CN210751512U - Slag-water separator - Google Patents

Abstract

The utility model provides a slag-water separator relates to sewage purification technical field to solve the current high moisture content dross higher technical problem of cost in the dehydration process. The slag-water separator comprises a separator body, a rotating device, an elastic supporting device, a slag collecting groove, a filtered water collecting device and a floating slag collecting device, wherein the rotating device and the elastic supporting device are arranged on the separator body; the slag collecting groove comprises a slag collecting area and a water collecting area, and the slag collecting area is communicated with the water collecting area through a filtering device; the slag water obtained by the air floatation equipment can be conveyed into a slag collecting groove on the elastic supporting device through a slag water conveying device, and scum and filtered water are separated through the filtering device. The slag-water separator of the utility model has small occupied area, low energy consumption and low cost, and is favorable for improving the air floatation treatment efficiency in earlier stage.

Description

Slag-water separator

Technical Field

The utility model belongs to the technical field of sewage purification technique and specifically relates to a sediment water separator is related to.

Background

Air flotation treatment is one of common treatment processes in the aspects of water supply, industrial wastewater and municipal sewage treatment at present. The air floatation has the advantages that the solid-liquid separation equipment has the characteristics of low investment, small occupied area, high automation degree, convenient operation and management and the like, but in the operation process, the air floatation generates more scum, the conventional treatment method of the air floatation scum is that the scum flows into a sludge concentration tank firstly, then the moisture content is reduced to about 98 percent from more than 99 percent under the action of gravity sedimentation, and then the sludge is made into sludge cakes with the moisture content of 75 to 80 percent through sludge dewatering equipment. Therefore, the prior art needs a large sludge concentration tank for directly treating the air floatation sludge, occupies a large area, needs a matched drainage device for separating the sewage, has high energy consumption, causes high treatment cost, and limits the efficiency of the early air floatation treatment.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a sediment water separator solves current high moisture content dross at the higher technical problem of dehydration process cost.

In order to achieve the above purpose, the utility model provides a following technical scheme: a slag-water separator comprises a separator body, a rotating device, an elastic supporting device, a slag collecting groove, a filtered water collecting device and a floating slag collecting device, wherein the rotating device and the elastic supporting device are arranged on the separator body; the slag collecting groove comprises a slag collecting area and a water collecting area, and the slag collecting area is communicated with the water collecting area through a filtering device;

the slag water obtained by the air floatation equipment can be conveyed into a slag collecting groove on the elastic supporting device through a slag water conveying device, filtered water in the slag water is filtered to the water collecting area through the filtering device, and floating slag is accumulated in the slag collecting area; the filtered water in the water collecting area can flow into the filtered water collecting device through the filtered water conveying device;

when the accumulated amount of the scum exceeds the bearing limit value of the elastic supporting device, the elastic supporting device can be switched from a supporting state to a non-supporting state, and the scum collecting groove is separated from the elastic supporting device;

when the slag collecting groove is separated from the elastic supporting device, the elastic supporting device can be switched to a supporting state from a non-supporting state, and meanwhile, the slag collecting groove rotates downwards under the action of gravity and drives the rotating device and other slag collecting grooves to rotate until the other slag collecting groove rotates to the elastic supporting device; in the downward rotation process of the scum collecting tank filled with scum, the scum can be separated from the scum collecting area under the action of gravity and transferred into the scum collecting device from a scum outlet of the separator body.

Preferably, the slag collecting groove comprises a first slag collecting groove, a second slag collecting groove, a third slag collecting groove and a fourth slag collecting groove; the water filtering transmission device comprises a water pipe and corresponds to the slag collecting tank, the water pipe comprises a first water pipe, a second water pipe, a third water pipe and a fourth water pipe, the water collecting area is connected with the corresponding water pipes, and water filtering energy in the water collecting area flows into the corresponding water pipes under the action of gravity and flows into the water filtering and collecting device through the water pipes.

Preferably, the rotating device comprises a shaft sleeve fixed on the separator body, a hollow rotating shaft is arranged in the shaft sleeve, the water passing pipes are communicated with the hollow rotating shaft, and filtered water in the water collecting area can flow into the hollow rotating shaft through the corresponding water passing pipes and can flow into the filtered water collecting device through the hollow rotating shaft.

Preferably, the water outlet end of the water passing pipe protrudes out of the inner surface of the hollow rotating shaft connected with the water passing pipe.

