CN216654109U - Mine wastewater film treatment device - Google Patents

Abstract

The utility model discloses a mine wastewater membrane treatment device which comprises a treatment tank, wherein a liquid inlet pipe is arranged at the top of the treatment tank, a support is arranged on the inner wall of the top of the treatment tank, a buffer spring is arranged at the top of the support, the top end of the buffer spring is connected with a mounting box, a through hole is formed in the bottom of the mounting box, a membrane assembly is mounted in the mounting box, a buffer mechanism is arranged on the inner wall of the treatment tank, the other end of the buffer mechanism is connected with the mounting box, a feed inlet and a driving motor are arranged on the side wall of the treatment tank, an output shaft of the driving motor penetrates through the treatment tank and is sleeved with a plurality of fixing rings, a plurality of stirring blades are arranged on the side wall of the fixing rings, and a liquid discharge pipe is arranged at the bottom of the treatment tank. The utility model can reduce the impact of sewage on the membrane component, prolong the service life of the membrane component, and has simple integral structure and convenient use.

Description

Mine wastewater film treatment device

Technical Field

The utility model relates to the field of mine wastewater treatment equipment, in particular to a mine wastewater membrane treatment device.

Background

In mining, a large amount of water resources are needed for flushing, sewage after flushing cannot be discharged at will, and in the prior art, sewage is subjected to situational treatment through a sewage treatment device and then is subjected to secondary utilization. The existing mine wastewater membrane treatment device can directly flush sewage to a membrane component in the use process, and the membrane component is violently shaken due to the fact that a certain buffer structure is not arranged, so that the membrane component can be damaged after long-term use.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is to overcome the technical defects and provide a mine wastewater membrane treatment device.

In order to solve the problems, the technical scheme of the utility model is as follows: the utility model provides a mine waste water membrane processing apparatus, includes the processing jar, it is equipped with the feed liquor pipe to handle tank deck portion, it is equipped with the support to handle tank deck portion inner wall, the support top is equipped with buffer spring, the mounting box is connected on the buffer spring top, the mounting box bottom is equipped with the through-hole, install the membrane module in the mounting box, it is equipped with buffer gear to handle tank deck portion inner wall, the mounting box is connected to the buffer gear other end, it is equipped with feed inlet and driving motor to handle the jar lateral wall, the processing jar is worn to establish by the driving motor output shaft, and the cover establishes a plurality of solid fixed rings, the solid fixed ring lateral wall is equipped with a plurality of stirring vane, it is equipped with the fluid-discharge tube to handle the tank bottoms portion.

Further, buffer gear includes sealed jar one, sealed jar two, connecting rod, piston one, expanding spring two, closing plate, dead lever and piston two, be equipped with hydraulic oil in the sealed jar one, sealed jar two is connected to sealed jar top one end, sealed jar one end is inserted and is established the connecting rod, the mounting box is connected to the connecting rod, and piston one is connected to the other end, sealed jar inner wall is connected to the one end of expanding spring one, other end butt piston one, be equipped with hourglass form cavity in the sealed jar two, two inner walls of sealed jar are connected on two tops of expanding spring, the closing plate is connected to the bottom, the dead lever is connected to the closing plate bottom surface, piston two is connected to the dead lever bottom, piston two closely cooperates with the narrowest department of hourglass form cavity.

Further, the bottom of the liquid inlet pipe is provided with a horn-shaped structure.

Further, the driving motor outside is equipped with the protective housing, be equipped with a plurality of louvres on the protective housing, be equipped with the dust screen in the louvre.

Further, a rubber plug is arranged on the liquid discharge pipe.

Further, the end part of the feed inlet is provided with a cover plate.

Compared with the prior art, the utility model has the advantages that: the horn-shaped structure can reduce the flow velocity of sewage entering the treatment tank and reduce the impact on the membrane module; the buffer mechanism can offset impact in the horizontal direction, and the impact resistance of the membrane component can be improved by matching with the buffer spring, so that the service life of the whole device is prolonged. The utility model can reduce the impact of sewage on the membrane component, prolong the service life of the membrane component, and has simple integral structure and convenient use.

