CN218965096U - Cooling, filtering and recycling device - Google Patents

Abstract

The utility model provides a cooling, filtering and recycling device, which relates to the technical field of polishing equipment and comprises the following components: a base, a recovery part and a cleaning part; the base is fixed on the workbench and is connected with a sliding arm in a sliding manner; the sliding arm is provided with an air suction fan which is connected with an air inlet pipe. An auxiliary rod is welded on the cleaning block, and the head end of the auxiliary rod is of a hemispherical structure; the head end and the draw-in groove joint of auxiliary rod, and be continuous vibration form at the cooperation of auxiliary rod and draw-in groove down when pulling the handle, thereby can realize that the shake of residue falls on filter and the filter block, and then improved the residue recovery effect, solved and accumulated the residue easily on the filter after using a period, need clear up it regularly this moment, and can not pass through structural improvement, realize that the metal residue gathers on the filtration structure when realizing the residue is scraped, be used for reaching the problem of the purpose that improves the practicality.

Description

Cooling, filtering and recycling device

Technical Field

The utility model relates to the technical field of polishing equipment, in particular to a cooling, filtering and recycling device.

Background

At present, when the vortex type grinding and polishing machine is used for grinding and polishing, the vortex type grinding and polishing machine is generally of an open type, or a suction fan is only arranged on the upper barrel of the polishing machine to pump out hot air in the machine, so that precious metal residues during polishing can be discharged to the outside.

However, regarding the cooling, filtering and recycling device of the traditional vortex type grinding and polishing machine at present, residues are easy to accumulate on the filtering plate after a period of use, at this time, the filtering box needs to be cleaned regularly, the filtering box cannot be structurally improved, and metal residues on the filtering structure are collected when the residues of the filtering box are scraped, so that the purpose of improving practicability is achieved.

Disclosure of Invention

In view of the above, the utility model provides a cooling, filtering and recycling device, which is provided with a stop block, and by the arrangement of the stop block, the sealing of a box body can be realized when residues are not cleaned, and the opening of cleaning holes on a filter box can be automatically realized when residues are cleaned; still have recovery unit and clearance portion, through the cooperation setting of two, can realize the continuous vibrations of filter when pulling the handle and collect the clearance of residue, and then realized the shake of residue on the filter and fall.

The utility model provides a cooling, filtering and recycling device, which specifically comprises: a base, a recovery part and a cleaning part; the base is fixed on the workbench and is connected with a sliding arm in a sliding manner; the sliding arm is provided with an air suction fan which is connected with an air inlet pipe; the recovery part consists of a box body, a sliding seat, a sliding rod, a filter plate, a through hole, a filter block, an elastic piece and a clamping groove, and the sliding arm is fixedly connected with the box body through a bolt; two sliding seats are symmetrically welded in the box body, and each sliding seat is symmetrically connected with two sliding rods in a sliding manner; the two sliding rods are of stepped shaft structures, and the head ends of the two sliding rods are welded with the filter plate; each sliding rod is sleeved with an elastic piece, and the two elastic pieces jointly form an elastic reset structure of the filter plate; the exhaust fan is connected with an exhaust pipe which is connected with the box body; the cleaning part consists of a cleaning block, a grip, an auxiliary rod and a stop block, and the cleaning block is connected in the box body in a sliding way.

Optionally, through holes are formed in the filter plate in a rectangular array shape, and the filter plate is connected with the exhaust pipe in a sliding manner; the through holes are of a cylindrical structure, and the through holes formed in a rectangular array form together form a division structure for exhausting gas at the exhaust pipe.

Optionally, a filter block is adhered to the filter plate and is in sliding connection with the exhaust pipe; the filter block is of a sponge block structure, and the filter block forms a further segmentation structure of exhaust gas at the exhaust pipe.

Optionally, a handle is welded on the cleaning block, and the cleaning block is contacted with the bottom end surface of the box body.

Optionally, a stop is welded on the handle, and when the rear end face of the cleaning block is contacted with the rear end face of the inner wall of the box body, the stop is inserted into the cleaning hole of the front end face of the box body.