Preferably, the first water passing pipe and the third water passing pipe are communicated at the center of the rotating device, and when the first slag collecting groove is positioned on the elastic supporting device, filtered water in the first slag collecting groove can sequentially flow through the first water passing pipe and the third water passing pipe and flow into the filtered water collecting device;

the second water passing pipe and the fourth water passing pipe are communicated at the center of the rotating device, and when the second slag collecting groove is positioned on the elastic supporting device, filtered water in the second slag collecting groove can flow through the second water passing pipe and the fourth water passing pipe in sequence and flow into the filtered water collecting device.

Preferably, the filtered water collecting device comprises a collecting tank, a connecting pipe and a containing part arranged at one end of the connecting pipe, and filtered water flowing out of the water pipe can flow into the containing part under the action of gravity and flow into the collecting tank through the connecting pipe; the containing and connecting part is positioned inside the separator body, one end of the connecting pipe is positioned inside the separator body and communicated with the containing and connecting part, and the other end of the connecting pipe is positioned in a collecting tank outside the separator body.

Preferably, the elastic support device comprises a hinge member, a support plate and a gas spring, and the support plate is connected with the separator body through the hinge member and the gas spring.

Preferably, the filtering device is a filter cloth, the slag collecting area is located above the filter cloth, and the water collecting area is located below the filter cloth.

Preferably, the dross collecting device is detachably connected to the dross outlet of the separator body.

Preferably, the scum collecting device is a collecting bag and is connected with the scum outlet of the separator body through a clamp.

The utility model has the advantages that: the utility model discloses a sediment water separator can realize the quick dehydration to the dross through setting up rotating device, elastic support device, collection sediment groove, and area is little, the energy consumption is low, with low costs, is favorable to the improvement of air supporting treatment efficiency in earlier stage.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a front view of a slag-water separator in example 1;

FIG. 2 is a schematic view showing the structure of the water passing pipe in connection with the hollow rotary shaft in embodiment 1;

FIG. 3 is a right side view of the slag-water separator of example 1;

FIG. 4 is a schematic view showing the structure of a water pipe in example 1;

FIG. 5 is a schematic view showing the structure of a hollow shaft in embodiment 1;

FIG. 6 is a schematic view of the structure of the elastic supporting means in example 1;

FIG. 7 is a front view of a slag-water separator in example 2;

FIG. 8 is a schematic structural view of a slag trap in example 2;

FIG. 9 is a schematic view showing the structure of the slag trap in connection with the water pipe in example 2.

In the figure: 1. a separator body; 11. a water outlet pipe; 2. an elastic support device; 21. a support plate; 22. a gas spring; 23. an articulation member; 3. a slag collecting groove; 31. a first slag collecting groove; 32. a second slag collecting groove; 33. a third slag collecting groove; 34. a fourth slag collecting groove; 35. a slag collecting area; 36. a water collection area; 37. a water passage; 38. filtering cloth; 4. a water pipe; 41. a water outlet end; 42. a water inlet end; 43. a drainage sheet; 44. mounting holes; 45. a communicating portion; 51. a shaft sleeve; 52. a turntable; 6. a hollow rotating shaft; 61. a drainage bulge; 62. positioning the projection; 63. A communication port; 64. sealing the end; 7. clamping a hoop; 71. a scum collecting device; 8. collecting tank; 81. a receiving portion; 82. and (4) connecting the pipes.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example 1

As shown in fig. 1-6, the present embodiment provides a slag-water separator, which includes a separator body 1, a rotating device, an elastic supporting device 2, a slag collecting tank 3, a filtered water collecting device, and a scum collecting device 71, where in the present embodiment, the separator body 1 is a casing structure, and mainly plays a supporting role for supporting the rotating device, the elastic supporting device 2, and the like; the slag collecting groove 3 comprises a slag collecting area 35 and a water collecting area 36, the slag collecting area 35 is communicated with the water collecting area 36 through a filtering device, the filtering device is a filtering cloth 38 in the embodiment, the slag collecting groove 3 is of a cuboid structure, the filtering cloth 38 is horizontally arranged in the slag collecting groove 3 to divide the slag collecting groove 3 into an upper layer and a lower layer, the slag collecting area 35 is positioned above the filtering cloth 38, and the water collecting area 36 is positioned below the filtering cloth 38;

the slag water obtained by the air floatation equipment can be conveyed into the slag-water separator through the slag-water conveying device, the water outlet pipe 11 of the slag-water conveying device is fixed on the separator body 1 and is positioned above the elastic supporting device 2, and the slag water can flow to the elastic supporting device 2 through the water outlet pipe 11.

