CN213648199U - Circulating cooling box for cutting machine - Google Patents

Abstract

The utility model relates to a hard brittle material cutting technical field especially relates to a circulating cooler bin for cutting machine, the cooler bin includes box, first baffle and apron, first baffle sets up in the internal chamber of box, first baffle separates into manifold and suction chamber with the internal chamber of box, and has the first overflow mouth of intercommunication between manifold and the suction chamber, the drain hole has been seted up to the bottom in suction chamber, the apron is fixed in the top in suction chamber, has seted up the mounting hole on the apron. The setting of novel cooler bin in this scheme sprays back coolant liquid and can carry out impurity filtering at the box for the coolant liquid can directly carry out cyclic utilization, can reduce the wasting of resources, reduces use cost, can improve cooling efficiency simultaneously.

Description

Circulating cooling box for cutting machine

Technical Field

The utility model relates to a hard and brittle material cutting technical field especially relates to a circulating cooler bin for cutting machine.

Background

At present, diamond wire saws are mainly adopted to cut and cut brittle and hard materials such as stone, silicon crystals and the like. The diamond wire saw is arranged in a guide wheel groove of the cutting wheel train, the cutting wheel train rotates to drive the diamond wire to do linear motion, and the diamond wire saw is in high-speed back-and-forth friction contact with the brittle and hard material to be cut to form cutting force to finish cutting work. In the process of adopting the cutting mode, a large amount of heat can be generated due to frictional heat, so that the temperature of the diamond wire saw is too high, the service life of the wire saw is influenced, and the spraying and cooling are required to be continuously carried out in the cutting engineering.

In the existing cutting machine, one method is that cooling liquid is not collected, and after the cooling liquid is sprayed on the wire saw, the cooling liquid directly drops on the ground, so that the working environment is influenced; and the other is that a larger collecting box is arranged below the diamond wire saw, and the sprayed cooling liquid directly flows into the collecting box and then is independently subjected to subsequent treatment. And the waste material and the sweeps that the cutting produced also can be taken away in the heat when the coolant liquid is taken away, leads to the coolant liquid can't directly carry out cyclic utilization to lead to cooling work efficiency to reduce, the water waste, use cost is high.

Disclosure of Invention

Therefore, the circulating cooling box for the cutting machine is needed to be provided, and the problems that cooling liquid is inconvenient to collect and cannot be recycled in the cutting working process of the existing brittle and hard material cutting machine, so that the cooling working efficiency is reduced, water resources are wasted, and the use cost is increased are solved.

For realizing above-mentioned purpose, the inventor provides a circulating cooler bin for cutting machine, the cooler bin includes box, first baffle and apron, first baffle sets up in the box inner chamber, first baffle separates into manifold and suction chamber with the box inner chamber, and has the first overflow mouth of intercommunication between manifold and the suction chamber, the drain hole has been seted up to the bottom in suction chamber, the apron is fixed in the top in suction chamber, has seted up the mounting hole on the apron.

As a preferred structure of the utility model, first overflow mouth is seted up on first baffle or is located first baffle top.

As the utility model discloses a preferred structure, the cooler bin still includes the second baffle, the second baffle sets up in the box inner chamber, first baffle, second baffle separate into manifold, transition chamber and suction chamber with the box inner chamber in proper order, the first overflow mouth that has the intercommunication between manifold and the transition chamber, the second overflow mouth has between transition chamber and the suction chamber, and the horizontal position height of second overflow mouth is not less than the horizontal position height of first overflow mouth.

As a preferred structure of the utility model, the second overflow mouth is seted up on the second baffle or is located second baffle top.

As a preferred structure of the utility model, the second overflow mouth has all been seted up to the left and right sides department of second baffle upper end.

As a preferred structure of the utility model, the cooling box still includes the cooling pump, on the mounting hole that the cooling pump is fixed in the apron, the drawing liquid mouth of cooling pump is arranged in the suction chamber of cooling box.