Optionally, the stop block is of a T-shaped block structure, and the stop block is also in contact with the outer wall of the box body.

Optionally, the bottom end surface of the filter plate is provided with clamping grooves in a linear array shape, and the clamping grooves are in a semi-cylindrical groove-shaped structure;

an auxiliary rod is welded on the cleaning block, and the head end of the auxiliary rod is of a hemispherical structure; the head end of the auxiliary rod is clamped with the clamping groove, and the filter plate is in a continuous vibration state under the cooperation of the auxiliary rod and the clamping groove when the handle is pulled.

Advantageous effects

Through the cooperation setting of recovery portion and clearance portion, firstly, because the welding has the handle on the clearance piece, and clearance piece and box body bottom surface contact to can realize the collection of box body bottom surface residue and discharge through the clearance piece when pulling the handle;

secondly, clamping grooves are formed in the shape of a linear array on the bottom end surface of the filter plate, and the clamping grooves are of semi-cylindrical groove structures; an auxiliary rod is welded on the cleaning block, and the head end of the auxiliary rod is of a hemispherical structure; the head end and the draw-in groove joint of auxiliary rod, and be continuous vibration form at the cooperation of auxiliary rod and draw-in groove down the filter when pulling the handle to can realize the shake of residue on filter plate and the filter block and fall, and then improved the residue recovery effect.

Through the arrangement of the through holes and the filter blocks, firstly, the filter plates are provided with the through holes in a rectangular array shape and are in sliding connection with the exhaust pipe; the through holes are of a cylindrical structure, and the through holes formed in a rectangular array form together form a dividing structure for exhausting gas at the exhaust pipe, so that the contact efficiency of the gas and the filtered liquid in the box body can be improved;

secondly, a filter block is adhered to the filter plate and is in sliding connection with the exhaust pipe; the filter block is of a sponge block structure, and the filter block forms a further segmentation structure for exhausting gas at the exhaust pipe, so that the contact efficiency of the gas and the filtered liquid in the box body can be further improved.

Through the setting of dog, because the dog is T shape massive structure, and the dog still contacts with the outer wall of box body to can improve the sealing performance between dog and the box body.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present utility model, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the utility model and are not intended to limit the utility model.

In the drawings:

fig. 1 is an isometric view of the present utility model.

Fig. 2 is a schematic view of an isometric view of a cut-away box of the present utility model.

Fig. 3 is a schematic front view of the recovery section and the cleaning section of the case of the present utility model.

Fig. 4 is an isometric view of the utility model from fig. 3.

List of reference numerals

1. A base; 101. a sliding arm; 2. an air extraction fan; 201. an air inlet pipe; 202. an exhaust pipe; 3. a recovery unit; 301. a case body; 302. a sliding seat; 303. a slide bar; 304. a filter plate; 305. a through hole; 306. a filter block; 307. an elastic member; 308. a clamping groove; 4. a cleaning part; 401. cleaning the block; 402. a grip; 403. an auxiliary lever; 404. and a stop block.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present utility model more clear, the technical solution of the embodiment of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present utility model. Unless otherwise indicated, terms used herein have the meaning common in the art. Like reference numerals in the drawings denote like parts.

Examples: please refer to fig. 1 to 4:

the utility model provides a cooling, filtering and recycling device, which comprises: a base 1, a recovery part 3 and a cleaning part 4;

the base 1 is fixed on a workbench, and the base 1 is connected with a sliding arm 101 in a sliding manner; the sliding arm 101 is provided with an air suction fan 2, and the air suction fan 2 is connected with an air inlet pipe 201;

the recovery part 3 consists of a box body 301, a sliding seat 302, a sliding rod 303, a filter plate 304, a through hole 305, a filter block 306, an elastic piece 307 and a clamping groove 308, and the sliding arm 101 is fixedly connected with the box body 301 through bolts;

the exhaust fan 2 is connected with an exhaust pipe 202, and the exhaust pipe 202 is connected with a box body 301;

the cleaning section 4 is composed of a cleaning block 401, a grip 402, an auxiliary lever 403, and a stopper 404, and the cleaning block 401 is slidably connected in the case 301.