The slag collecting grooves 3 are arranged on the rotating device and can rotate synchronously with the rotating device; in the embodiment, the number of the slag collecting grooves 3 is 4, and the slag collecting grooves are uniformly distributed on the rotating device; when one of the slag collecting grooves 3 rotates to the support plate 21 and the opening of the slag collecting groove 3 faces the water outlet pipe 11, slag water flowing out of the water outlet pipe 11 can flow into the slag collecting groove 3, the slag water is filtered by the filter cloth 38 in the slag collecting groove 3, filtered water is filtered to the water collecting area 36 below the filter cloth 38, and scum is accumulated in the slag collecting area 35 above the filter cloth 38; the filtered water in the water collection area 36 can flow into the filtered water collection device through the filtered water delivery device;

the rotating device in this embodiment includes a shaft sleeve 51 fixedly connected to the separating body, and a rotating shaft disposed in the shaft sleeve 51, the rotating shaft is a hollow rotating shaft 6, the water filtering transmission device includes a water pipe 4, a water inlet end 42 of the water pipe 4 is communicated with the water collecting area 36, a water outlet end 41 is communicated with the hollow rotating shaft 6, and the filtered water in the water collecting area 36 can flow into the hollow rotating shaft 6 through the water pipe 4, and then flows into the filtered water collecting device through the hollow rotating shaft 6.

In order to collect the filtered water conveniently, the filtered water collecting device further comprises a collecting tank 8, a connecting pipe 82 and a containing part 81, the containing part 81 is funnel-shaped in the embodiment, an opening above the containing part 81 faces to the outlet direction of the hollow rotating shaft 6, the filtered water flowing out of the hollow rotating shaft 6 can flow into the containing part 81, the containing part 81 is connected with the connecting pipe 82, and the filtered water flows into the collecting tank 8 along the connecting pipe 82.

When the scum is accumulated until the weight of the scum collection tank 3 exceeds the bearing limit value of the elastic support device 2, the elastic support device 2 can be switched from a support state to a non-support state, and the scum collection tank 3 is separated from the elastic support device 2; the determination of the bearing limit value can be based on the concrete size of the slag collecting groove 3 and the amount of scum that can be accumulated, and based on practical situations, the proper elastic supporting device 2 is selected, and in order to improve the working efficiency, the bearing limit of the elastic supporting device 2 can be matched with the total weight of the slag collecting area 35 of the slag collecting groove 3 after the slag collecting area is fully collected. The elastic supporting device 2 may be selected from an existing structure, and may be switched between a supporting state and a non-supporting state, for example, in the embodiment, the elastic supporting device 2 includes a supporting plate 21, the supporting plate 21 is connected to the separator body 1 through a hinge 23 and a gas spring 22, and the elastic supporting device 2 is disposed on the separator body 1 and located on the left side of the rotation center of the rotating device. A gas spring (gas spring) is an industrial accessory which can play the roles of supporting, buffering, braking, height adjusting, angle adjusting and the like. It is composed of the following parts: the device comprises a pressure cylinder, a piston rod, a piston, a sealing guide sleeve, a filler (inert gas or oil-gas mixture), an in-cylinder control element, an out-cylinder control element (a controllable gas spring), a joint and the like. The principle is that inert gas or oil-gas mixture is filled in a closed pressure cylinder, the pressure in a cavity is several times or dozens of times higher than the atmospheric pressure, and the motion of a piston rod is realized by utilizing the pressure difference generated by the cross section area of the piston rod smaller than that of the piston. Due to the fundamental difference in principle, the gas spring has very remarkable advantages compared with the common spring: the speed is relatively slow, the dynamic force change is not large (generally within 1: 1.2), and the control is easy.

When the slag collecting groove 3 is separated from the elastic supporting device 2, the elastic supporting device 2 can be switched to a supporting state from a non-supporting state, and meanwhile, the slag collecting groove 3 rotates downwards under the action of gravity and drives the hollow rotating shaft 6 and other slag collecting grooves 3 to rotate until the other slag collecting groove 3 rotates to the elastic supporting device 2; during the downward rotation of the dross collecting receptacle 3 containing dross, the dross can be removed from the dross collecting area 35 by gravity and transferred from the dross outlet of the separator body 1 into the dross collecting device 71. In order to facilitate the easy outflow of the separated dross from the separator body 1, the side wall of the separator body 1 near the dross outlet is provided with an inclined section, so that when the dross outlet of the separator body 1 is small in size, the deposition of dross in the separator body 1 is not easily caused.

