CN210172381U - Cooling and lubricating system on aluminum substrate die - Google Patents

Abstract

The utility model relates to a mould cooling technology field specifically discloses a cooling and lubrication system on aluminium base board mould, cooling and lubrication system includes the air supply, the air supply passes through first trachea and vacuum generator's first interface connection, vacuum generator's second interface is connected with the container of loading cooling and lubrication liquid through the second trachea, set up on the mould and towards a plurality of shower nozzle of mould die joint, be connected with the third trachea between vacuum generator's third interface and every meet the head, first interface is for pressing the air inlet, the second interface is jet-propelled head, the third interface is the vacuum suction inlet, coupling through vacuum generator, after opening the air supply, the cooling and lubrication liquid that is in the container will be taken out, and along with the third trachea by jet-propelled head blowout, realize the cooling and lubrication function to the mould die joint.

Description

Cooling and lubricating system on aluminum substrate die

Technical Field

The utility model relates to a mould cooling technology field, more specifically say, relate to a cooling and lubrication system on aluminium base board mould.

Background

Aluminium base board mould is essential for PCB trade shaping technology, and the aluminium base board mould that dashes all does not have self-cooling lubricating system now, and most producers have got to spray alcohol with the manual work, has so not only reduced work efficiency, can not accomplish cooling and lubrication in time in addition yet.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a system capable of automatically cooling and lubricating an aluminum base plate die.

In order to solve the technical problem, the utility model discloses a following technical scheme can solve:

the utility model provides a cooling and lubrication system on aluminium base board mould, cooling and lubrication system includes the air supply, the air supply passes through first trachea and vacuum generator's first interface connection, vacuum generator's second interface is connected with the container of loading cooling and lubrication liquid through the second trachea, set up on the mould and towards a plurality of shower nozzle of mould die joint, vacuum generator's third interface and every are met and are connected with the third trachea between the head, first interface is for pressing the air inlet, the second interface is jet-propelled head, the third interface is the vacuum suction inlet.

Through the above scheme, when the die joint of mould is cooled and lubricated to needs, open the air supply, high-pressure gas will be spouted to the die joint by the jet after through vacuum generator again, vacuum suction will be produced to this in-process vacuum generator's second interface, take out the cooling and lubricating liquid in the container through the second trachea, and spout by the jet through the third trachea, realize the cooling and lubricating to the mould die joint, the self-cooling lubrication effect to the mould has been realized from this, avoided the manual work to take the jet to carry out the operation of cooling and lubricating to the mould, reduce the manual work.

Preferably, the container contains an alcohol solution.

Through above-mentioned scheme, the alcohol solution has good volatility, spouts can not form the accumulation of liquid after on the mould die joint, plays good cooling lubrication effect simultaneously.

Preferably, the first air pipe is provided with a manual valve for controlling the opening and closing of the first air pipe.

Through above-mentioned scheme, when need not use cooling system, close manual valve to cut off the intercommunication between first trachea and the vacuum generator, prevent to appear when the mistake starts the air supply, cooling system opens.

Preferably, the first air pipe is also provided with an electromagnetic valve for controlling the opening and closing of the first air pipe.

Preferably, the mold is further provided with a counter for recording the opening and closing times of the mold, a signal of the counter is fed back to the controller, the electromagnetic valve is controlled to be opened when the controller receives a preset trigger number, and the electromagnetic valve is controlled to be closed when the controller receives a non-trigger number.

Through the scheme, the cooling system is automatically opened or closed through the electromagnetic valve, and meanwhile, the counter and the controller are matched to realize the function of automatically controlling the cooling and lubricating system to work.

The utility model discloses owing to adopted above technical scheme, have apparent technological effect: the cooling and lubricating system arranged on the aluminum base plate die can automatically cool and lubricate the parting surface part of the die, replaces the manual cooling and lubricating mode for the die in the prior art, and liberates the labor cost.

Drawings

Fig. 1 is an overall schematic view of a cooling and lubricating system according to a first embodiment;

FIG. 2 is a schematic view of the cooling and lubricating system of the second embodiment;

fig. 3 is an overall schematic view of the cooling and lubricating system of the third embodiment.

In the figure: 1. a gas source; 11. a first air pipe; 2. a vacuum generator; 21. a first interface; 22. a third interface; 23. a second interface; 3. a container; 31. a second air pipe; 4. a third air pipe; 41. a gas showerhead; 5. a mold; 6. a manual valve; 7. an electromagnetic valve.

Detailed Description

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

Example 1

A cooling and lubricating system for aluminum base plate mold is shown in figure 1, wherein the mold 5 is a mold 5 for producing aluminum base plate. The cooling and lubricating system comprises an air source 1, a vacuum generator 2, a container 3 containing cooling and lubricating liquid and an air nozzle 41 aligned with the parting surface of the mold 5. Wherein the first interface 21 of the vacuum generator 2 is connected with the air source 1 through the first air pipe 11, the second interface 23 is connected with the container 3 through the second air pipe 31, and the third interface 22 is connected with the air nozzle 41 through the third air pipe 4. The first port 21 of the vacuum generator 2 is an air pressure inlet, the second port 23 is a gas nozzle 41, and the third port 22 is a vacuum inlet. Wherein the container 3 is filled with alcohol solution.