Drawings

FIG. 1 is a block diagram of the present invention.

Fig. 2 is a schematic structural view of the damper mechanism.

As shown in the figure: 1. a treatment tank; 2. a liquid inlet pipe; 3. a horn-like structure; 4. a support; 5. a buffer spring; 6. mounting a box; 7. a membrane module; 8. a buffer mechanism; 8.1, sealing the cylinder I; 8.2, sealing the second cylinder; 8.3, connecting rods; 8.4, a piston I; 8.5, a first expansion spring; 8.6, a second expansion spring; 8.7, sealing plates; 8.8, fixing the rod; 8.9, a piston II; 9. a feed inlet; 10. a drive motor; 11. a fixing ring; 12. a stirring blade; 13. and a liquid discharge pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in figure 1, a mine wastewater membrane treatment device comprises a treatment tank 1, wherein a liquid inlet pipe 2 is arranged at the top of the treatment tank 1, a horn-shaped structure 3 is arranged at the bottom of the liquid inlet pipe 2, a support 4 is arranged on the inner wall of the top of the treatment tank 1, a buffer spring 5 is arranged at the top of the support 4, a mounting box 6 is connected at the top end of the buffer spring 5, a through hole is formed at the bottom of the mounting box 6, a membrane assembly 7 is mounted in the mounting box 6, a buffer mechanism 8 is arranged on the inner wall of the treatment tank 1, the other end of the buffer mechanism 8 is connected with the mounting box 6, a feed inlet 9 and a driving motor 10 are arranged on the side wall of the treatment tank 1, a cover plate is arranged at the end part of the feed inlet 9, a protective shell is arranged outside the driving motor 10, a plurality of heat dissipation holes are formed in the protective shell, a dustproof net is arranged in the heat dissipation holes, an output shaft of the driving motor 10 penetrates through the treatment tank 1 and is sleeved with a plurality of fixing rings 11, a plurality of stirring blades 12 are arranged on the side wall of the fixing rings 11, a liquid discharge pipe 13 is arranged at the bottom of the treatment tank 1, a rubber stopper is provided on the liquid discharge tube 13.

As shown in fig. 2, the buffer mechanism 8 comprises a first sealing cylinder 8.1, a second sealing cylinder 8.2, a connecting rod 8.3 and a first piston 8.4, the sealing device comprises a first telescopic spring 8.5, a second telescopic spring 8.6, a sealing plate 8.7, a fixed rod 8.8 and a second piston 8.9, hydraulic oil is filled in a first sealing cylinder 8.1, one end of the top of the first sealing cylinder 8.1 is connected with a second sealing cylinder 8.2, one end of the first sealing cylinder 8.1 is inserted into a connecting rod 8.3, the connecting rod 8.3 is connected with a mounting box 6, the other end of the first sealing cylinder is connected with a first piston 8.4, one end of the first telescopic spring 8.5 is connected with the inner wall of the first sealing cylinder 8.1, the other end of the first telescopic spring is abutted against the first piston 8.4, a hourglass-shaped cavity is arranged in the second sealing cylinder 8.2, the top end of the second telescopic spring 8.6 is connected with the inner wall of the second sealing cylinder 8.2, the bottom of the sealing plate 8.7 is connected with the bottom surface of the fixed rod 8.8, the bottom end of the fixed rod 8.8 is connected with the second piston 8.9, the second piston 8.9 is tightly matched with the narrowest part of the hourglass-shaped cavity, vent hole is formed in the second piston 8.9, and a sealing strip is arranged on the outer wall of the piston, and a sealing strip is arranged on the outer wall.

In specific use, in sewage gets into treatment tank 1 from feed liquor pipe 2, the velocity of flow after the horn structure 3 can reduce sewage and get into treatment tank 1, sewage passes through membrane module 7, then flows downwards by the through-hole of mounting box 6 bottoms, will handle the medicament and dissolve feed inlet 9 and pour into, and driving motor 10 drives stirring vane 12 and accelerates the contact of medicament and sewage to improve the efficiency of handling, the liquid that finishes of handling discharges treatment tank 1 through fluid-discharge tube 13.

