CN211963242U

CN211963242U - Mud-water separation device

Info

Publication number: CN211963242U
Application number: CN202020494309.1U
Authority: CN
Inventors: 陈永明
Original assignee: WUXI LEPU METAL TECHNOLOGY CO LTD
Current assignee: WUXI LEPU METAL TECHNOLOGY CO LTD
Priority date: 2020-04-07
Filing date: 2020-04-07
Publication date: 2020-11-20
Anticipated expiration: 2030-04-07

Abstract

The utility model discloses a mud-water separation device for metal processing, transversely be provided with the baffle in the separator box, the baffle is cut apart into the separator box from top to bottom mixing chamber and liquid material chamber, the side in liquid material chamber is provided with the fluid-discharge tube, one side upper surface that the fluid-discharge tube was kept away from to the separator box is provided with the communicating inlet pipe in mixing chamber, the mixing intracavity is provided with push rod device and blocks the piece, push rod device sliding connection is at the baffle upper surface, and on the inner wall that the fluid-discharge tube was kept away from to the push rod device in the mixing chamber, block the piece and correspond the setting with push rod device, there is the interval in the separator box side that blocks piece and fluid-discharge tube place, blocks two side phase-matches that the piece is relative with push rod device. The utility model provides a problem of current mud-water separation difficulty, utilize the baffle to form the autosegregation of metal mud bits and profit, utilize the push rod device simultaneously and stop the piece and realized gathering materials of metal mud bits and piling up, realized high efficiency mud-water separation.

Description

Mud-water separation device

Technical Field

The utility model belongs to the metal processing field, concretely relates to a mud-water separation device for metal processing.

Background

The sewage produced in the steel rolling, continuous casting and metal processing production processes in the metallurgical industry is characterized by high oil content, the oil content of the sewage can reach more than 2000mg/l, the water contains a large amount of mud residue and impurities, the content of suspended matters is high, the content of the suspended matters is more than 200mg/l, and the water quantity is not large. In the processing process of the factory, a metal groove is directly connected with processing equipment generally, and then the accumulated wastewater is sent to a wastewater treatment plant. However, with the rise of environmental requirements, there is a further demand for the solid-liquid structure of wastewater, and generally, wastewater containing oil and slag cannot be directly sent to a wastewater treatment plant, and it is necessary to separate solid and liquid in advance and collect them separately.

SUMMERY OF THE UTILITY MODEL

Problem to among the prior art, the utility model provides a current mud-water separation difficulty's problem utilizes the baffle to form the autosegregation of metal mud bits and profit, utilizes the push rod device simultaneously and blocks that the piece has realized gathering materials of metal mud bits and piles up, has realized high efficiency mud-water separation.

In order to realize the technical purpose, the technical proposal of the utility model is that:

a mud-water separation device comprises a separation box, wherein a partition plate is transversely arranged in the separation box and divides the separation box into a mixing cavity and a liquid cavity from top to bottom, the partition plate adopts an inclined grid plate, a metal mesh is filled in a chute of the inclined grid plate, a liquid discharge pipe is arranged on the side surface of the liquid cavity, a stop valve is arranged in the liquid discharge pipe, a feeding pipe communicated with the mixing cavity is arranged on the upper surface of one side of the separation box away from the liquid discharge pipe, the feeding pipe is obliquely arranged and communicated with an external metal processing device, a push rod device and a blocking block are arranged in the mixing cavity, the push rod device is slidably connected to the upper surface of the partition plate, the push rod device is close to the inner wall of the mixing cavity away from the liquid discharge pipe, the blocking block is arranged corresponding to the push rod device and close to the side surface of the separation box where the liquid discharge pipe is located, and a distance exists between the blocking block and the side, the spacing is a material collecting area, the height of the blocking block is not higher than that of the push rod device, and the blocking block is matched with two opposite side faces of the push rod device.

Furthermore, a mesh bag is arranged in the material collection area, an outer peripheral ring of a bag opening of the mesh bag is tightly attached to an inner peripheral ring of the material collection area, and a feed port of the material collection area is completely covered.

