CN214869127U - Fresh air system for slicing machine - Google Patents

Abstract

The utility model relates to a new trend system for slicer, including the inside diameter slicer main part that is used for carrying out the cutting to the permanent magnet, locate the institute cutting machine main part and play the translucent cover that prevents the effect of splashing, the inside diameter slicer main part is equipped with the exhaust column that one end opening is located the translucent cover, the exhaust column is kept away from translucent cover one end intercommunication and is had the processing case that can remove dust to the air that gets into, processing case intercommunication has the negative-pressure air fan that can make the air in the translucent cover get into to the exhaust column, possess and carrying out the permanent magnet cutting during operation, negative-pressure air fan takes the inside air of translucent cover out, make the steam that produces can be discharged even, make the inner wall of translucent cover be difficult for the fog, so that the effect that the workman observed.

Description

Fresh air system for slicing machine

Technical Field

The application relates to the field of permanent magnet processing equipment, in particular to a fresh air system for a slicing machine.

Background

In the processing process of the permanent magnet, the blocky raw materials are required to be cut into sheets by an inside diameter slicer.

The existing inside diameter slicer is more characterized in that a permanent magnet to be cut is bonded to a rod, then the rod is fixed, the permanent magnet is sent into an inner ring of an inner circular disc blade by moving the rod, then the inner circular disc blade is moved by a preset program to cut the block permanent magnet into a plurality of flaky permanent magnets, and a transparent cover is required to be covered outside the inside diameter slicer to protect the inside diameter slicer during cutting in order to prevent cutting scraps or cooling liquid from flying.

In view of the above-mentioned related art, the inventor believes that the temperature is high during the cutting process, and a part of the cooling liquid is easy to evaporate to form steam, so that the inner wall of the transparent cover is fogged, and the defect that a worker cannot clearly observe the processing condition during processing exists.

SUMMERY OF THE UTILITY MODEL

In order to enable workers to easily and clearly observe processing conditions during processing, the application provides a fresh air system for a slicing machine.

The application provides a fresh air system for slicer adopts following technical scheme:

the utility model provides a new trend system for slicer, includes the inside diameter slicer main part that is used for carrying out the cutting to the permanent magnet, locates the inside diameter slicer main part and plays the translucent cover that prevents the effect of splashing, the inside diameter slicer main part is equipped with the exhaust column that one end opening is located the translucent cover, and the exhaust column is kept away from translucent cover one end intercommunication and has the processing case that can carry out filterable to the air that gets into, and processing case intercommunication has the negative-pressure air fan that can make air in the translucent cover get into to the exhaust column.

Through adopting above-mentioned technical scheme, the in-process that cuts at the permanent magnet, negative-pressure air fan communicates in external power source for air in the translucent cover is inhaled to the exhaust column in, can be inhaled to the exhaust column because of the coolant liquid gas that the high temperature produced during the cutting, also can bring out heat in the translucent cover simultaneously, makes the difficult phenomenon of hazing that appears in translucent cover inner wall surface, so that the workman can observe the condition of permanent magnet cutting in the translucent cover in real time.

Optionally, be equipped with the condenser pipe that communicates in the exhaust column in handling the incasement, the condenser pipe is snakelike, and the condenser pipe is kept away from exhaust column one end and is communicated in negative-pressure air fan's air intake, and the condenser pipe intercommunication has the flowing back pipe with the condensate liquid exhaust in the condenser pipe.

Through adopting above-mentioned technical scheme for the inspiratory air of exhaust column can carry out a condensation in the condenser pipe, makes the coolant liquid can turn into the condensate again, makes the condensate be difficult for keeping up in negative-pressure air fan department, and negative-pressure air fan's normal work is difficult for receiving the influence.

Optionally, a cooling water tank is arranged in the treatment tank, and the condensation pipe is located below the liquid level of the cooling water tank.

Through adopting above-mentioned technical scheme for the hydroenergy in the cooling water tank can better absorb the heat that the coolant liquid gas in the condenser pipe gived off when the condensation, promotes the effect of coolant liquid condensation in the condenser pipe, makes the coolant liquid fully cool off in the condenser pipe as far as possible.