The buffer spring 5 can reduce the impact of sewage on the membrane component 7 caused by direct flushing, the buffer mechanism 8 can reduce the horizontal impact generated when the sewage moves in the membrane component 7, the connecting rod 8.3 drives the first piston 8.4 to compress the first expansion spring 8.5 and extrude hydraulic oil into the second sealing cylinder 8.2, the hydraulic oil extrudes air in the second sealing cylinder 8.2, the air pushes the second piston 8.9 upwards to compress the second expansion spring 8.6, in the process, the impact is gradually counteracted, after the impact disappears, the first expansion spring 8.5 and the second expansion spring 8.6 release elastic potential energy, and the first piston 8.4 and the second piston 8.9 return to the original positions.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (6)

1. A mine wastewater membrane treatment device is characterized in that: comprises a treatment tank (1), a liquid inlet pipe (2) is arranged at the top of the treatment tank (1), a support (4) is arranged on the inner wall of the top of the treatment tank (1), a buffer spring (5) is arranged on the top of the support (4), the top end of the buffer spring (5) is connected with a mounting box (6), the bottom of the mounting box (6) is provided with a through hole, a membrane component (7) is arranged in the mounting box (6), a buffer mechanism (8) is arranged on the inner wall of the treatment tank (1), the other end of the buffer mechanism (8) is connected with the mounting box (6), the side wall of the processing tank (1) is provided with a feeding hole (9) and a driving motor (10), the output shaft of the driving motor (10) penetrates through the processing tank (1), and a plurality of fixed rings (11) are sleeved, the side walls of the fixed rings (11) are provided with a plurality of stirring blades (12), and the bottom of the treatment tank (1) is provided with a liquid discharge pipe (13).

2. The mine wastewater membrane treatment plant according to claim 1, characterized in that: the buffer mechanism (8) comprises a first sealing cylinder (8.1), a second sealing cylinder (8.2), a connecting rod (8.3), a first piston (8.4), a first expansion spring (8.5), a second expansion spring (8.6), a sealing plate (8.7), a fixed rod (8.8) and a second piston (8.9), hydraulic oil is filled in the first sealing cylinder (8.1), one end of the top of the first sealing cylinder (8.1) is connected with the second sealing cylinder (8.2), one end of the first sealing cylinder (8.1) is inserted with the connecting rod (8.3), the connecting rod (8.3) is connected with the mounting box (6), the other end of the first sealing cylinder (8.4) is connected with the first piston (8.1), the other end of the first expansion spring (8.5) is abutted against the first piston (8.4), a hourglass-shaped cavity is arranged in the second sealing cylinder (8.2), the top end of the second expansion spring (8.6) is connected with the inner wall of the second sealing cylinder (8.2), and the bottom of the sealing cylinder (8.7) is connected with the sealing plate (8.7), and the bottom surface of the sealing plate (8.7) is connected with a fixing rod (8.8), the bottom end of the fixing rod (8.8) is connected with a second piston (8.9), and the second piston (8.9) is tightly matched with the narrowest part of the hourglass-shaped cavity.

3. The mine wastewater membrane treatment plant according to claim 1, characterized in that: the bottom of the liquid inlet pipe (2) is provided with a horn-shaped structure (3).

4. The mine wastewater membrane treatment plant according to claim 1, characterized in that: the protection shell is arranged on the outer side of the driving motor (10), a plurality of heat dissipation holes are formed in the protection shell, and dust screens are arranged in the heat dissipation holes.

5. The mine wastewater membrane treatment plant according to claim 1, characterized in that: a rubber plug is arranged on the liquid discharge pipe (13).

6. The mine wastewater membrane treatment plant according to claim 1, characterized in that: the end part of the feed inlet (9) is provided with a cover plate.

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