CN208006200U - A kind of highly efficient cooling device of injection mold - Google Patents

Abstract

A kind of highly efficient cooling device of injection mold, including upper cover, lower cover, gland, inner cavity, touching mechanism, cooling mechanism A, cooling mechanism B and control mechanism, the upper cover bottom is connected with lower cover, gland is installed on upper lid, gland both sides are equipped with interconnecting piece A, inner cavity is installed on the lower lid, inner cavity both sides are equipped with interconnecting piece B, the interconnecting piece A is connected to interconnecting piece B by touching mechanism, the intracavity bottom is equipped with cooling mechanism A, interior intracavitary is equipped with cooling mechanism B, cooling mechanism A, cooling mechanism B and touching mechanism；The highly efficient cooling device of the injection mold controls the startup of cooling mechanism A and cooling mechanism B by control mechanism, quasi- temperature fall time can effectively be taken, start cooling mechanism A and cooling mechanism B immediately when mold needs cooling, and pass through the effect of double-radiation function mechanism, effective temperature-reducing is carried out to mold, cooling-down effect is apparent.

Description

A kind of highly efficient cooling device of injection mold

Technical field

The utility model is related to cooling device, especially a kind of highly efficient cooling device of injection mold.

Background technology

Mold be produce various industrial products important process equipment, with plastic mould design industry rapid development with And plasthetics aviation, boat too, the popularization and application of electronics, machinery, the industrial departments such as propagation and automobile, product wants mold Ask higher and higher.Current mold will produce larger heat in process, need to grow before carrying out next task Long cooling time, so people are made that equipment for cooling die to cool down mold.

Equipment for cooling die now needs the temperature of artificial judgment mold to start the cooling device, and use is more numb Tired, heat sink startup time point is all different, and can not start cooling device in time when needing cooling and cool down to mold, And cooling-down effect is poor, can not carry out effective temperature-reducing to mold.

Utility model content

The technical problem to be solved by the utility model is to provide a kind of highly efficient cooling devices of injection mold, pass through Control mechanism controls the startup of cooling mechanism A and cooling mechanism B, can effectively take quasi- temperature fall time, need to cool down in mold When start cooling mechanism A and cooling mechanism B immediately, and by the effect of double-radiation function mechanism, mold is effectively dropped Temperature, cooling-down effect are apparent.

In order to solve the above technical problems, technical solution used by the utility model is：A kind of injection mold it is efficient cold But device, including upper cover, lower cover, gland, inner cavity, touching mechanism, cooling mechanism A, cooling mechanism B and control mechanism, it is described Upper cover bottom is connected with lower cover, and gland is equipped on upper lid, and gland both sides are equipped with interconnecting piece A, inner cavity is equipped on the lower lid, Inner cavity both sides are equipped with interconnecting piece B, the interconnecting piece A and are connected to interconnecting piece B by touching mechanism, and the intracavity bottom is equipped with scattered Heat engine structure A, interior intracavitary are equipped with cooling mechanism B, cooling mechanism A, cooling mechanism B and touching mechanism.

Preferably, the cooling mechanism A includes filter, flabellum, shaft coupling and motor, the filter is mounted on interior The underface of chamber, filter are arranged right below flabellum, and flabellum is connected with one end of shaft coupling, the other end of shaft coupling by strut It is connected on the motor shaft of motor.

Preferably, the cooling mechanism B includes thermal component, temperature sensor, injection molding column and injection molding cavity, the note It moulds column and is mounted on interior intracavitary, injection molding column forms injection molding cavity with inner cavity, and the thermal component is wrapped on surface of internal cavity, interior cavity outer wall On temperature sensor is installed.

Preferably, the thermal component includes two water pumps, two main pipes and secondary conduits, described two water pumps Output end is connected to the both ends of wherein one main pipe, wherein one end of secondary conduits is connected on a main pipe, secondary conduits The other end is connected on an other main pipe, and in addition the both ends of a main pipe are connected to the input terminal of two water pumps.