Optionally, the vertical section of the condensation pipe is serpentine, a plurality of liquid discharge pipes are arranged, and each liquid discharge pipe is communicated with one bent lower part of the condensation pipe in a one-to-one correspondence manner.

Through adopting above-mentioned technical scheme for the coolant liquid of condensation can gather by oneself in the lower part of condenser pipe, then discharge through each fluid-discharge tube, be difficult for having more coolant liquid accumulation in the condenser pipe, make air can be comparatively smooth in the condenser pipe pass through, simultaneously, coolant liquid if will move towards negative-pressure air fan department then need overcome coolant liquid self gravity work, drive the possibility that flows forward with coolant liquid when also reducing recirculation as far as possible.

Optionally, the inside diameter slicer main body is provided with an air supply pipe with one end opening located in the transparent cover, and the end of the air supply pipe located outside the transparent cover is communicated with a blower enabling the air supply pipe to supply air into the transparent cover.

Through adopting above-mentioned technical scheme for in the air-blower feeds through in external power source, can send into the translucent cover with the air through the blast pipe, make the inside air of translucent cover can carry out a more smooth flow, further make heat in the translucent cover and coolant liquid gas can in time be taken out, make the inner wall of the translucent cover difficult for the fog.

Optionally, one end of the air inlet of the blower is communicated with an air tank, and the air tank is communicated with an air outlet of the negative pressure fan.

Through adopting above-mentioned technical scheme for the comparatively clean air through handling can gather in the air box, then the air-blower directly sends into to the translucent cover in through the blast pipe again, does not need the air-blower directly to send into the translucent cover with outside air in, reduces the possibility that outside air probably has more impurity debris and makes impurity pile up appear in air-blower or the inside diameter slicer main part easily.

Optionally, the air box is provided with an air inlet in a penetrating manner, and a filter screen is arranged at the air inlet.

Through adopting above-mentioned technical scheme for the air tank can carry out certain air supply through the inlet port, makes the inside atmospheric pressure difference of air tank be difficult too big, and simultaneously, the setting up of filter screen makes the air that enters into to the air tank inside comparatively clean.

Optionally, the air box is slidably connected with an adjusting block capable of sealing the air inlet, and the adjusting block is fixedly connected with an adjusting rod exposed out of the air box.

Through adopting above-mentioned technical scheme, remove the regulation pole and drive the regulating block and remove to the intercommunication area size of regulation and control inlet port adjusts the air circulation volume in inlet port department, so that adjusts the air volume that enters into to the air tank according to actual demand.

In summary, the present application includes at least one of the following benefits:

1. the cooling liquid gas generated due to high temperature during cutting can be sucked into the exhaust pipe, and meanwhile, the heat in the transparent cover can be brought out, so that the inner wall surface of the transparent cover is not easy to have a fogging phenomenon, and a worker can observe the cutting condition of the permanent magnet in the transparent pipe cover in real time;

2. can send into the middle transparent cover with the air through the blast pipe in for the inside air of transparent cover can carry out a more smooth flow, further makes heat and coolant liquid gas in the transparent cover can in time be taken out, makes the difficult fog that hazes of transparent cover inner wall.

Drawings

FIG. 1 is a schematic diagram of the main structure of the present application;

FIG. 2 is a schematic view of the side of the processing chamber facing away from the main body of the inside diameter slicer with the transparent cover removed to show the interior of the processing chamber;

FIG. 3 is a schematic view of another aspect of the present application showing the construction of an air box;

fig. 4 is an enlarged view of a in fig. 3.

Description of reference numerals: 1. an inside diameter slicer body; 11. a rod groove; 2. a transparent cover; 21. a liquid discharge pipe; 22. an adjusting block; 23. adjusting a rod; 24. a water inlet pipe; 25. a water outlet pipe; 26. a collection box; 27. a tank trough; 28. a block groove; 29. a slot plate; 3. an exhaust pipe; 31. a treatment tank; 32. a negative pressure fan; 33. a condenser tube; 34. a cooling water tank; 35. an air supply pipe; 36. a blower; 37. an air box; 38. an air inlet; 39. and (5) filtering by using a filter screen.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The embodiment of the application discloses fresh air system for slicer, refer to fig. 1, including being used for carrying out the inside diameter slicer main part 1 that cuts the slice to the permanent magnet. When the inside diameter slicer main body 1 works, the transparent cover 2 is placed on the horizontal plane of the upper workbench of the inside diameter slicer main body 1, so that scraps or cooling liquid generated during cutting are prevented from easily splashing at will.

