CN218697661U - Cooling system of optical glass grinding machine - Google Patents

Abstract

The utility model relates to an optical glass processing equipment technical field, concretely relates to optical glass grinding machine cooling system. It comprises a plurality of grinding machines and cooling mechanisms which are arranged side by side. The cooling mechanism comprises a cooling box and a diversion trench. The cooling box is arranged on the side face of the grinding machine on the outermost side, a liquid supply pipe is arranged on the cooling box, and a liquid outlet of the liquid supply pipe is connected with the grinding machine. The diversion trench is arranged on the side surface opposite to the operation platform of the grinding machine. The liquid outlet end of the cooling liquid return pipe of each grinding machine is positioned in the diversion trench. The liquid discharge end of the diversion trench is connected with the cooling box. The cooling liquid of a plurality of grinding machines is recycled into a cooling box together by arranging a diversion trench; the cooling liquid can volatilize heat in the process of flowing back to the cooling box in the diversion trench, so that heat dissipation is facilitated; and after the cooling liquid is filtered and cooled by the cooling box, the cooling liquid is respectively provided for each grinding machine. The mode of intensively providing the cooling liquid is more convenient for operators to carry out uniform slag removal treatment on the cooling liquid.

Description

Cooling system of optical glass grinding machine

Technical Field

The utility model relates to an optical glass processing equipment technical field, concretely relates to optical glass grinding machine cooling system.

Background

In recent years, with the rapid development of advanced technologies such as photoelectronic technology, atomic energy technology, aerospace technology, optical communication technology, infrared technology, laser technology and the like, the application of optical glass is becoming more widespread. As a typical brittle material, optical glass has characteristics of high hardness, large brittleness, low fracture toughness, poor workability, and the like, and thus, a conventional processing method such as grinding, lapping, polishing, and the like is generally used.

Existing grinding machines are usually equipped with a separate cooling system for the circulation of the cooling fluid. When a plurality of grinding machines are used together, if each grinding machine is provided with one cooling system, more cooling liquid needs to be used, and slag removal needs to be carried out on each cooling system. Large occupied area and high cost. Therefore, the cooling system is optimized when a plurality of grinding machines are used together.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the cooling system of the optical glass grinding machine solves the technical problems that when a plurality of grinding machines are used together, a plurality of sets of cooling systems need to be arranged, more cooling liquid needs to be prepared, and slag removal needs to be carried out on each set of cooling system.

In order to solve the technical problem, the utility model discloses a technical scheme be: a cooling system of an optical glass grinding machine comprises a plurality of grinding machines and cooling mechanisms which are arranged side by side;

the cooling mechanism comprises a cooling box and a diversion trench; the cooling box is arranged on the side face of the grinding machine on the outermost side, a liquid supply pipe is arranged on the cooling box, and a liquid outlet of the liquid supply pipe is connected with the grinding machine;

the diversion trench is arranged on the side surface opposite to the operation platform of the grinding machine; the liquid outlet end of the cooling liquid return pipe of each grinding machine is positioned in the diversion trench; and the liquid discharge end of the flow guide groove is connected with the cooling box.

Furthermore, a filter tank and a cooling tank are arranged in the cooling box; two groups of filter tanks are arranged in parallel; the liquid discharge end of the diversion trench is positioned above the filter trench; the filter tank is communicated with the cooling tank; and an oil pump is arranged on the upper surface of the cooling tank and used for pumping the cooling liquid in the cooling tank into the grinding machine along a liquid supply pipe.

Furthermore, a filter screen is arranged on the side surface communicated with the inside of the filter tank, and the aperture of a sieve hole of the filter screen is 0.1-0.5 mm.

Furthermore, a first dust screen is arranged at an opening part of the filter tank, and the aperture of the first dust screen is 1-5 mm.

Furthermore, the diversion trench is a trench body with an upward opening, and an included angle is formed between the diversion trench and the ground and is 5 to 10 degrees.

Furthermore, a second dust screen is arranged at an opening part of the diversion trench, and the aperture of the second dust screen is 1-5 mm.

The beneficial effects of the utility model reside in that: compared with the cooling system of the original optical glass grinding machine, the cooling system of the optical glass grinding machine provided by the utility model has the advantages that through the arrangement of the diversion grooves, the cooling liquid of a plurality of grinding machines is recycled into the cooling box together; the cooling liquid can volatilize heat in the process of flowing back to the cooling box in the diversion trench, so that heat dissipation is facilitated; and after the cooling liquid is filtered and cooled by the cooling box, the cooling liquid is respectively provided for each grinding machine. The mode of intensively providing the cooling liquid is more convenient for operators to carry out uniform slag removal treatment on the cooling liquid.