Preferably, the touching mechanism includes briquetting A, briquetting B, spring and touching component, the one end briquetting A peace On interconnecting piece A, the other end of briquetting A contact connectio has on briquetting B, one end of the bottoms briquetting B connecting spring, spring it is another One end is connected with touching component.

Preferably, the touching component includes gasket, shaft, pressing plate and contact-making switch, the gasket rotation connection In shaft, shaft is installed on the side of pressing plate, and contact-making switch is equipped on pressing plate, and contact-making switch is located at the underface of gasket.

Preferably, the control mechanism includes controller, data comparison device, reservoir, signal adapter and reception Device, the controller are connected to data comparison device by conducting wire, and data comparison device is connected to reservoir by conducting wire, and reservoir is logical It crosses conducting wire and is connected to signal adapter, signal adapter is connected to receiver by conducting wire.

Preferably, the controller is connected to water pump and motor.

Preferably, the receiver is connected to contact-making switch and temperature sensor.

The utility model provides a kind of highly efficient cooling device of injection mold, and cooling mechanism is controlled by control mechanism The startup of A and cooling mechanism B can effectively take quasi- temperature fall time, start cooling mechanism A immediately when mold needs cooling And cooling mechanism B, and by the effect of double-radiation function mechanism, effective temperature-reducing is carried out to mold, cooling-down effect is apparent.

Description of the drawings

Fig. 1 is the structural schematic diagram of the highly efficient cooling device of the utility model injection mold；

Fig. 2 is the partial enlarged view A of Fig. 1；

Fig. 3 is the structural schematic diagram of the inner cavity of the highly efficient cooling device of the utility model injection mold；

Fig. 4 is the vertical view of the inner cavity of the highly efficient cooling device of the utility model injection mold.

Specific implementation mode

As shown in Figs 1-4, a kind of highly efficient cooling device of injection mold, including upper cover 1, lower cover 2, gland 3, inner cavity 6, touch Mechanism, cooling mechanism A, cooling mechanism B and control mechanism are touched, 1 bottom of the upper cover is connected with lower cover 2, is equipped in upper cover 1 Gland 3,3 both sides of gland are equipped with interconnecting piece A4, and inner cavity 6 is equipped on the lower cover 2, and 6 both sides of inner cavity are described equipped with interconnecting piece B5 Interconnecting piece A4 is connected to interconnecting piece B5 by touching mechanism, and 6 bottom of the inner cavity is equipped with cooling mechanism A, is equipped in inner cavity 6 Cooling mechanism B, cooling mechanism A, cooling mechanism B and touching mechanism.

The cooling mechanism A includes filter 7, flabellum 8, shaft coupling 9 and motor 10, and the filter 7 is mounted on inner cavity 6 Underface, filter 7 is arranged right below flabellum 8, and flabellum 8 is connected with one end of shaft coupling 9 by strut, shaft coupling 9 it is another One end is connected on the motor shaft of motor 10.

The cooling mechanism B includes thermal component, temperature sensor 23, injection molding column 27 and injection molding cavity 28, the injection molding Column 27 is mounted in inner cavity 6, and injection molding column 27 forms injection molding cavity 28 with inner cavity 6, and the thermal component is wrapped on 6 surface of inner cavity, Temperature sensor 23 is installed on 6 outer wall of inner cavity.

The thermal component includes two water pumps, 24, two main pipes 25 and secondary conduits 26, described two water pumps 24 Output end is connected to the both ends of wherein one main pipe 25, wherein one end of secondary conduits 26 is connected on a main pipe 25, it is secondary The other end of conduit 26 is connected on an other main pipe 25, and in addition the both ends of a main pipe 25 are connected to two water The input terminal of pump 24.

