CN211074369U - Oil-cooled mold temperature controller - Google Patents

Abstract

The utility model relates to an oil cooling formula mould temperature machine, including a first heating element, a second heating element and a control box, first heating element includes a first heater, second heating element includes a second heater, first heater with the second heater sets up one side of control box to be the diagonal angle setting, the control box control first heating element with second heating element gives the mould heating. The utility model relates to an oil-cooled mould temperature machine has that area is little, the outside pipeline of being convenient for arrange, advantages such as convenient customer's use.

Description

Oil-cooled mold temperature controller

Technical Field

The utility model relates to a mould temperature machine technical field, especially an oil cooling type mould temperature machine.

Background

The mold temperature controller consists of water tank, heating and cooling system, power transmission system, liquid level control system, temperature sensor, sprue and other parts. Typically, a pump in the power transmission system moves the thermal fluid from a tank containing built-in heaters and coolers to the mold and from the mold back to the tank. The temperature sensor measures the temperature of the thermal fluid and transmits data to the controller of the control section. The controller adjusts the temperature of the thermal fluid, thereby indirectly adjusting the temperature of the die. If the temperature of the mold exceeds the set value of the controller during the production of the mold temperature controller, the controller opens the electromagnetic valve to connect the water inlet pipe until the temperature of the hot liquid, namely the temperature of the mold returns to the set value. If the mold temperature is below the set point, the controller turns on the heater.

The common mold temperature machine is formed by assembling a plurality of independent parts in a dispersing way, has large floor area and more pipeline connections, and is inconvenient for customers to use.

Therefore, an oil-cooled mold temperature controller is developed to solve the above disadvantages.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough of prior art and providing an oil cooling formula mold temperature machine, it is little to have area, the outside pipeline of being convenient for arrange, make things convenient for advantages such as customer's use.

In order to achieve the above purpose, the utility model adopts the technical scheme that: an oil-cooled mold temperature controller comprises a first heating assembly, a second heating assembly and a control box, wherein the first heating assembly comprises a first heater, the second heating assembly comprises a second heater, the first heater and the second heater are arranged on one side of the control box and are arranged diagonally, and the control box controls the first heating assembly and the second heating assembly to heat a mold.

Preferably, the first heating element further comprises a first oil tank, a first oil inlet pipe, a first water pump body, a first water pump control box, a first water pump oil outlet pipe, a first heat exchanger and a first oil inlet pipe of the mold, the first oil tank is provided with the first oil inlet pipe, the first heater is provided with the first water pump oil inlet pipe, the first water pump body is provided with the first water pump oil outlet pipe, the first heat exchanger is sequentially connected with the first oil inlet pipe of the mold, the first water pump body is close to the first heater, the first water pump control box is arranged at one end of the first water pump body, and the first heat exchanger is fixed on the upper side of the first water pump control box through a box partition plate.

Preferably, a first four-in-one joint is arranged at one end, far away from the first heat exchanger, of the first oil inlet pipe of the die, and a first pressure gauge is arranged on the first oil inlet pipe.

Preferably, a first liquid level mirror is arranged at the top end of the first heater.

Preferably, the second heating assembly further comprises a second oil tank, a second oil inlet pipe, a second water pump body, a second water pump control box, a second water pump oil outlet pipe, a second heat exchanger and a mold second oil inlet pipe, the second oil tank, the second oil inlet pipe, the second heater, the second water pump oil inlet pipe, the second water pump body, the second water pump oil outlet pipe, the second heat exchanger and the mold second oil inlet pipe are sequentially connected, the second water pump body is far away from the second heater, the second water pump control box is arranged at one end of the second water pump body, and the bottom end of the second heat exchanger and the bottom end of the second heater are arranged in parallel.

Preferably, a second one-to-four joint is arranged at one end of the second oil inlet pipe of the die, which is far away from the second heat exchanger, and a second pressure gauge is arranged on the second oil inlet pipe.

Preferably, a second liquid level mirror is arranged at the top end of the second heater.

Preferably, the control box is provided with a first control plate and a second control plate in parallel.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage:

oil cold type mould temperature machine sets up first heating element, second heating element and control box in same box, and area is little, compares two independent mould temperature machines, sharing inlet tube, outlet pipe and blast pipe, a set of power cord of sharing, transformer and master switch, with the pipeline of two mould temperature machines and control integration to a box in, practice thrift the space, the outside pipeline of being convenient for arranges, makes things convenient for the customer to use.

Drawings

Fig. 1 is a schematic structural view of a first pipeline heating assembly of the oil-cooled mold temperature controller of the present invention;

fig. 2 is a schematic structural view of a second pipeline heating assembly of the oil-cooled mold temperature controller of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

In fig. 1 to 2, an oil-cooled mold temperature controller includes a first heating element, a second heating element and a control box 50, wherein the control box 50 is provided with a first control board 51 and a second control board 52 in parallel. The first heating assembly comprises a first heater 10. The second heating assembly includes a second heater 30. The first heater 10 and the second heater 30 are arranged on one side of the control box 50, the first heater 10 and the second heater 30 are arranged diagonally, the top end of the first heater 10 is provided with a first liquid level mirror 19, the top end of the second heater 30 is provided with a second liquid level mirror 39, and the control box 50 controls the first heating component and the second heating component to heat the mold.

