CN217868381U - Based on fine work is sewage recovery unit for mechanism sand - Google Patents

Abstract

The utility model provides a sewage recovery device based on high-quality machine-made sand, relates to the technical field of loading and unloading devices, and includes a sedimentation component and a filter component. A driving mechanism is arranged on one side of the sedimentation component, and both sides of the driving mechanism are The filter member is installed above the two ends of the sedimentation assembly, and the filter member includes a bolt bracket, a filter tank, a bolt top plate, a water inlet, an inner clamp frame, a dense grid, a filter cotton ball group, an activated carbon group, and a dredging Grid net and drain valve port; the utility model is mainly used in the sedimentation tank, and the driving pump of the driving assembly is set, and the driving pump is connected to the reversing valve, because the reversing valve has a reversing cavity, and the reversing There are two sets of pneumatic pistons in the cavity, so the driving direction of the water body can be flexibly switched according to the needs of use, so that the user can quickly replace the purification components while ensuring the efficient processing of purification and filtration.

Description

A sewage recovery device based on high-quality machine-made sand

technical field

The utility model relates to the technical field of sewage recovery devices, in particular to a sewage recovery device based on high-quality machine-made sand.

Background technique

Machine-made sand refers to sand processed by sand making machines and other auxiliary equipment, but long-term use will cause the quality of sand-making machine-made sand to decline, and it is easy to cause accidents such as blockage and failure. Therefore, it is necessary to clean up the equipment, and for The cleaned sewage is effectively recycled.

During the use of the existing sewage recovery device, the purification components in series are used to effectively purify the sewage. However, it is difficult to quickly switch directions during use to replace the purification components, resulting in a significant decline in processing efficiency in a certain process Therefore, the utility model proposes a sewage recovery device based on high-quality machine-made sand to solve the problems existing in the prior art.

Utility model content

In view of the above problems, the utility model proposes a sewage recovery device based on high-quality machine-made sand. The sewage recovery device based on high-quality machine-made sand is mainly used on the sedimentation tank, and the driving pump of the driving component is set, and the driving pump is connected to the upper reversing Valve, since the reversing valve has a reversing cavity, and there are two sets of pneumatic pistons in the reversing cavity, it can flexibly switch the driving direction of the water body according to the needs of use, which can ensure efficient processing of purification and filtration It is still convenient for users to quickly replace the purification components.

In order to achieve the purpose of the utility model, the utility model is realized through the following technical solutions: a sewage recovery device based on fine machine-made sand, including a sedimentation component and a filter member, and a driving mechanism is arranged on one side of the sedimentation component, and the The two ends of the driving mechanism are sleeved with filter members installed above the two ends of the sedimentation assembly;

The filter member includes a bolt bracket, a filter tank, a bolt top plate, a water inlet, an inner clamp frame, a dense grid, a filter cotton ball group, an activated carbon group, a dredging grid and a drain valve, and the bolt bracket is arranged on the Above the two ends of the settling assembly, the top side of the bolt bracket is provided with a filter tank connected by bolts to the top plate of the bolt. There are two sets of inner clamping frames, and one end of the inner clamping frame is provided with a dense grid grid, and the other end of the inner clamping frame is provided with a loose grid grid inside, and the dense grid grid and the sparse grid grid are arranged A group of filter cotton balls is arranged between them, and an activated carbon group is arranged inside the group of filter cotton balls.

A further improvement is that the filter tank and the bolt top plate are connected by bolts, and the water inlet, the filter tank and the drain valve port form a one-way flow structure.

A further improvement is that the dense grid and the sparse grid are parallel to each other, and the mesh of the dense grid is smaller than the sparse grid, and the filter cotton ball group and the activated carbon group are attached to each other.

As a further improvement, the settling assembly includes a support pad, a double connecting plate, a first tank, a duct pipe and a second tank, the top side of the supporting pad is provided with a double connecting plate, and above one end of the double connecting plate A first pool is provided, and one end of the first pool is connected to the second pool through a bypass pipe.