As the utility model discloses a preferred structure, install the pulley on the bottom of the case of cooler bin, the pulley sets up in the edge of the bottom of the case.

As a preferred structure of the utility model, be provided with the handle on the cooler bin, the handle is located the lateral wall of cooler bin.

As an optimized structure of the utility model, the apron is fixed with the box through the bolt.

Different from the prior art, the technical scheme has the following advantages: the utility model relates to a circulating cooling box for a cutting machine, which comprises a box body, a first clapboard and a cover plate, the first clapboard is arranged in the inner cavity of the box body, the inner cavity of the box body is divided into a collecting cavity and a suction cavity by the first clapboard, the collecting cavity is positioned below the spraying mechanism of the cutting machine, after the spraying liquid is sprayed and cooled on the diamond wire saw, the cooling liquid flows into the manifold, the cooling liquid is firstly accumulated in the manifold, waste materials and scraps in the cooling liquid sink to the bottom of the manifold, when the liquid level of the cooling liquid is higher than the first overflow port, the upper layer of cleaner cooling liquid enters the suction cavity, the cooling liquid in the pumping cavity can be pumped and utilized by the cooling pump again to realize the recycling of the cooling liquid, reduce the resource waste and the use cost, and the cooling liquid can be discharged periodically through a discharge port on the collecting cavity, so that the cleanliness of the cooling liquid participating in circulation is further ensured. In this scheme, the setting of novel cooler bin sprays the back coolant liquid and can carry out impurity filtering at the box for the coolant liquid can directly carry out cyclic utilization, can reduce the wasting of resources, reduces use cost, can improve cooling efficiency simultaneously.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of a circulation cooling box for a cutting machine according to the present invention;

FIG. 2 is a schematic sectional view taken along the line A-A in FIG. 1;

fig. 3 is a schematic sectional view in the direction B-B shown in fig. 1.

Description of reference numerals:

100. a box body;

110. a manifold;

120. a suction lumen; 121. a drain port;

130. a transition chamber;

200. a first separator; 210. a first overflow port;

300. a cover plate;

400. a second separator; 410. a second overflow port;

500. a cooling pump;

600. a pulley;

700. and (4) a handle.

Detailed Description

To explain technical contents, structural features, and objects and effects of the technical solutions in detail, the following detailed description is given with reference to the accompanying drawings in conjunction with the embodiments.

Referring to fig. 1 to 3, the utility model provides a circulating cooler bin for cutting machine, the cooler bin includes box 100, first baffle 200 and apron 300, first baffle 200 sets up in the box inner chamber, first baffle 200 separates the box inner chamber into manifold 110 and suction chamber 120, and has the first overflow mouth 210 of intercommunication between manifold 110 and the suction chamber 120, the drain 121 has been seted up to the bottom in suction chamber 120, apron 300 is fixed in the top in suction chamber 120, has seted up the mounting hole on the apron 300. The box 100 is the major structure of cooler bin for component parts such as first baffle 200, apron 300 of installation, box 100 is used for holding and sprays the coolant liquid, and is preferred, and stainless steel can be chooseed for use to the material of box 100 to prevent that box 100 from taking place the corrosion. Specifically, the box 100 may be a rectangular body or a cylindrical body. The bottom of the first partition board 200 is hermetically fixed with the inner wall of the tank 100 to divide the inner chamber of the tank into the manifold 110 and the suction chamber 120. The first overflow port 210 between the manifold 110 and the pumping chamber 120 communicates the two, the cooling liquid falls into the manifold 110 after spraying the diamond wire saw, and after the cooling liquid is accumulated to a certain height, the upper-layer cleaner cooling liquid flows into the pumping chamber 120 through the first overflow port 210, the manifold 110 can perform a primary filtering function, and impurities in the cooling liquid are filtered out, so that the cooling liquid entering the pumping chamber 120 can participate in a cooling cycle. Preferably, the cover plate 300 is fixed to the case 100 by bolts, so that the cover plate 300 can be replaced after damage occurs.