The first heating assembly further comprises a first oil tank 5, a first oil inlet pipe 6, a first water pump oil inlet pipe 11, a first water pump body 12, a first water pump control box 13, a first water pump oil outlet pipe 14, a first heat exchanger 15 and a first mold oil inlet pipe 16. The first oil tank 5, the first oil inlet pipe 6, the first heater 10, the first water pump oil inlet pipe 11, the first water pump body 12, the first water pump oil outlet pipe 14, the first heat exchanger 15 and the first mold oil inlet pipe 16 are connected in sequence. The first water pump body 12 is disposed near the first heater 10, the first water pump control box 13 is disposed at one end of the first water pump body 12, and the first heat exchanger 15 is fixed on the upper side of the first water pump control box 13 through a box partition. A first four-in-one joint 17 is arranged at one end of the first oil inlet pipe 16 of the mold, which is far away from the first heat exchanger 15. The first oil inlet pipe 16 of the mold is provided with a first pressure gauge 18, the first pressure gauge 18 monitors the oil pressure of the first oil inlet pipe 16 of the mold, and a first one-to-four joint 17 is connected with a flow channel of the mold.

The second heating assembly further includes a second oil tank 7, a second oil inlet pipe 8, a second water pump oil inlet pipe 31, a second water pump body 32, a second water pump control box 33, a second water pump oil outlet pipe 34, a second heat exchanger 35, and a second mold oil inlet pipe 36. The second oil tank 7, the second oil inlet pipe 8, the second heater 30, the second water pump oil inlet pipe 31, the second water pump body 32, the second water pump oil outlet pipe 34, the second heat exchanger 35 and the second mold oil inlet pipe 36 are connected in sequence. The second water pump body 32 is disposed away from the second heater 30, the second water pump control box 33 is disposed at one end of the second water pump body 32, and the bottom end of the second heat exchanger 35 is disposed in parallel with the bottom end of the second heater 30. A second four-in-one joint 37 is arranged at one end of the second oil inlet pipe 36 of the mold, which is far away from the second heat exchanger 35. The second oil inlet pipe 36 is provided with a second pressure gauge 38, the second pressure gauge 38 monitors the oil pressure of the second oil inlet pipe 36, and the second one-to-four joint 37 is connected with a flow channel of the mold.

The first control board 51 controls the first water pump control box 13 to pump hot oil in the pipeline into the first heat exchanger 15 from bottom to top, and the first water inlet pipe 21 and the first water outlet pipe 22 enable cold water to pass through the first heat exchanger 15, so that cooled oil flows through the first oil inlet pipe 16 of the die. The second control board 52 controls the second water pump control box 33 to pump hot oil in the pipeline into the second heat exchanger 35 from bottom to top, and the second water inlet pipe 41 and the first water outlet pipe 42 enable cold water to pass through the second heat exchanger 35, so that cooled oil flows through the second oil inlet pipe 36 of the die.

The above is only a specific application example of the present invention, and does not constitute any limitation to the protection scope of the present invention. All the technical solutions formed by equivalent transformation or equivalent replacement fall within the protection scope of the present invention.

Claims (8)

1. An oil-cooled mould temperature machine which characterized in that: the heating device comprises a first heating assembly, a second heating assembly and a control box, wherein the first heating assembly comprises a first heater, the second heating assembly comprises a second heater, the first heater and the second heater are arranged on one side of the control box and are arranged diagonally, and the control box controls the first heating assembly and the second heating assembly to heat a mold.

2. The oil-cooled mold warmer of claim 1, wherein the first heating assembly further comprises a first oil tank, a first oil inlet pipe, a first water pump body, a first water pump control box, a first water pump outlet pipe, a first heat exchanger and a first mold oil inlet pipe, the first oil tank, the first oil inlet pipe, the first heater, the first water pump inlet pipe, the first water pump body, the first water pump outlet pipe, the first heat exchanger and the first mold oil inlet pipe are sequentially connected, the first water pump body is disposed near the first heater, the first water pump control box is disposed at one end of the first water pump body, and the first heat exchanger is fixed on the first water pump control box by a box partition.

3. The oil-cooled mold temperature controller as claimed in claim 2, wherein a first four-in-one joint is provided at an end of the first oil inlet pipe of the mold away from the first heat exchanger, and a first pressure gauge is provided on the first oil inlet pipe.

4. The oil-cooled mold temperature machine of claim 3, wherein a first level mirror is disposed at a top end of the first heater.

5. The oil-cooled mold warmer of claim 4, wherein the second heating assembly further comprises a second oil tank, a second oil inlet pipe, a second water pump body, a second water pump control box, a second water pump outlet pipe, a second heat exchanger and a mold second oil inlet pipe, the second oil tank, the second oil inlet pipe, the second heater, the second water pump inlet pipe, the second water pump body, the second water pump outlet pipe, the second heat exchanger and the mold second oil inlet pipe are sequentially connected, the second water pump body is disposed away from the second heater, the second water pump control box is disposed at one end of the second water pump body, and the bottom end of the second heat exchanger is disposed in parallel with the bottom end of the second heater.

6. The oil-cooled mold temperature controller as claimed in claim 5, wherein a second four-in-one connector is provided at an end of the second oil inlet pipe of the mold away from the second heat exchanger, and a second pressure gauge is provided on the second oil inlet pipe.

7. The oil-cooled mold temperature machine as claimed in claim 6, wherein a second liquid level mirror is provided at the top end of the second heater.

8. The oil-cooled mold temperature machine as claimed in claim 7, wherein the control box has a first control plate and a second control plate arranged in parallel.

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