As a further improvement, the drive mechanism includes a side top plate, a water suction pipe, a pump body, a drive motor, a reversing valve, a valve cavity pipe, a pneumatic piston, and a water delivery pipe, and the side top plate is arranged on the top side of the second pool, A suction pipe is sleeved on the inner side of the side top plate, a pump body connected to the output end of the driving motor is sleeved on one end of the water suction pipe, and a reversing valve is sleeved on the input end of the pump body.

It is further improved that a valve chamber pipe is provided inside the reversing valve, and a pneumatic piston is provided inside both ends of the valve chamber pipe, and the two ends of the valve chamber pipe pass through the valve chamber pipe and are connected with sleeves. The water pipe of the water inlet.

The beneficial effects of the utility model are:

The utility model is mainly used in the sedimentation tank, and the driving pump of the driving assembly is arranged, and the driving pump is connected to the reversing valve, because the reversing valve has a reversing cavity, and the reversing cavity has two sets of pneumatic valves. The piston can therefore flexibly switch the driving direction of the water body according to the needs of use, so that it can still facilitate the user to quickly replace the purification components while ensuring the efficient processing of purification and filtration.

Description of drawings

Fig. 1 is the three-dimensional structure schematic diagram of the present utility model;

Fig. 2 is the side view three-dimensional structure schematic diagram of the utility model;

Fig. 3 is the structural representation of the reversing valve of the present utility model;

Fig. 4 is a schematic diagram of a three-dimensional cross-sectional structure of a filter member of the present invention.

Among them: 1. Sedimentation component; 101. Support pad; 102. Double connecting plate; 103. First tank; 104. Duct pipe; 105. Second tank; 2. Driving mechanism; 201. Side roof; ; 203, pump body; 204, drive motor; 205, reversing valve; 206, valve cavity pipe; 207, pneumatic piston; 208, water pipe; 3, filter component; 301, bolt bracket; Bolt top plate; 304, water inlet; 305, inner clip frame; 306, dense grid; 307, filter cotton ball group; 308, activated carbon group; 309, dredging grid; 3010, drain valve port.

Detailed ways

In order to deepen the understanding of the utility model, the utility model will be further described below in conjunction with the examples. The examples are only used to explain the utility model, and do not constitute a limitation to the protection scope of the utility model.

As shown in Figures 1-4, this embodiment proposes a sewage recovery device based on fine machine-made sand, including a sedimentation assembly 1 and a filter member 3, a driving mechanism 2 is arranged on one side of the sedimentation assembly 1, and the driving mechanism 2 The two sides of both ends are sleeved with filter members 3 installed above the two ends of the sedimentation assembly 1;

The filter member 3 includes a bolt bracket 301, a filter tank 302, a bolt top plate 303, a water inlet 304, an inner clamp frame 305, a dense grid 306, a filter cotton ball group 307, an activated carbon group 308, a dredging grid 309 and a drain valve port 3010, the bolt bracket 301 is arranged above the two ends of the sedimentation assembly 1, the top side of the bolt bracket 301 is provided with a filter tank 302 which is bolted to the bolt top plate 303, and the two ends of the filter tank 302 are provided with a water inlet 304 and a discharge valve port 3010, two groups of inner clamping frames 305 are arranged on the inner side of the filter pool 302, and a dense grid mesh 306 is arranged on the inner side of one end of the inner clamping frame 305, and a sparse grid mesh 309 is arranged on the inner side of the other end of the inner clamping frame 305, and the dense grid A filter cotton ball set 307 is arranged between the grid 306 and the loose mesh grid 309 , and an activated carbon set 308 is arranged inside the filter cotton ball set 307 .

The filter tank 302 and the bolt top plate 303 are connected by bolts, and the water inlet 304 forms a one-way flow structure with the filter tank 302 and the drain valve port 3010 .

In this embodiment, when the user replaces the equipment, the equipment is opened by opening the bolt top plate 303 on the top side of the filter tank 302, and the filter cotton ball group between the dense mesh 306 and the loose mesh 309 that have been lost 307 and active carbon group 308 transfer equipment, to reach the effect of cleaning.

