CN218280804U - Multistage filter device is used in production of anhydrous freezing liquid - Google Patents

Abstract

The utility model discloses a no water refrigeration liquid production is with multistage filter equipment, including filtering the jar, it is provided with the inlet pipe to filter tank deck end one side, it has the mounting bracket to filter tank deck end center department fixed mounting, fixed mounting has driving motor on the mounting bracket, it is provided with the discharging pipe to filter tank deck end, filter the inboard vertical pivot that is provided with of jar, the pivot top is passed the output shaft fixed connection who filters tank roof and tip and driving motor, fixed the cup jointing has the filter screen in the pivot. The utility model discloses in, through the cooperation between driving motor, pivot, filter screen, branch, linear slide rail, slider and the brush, can clear away the impurity that produces on the filter screen in the use, avoid long-time production to lead to the filtration pore to block up, influence subsequent filtering operation, and collect the impurity of cleaing away through setting up the stock guide and connecing the material frame, keep operational environment's clean and tidy degree.

Description

Multistage filter device is used in production of anhydrous freezing liquid

Technical Field

The utility model relates to a production technical field of anhydrous refrigerating fluid specifically is a production of anhydrous refrigerating fluid is with multistage filter equipment.

Background

The coolant is called antifreeze coolant, and means the coolant with antifreeze function, commonly called antifreeze, which is an indispensable part of an automobile engine. The heat energy circulating system circulates in an engine cooling system to take away the excessive heat energy generated in the working process of the engine, so that the engine can operate at normal working temperature. When the cooling liquid is insufficient, the water temperature of the engine is overhigh, and the engine parts are damaged.

The refrigerating fluid needs to be filtered through the filtering equipment during production, and in the prior art, impurities generated by filtering do not have good clearing means, so that filtering holes are blocked due to long-time production, and the filtering operation cannot be normally performed in the later stage.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a no water refrigerating fluid production uses multistage filter equipment to solve the impurity that filters the production, do not have good means of cleaing away, long-time production can lead to the filtration pore to block up, leads to the unable normal clear filter operation's in later stage problem.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a no water frozen liquid production is with multistage filter equipment, is including filtering the jar, it is provided with the inlet pipe to filter tank deck end one side, it has the mounting bracket to filter tank deck end center department fixed mounting, fixed mounting has driving motor on the mounting bracket, it is provided with the discharging pipe to filter tank deck end, filter the inboard vertical pivot that is provided with of jar, the pivot top is passed the output shaft fixed connection who filters a jar roof and tip and driving motor, the fixed cover has the filter screen in the pivot, filter fixedly connected with branch on the jar inside wall, terminal surface fixed mounting has linear slide rail under the branch, the last slider that is provided with the adaptation of linear slide rail, slider and linear slide rail sliding connection, slider bottom fixed mounting has the brush, the opening has been seted up on the filtration jar lateral wall, fixedly connected with stock guide on the diapire in the opening, filter a plurality of material frames that connect that are used for receiving impurity of fixed mounting on the jar lateral wall.

Furthermore, the outer wall of the bottom in the filter tank is fixedly provided with a controller, and the driving motor and the linear slide rail are both electrically connected with the controller.

Furthermore, an observation window is arranged on the side wall of the filtering tank.

Furthermore, the brush surface of the brush is in contact with the upper surface of the filter screen.

Furthermore, the material receiving end of the material guide plate is arranged below the filter screen, and the material discharging end of the material guide plate is arranged above the material receiving frame.

Furthermore, a valve is arranged on the discharge pipe.

Furthermore, the rotating shaft is rotatably connected with the top wall of the filtering tank through a bearing.

Furthermore, a plurality of filter screen arrays are distributed on the outer wall of the rotating shaft.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses in, through the cooperation between driving motor, pivot, filter screen, branch, linear slide rail, slider and the brush, can clear away the impurity that produces on the filter screen in the use, avoid long-time production to lead to the filtration pore to block up, influence subsequent filtering operation, and collect the impurity of cleaing away through setting up the stock guide and connecing the material frame, keep operational environment's clean and tidy degree.

Drawings

FIG. 1 is a schematic sectional view of a multistage filtration apparatus for producing a non-aqueous refrigerant fluid in front elevation;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

fig. 3 is a schematic front view of a multistage filtration apparatus for producing a non-aqueous refrigerant solution.

In the figure: 10. a filter tank; 11. a feed pipe; 12. a mounting frame; 13. a drive motor; 14. a discharge pipe; 15. a rotating shaft; 16. a filter screen; 17. a strut; 18. a linear slide rail; 19. a slider; 20. a brush; 21. an opening; 22. a material guide plate; 23. a material receiving frame; 24. a controller; 25. and (6) an observation window.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution:

in the scheme, in order to remove impurities generated on a filter screen, a feeding pipe 11 is arranged on one side of the top end of a filter tank 10, a mounting frame 12 is fixedly mounted at the center of the top end of the filter tank 10 through a bolt, a driving motor 13 is fixedly mounted on the mounting frame 12 through a bolt, a discharging pipe 14 is arranged at the bottom end of the filter tank 10, a rotating shaft 15 is vertically arranged on the inner side of the filter tank 10, the top end of the rotating shaft 15 penetrates through the top wall of the filter tank 10, and the end part of the rotating shaft is welded and fixed with an output shaft of the driving motor 13, wherein the rotating shaft 15 is rotatably connected with the top wall of the filter tank 10 through a bearing, a filter screen 16 is fixedly sleeved on the rotating shaft 15, a support rod 17 is welded and fixed on the inner side wall of the filter tank 10, a linear slide rail 18 is fixedly mounted on the lower end surface of the support rod 17 through a bolt, a sliding block 19 which is adaptive to is arranged on the linear slide rail 18, the sliding block 19 is slidably connected with the linear slide rail 18, a brush 20 is fixedly mounted at the bottom end of the sliding block 19 through a bolt, wherein the brush 20 is in contact with the upper surface of the filter screen 16,

an opening 21 is formed in the side wall of the filtering tank 10, so that impurities can slide on the material guide plate 22 to pass through, the material guide plate 22 is fixedly welded on the inner bottom wall of the opening 21, and a plurality of material receiving frames 23 for receiving the impurities are fixedly mounted on the outer side wall of the filtering tank 10 through bolts.