In addition, according to the embodiment of the present utility model, as shown in fig. 4, two sliding seats 302 are symmetrically welded in the box 301, and two sliding rods 303 are symmetrically connected to each sliding seat 302 in a sliding manner; the two sliding rods 303 are of stepped shaft structures, and the head ends of the two sliding rods 303 are welded with the filter plates 304; each sliding rod 303 is sleeved with an elastic piece 307, and the two elastic pieces 307 together form an elastic resetting structure of the filter plate 304, so that the elastic resetting of the filter plate 304 can be realized through the elastic pieces 307.

In addition, according to the embodiment of the present utility model, as shown in fig. 4, through holes 305 are formed in a rectangular array on the filter plate 304, and the filter plate 304 is slidably connected to the exhaust pipe 202; the through holes 305 are cylindrical structures, and the rectangular array of through holes 305 together form a division structure for exhausting gas at the exhaust pipe 202, so that the contact efficiency between the gas and the filtered liquid in the box 301 can be improved.

In addition, according to an embodiment of the present utility model, as shown in fig. 4, a filter block 306 is adhered to the filter plate 304, and the filter block 306 is slidably connected to the exhaust pipe 202; the filter block 306 is a sponge block structure, and the filter block 306 forms a further dividing structure for the exhaust gas at the exhaust pipe 202, so that the contact efficiency between the gas and the filtered liquid in the box 301 can be further improved.

In addition, according to the embodiment of the present utility model, as shown in fig. 3 and 4, a grip 402 is welded to the cleaning block 401, and the cleaning block 401 is in contact with the bottom end surface of the case 301, so that collection and discharge of residues of the bottom end surface of the case 301 can be achieved by the cleaning block 401 when the grip 402 is pulled.

In addition, according to the embodiment of the present utility model, as shown in fig. 3, a stopper 404 is welded to the grip 402, and when the rear end surface of the cleaning block 401 contacts with the rear end surface of the inner wall of the case 301, the stopper 404 is inserted into the cleaning hole of the front end surface of the case 301, so that the sealing of the case 301 can be achieved.

In addition, according to the embodiment of the present utility model, as shown in fig. 3, the stopper 404 has a T-shaped block structure, and the stopper 404 is also in contact with the outer wall of the case 301, so that the sealing performance between the stopper 404 and the case 301 can be improved.

In addition, according to the embodiment of the present utility model, as shown in fig. 3 and 4, the bottom end of the filter plate 304 is provided with a clamping groove 308 in a linear array shape, and the clamping groove 308 has a semi-cylindrical groove structure;

an auxiliary rod 403 is welded on the cleaning block 401, and the head end of the auxiliary rod 403 is of a hemispherical structure; the head end of the auxiliary rod 403 is clamped with the clamping groove 308, and when the handle 402 is pulled, the filter plate 304 is continuously vibrated under the cooperation of the auxiliary rod 403 and the clamping groove 308, so that the filter plate 304 and the filter block 306 can be vibrated to fall residues, and the residue recovery effect is improved.

Specific use and action of the embodiment:

in the first step, the filter plate 304 is provided with through holes 305 in a rectangular array shape, and the filter plate 304 is slidably connected with the exhaust pipe 202; the through holes 305 are in a cylindrical structure, and the rectangular array-shaped through holes 305 jointly form a division structure for exhausting gas at the exhaust pipe 202, so that the contact efficiency of the gas and the filtered liquid in the box 301 can be improved; second, the filter block 306 is adhered to the filter plate 304, and the filter block 306 is slidably connected with the exhaust pipe 202; the filter block 306 is a sponge block structure, and the filter block 306 forms a further dividing structure for the exhaust gas at the exhaust pipe 202, so that the contact efficiency between the gas and the filtered liquid in the box 301 can be further improved.