Referring to fig. 1 and 2, an air blower 36 is detachably connected to the vertical outer wall of the inside diameter slicer main body 1 through a screw, an air outlet of the air blower 36 is fixedly connected and communicated with an air supply pipe 35, the air supply pipe 35 is fixedly connected to the inside diameter slicer main body 1, and an opening in one end, away from the air blower 36, of the air supply pipe 35 is located in the transparent cover 2. The inside diameter slicer main body 1 fixedly connected with exhaust column 3, 3 one end upper portion openings in exhaust column are located translucent cover 2, the exhaust column 3 is located the outside one end opening fixed connection of translucent cover 2 and communicates and has handles case 31, handle case 31 and can dismantle the vertical outer wall of connection in inside diameter slicer main body 1 through the screw, the one end that the exhaust column 3 was kept away from to handle case 31 has negative-pressure air fan 32 through the hose intercommunication, negative-pressure air fan 32 can dismantle the vertical outer wall of connection in inside diameter slicer main body 1 through the screw. The blower 36 sends air into the transparent cover 2 through the blast pipe 35, and then the air in the transparent cover 2 is sucked into the exhaust pipe 3, so that the air in the transparent cover 2 can be exchanged continuously, and heat and coolant gas generated during the cutting of the permanent magnet can be taken away in time.

Referring to fig. 2, the treatment box 31 is communicated with a condensing pipe 33 fixedly connected to the vertical inner wall of the exhaust pipe 3, the condensing pipe 33 is communicated with the exhaust pipe 3, the vertical section of the exhaust pipe 3 is serpentine, one end of the condensing pipe 33 far away from the exhaust pipe 3 is communicated with an air inlet of the negative pressure fan 32, and one end of the condensing pipe 33 is fixedly connected to the vertical inner wall of the treatment box 31 communicated with the negative pressure fan 32. The inner wall fixedly connected with cooling water tank 34 of 31 bottom of processing case, the upper surface of cooling water tank 34 sets up the opening, and cooling water tank 34 bottom inner wall intercommunication is equipped with and wears to establish to the outside inlet tube 24 and the outlet pipe 25 of 31 processing case. The water inlet pipe 24 is connected to a corresponding tap water pipe to supply normal temperature tap water to the cooling water tank. The water outlet pipe 25 is provided with a valve, and the valve is opened and closed to discharge or retain the water in the cooling water tank 34. The lower bent sections of the condensation pipes 33 are all positioned below the liquid level of the cooling water tank 34.

Referring to fig. 2, the lowest single-position of each bottom bending part of the condensation pipe 33 is fixedly connected and communicated with the liquid discharge pipe 21, the liquid discharge pipe 21 is vertical, the liquid discharge pipe 21 penetrates through and is fixedly connected to the inner wall of the bottom of the cooling water tank 34, one end, far away from the condensation pipe 33, of the liquid discharge pipe 21 penetrates through and is exposed out of the vertical outer wall of the treatment box 31, the collection box 26 is placed on the ground right below the treatment box 31, and cooling liquid flowing down from the liquid discharge pipe 21 enters the collection box 26 so as to be subjected to centralized treatment.

Referring to fig. 3 and 4, the air outlet of the negative pressure fan 32 is communicated with an air tank 37 through a hose, the air tank 37 is placed on the ground at the side edge of the main body 1 of the inside diameter slicer, and the vertical side surface of the air tank 37 far away from the negative pressure fan is communicated with the air inlet of the blower 36 through a hose, so that the processed clean air can be sent back to the transparent cover 2. An air inlet 38 is formed through a vertical side surface of the air tank 37, which faces away from the main body 1 of the inside diameter slicer, so that outside air can be timely supplemented into the air tank 37. The axis of the air inlet 38 is perpendicular to the vertical outer wall of the air box 37, which opens the air inlet 38. The inner wall of the air box 37, which is provided with the air inlet 38, is provided with a filter screen 39 which can filter air.

