement type using a cylinder.

By fixing the lower rollers 123 and the side rollers 124 supporting the bottom and the side of the mold by maintaining a back gap on both sides of the upper surface of the bed frame 116 to help the lower and upper molds 106 and 107 to enter and exit. Configure.

The traction ring 117 and the retractor 118 are shown as pins and pin holes in the drawings of the present invention, which is an exemplary illustration, and may be implemented in various forms such as rings, tongs, and buckles.

Looking at the working relationship of the rubber vulcanization molding apparatus 100 to which the technology of the present invention is applied as described above is as follows.

In the initial state of molding, the lower and upper molds 106 and 107 are positioned in the state connected to the retractor 118 on the upper surfaces of the mold beds 115 provided on both sides, and the pressing base 105 is lifted by the pressing means 104. Will be in a closed state.

As the pressing base 105 is raised by the pressing means 104, the middle heater plate 109 is fixed to the lower base 101 by plate fingers 111 provided at the front and rear sides of the pressing base 105. The lower heater plate 108 and the upper heater plate 110 which is fixed to the pressing base 105 are kept spaced apart from each other.

After supplying the rubber material to be molded into the lower and upper molds 106 and 107 in this state, the drive means 119 of the mold bed 115 is operated to cause the retractor 118 to operate the lower and upper molds 106 and 107 as the lower heater. The plate 108 enters between the middle heater plate 109 and the upper heater plate 110.

Then, the lower mold 106 is placed on the lower heater plate 108, the upper mold 107 is settled on the middle heater plate 109, in this state the pressing means 104 is operated to press the base The lower plate 105 is lowered so that the middle heater plate 109 is positioned on the upper surface of the lower mold 106, and the upper heater plate 110 is positioned on the upper surface of the upper mold 107.

In this process, even if the pressing base 105 is continuously lowered while the middle heater plate 109 is placed on the upper surface of the lower mold 106, the finger 114 of the plate finger 111 fixed to the pressing base 105 is fixed. ) Is outside the locking step 113 of the middle heater plate 109 so as not to interfere with the pressurization.

As described above, the pressurizing base 105 is applied by the set pressure and is heated by the heater H installed in the lower, middle, and upper heater plates 108, 109, 110 and pressurized by the pressing force of the pressurizing base 105. Being vulcanized.

After the molding is completed, the pressing base 105 is raised by the pressing means 104, and at the same time, the plate finger 111 moves the middle heater plate 109 while maintaining a constant interval (as much as the length of the finger body). By raising the foot, the lower mold 106 and the upper mold 107 are spaced apart from each other to be drawn out.

Then, the lower and upper molds 106 and 107 are pulled out by the retractor 118 of the mold bed 115 to be drawn out to the mold bed 115 to take out the molded rubber product, and the lower and upper molds 106 and 107 are drawn out. When drawn out or stored, it is stably supported by the lower roller 123 and the side roller 124 further provided on the upper surface of the bed frame 116, thereby providing ease of access.

Since the present invention is simultaneously molded by the lower mold 106 and the upper mold 107 in one molding cycle, the productivity can be doubled and the production cost can be reduced as well. The invention is expected to have many advantages.

1 is an overall front configuration diagram showing a rubber vulcanization molding apparatus to which the technique of the present invention is applied.

Figure 2 is a cross-sectional view of the plate finger applied to the rubber vulcanization molding apparatus applied technology of the present invention.

Figure 3 is a perspective view showing a mold bed applied to the rubber vulcanization molding apparatus applied technology of the present invention.

* Description of the symbols used in the main parts of the drawings *

100; Rubber vulcanization molding machine

101; Lower base

102; Upper bass

105; Pressurized base

106; Lower mold

107; Upper mold

108; Lower Heater Plate

109; Middle Heater Plate

110; Upper heater plate

111; Plate Finger

115; Mold Bed

118; Retractor

Claims (1)

A lower base 101 and an upper base 102 held by the guide bar 103; A pressing base 105 provided at the guide bar 103 and connected to the pressing means 104 installed at the upper base 102; Lower heater plate 108 provided with a heater (H) to supply heat to the lower mold 106 and the upper mold 107 which is supplied for vulcanization molding between the lower base 101 and the pressure base 105. ), The middle heater plate 109 and the upper heater plate 110; A mold bed 115 installed to allow the lower mold 106 and the upper mold 107 to enter and exit on both sides of the lower base 101 and the pressing base 105; The lower and upper heater plates 108 and 110 are fixed to an upper surface of the lower base 101 and a lower surface of the pressing base 105; The middle heater plate 109 is raised to the plate finger 111 provided on the front and rear of the pressing base 105 so as to be able to supply and detach the lower and upper molds (106, 107); The mold bed 115 is connected to the traction ring 117 provided at one end of the lower and upper molds (106, 107) above the bed frame 116 to retract by the drive means (119) to move in and out ( 118) rubber vulcanization molding apparatus comprising a.

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