First, when cleaning, the cleaning block 401 is welded with the handle 402, and the cleaning block 401 contacts with the bottom end surface of the box 301, so that when the handle 402 is pulled, the cleaning block 401 can collect and discharge residues on the bottom end surface of the box 301; secondly, as the bottom end of the filter plate 304 is provided with the clamping grooves 308 in a linear array shape, the clamping grooves 308 are in a semi-cylindrical groove-shaped structure; an auxiliary rod 403 is welded on the cleaning block 401, and the head end of the auxiliary rod 403 is of a hemispherical structure; the head end of the auxiliary rod 403 is clamped with the clamping groove 308, and when the handle 402 is pulled, the filter plate 304 is continuously vibrated under the cooperation of the auxiliary rod 403 and the clamping groove 308, so that the filter plate 304 and the filter block 306 can be vibrated to fall residues, and the residue recovery effect is improved.

Finally, it should be noted that the present utility model is generally described in terms of a/a pair of components, such as the location of each component and the mating relationship therebetween, however, those skilled in the art will appreciate that such location, mating relationship, etc. are equally applicable to other components/other pairs of components.

The foregoing is merely exemplary embodiments of the present utility model and is not intended to limit the scope of the utility model, which is defined by the appended claims.

Claims (7)

1. A cooling, filtering and recycling device, comprising: a base (1), a recovery part (3) and a cleaning part (4); the base (1) is fixed on the workbench, and the base (1) is connected with a sliding arm (101) in a sliding manner; an air suction fan (2) is arranged on the sliding arm (101), and an air inlet pipe (201) is connected to the air suction fan (2); the recovery part (3) consists of a box body (301), a sliding seat (302), a sliding rod (303), a filter plate (304), a through hole (305), a filter block (306), an elastic piece (307) and a clamping groove (308), and the sliding arm (101) is fixedly connected with the box body (301) through bolts; two sliding seats (302) are symmetrically welded in the box body (301), and each sliding seat (302) is symmetrically connected with two sliding rods (303) in a sliding manner; the two sliding rods (303) are of stepped shaft structures, and the head ends of the two sliding rods (303) are welded with the filter plate (304); each sliding rod (303) is sleeved with an elastic piece (307), and the two elastic pieces (307) form an elastic reset structure of the filter plate (304) together; the air exhaust fan (2) is connected with an exhaust pipe (202), and the exhaust pipe (202) is connected with the box body (301); the cleaning part (4) consists of a cleaning block (401), a grip (402), an auxiliary rod (403) and a stop block (404), and the cleaning block (401) is slidably connected in the box body (301).

2. A cooling, filtering and recycling device according to claim 1, wherein: the filter plate (304) is provided with through holes (305) in a rectangular array shape, and the filter plate (304) is in sliding connection with the exhaust pipe (202); the through holes (305) are of a cylindrical structure, and the through holes (305) formed in a rectangular array form together form a dividing structure for exhausting gas at the exhaust pipe (202).

3. A cooling, filtering and recycling device according to claim 1, wherein: a filter block (306) is adhered to the filter plate (304), and the filter block (306) is in sliding connection with the exhaust pipe (202); the filter block (306) is of a sponge block structure, and the filter block (306) forms a further division structure of the exhaust gas at the exhaust pipe (202).

4. A cooling, filtering and recycling device according to claim 1, wherein: the cleaning block (401) is welded with a handle (402), and the cleaning block (401) is contacted with the bottom end surface of the box body (301).

5. A cooling, filtering and recycling device according to claim 1, wherein: a stop block (404) is welded on the handle (402), and when the rear end face of the cleaning block (401) is in contact with the rear end face of the inner wall of the box body (301), the stop block (404) is inserted into the cleaning hole of the front end face of the box body (301).

6. A cooling, filtering and recycling device according to claim 1, wherein: the stop block (404) is of a T-shaped block structure, and the stop block (404) is also in contact with the outer wall of the box body (301).

7. A cooling, filtering and recycling device according to claim 1, wherein: clamping grooves (308) are formed in the bottom end surface of the filter plate (304) in a linear array mode, and the clamping grooves (308) are of semi-cylindrical groove structures;

an auxiliary rod (403) is welded on the cleaning block (401), and the head end of the auxiliary rod (403) is of a hemispherical structure; the head end of the auxiliary rod (403) is clamped with the clamping groove (308), and the filter plate (304) is in a continuous vibration shape under the cooperation of the auxiliary rod (403) and the clamping groove (308) when the handle (402) is pulled.

Images