Referring to fig. 3 and 4, a box groove 27 is formed in the side surface of the air box 37, where the air inlet 38 is formed, the box groove 27 is located at one side of the air inlet 38, a block groove 28 is formed in the vertical inner wall of the box groove 27, which faces the air inlet 38, the block groove 28 is communicated with the air inlet 38, the inner walls of the block groove 28 and the box groove 27 are tightly connected with an adjusting block 22 in a sliding manner along the horizontal radial direction of the air inlet 38, the whole adjusting block 22 can be completely moved into the block groove 28, and the sectional area of the adjusting block 22 is larger than that of the air inlet 38, so that the adjusting block 22 can seal the air inlet 38. The opening of case groove 27 fixedly connected with notch board 29, notch board 29 runs through and has seted up pole groove 11, and the level that pole groove 11 length direction aligns to be on a parallel with inlet port 38 is radial, and regulating block 22 is arranged in case groove 27 one side fixedly connected with and adjusts pole 23, and adjusting pole 23 wears to locate pole groove 11 to adjust pole 23 through removing and drive regulating block 22 and remove.

The implementation principle of a new trend system for slicer of this application embodiment is: the blower 36 is connected to an external power supply to send air into the transparent cover 2, then the negative pressure fan 32 sucks the air communicating pipe in the transparent cover 2 into the condenser pipe 33 together with the coolant gas, so that the coolant gas is condensed and drops to the collecting tank 26 through the drain pipe 21 for concentration, the processed air enters the air tank 37 again and then is mixed with a part of external air entering from the air inlet 38 and sent back into the transparent cover 2.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a new trend system for slicer, includes the inside diameter slicer main part (1) that is used for carrying out the cutting to the permanent magnet, locates inside diameter slicer main part (1) and plays translucent cover (2) that prevent the effect of splashing, its characterized in that: the inside diameter slicer is characterized in that the inside diameter slicer main body (1) is provided with an exhaust pipe (3) with one end opening located in the transparent cover (2), one end of the exhaust pipe (3) far away from the transparent cover (2) is communicated with a processing box (31) capable of filtering entering air, and the processing box (31) is communicated with a negative pressure fan (32) capable of enabling the air in the transparent cover (2) to enter the exhaust pipe (3).

2. The fresh air system for a slicer as claimed in claim 1, wherein: it is equipped with condenser pipe (33) that communicates in exhaust column (3) to handle case (31), and condenser pipe (33) are snakelike, and condenser pipe (33) are kept away from exhaust column (3) one end and are communicated in the air intake of negative pressure fan (32), and condenser pipe (33) intercommunication has drain pipe (21) with the condensate liquid exhaust in condenser pipe (33).

3. The fresh air system for a slicer as claimed in claim 2, wherein: a cooling water tank (34) is arranged in the treatment tank (31), and the condensation pipe (33) is positioned below the liquid level of the cooling water tank (34).

4. The fresh air system for a slicer as claimed in claim 3, wherein: the vertical section of the condensation pipe (33) is snake-shaped, a plurality of liquid discharge pipes (21) are arranged, and each liquid discharge pipe (21) is communicated with one bent lower part of the condensation pipe (33) in a one-to-one correspondence mode.

5. The fresh air system for a slicer as claimed in claim 1, wherein: the inside diameter slicer is characterized in that the inside diameter slicer main body (1) is provided with an air supply pipe (35) with one end opening positioned in the transparent cover (2), and one end of the air supply pipe (35) positioned outside the transparent cover (2) is communicated with an air blower (36) which enables the air supply pipe (35) to supply air into the transparent cover (2).

6. The fresh air system for a slicer as claimed in claim 5, wherein: an air box (37) is communicated with one end of the air inlet of the air blower (36), and the air box (37) is communicated with the air outlet of the negative pressure air blower (32).

7. The fresh air system for a slicer as claimed in claim 6, wherein: an air inlet (38) is formed in the air box (37) in a penetrating mode, and a filter screen (39) is arranged at the position of the air inlet (38).

8. The fresh air system for a slicer as claimed in claim 7, wherein: the air box (37) is connected with an adjusting block (22) capable of sealing the air inlet (38) in a sliding mode, and the adjusting block (22) is fixedly connected with an adjusting rod (23) exposed out of the air box (37).

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