After long-term use, more or less impurities are accumulated in the collecting chamber 110 and the suction chamber 120, so that the suction chamber 120 or the drain opening 121 at the bottom of the collecting chamber 110 can be selectively opened to discharge sewage containing more impurities, and the sewage is prevented from participating in a cooling cycle to cause the blockage and even damage of the cooling pump 500 or the spray pipeline. Preferably, an openable sealing cover is disposed on the drain opening 121 to facilitate opening and closing of the drain opening 121. The cover plate 300 is used for carrying and installing the cooling pump 500, and simultaneously can prevent impurities from entering the suction cavity 120, causing sewage to liquid in the cooling circulation, and ensuring the cleanliness of the cooling liquid.

The utility model provides a circulating cooler bin for cutting machine, the cooler bin includes box 100, first baffle 200 and apron 300, first baffle 200 sets up in the box inner chamber, first baffle 200 separates into manifold 110 and suction chamber 120 with the box inner chamber, manifold 110 is located the below of the spraying mechanism of cutting machine, spray liquid is after the diamond wire saw spray cooling, coolant liquid flows into manifold 110, coolant liquid piles up in manifold 110 earlier, waste material and sweeps in the coolant liquid can sink into the bottom of manifold 110, when the liquid level of coolant liquid is higher than first overflow mouth 210, the cleaner coolant liquid in upper strata can enter into suction chamber 120, the coolant liquid in suction chamber 120 alright be utilized by cooling pump 500 suction once more, so as to realize the cyclic utilization of coolant liquid, reduce the wasting of resources, reduce use cost, and can discharge regularly through drain 121 on manifold 110, further ensuring the cleanliness of the cooling liquid participating in the circulation. In this scheme, novel cooling box 100's setting sprays the back coolant liquid and can carry out impurity filtering earlier for the coolant liquid can directly carry out cyclic utilization, can reduce the wasting of resources, reduces use cost, can improve cooling efficiency simultaneously.

Referring to fig. 1 and 2, as a preferred embodiment of the present invention, the first overflow port 210 is opened on the first partition board 200 or above the top end of the first partition board 200. The first overflow port 210 may be formed by cutting the first partition plate 200, or a shorter plate may be selected, so that a gap between the upper end of the first partition plate 200 and the inner wall of the tank 100 serves as the first overflow port 210.

In the embodiment shown in fig. 1 to 3, the cooling tank further comprises a second partition plate 400, the second partition plate 400 is disposed in the inner cavity of the tank, the inner cavity of the tank is sequentially divided into a manifold 110, a transition chamber 130 and a suction chamber 120 by the first partition plate 200 and the second partition plate 400, the manifold 110 and the transition chamber 130 are communicated with each other through a first overflow port 210, the transition chamber 130 and the suction chamber 120 are communicated with each other through a second overflow port 410, and the horizontal height of the second overflow port 410 is not lower than that of the first overflow port 210. In this embodiment, the transition chamber 130 is formed between the manifold 110 and the suction chamber 120 by adding the second partition 400, so that the cold water liquid first falling into the manifold 110 enters the transition chamber 130 through the first overflow port 210 and then accumulates in the transition chamber 130, and when the liquid level passes the second overflow port 410, the amount of the cold water liquid is added to the suction chamber 120, and the horizontal position height of the second overflow port 410 is not lower than that of the first overflow port 210. So, make the coolant liquid that has washed the diamond wire saw can loop through two-stage heavy groove and filter, deposit most impurity to the cleanness of coolant liquid that participates in the circulation is guaranteed. In other preferred embodiments, three or more partition plates may be disposed in the inner cavity of the box body to separate a plurality of transition chambers 130 inside the box body 100, so as to realize multi-stage tank-forming filtration, further improve the cleanliness of the circulating cooling liquid, and save water resources.