Furthermore, the upper surface of the separation box above the material collection area is provided with a turnover plate, and one side of the turnover plate is fixed on the separation box through a hinge.

Further, the push rod device comprises a slide block, the slide block is higher than the height of the blocking block, the slide block is connected to the upper surface of the partition plate, the slide block is matched with two opposite side faces of the blocking block, a positioning column is arranged at the upper end of the slide block, a push rod is arranged on one side, away from the liquid discharge pipe, of the positioning column, one end of the push rod extends out of the side wall of the separation box and is connected with the handle.

Still further, the area of the junction of the side face of the sliding block and the stop block is arc-shaped.

Furthermore, the upper surface of the blocking block is of an inclined structure, and the inclined structure is that the feeding pipe inclines towards the direction of the liquid discharge pipe; the utility model discloses a stop the slider, including the stopper, the stopper is provided with the recess on the side that the stopper is close to the slider, just the recess is located the lower half of stopper, the recess is by supreme first buffer and the second buffer that is provided with down, just first buffer upper surface and the laminating of second buffer lower surface slide, the lateral surface of first buffer and second buffer all with the relative regional phase-match on the slider, first buffer length slightly is greater than second buffer.

As can be seen from the above description, the present invention has the following advantages:

1. the utility model provides a problem of current mud-water separation difficulty, utilize the baffle to form the autosegregation of metal mud bits and profit, utilize the push rod device simultaneously and stop the piece and realized gathering materials of metal mud bits and piling up, realized high efficiency mud-water separation.

2. The utility model discloses utilize the pocket to form and filter the collection effect, solved the problem that the metal mud bits are difficult to the clearance, promoted the treatment effeciency of metal mud bits greatly.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a damping block in the embodiment of the present invention.

Detailed Description

With reference to fig. 1 and 2, a specific embodiment of the present invention is described in detail, but the present invention is not limited to the claims.

As shown in figures 1 and 2, the mud-water separation device comprises a separation box 1, a partition plate 4 is transversely arranged in the separation box 1, the separation box 1 is divided into a mixing cavity and a liquid cavity from top to bottom by the partition plate 4, the partition plate 4 adopts an inclined grid plate, a metal mesh is filled in an inclined groove of the inclined grid plate, a liquid discharge pipe 3 is arranged on the side surface of the liquid cavity, a stop valve is arranged in the liquid discharge pipe, a feeding pipe 2 communicated with the mixing cavity is arranged on the upper surface of one side of the separation box 1 away from the liquid discharge pipe 3, the feeding pipe 2 is obliquely arranged and communicated with an external metal processing device, metal mud scraps generated in the metal processing process are introduced into the separation box, a push rod device 5 and a stop block 6 are arranged in the mixing cavity, the push rod device 5 is slidably connected to the upper surface of the partition plate 4, and the push rod device 5 is close to the inner wall of the mixing cavity away from the liquid discharge, the blocking block 6 is arranged corresponding to the push rod device 5, the blocking block 6 is close to the side face of the separation box 1 where the liquid discharge pipe 3 is located, a space exists between the blocking block 6 and the side face of the separation box 1 where the liquid discharge pipe 3 is located, the space is a material collecting area, the height of the blocking block 6 is not higher than that of the push rod device 5, and two opposite side faces of the blocking block 6 and the push rod device 5 are matched; the push rod device can move back and forth on the partition plate, when the push rod device is pushed towards the blocking block, metal mud scraps on the upper surface of the partition plate are pushed by the push rod device and move towards the blocking block, when the push rod device pushes the blocking block, the opposite side surfaces of the push rod device and the blocking block are matched, the metal mud scraps between the push rod device and the blocking block are promoted to move upwards, when the push rod device and the blocking block are completely matched, the metal mud scraps move upwards and roll over the blocking block and slide into the material collecting area, and simultaneously oil and water along with the metal mud scraps fall into the liquid material cavity through the partition plate at the bottom; in this technical scheme, the baffle adopts oblique grid tray to the chute of oblique grid tray is filled up with the metal mesh, can play good filter effect, ensures profit quickly separating to liquid material intracavity, and the metal mud bits generally are the tiny particle structure simultaneously, can be held back at the compounding intracavity by the baffle, has realized the quickly separating of metal mud bits and profit.