Drawings

FIG. 1 is a schematic structural diagram of an original optical glass grinding machine and a cooling system thereof;

FIG. 2 is a schematic structural view of a cooling system of an optical glass grinding machine according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of the cooling system of the optical glass grinding machine according to the embodiment of the present invention after the first dust-proof net and the second dust-proof net are removed.

Description of reference numerals:

1. a grinding machine; 2. a cooling tank; 21. a filter tank; 22. a cooling tank; 23. a filter screen;

24. a first dust screen; 3. a diversion trench; 4. a liquid supply tube; 5. an oil pump; 6. and a second dust screen.

Detailed Description

In order to explain the technical contents, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 2-3, the technical solution adopted by the present invention is: a cooling system of an optical glass grinding machine comprises a plurality of grinding machines 1 and a cooling mechanism which are arranged side by side;

the cooling mechanism comprises a cooling box 2 and a diversion trench 3; the cooling box 2 is arranged on the side face of the grinding machine 1 on the outermost side, a liquid supply pipe 4 is arranged on the cooling box 2, and a liquid outlet of the liquid supply pipe 4 is connected with the grinding machine 1;

the diversion trench 3 is arranged on the side surface opposite to the operation platform of the grinding machine 1; the liquid outlet end of the cooling liquid return pipe of each grinding machine 1 is positioned in the diversion trench 3; and the liquid discharge end of the flow guide groove 3 is connected with the cooling box 2.

From the above description, the beneficial effects of the utility model reside in that: the cooling liquid of a plurality of grinding machines is recycled into a cooling box 2 together by arranging a diversion trench 3; in the process that the cooling liquid flows back to the cooling box 2 in the diversion trench 3, heat can be volatilized, and heat dissipation is facilitated; the cooling liquid is filtered and cooled by the cooling box 2, and then the cooling liquid is respectively provided for each grinding machine 1. The mode of intensively providing the cooling liquid is more convenient for operators to carry out uniform slag removal treatment on the cooling liquid.

More preferably, a filtering tank 21 and a cooling tank 22 are arranged inside the cooling tank 2; two groups of filter tanks 21 are arranged in parallel; the liquid discharge end of the diversion trench 3 is positioned above the filter tank 21; the filter tank 21 is communicated with the cooling tank 22; the upper surface of the cooling tank 22 is provided with an oil pump 5, and the oil pump 5 is used for pumping the cooling liquid in the cooling tank 2 into the grinding machine 1 along the liquid supply pipe 4.

As can be seen from the above description, the two sets of filter tanks 21 are provided to fully filter out impurities in the coolant, and then the impurities are precipitated at the bottom of the filter tanks 21, so as to facilitate subsequent uniform slag removal; the filtered coolant enters the cooling tank 22, passes through the oil pump 5, and flows into the grinding machine 1 through the liquid supply pipe 4.

More preferably, a filter screen 23 is arranged on a side surface communicated with the inside of the filter tank 21, and the aperture of a sieve hole of the filter screen 23 is 0.1 to 0.5mm.

As is apparent from the above description, the above arrangement ensures the circulation between the filter tank 21 and the cooling tank 22, and also ensures that the coolant flowing back from the grinding machine 1 into the filter tank 21 is filtered and that the coolant entering the cooling tank 22 does not contain other impurities.

More preferably, a first dust screen 24 is arranged at the opening part of the filter tank 21, and the aperture of the first dust screen 24 is 1 to 5mm.

As is apparent from the above description, by providing the first dust-proof screen 24, it is possible to prevent foreign objects from falling into the filter tank 21 without affecting the heat of volatilization of the coolant in the filter tank 21.

More preferably, the diversion trench 3 is a trench body with an upward opening, and an included angle is formed between the diversion trench 3 and the ground and ranges from 5 degrees to 10 degrees.

As can be seen from the above description, with the above arrangement, the cooling liquid flowing back from the grinding machine 1 to the guide groove 3 can flow back to the cooling box 2 more smoothly without external force.

More preferably, a second dust screen 6 is arranged at an opening of the diversion trench 3, and the aperture of the second dust screen 6 is 1 to 5mm.

As can be seen from the above description, by providing the second dust screen 6, it is possible to prevent foreign objects from falling into the diversion trench 3 without affecting the heat of volatilization of the coolant in the diversion trench 3.

Example one

The utility model discloses use the cooling system at the grinding unit when optical glass carries out the grinding operation.