The touching mechanism includes briquetting A16, briquetting B17, spring 18 and touching component, the one end briquetting A16 peace On interconnecting piece A4, the other end contact connectio of briquetting A16 has on briquetting B17, and the one of the bottoms briquetting B17 connecting spring 18 End, the other end of spring 18 are connected with touching component.

The touching component includes gasket 19, shaft 20, pressing plate 21 and contact-making switch 22, and the gasket 19 is rotatablely connected In shaft 20, shaft 20 is installed on the side of pressing plate 21, and contact-making switch 22 is equipped on pressing plate 21, and contact-making switch 22 is located at gasket 19 underface.

The control mechanism includes controller 11, data comparison device 12, reservoir 13, signal adapter 14 and receiver 15, the controller 11 is connected to data comparison device 12 by conducting wire, and data comparison device 12 is connected to reservoir 13 by conducting wire, Reservoir 13 is connected to signal adapter 14 by conducting wire, and signal adapter 14 is connected to receiver 15 by conducting wire.

The controller 11 is connected to water pump 24 and motor 10.

The receiver 15 is connected to contact-making switch 22 and temperature sensor 23.

Specific implementation process is as follows：When in use, upper cover 1 is directed at lower cover 2 first, the gland 3 of upper cover 1 is directed at lower cover 2 inner cavity 6, moves down, and at this moment the interconnecting piece A4 on gland 3 is in the interconnecting piece B5 connections on inner cavity 6, at this moment on interconnecting piece A4 Briquetting A16 will compress the briquetting B17 on interconnecting piece B5, can be started by pressure by the springs 18 of the at this moment bottoms briquetting B17 It shrinks, the gasket 19 of 18 bottom of spring is rotated for axle center to 21 direction of pressing plate with shaft 20, when gasket 19 rotates to certain journey When spending, gasket 19 can touch the contact-making switch 22 on pressing plate 21, and contact-making switch 22 receives activation signal, can be by the contact Signal is led to by the way that in wire transmission to receiver 15, the activation signal is transferred in signal adapter 14 by receiver 15 The activation signal is converted into electric signal and is transferred in reservoir 13 by the effect for crossing signal adapter 14, at this moment, reservoir 13 By the electric signal preserved in advance and out of the transmission of signal adapter 14 electric signal simultaneous transmission to data comparison device 12 out, The electric signal preserved in advance and the electric signal come out from the transmission of signal adapter 14 are compared by data comparison device 12, Compare it is identical after, enabling signal is transferred in controller 11, by controller 11 control motor 10 start, drive motor shaft Rotation, drive the flabellum 8 being mounted on motor shaft to rotate by the rotation of the motor shaft of motor 10, so to inner cavity 6 into Row effectively heat dissipation, while controller 11 can also start water pump 24, it is leading to wherein one to send out water by the output end of water pump 24 On pipe 25, and water is passed to by main pipe 25 in the secondary conduits 26 being wrapped on inner cavity 6, then is transferred in addition from secondary conduits 26 One is actively managed, and is finally delivered in the input terminal of water pump 24, by the effect of double-radiation function mechanism, is effectively dropped to mold Temperature, cooling-down effect is apparent, and when temperature sensor 23 be connected to temperature signal it is excessively high when, which will be transferred to and be connect It receives on device 15, the temperature signal is transferred in signal adapter 14 by receiver 15, by the effect of signal adapter 14, The temperature signal is converted into electric signal and is transferred in reservoir 13, at this moment, the temperature upper limit that reservoir 13 will preserve in advance Electric signal and from signal adapter 14 transmission out electric signal simultaneous transmission to data comparison device 12 in, pass through data pair It is compared to the electric signal of temperature upper limit that preserves in advance and from the electric signal of the transmission of signal adapter 14 out than device 12, When from the electric signal of the temperature upper limit preserved in advance is higher than from the electric signal of the transmission of signal adapter 14 out, data comparison device 12 will send out in enabling signal to controller 11, and motor 10 and water pump 24 is respectively started by controller 11, passes through control The startup of mechanism controls cooling mechanism A and cooling mechanism B processed can effectively take quasi- temperature fall time.