Furthermore, a mesh bag 7 is arranged in the material collecting area, an outer circumference ring of a bag opening of the mesh bag 7 is tightly attached to an inner circumference ring of the material collecting area, and a feed inlet of the material collecting area is completely covered; the partition board can have a good filtering effect, but the partition board is of a mesh structure, and when a large amount of metal mud scraps enter the material collecting area, the metal mud scraps at the bottom are extruded into the meshes of the partition board and are difficult to clean; the pocket setting is in the district that gathers materials to the feed inlet that will gather materials the district covers completely, and this design can directly gather materials to the pocket with the metal mud bits in, and the porous design of pocket itself can ensure the flash separation of profit and metal mud bits, reaches the purpose of gathering materials, can directly take away simultaneously, convenient and fast.

Furthermore, a turnover plate 8 is arranged on the upper surface of the separation box 1 above the material collection area, and one side of the turnover plate 8 is fixed on the separation box 1 through a hinge; for conveniently clearing up the metal mud bits, seted up the discharge gate on the separator box, open discharge gate does not accord with the environmental protection requirement, consequently, is provided with the returning face plate on the discharge gate, and the returning face plate passes through hinged joint on the separator box, reaches to rotate and connects, does not influence the closure of separator box, also satisfies the requirement of wasing the metal mud bits.

Further, the push rod device 5 comprises a slide block 5-1, the slide block 5-1 is higher than the stop block 6, the slide block 5-1 is connected to the upper surface of the partition plate 4, the slide block 5-1 is matched with two opposite side surfaces of the stop block 6, a positioning column 5-2 is arranged at the upper end of the slide block 5-1, a push rod 5-3 is arranged on one side of the positioning column 5-2, which is far away from the liquid discharge pipe 3, and one end of the push rod 5-3 extends out of the side wall of the separation box 1 and is connected with a handle 5-4; in the use process of the push rod device, thrust is applied to the handle, the push rod on the handle is subjected to the thrust and moves towards the inside of the separation box, so that the sliding block connected with the positioning column moves towards the blocking block, and the sliding block is connected with the blocking block along with continuous pushing of the push rod, so that the effect of extruding metal sludge is achieved.

Furthermore, the area of the joint of the side surface of the sliding block 5-1 and the stop block 6 is arc-shaped. The design of arc structure can guarantee that the metal mud bits form buffer structure when receiving the extrusion, helps promoting the metal mud bits transfer efficiency between slider and the stopper.

Furthermore, the upper surface of the blocking block 6 is of an inclined structure, and the inclined structure is that the feeding pipe inclines towards the direction of the liquid discharge pipe; the inclined structure can ensure that the metal sludge pushed by the push rod device can slide downwards along the inclined structure under the action of gravity, and the problem of accumulation of the metal sludge on the upper surface of the stop block is effectively solved; the side face, close to the sliding block, of the blocking block 6 is provided with a groove 6-2, the groove 6-2 is located on the lower half portion of the blocking block 6, the groove 6-2 is provided with a first buffering device 6-21 and a second buffering device 6-22 from bottom to top, the upper surface of the first buffering device 6-21 and the lower surface of the second buffering device 6-22 are attached to slide, the outer side face of the first buffering device and the outer side face of the second buffering device are matched with the corresponding area on the sliding block, and the length of the first buffering device is slightly larger than that of the second buffering device. The first buffer device and the second buffer device are arranged in parallel from bottom to top, the length of the first buffer device is slightly larger than that of the second buffer device, meanwhile, the elasticity of the first buffer device is larger than that of the second buffer device, when the sliding block contacts with the blocking block, the first buffer device preferentially contacts the sliding block, metal mud at the bottom can be slowly lifted, then when the sliding block contacts with the second buffer device, the first buffer device still closely contacts the sliding block, the metal mud upwards moves to pass through the blocking block, and the effect of gradient type extrusion cleaning of the metal mud is achieved. The first buffer device comprises a first buffer block 6-211 and a first spring column 6-212 used for connecting the first buffer block and the inner side surface of the groove, and the first spring column can play a role in connection and elasticity to ensure that the first buffer block forms a good elastic connection structure; the second buffer device is similar to the first buffer device in structure and comprises second buffer blocks 6-221 and second spring columns 6-222, and the second buffer blocks are connected with the inner side faces of the grooves through the second spring columns and are endowed with elastic connection effects.

