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CN-224224292-U - Rubber resistance belt production die

CN224224292UCN 224224292 UCN224224292 UCN 224224292UCN-224224292-U

Abstract

The utility model relates to the technical field of rubber resistance belt production, in particular to a rubber resistance belt production die which comprises a die upper plate positioning block and a die upper plate, wherein after a die lower plate assembly is fixedly installed, a group of raw materials are placed into the die lower plate assembly, a heating assembly is operated to cover the die lower plate assembly, a group of raw materials are placed into the inner side of a die upper plate, the die upper plate is installed on a lifting mechanism through a die upper plate positioning block, the lifting mechanism drives the die upper plate to move downwards, so that the die upper plate is covered on the heating assembly, the heating assembly is started, and two groups of raw materials are rapidly molded.

Inventors

  • HAN TAO

Assignees

  • 青岛健动体育用品有限公司

Dates

Publication Date
20260512
Application Date
20250702

Claims (5)

  1. 1. The production die for the rubber resistance belt comprises a die upper plate positioning block (1) and a die upper plate (2), wherein a plurality of groups of die upper plate positioning blocks (1) are arranged at the top end of the die upper plate (2), and the production die is characterized by further comprising a heating assembly and a die lower plate assembly, wherein the heating assembly is arranged between the die lower plate assembly and the die upper plate (2).
  2. 2. The rubber resistance belt production die as claimed in claim 1, wherein the heating assembly comprises a middle die core (3), heating pipes (4), a die outer frame (6) and heating pipe leads (8), the middle die core (3) is arranged on the inner side of the die outer frame (6), a plurality of groups of heating pipes (4) are arranged in the middle die core (3), the heating pipe leads (8) are arranged on the die outer frame (6), and the heating pipe leads (8) are connected with the plurality of groups of heating pipes (4) in a line mode.
  3. 3. The rubber resistance belt production mold according to claim 1, wherein the lower mold lower plate assembly comprises a lower mold plate (10) and a lower mold plate positioning block (11), and a plurality of groups of lower mold plate positioning blocks (11) are arranged at the bottom end of the lower mold plate (10).
  4. 4. A rubber resistance belt production mold as claimed in claim 3, further comprising a positioning pin sleeve (7), a mold positioning block (5) and a positioning pin (9), wherein the mold positioning block (5) and the positioning pin (9) are respectively arranged on the mold lower plate (10), and the positioning pin sleeve (7) is arranged on the mold upper plate (2).
  5. 5. A rubber resistance belt production die as claimed in claim 3, wherein diamond grains are respectively arranged at the top end of the lower die plate (10) and the bottom end of the upper die plate (2).

Description

Rubber resistance belt production die Technical Field The utility model relates to the technical field of rubber resistance belt production, in particular to a rubber resistance belt production die. Background The traditional rubber resistance belt production mould has the problems of uneven heating, inaccurate positioning, unclear product surface texture and the like, so that the product performance is unstable and the rejection rate is higher. The existing die is simple in structure, lacks an effective positioning and heating system, and is difficult to meet the production requirement of a high-quality rubber resistance belt. Disclosure of utility model In order to solve the technical problems, the utility model provides a rubber resistance belt production die. When the rubber resistance belt production die is used, after the die lower plate assembly is fixedly installed, a group of raw materials are put into the die lower plate assembly, then the heating assembly is operated to cover the upper part of the die lower plate assembly, then a group of raw materials are put into the inner side of the die upper plate, the die upper plate is installed on the lifting mechanism through the die upper plate positioning block, and the lifting mechanism drives the die upper plate to move downwards, so that the die upper plate is covered on the heating assembly, and the heating assembly is started, so that the two groups of raw materials are rapidly molded. Preferably, the heating assembly comprises a middle die core, a heating pipe, a die outer frame and a heating pipe lead, wherein the middle die core is arranged on the inner side of the die outer frame, a plurality of groups of heating pipes are arranged in the middle die core, heating pipe leads are arranged on the die outer frame and connected with a plurality of groups of heating pipes, the die outer frame is matched with a die upper plate and a die lower plate assembly, one group of raw materials are put into the die lower plate assembly, the die outer frame is sleeved on the outer side of the die lower plate assembly, the bottom end of the middle die core is matched with the die lower plate assembly, a second group of raw materials are adhered on the inner side of the die upper plate, the die upper plate is operated to descend, the die upper plate is covered on the upper end of the die outer frame, the die upper plate is matched with the upper end of the middle die core, the heating pipes are transmitted through the heating pipe leads, and accordingly the middle die core is heated, and the die core is matched with the die lower plate assembly and the die upper plate to carry out molding processing on the two groups of raw materials. The lower die lower plate assembly comprises a die lower plate and a die lower plate positioning block, wherein a plurality of groups of die lower plate positioning blocks are arranged at the bottom end of the die lower plate, the die lower plate is fixedly arranged on a workbench through the plurality of groups of die lower plate positioning blocks, and the die lower plate is matched with a middle die core to heat and shape a group of raw materials. Preferably, the die further comprises a positioning pin sleeve, a die positioning block and a positioning pin, wherein the die positioning block and the positioning pin are respectively arranged on the die lower plate, and the positioning pin sleeve is arranged on the die upper plate; the lower die plate, the outer die frame and the upper die plate are respectively matched with the die positioning block, the positioning pin and the positioning pin sleeve to be matched with the lower die and the upper die, so that the processing accuracy is improved. Preferably, diamond grains are respectively arranged at the top end of the lower die plate and the bottom end of the upper die plate, and the diamond grains on the lower die plate and the upper die plate are used for carrying out anti-skid groove forming processing on the raw materials. Compared with the prior art, the utility model has the beneficial effects that when the die lower plate assembly is used, after the die lower plate assembly is fixedly installed, a group of raw materials are put into the die lower plate assembly, then the heating assembly is operated to cover and install above the die lower plate assembly, then a group of raw materials are put into the inner side of the die upper plate, the die upper plate is installed on the lifting mechanism through the die upper plate positioning block, and the lifting mechanism drives the die upper plate to move downwards, so that the die upper plate is covered on the heating assembly, and the heating assembly is started, so that two groups of raw materials are rapidly formed. Drawings FIG. 1 is a schematic diagram of an explosive structure of the present utility model; FIG. 2 is a schematic diagram of an axial structure of the present utility model. The drawing comprises a die upper plat