It controls the startup of cooling mechanism A and cooling mechanism B by control mechanism, can effectively take quasi- temperature fall time, Start cooling mechanism A and cooling mechanism B immediately when mold needs cooling, and by the effect of double-radiation function mechanism, it is right Mold carries out effective temperature-reducing, and cooling-down effect is apparent.

The above embodiments are only the optimal technical scheme of the utility model, and are not construed as the limit for the utility model System, the technical solution that the scope of protection of the utility model should be recorded with claim include the technical solution of claim record The equivalents of middle technical characteristic are protection domain.Equivalent replacement i.e. within this range is improved, also in the utility model Protection domain within.

Claims (9)

1. a kind of highly efficient cooling device of injection mold, it is characterised in that：Including upper cover, lower cover, gland, inner cavity, touching mechanism, Cooling mechanism A, cooling mechanism B and control mechanism, the upper cover bottom are connected with lower cover, gland, gland are equipped on upper lid Both sides are equipped with interconnecting piece A, are equipped with inner cavity on the lower lid, inner cavity both sides pass through touching equipped with interconnecting piece B, the interconnecting piece A Mechanism is connected to interconnecting piece B, and the intracavity bottom is equipped with cooling mechanism A, and interior intracavitary is equipped with cooling mechanism B and touching machine Structure.

2. the highly efficient cooling device of injection mold according to claim 1, it is characterised in that：The cooling mechanism A includes Filter, flabellum, shaft coupling and motor, the filter are mounted on the underface of inner cavity, and filter is arranged right below flabellum, fan Leaf is connected with one end of shaft coupling by strut, and the other end of shaft coupling is connected on the motor shaft of motor.

3. the highly efficient cooling device of injection mold according to claim 1, it is characterised in that：The cooling mechanism B includes Thermal component, temperature sensor, injection molding column and injection molding cavity, the injection molding column are mounted on interior intracavitary, and injection molding column is formed with inner cavity Injection molding cavity, the thermal component are wrapped on surface of internal cavity, and temperature sensor is equipped on interior cavity outer wall.

4. the highly efficient cooling device of injection mold according to claim 3, it is characterised in that：The thermal component includes two A water pump, two main pipes and secondary conduits, the output end of described two water pumps are connected to the both ends of wherein one main pipe, In one end of secondary conduits is connected on a main pipe, the other end of secondary conduits is connected on an other main pipe, in addition one The both ends of bar main pipe are connected to the input terminal of two water pumps.

5. the highly efficient cooling device of injection mold according to claim 1, it is characterised in that：The touching mechanism includes pressure Block A, briquetting B, spring and touching component, the one end the briquetting A are mounted on interconnecting piece A, and the other end of briquetting A connects Have on briquetting B, one end of the bottoms briquetting B connecting spring, the other end of spring is connected with touching component.

6. the highly efficient cooling device of injection mold according to claim 5, it is characterised in that：The touching component includes pad Piece, shaft, pressing plate and contact-making switch, the gasket are rotationally connected with shaft, and shaft is installed on the side of pressing plate, pacifies on pressing plate Equipped with contact-making switch, contact-making switch is located at the underface of gasket.

7. the highly efficient cooling device of injection mold according to claim 1, it is characterised in that：The control mechanism includes control Device, data comparison device, reservoir, signal adapter and receiver processed, the controller are connected to data comparison by conducting wire Device, data comparison device are connected to reservoir by conducting wire, and reservoir is connected to signal adapter by conducting wire, and signal adapter is logical It crosses conducting wire and is connected to receiver.

8. the highly efficient cooling device of injection mold according to claim 7, it is characterised in that：The controller is separately connected In water pump and motor.

9. the highly efficient cooling device of injection mold according to claim 7, it is characterised in that：The receiver is separately connected In contact-making switch and temperature sensor.