To sum up, the utility model has the advantages of it is following:

It should be understood that the above detailed description of the present invention is only for illustrative purposes and is not limited to the technical solutions described in the embodiments of the present invention. It will be understood by those skilled in the art that the present invention may be modified and equivalents may be substituted to achieve the same technical effects; as long as the use requirement is satisfied, the utility model is within the protection scope.

Claims

1. A mud-water separator which is characterized in that: the separation box is divided into a mixing cavity and a liquid cavity from top to bottom by the partition plate, the partition plate adopts an inclined grid plate, a metal mesh is filled in an inclined groove of the inclined grid plate, a liquid discharge pipe is arranged on the side surface of the liquid cavity, a stop valve is arranged in the liquid discharge pipe, a feeding pipe communicated with the mixing cavity is arranged on the upper surface of one side of the separation box away from the liquid discharge pipe, the feeding pipe is obliquely arranged and communicated with an external metal processing device, a push rod device and a blocking block are arranged in the mixing cavity, the push rod device is slidably connected to the upper surface of the partition plate, the push rod device is close to the inner wall of the mixing cavity away from the liquid discharge pipe, the blocking block is arranged corresponding to the push rod device and close to the side surface of the separation box where the liquid discharge pipe is located, and a distance exists between the blocking block and the side surface of the separation box where the liquid discharge pipe is, the spacing is a material collecting area, the height of the blocking block is not higher than that of the push rod device, and the blocking block is matched with two opposite side faces of the push rod device.

2. The mud-water separation device according to claim 1, wherein: the material collecting area is internally provided with a mesh bag, the outer periphery of the bag opening of the mesh bag is tightly attached to the inner periphery of the material collecting area, and the feed inlet of the material collecting area is completely covered.

3. The mud-water separation device according to claim 1, wherein: the upper surface of the separation box above the material collection area is provided with a turnover plate, and one side of the turnover plate is fixed on the separation box through a hinge.

4. The mud-water separation device according to claim 1, wherein: the push rod device comprises a slide block, the slide block is higher than the height of the blocking block, the slide block is connected to the upper surface of the partition plate, the slide block is matched with two opposite side surfaces of the blocking block, a positioning column is arranged at the upper end of the slide block, a push rod is arranged on one side, away from the liquid discharge pipe, of the positioning column, one end of the push rod extends out of the side wall of the separation box, and is connected with the handle.

5. The mud-water separation device according to claim 4, wherein: the area of the joint of the side face of the sliding block and the blocking block is arc-shaped.

6. The mud-water separation device according to claim 4, wherein: the upper surface of the blocking block is of an inclined structure, and the inclined structure is that the feeding pipe inclines towards the direction of the liquid discharge pipe.

7. The mud-water separation device according to claim 4, wherein: the utility model discloses a stop the slider, including the stopper, the stopper is provided with the recess on the side that the stopper is close to the slider, just the recess is located the lower half of stopper, the recess is by supreme first buffer and the second buffer that is provided with down, just first buffer upper surface and the laminating of second buffer lower surface slide, the lateral surface of first buffer and second buffer all with the relative regional phase-match on the slider, first buffer length slightly is greater than second buffer.