The dense grid 306 and the sparse grid 309 are parallel to each other, and the mesh of the dense grid 306 is smaller than the sparse grid 309 , and the filter cotton ball group 307 and the activated carbon group 308 are attached to each other.

In this embodiment, the water extracted by the driving mechanism 2 is input into the filter tank 302 through the water inlet 304, and passes through the dense grid mesh 306 on the inner side of one end of the inner clamping frame 305 to achieve the effect of preliminary isolation. After the isolation of the water body, After the filter cotton ball group 307 and the activated carbon group 308 are sequentially purified to achieve the effect of deep purification, the purified water is then discharged through the dredging grid 309, and finally output to the device through the drain valve port 3010 at one end of the filter pool 302.

The settling assembly 1 comprises a support pad 101, a double connecting plate 102, a first pool 103, a duct pipe 104 and a second pool 105, the top side of the supporting pad 101 is provided with a double connecting plate 102, and one end of the double connecting plate 102 is provided There is a first pool 103 , and one end of the first pool 103 is connected to the second pool 105 through a bypass pipe 104 .

In this embodiment, the equipment is installed at the place of processing through the double connecting plate 102 equipped with the support pad 101, the first pool 103 is supported, the sewage is placed in the first pool 103, and the first pool 103 carries out Preliminary precipitation makes the settled sewage enter the second pool 105 through the bypass pipe 104 .

The driving mechanism 2 includes a side top plate 201, a water suction pipe 202, a pump body 203, a drive motor 204, a reversing valve 205, a valve cavity pipe 206, a pneumatic piston 207 and a water delivery pipe 208, and the side top plate 201 is arranged on the top side of the second pool 105 The inner side of the side top plate 201 is socketed with a suction pipe 202, one end of the suction pipe 202 is socketed with a pump body 203 connected to the output end of the drive motor 204, and the input end of the pump body 203 is socketed with a reversing valve 205.

In this embodiment, after the water body enters the second pool 105, the pump body 203 is driven to run by starting the drive motor 204 to output power, so that the pump body 203 extracts the water body in the second pool 105 through the suction pipe 202, so that The pumped water body is input to the effect of the valve cavity pipe 206 among the reversing valve 205 through the pump body 203 .

The inside of the reversing valve 205 is provided with a valve cavity pipe 206, and the inside of both ends of the valve cavity pipe 206 is provided with a pneumatic piston 207. 208.

In this embodiment, according to the needs of maintenance and replacement, the pneumatic pistons 207 at both ends of the valve chamber pipe 206 are activated to dredge and block the two ends of the valve chamber pipe 206 according to the needs of the user. Through the operation of reversing, the water body The water pipe 208 at one end of the valve chamber pipe 206 is input into a group of water inlets 304 .

The working principle of the waste water recovery device based on high-quality machine-made sand is: firstly, the sewage is placed in the first pool 103, and the first pool 103 conducts preliminary precipitation, so that the settled sewage enters the second pool through the bypass pipe 104. In the pool 105, after the water body enters the second pool 105, the pump body 203 is driven to run by starting the drive motor 204 to output power, so that the pump body 203 extracts the water body in the second pool 105 through the suction pipe 202, so that The pumped water is input to the valve cavity tube 206 in the reversing valve 205 through the pump body 203. According to the needs of maintenance and replacement, the pneumatic piston 207 at both ends of the valve cavity tube 206 is activated to make the valve cavity tube 206 The two ends of the valve are dredged and blocked according to the needs. Through the operation of reversing, the water body is input into a group of water inlets 304 through the water delivery pipe 208 at one end of the valve cavity pipe 206, and the water pumped by the driving mechanism 2 passes through the water inlet 304. Input into the filter pool 302, through the dense grid mesh 306 on the inner side of the inner clamp frame 305 to achieve the effect of preliminary isolation, through the isolated water body, through the sequential purification of the filter cotton ball group 307 and the activated carbon group 308, to achieve The effect of deep purification is discharged through the purified water body through the dredging grid 309 , and finally output to the equipment through the discharge valve port 3010 at one end of the filter tank 302 .