Referring to fig. 2-3, the technical solution adopted by the present invention is: a cooling system of an optical glass grinding machine comprises a plurality of grinding machines 1 and a cooling mechanism which are arranged side by side;

the cooling mechanism comprises a cooling box 2 and a diversion trench 3; the cooling box 2 is arranged on the side face of the grinding machine 1 on the outermost side, a liquid supply pipe 4 is arranged on the cooling box 2, and a liquid outlet of the liquid supply pipe 4 is connected with the grinding machine 1; a filter tank 21 and a cooling tank 22 are arranged in the cooling tank 2; two groups of filter tanks 21 are arranged in parallel; the filter tank 21 is communicated with the cooling tank 22; a filter screen 23 is arranged on the communicated side surface in the filter tank 21, and the aperture of a sieve pore of the filter screen 23 is 0.1 to 0.5mm; a first dustproof net 24 is arranged at the opening part of the filter tank 21, and the aperture of the first dustproof net 24 is 1-5 mm; the upper surface of the cooling tank 22 is provided with an oil pump 5, and the oil pump 5 is used for pumping the cooling liquid in the cooling tank 2 to the grinding machine 1 along the liquid supply pipe 4;

the diversion trench 3 is arranged on the side surface opposite to the operation platform of the grinding machine 1; the liquid outlet end of the cooling liquid return pipe of each grinding machine 1 is positioned in the diversion trench 3; the liquid discharge end of the diversion trench 3 is positioned above the filter tank 21; the diversion trench 3 is a trench body with an upward opening, and an included angle is formed between the diversion trench 3 and the ground and ranges from 15 degrees to 30 degrees; the opening part of the diversion trench 3 is provided with a second dustproof net 6, and the aperture of the second dustproof net 6 is 1-5 mm.

The utility model discloses a theory of operation: when the grinding machine 1 works, the cooling liquid treated by the cooling box 2 is pumped into the grinding machine 1 which works correspondingly through the liquid supply pipe 4 under the action of the oil pump 5; the cooling liquid sprays the workpiece and then enters the diversion trench 3 along the return pipe; the cooling liquid containing impurities enters the filter tank 21 along the diversion trench 3, and after being filtered by the filter screen 23, the impurities are precipitated at the bottom of the filter tank 21 and cannot enter the cooling tank 22; the treated cooling liquid is pumped into the grinding machine 1 which works correspondingly through the liquid supply pipe 4 to continue working under the action of the oil pump 5.

To sum up, the beneficial effects of the utility model reside in that: the utility model provides a cooling system of an optical glass grinding machine, which recycles cooling liquid of a plurality of grinding machines into a cooling box through arranging a diversion trench; the cooling liquid can volatilize heat in the process of flowing back to the cooling box in the diversion trench, so that heat dissipation is facilitated; and after the cooling liquid is filtered and cooled by the cooling box, the cooling liquid is respectively provided for each grinding machine. The mode of intensively providing the cooling liquid is more convenient for operators to carry out uniform slag removal treatment on the cooling liquid.

In addition, through setting up first dust screen and second dust screen, can effectively avoid the foreign matter to drop to guiding gutter and filter-tank in, avoid causing the pollution to the coolant liquid.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (6)

1. A cooling system of an optical glass grinding machine comprises a plurality of grinding machines and cooling mechanisms which are arranged side by side; the cooling mechanism is characterized by comprising a cooling box and a diversion trench; the cooling box is arranged on the side face of the grinding machine on the outermost side, a liquid supply pipe is arranged on the cooling box, and a liquid outlet of the liquid supply pipe is connected with the grinding machine;

the diversion trench is arranged on the side surface opposite to the operation platform of the grinding machine; the liquid outlet end of the cooling liquid return pipe of each grinding machine is positioned in the diversion trench; and the liquid discharge end of the flow guide groove is connected with the cooling box.

2. The optical glass grinding machine cooling system according to claim 1, wherein a filter tank and a cooling tank are provided inside the cooling tank; two groups of filter tanks are arranged in parallel; the liquid discharge end of the diversion trench is positioned above the filter trench; the filter tank is communicated with the cooling tank; and an oil pump is arranged on the upper surface of the cooling tank and used for pumping the cooling liquid in the cooling tank into the grinding machine along a liquid supply pipe.

3. The cooling system of the optical glass grinding machine as claimed in claim 2, wherein a filter screen is arranged on the side surface communicated with the inside of the filter tank, and the aperture of the screen hole of the filter screen is 0.1 to 0.5mm.

4. The cooling system of the optical glass grinding machine as claimed in claim 2, wherein a first dust screen is arranged at the opening part of the filter tank, and the aperture of the first dust screen is 1 to 5mm.

5. The optical glass grinding machine cooling system as defined in claim 1, wherein the diversion trench is a trench body with an upward opening, and an included angle is formed between the diversion trench and the ground, and the included angle is 5 to 10 degrees.

6. The cooling system of an optical glass grinding machine according to claim 1, wherein a second dust screen is arranged at an opening part of the diversion trench, and the aperture of the second dust screen is 1-5 mm.

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