In addition, a controller 24 is fixedly installed on the outer wall of the inner bottom of the filter tank 10 through bolts, and the driving motor 13 and the linear slide rail 18 are electrically connected with the controller 24.

During the use, the input of driving motor 13 and linear slide 18 all is through wire and controller 24's output electric connection, and when driving motor 13 was rotatory, linear slide 18 was in the closed condition, and when driving motor 13 was in the closed condition, linear slide 18 began to move, so, the filter screen face that the brush 20 can clear up smoothly not clear up, and this driving motor 13 is servo motor, servo motor controllable speed, and the position precision is very accurate.

In order to enable the staff to visually observe the filtering condition in the filtering tank 10, the side wall of the filtering tank 10 is provided with an observation window 25.

The material receiving end of the material guiding plate 22 is disposed below the filter screen 16, the brush 20 directly sweeps impurities on the upper surface of the filter screen 16 onto the material guiding plate 22, the material discharging end of the material guiding plate 22 is disposed above the material receiving frame 23, and the impurities slide into the material receiving frame 23 along the upper surface of the material guiding plate 22.

Wherein, be provided with the valve on the discharging pipe 14, can store the cryogenic fluid in filtering jar 10 through the valve that sets up to change discharging pipe 14 below and connect the stock solution bucket of cryogenic fluid greatly.

Wherein, a plurality of filter screens 16 array distribute on 15 outer walls of pivot, and the not filterable refrigerating fluid carries out filtering operation through the multilayer filter screen 16 that sets up, can improve the filter effect.

The working principle is as follows: when the refrigerator refrigerating fluid cleaning device is used, firstly, unfiltered refrigerating fluid is poured into a filter frame through the arranged feeding pipe 11, the unfiltered refrigerating fluid is filtered through the arranged filter screen 16, then the unfiltered refrigerating fluid is filtered through the arranged multiple layers of filter screens 16, after the refrigerator refrigerating fluid cleaning device is used for a period of time, the driving motor 13 is started, the output shaft of the driving motor 13 drives the rotating shaft 15 to rotate, the filter screen 16 rotates synchronously, the driving motor 13 is started each time, the driving motor 13 rotates 180 degrees, then the filter screen 16 rotates 180 degrees, so that different planes on the filter screen 16 can be cleaned, during cleaning, the sliding block 19 drives the hairbrush 20 to brush the filter screen 16 by starting the linear sliding rail 18, then impurities fall onto the guide plate 22 from the filter screen 16, and then the impurities slide into the material receiving frame 23 along the guide plate 22 to be collected.

Claims (8)

1. The utility model provides a production of anhydrous frozen liquid is with multi-stage filtration device, includes filter tank (10), its characterized in that: filter jar (10) top one side and be provided with inlet pipe (11), it has mounting bracket (12) to filter jar (10) top center department fixed mounting, fixed mounting has driving motor (13) on mounting bracket (12), it is provided with discharging pipe (14) to filter jar (10) bottom, filter jar (10) inboard vertical pivot (15) that are provided with, pivot (15) top is passed the output shaft fixed connection who filters jar (10) roof and tip and driving motor (13), it has filter screen (16) to fix the cover on pivot (15), fixedly connected with branch (17) on filtering jar (10) inside wall, terminal surface fixed mounting has linear slide rail (18) under branch (17), be provided with slider (19) of adaptation on linear slide rail (18), slider (19) and linear slide rail (18) sliding connection, slider (19) bottom fixed mounting has brush (20), open mouth (21) have been seted up on filtering jar (10) the lateral wall, fixedly connected with stock guide (22) on the diapire in opening (21), it has a plurality of material receiving frame (23) to filter jar (10) lateral wall.

2. The multistage filtering apparatus for anhydrous coolant production according to claim 1, wherein: the outer wall of the bottom in the filter tank (10) is fixedly provided with a controller (24), and the driving motor (13) and the linear slide rail (18) are electrically connected with the controller (24).

3. The multistage filtering apparatus for anhydrous coolant production according to claim 1, wherein: an observation window (25) is arranged on the side wall of the filtering tank (10).

4. The multistage filtration apparatus for anhydrous refrigerant fluid production according to claim 1, wherein: the brush surface of the brush (20) is contacted with the upper surface of the filter screen (16).

5. The multistage filtration apparatus for anhydrous refrigerant fluid production according to claim 1, wherein: the material receiving end of the material guide plate (22) is arranged below the filter screen (16), and the material discharging end of the material guide plate (22) is arranged above the material receiving frame (23).

6. The multistage filtration apparatus for anhydrous refrigerant fluid production according to claim 1, wherein: the discharge pipe (14) is provided with a valve.

7. The multistage filtration apparatus for anhydrous refrigerant fluid production according to claim 1, wherein: the rotating shaft (15) is rotatably connected with the top wall of the filtering tank (10) through a bearing.

8. The multistage filtration apparatus for anhydrous refrigerant fluid production according to claim 1, wherein: the filter screens (16) are distributed on the outer wall of the rotating shaft (15) in an array mode.

Images