The basic principles, main features and advantages of the present utility model have been shown and described above. Those skilled in the art should understand that the utility model is not limited by the above-mentioned embodiments. The above-mentioned embodiments and descriptions only illustrate the principle of the utility model. Without departing from the spirit and scope of the utility model, the utility model The new model also has various changes and improvements, and these changes and improvements all fall within the scope of the claimed utility model. The scope of protection required by the utility model is defined by the appended claims and their equivalents.

Claims (6)

1. The utility model provides a based on fine work mechanism sewage recovery unit for sand, includes precipitation component (1) and filtering component (3), its characterized in that: a driving mechanism (2) is arranged above one side of the precipitation component (1), and two side ends of the driving mechanism (2) are sleeved with filtering components (3) arranged above two ends of the precipitation component (1);

the filter element (3) comprises a bolt support (301), a filter tank (302), a bolt top plate (303), a water inlet (304), an inner clamping frame (305), a dense grid net (306), a cotton filter ball group (307), an active carbon group (308), a sparse grid net (309) and a liquid discharge valve port (3010), wherein the bolt support (301) is arranged above two ends of the sedimentation assembly (1), the top side of the bolt support (301) is provided with the filter tank (302) connected with the bolt top plate (303) through bolts, two ends of the filter tank (302) are provided with the water inlet (304) and the liquid discharge valve port (3010), two groups of inner clamping frames (305) are arranged on the inner side of the filter tank (302), the dense grid net (306) is arranged on the inner side of one end of the inner clamping frame (305), the sparse grid net (309) is arranged on the inner side of the other end of the inner clamping frame (305), the cotton filter ball group (307) is arranged between the dense grid net (306) and the sparse grid net (309), and the active carbon group (308) is arranged on the inner side of the cotton filter ball group (307).

2. The fine-quality-mechanism-sand-based sewage recovery device as claimed in claim 1, wherein: the filter tank (302) is connected with the bolt top plate (303) through bolts, and the water inlet (304), the filter tank (302) and the liquid discharge valve port (3010) form a one-way circulation structure.

3. The fine-quality-mechanism-sand-based sewage recovery device as claimed in claim 1, wherein: the dense grid net (306) and the sparse grid net (309) are parallel to each other, the meshes of the dense grid net (306) are smaller than those of the sparse grid net (309), and the cotton filter ball group (307) and the activated carbon group (308) are attached to each other.

4. The fine-quality-mechanism-sand-based sewage recovery device as claimed in claim 1, wherein: the sedimentation assembly (1) comprises a supporting pad (101), double-connecting plates (102), a first pool (103), a duct pipe (104) and a second pool (105), wherein the double-connecting plates (102) are arranged on the top side of the supporting pad (101), the first pool (103) is arranged above one end of each double-connecting plate (102), and one end of the first pool (103) is connected with the second pool (105) through the duct pipe (104).

5. The fine-machining-sand-based sewage recovery device as claimed in claim 4, wherein the fine-machining-sand-based sewage recovery device comprises: drive mechanism (2) are including side roof (201), drinking-water pipe (202), the pump body (203), driving motor (204), switching-over valve (205), valve pocket pipe (206), pneumatic piston (207) and raceway (208), side roof (201) set up the top side in second pond (105), the inboard of side roof (201) has cup jointed drinking-water pipe (202), the pump body (203) of connecting driving motor (204) output is cup jointed to the one end of drinking-water pipe (202), switching-over valve (205) have been cup jointed to the input of the pump body (203).

6. The fine-machining-sand-based sewage recovery device as claimed in claim 5, wherein the fine-machining-sand-based sewage recovery device comprises: a valve cavity pipe (206) is arranged on the inner side of the reversing valve (205), pneumatic pistons (207) are arranged on the inner sides of two ends of the valve cavity pipe (206), and two ends of the valve cavity pipe (206) penetrate through the valve cavity pipe (206) and are connected with a water conveying pipe (208) sleeved with a water inlet (304).

Images