Referring to fig. 2, as a preferred embodiment of the present invention, the second overflow port 410 is opened on the second partition 400 or above the top end of the second partition 400. The second overflow port 410 may be formed by cutting the second partition 400, or a shorter plate may be selected, so that a gap between the upper end of the second partition 400 and the inner wall of the tank 100 serves as the second overflow port 410. In a specific embodiment, the second overflow ports 410 are formed at the left and right sides of the upper end of the second partition board 400.

Referring to fig. 3 of fig. 1, as a preferred embodiment of the present invention, the cooling box further includes a cooling pump 500, the cooling pump 500 is fixed on the mounting hole of the cover plate 300, and the liquid suction port of the cooling pump 500 is located in the suction chamber 120 of the cooling box. The cooling pump 500 is used for pumping the cooling water in the pumping chamber 120 and delivering the cooling water to the spraying unit to spray the diamond wire saw.

As shown in fig. 1 and fig. 2, as an embodiment of the present invention, a pulley 600 is installed on the bottom of the cooling box, and the pulley 600 is disposed at a corner of the bottom of the cooling box. The pulley 600 is arranged at the bottom of the cooling box, so that the cooling box can move conveniently, and can be moved out from the lower part of the cutting machine in actual use, the cooling box can be cleaned conveniently, and the use is more convenient. Preferably, a handle 700 is arranged on the cooling box, and the handle 700 is positioned on the side wall of the cooling box, so that the cooling box can be conveniently pulled and applied with force.

It should be noted that, although the above embodiments have been described herein, the scope of the present invention is not limited thereby. Therefore, based on the innovative concept of the present invention, the changes and modifications of the embodiments described herein, or the equivalent structure or equivalent process changes made by the contents of the specification and the drawings of the present invention, directly or indirectly apply the above technical solutions to other related technical fields, all included in the scope of the present invention.

Claims (9)

1. The utility model provides a circulating cooler bin for cutting machine, its characterized in that, the cooler bin includes box, first baffle and apron, first baffle sets up in the box inner chamber, first baffle separates into manifold and suction chamber with the box inner chamber, and has the first overflow mouth of intercommunication between manifold and the suction chamber, the drain hole has been seted up to the bottom in suction chamber, the apron is fixed in the top in suction chamber, has seted up the mounting hole on the apron.

2. The circulating cooling tank for cutting machine as claimed in claim 1, wherein the first overflow port is opened on the first partition plate or above the top end of the first partition plate.

3. The circulating cooling box for the cutting machine as claimed in claim 2, wherein the cooling box further comprises a second partition plate, the second partition plate is arranged in the inner cavity of the box body, the inner cavity of the box body is sequentially divided into a manifold chamber, a transition chamber and a suction chamber by the first partition plate and the second partition plate, a first overflow port is communicated with the manifold chamber and the transition chamber, a second overflow port is arranged between the transition chamber and the suction chamber, and the horizontal position height of the second overflow port is not lower than that of the first overflow port.

4. The circulating cooling tank for cutting machine as claimed in claim 3, wherein the second overflow port is opened on the second partition plate or above the top end of the second partition plate.

5. The circulating cooling box for a cutting machine as claimed in claim 4, wherein the second overflow ports are formed at both left and right sides of the upper end of the second partition plate.

6. The circulating cooling box for the cutting machine as claimed in claim 1, wherein the cooling box further comprises a cooling pump fixed on the mounting hole of the cover plate, and the liquid suction port of the cooling pump is located in the suction chamber of the cooling box.

7. The circulating cooling box for the cutting machine as claimed in claim 1, wherein the bottom of the cooling box is provided with pulleys, and the pulleys are arranged at corners of the bottom of the cooling box.

8. The circulation cooling box for the cutting machine as claimed in claim 1, wherein the cooling box is provided with a pull handle, and the pull handle is positioned on a side wall of the cooling box.

9. The circulation cooling tank for a cutting machine according to claim 1, wherein the cover plate is fixed to the tank body by a bolt.

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