During operation, after the die sinking, when the split surface needs to be cooled and lubricated, the air source 1 is started, high-pressure gas passes through the vacuum generator 2 and then is sprayed to the split surface by the air nozzle 41, the second interface 23 of the vacuum generator 2 generates vacuum suction in the process, alcohol solution in the container 3 is pumped out through the second air pipe 31 and is sprayed out by the air nozzle 41 through the third air pipe 4, cooling and lubrication on the split surface of the die 5 are realized, and therefore the automatic cooling and lubricating effect on the die 5 is realized.

Example 2

A cooling and lubricating system for aluminum base plate mold is shown in figure 2, wherein the mold 5 is a mold 5 for producing aluminum base plate. The cooling and lubricating system comprises an air source 1, a vacuum generator 2, a container 3 containing cooling and lubricating liquid and an air nozzle 41 aligned with the parting surface of the mold 5. Wherein the first interface 21 of the vacuum generator 2 is connected with the air source 1 through the first air pipe 11, the second interface 23 is connected with the container 3 through the second air pipe 31, and the third interface 22 is connected with the air nozzle 41 through the third air pipe 4. The first port 21 of the vacuum generator 2 is an air pressure inlet, the second port 23 is a gas nozzle 41, and the third port 22 is a vacuum inlet. Wherein the container 3 is filled with alcohol solution.

In order to improve the working safety of the cooling and lubricating system and reduce the cooling liquid spraying in the condition of not using the die 5, a manual valve 6 is arranged on the first air pipe 11, and the on-off control of the first air pipe 11 is realized.

During operation, firstly, the manual valve 6 is opened, after the mold is opened, when the parting surface needs to be cooled and lubricated, the air source 1 is opened, high-pressure air passes through the vacuum generator 2 and then is sprayed to the parting surface by the air nozzle 41, the second interface 23 of the vacuum generator 2 generates vacuum suction force in the process, alcohol solution in the container 3 is pumped out through the second air pipe 31 and is sprayed out by the air nozzle 41 through the third air pipe 4, cooling and lubrication on the parting surface of the mold 5 are realized, and therefore the automatic cooling and lubrication effect on the mold 5 is realized.

Example 3

Compared with embodiment 2, the cooling and lubricating system on the aluminum substrate die is characterized in that an electromagnetic valve 7 for opening and closing the first air pipe 11 is additionally arranged on the first air pipe 11, a counter is arranged on the parting surface side wall of the die 5 for counting the opening and closing times, and the working control of the electromagnetic valve 7 is realized by combining with a controller, referring to the attached figure 3.

After the mold 5 is operated, the counter starts counting. When the number of times reaches, the magnetic valve opens the compressed air to blow into the vacuum generator 2 and eject through the air nozzle 41, and at the same time, the second air pipe 31 absorbs the alcohol in the container 3 by the negative pressure formed by the suction force of the vacuum generator 2 and ejects the alcohol onto the parting surface of the mold 5 through the compressed air and the air nozzle 41. The effect of automatically controlling the work of the cooling and lubricating system is achieved.

Claims (5)

1. The utility model provides a cooling and lubricating system on aluminium base board mould, a serial communication port, cooling and lubricating system includes air supply (1), air supply (1) is connected with first interface (21) of vacuum generator (2) through first trachea (11), second interface (23) of vacuum generator (2) are connected with container (3) of loading cooling and lubricating liquid through second trachea (31), set up on mould (5) and towards a plurality of shower nozzle of mould (5) die joint, be connected with third trachea (4) between third interface (22) and every shower nozzle of vacuum generator (2), first interface (21) are for calming anger the mouth, second interface (23) are jet-propelled head (41), third interface (22) are the vacuum suction inlet.

2. The cooling and lubricating system for the aluminum substrate die as claimed in claim 1, wherein the container (3) contains alcohol solution.

3. The cooling and lubricating system for the aluminum substrate die as claimed in claim 1, wherein the first air pipe (11) is provided with a manual valve (6) for controlling the opening and closing of the first air pipe.

4. The cooling and lubricating system for the aluminum substrate die as claimed in claim 3, wherein the first air pipe (11) is further provided with an electromagnetic valve (7) for controlling the opening and closing of the first air pipe.

5. The cooling and lubricating system for the aluminum substrate mold according to claim 4, wherein a counter for recording the opening and closing times of the mold (5) is further disposed on the mold (5), a signal of the counter is fed back to the controller, the solenoid valve (7) is controlled to be opened when the controller receives a preset trigger number, and the solenoid valve (7) is controlled to be closed when the controller receives a non-trigger number.

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