The slag collecting groove 3 comprises a first slag collecting groove 31, a second slag collecting groove 32, a third slag collecting groove 33 and a fourth slag collecting groove 34; the water filtering and conveying device comprises a water pipe 4 and corresponds to the slag collecting groove 3, the water pipe 4 comprises a first water pipe, a second water pipe, a third water pipe and a fourth water pipe, the water collecting area 36 is connected with the corresponding water pipe 4, and filtering water in the water collecting area 36 can flow into the corresponding water pipe 4 under the action of gravity and flows into the water filtering and collecting device through the water pipe 4. When the first slag collecting groove 31 is positioned on the elastic supporting device 2, the second slag collecting groove 32 is positioned right above, the third slag collecting groove 33 is positioned on the right side, the fourth slag collecting groove 34 is positioned right below, when the first slag collecting groove 31 accumulates scum to make the supporting plate 21 incline downwards, the first slag collecting groove 31 can rotate downwards under the action of gravity after being separated from the supporting plate 21 until the second slag collecting groove 32 rotates to the supporting plate 21, at the moment, the first slag collecting groove 31 rotates right below, the third slag collecting groove 33 is positioned right above, the fourth slag collecting groove 34 is positioned on the right side, and the slag collecting groove 3 rotates anticlockwise to separate slag and water.

As shown in fig. 2 and 4, the water outlet end 41 of the water flowing pipe 4 has a bent structure, and the water outlet end 41 of the water flowing pipe 4 corresponding to the slag collecting groove 3 on the elastic supporting device 2 is lower than the water inlet end 42 of the water flowing pipe 4, so that filtered water can flow into the hollow rotating shaft 6 from the water collecting area 36 along the water flowing pipe 4; the water outlet end 41 of the water passing pipe 4 corresponding to the slag collecting groove 3 positioned right below is higher than the water inlet end 42 of the water passing pipe 4 and higher than the inner surface of the hollow rotating shaft 6, so that filtered water flowing into the hollow rotating shaft 6 can be prevented from reversely flowing back into the water passing pipe 4 from the water outlet end 41 of the water passing pipe 4. The water outlet end 41 of the water passing pipe 4 can be arranged in the hollow rotating shaft 6 through a communication port 63 on the hollow rotating shaft 6, and the communication port 63 is arranged close to the sealing end 64 of the hollow rotating shaft 6.

In order to enable the filtered water in the hollow rotating shaft 6 to smoothly flow out, a convex annular drainage bulge 61 is circumferentially arranged at the water outlet of the hollow rotating shaft 6, so that the filtered water can flow downwards along the drainage bulge 61.

In order to improve the stability of the connection between the hollow rotating shaft 6 and the shaft sleeve 51, the outer surface of the hollow rotating shaft 6 is provided with the annular positioning bulge 62, the corresponding position of the inner surface of the shaft sleeve 51 corresponding to the positioning bulge 62 is provided with the groove, and lubricating oil or balls are arranged between the positioning bulge 62 and the groove, so that the friction resistance between the positioning bulge 62 and the groove can be reduced, the rotating speed is improved, and the water filtering efficiency is improved.

In order to collect the filtered water conveniently, the filtered water conveying device comprises a collecting tank 8, a connecting pipe 82 and a containing part 81 arranged at one end of the connecting pipe 82, and the filtered water flowing out of the hollow rotating shaft 6 can flow into the containing part 81 under the action of gravity and flow into the collecting tank 8 through the connecting pipe 82; the receiving portion 81 is located outside the separator body 1 and located right below the water outlet of the hollow rotating shaft 6, one end of the connecting pipe 82 is communicated with the receiving portion 81, and the other end of the connecting pipe is located in the collecting tank 8, so that filtered water can finally flow into the collecting tank 8.

In order to collect scum conveniently, the scum collecting device 71 is detachably connected with the scum outlet of the separator body 1, so that the scum collecting device 71 is convenient to replace and transfer scum.

Specifically, in this embodiment, the scum collecting device 71 is a collecting bag, and is connected to the scum outlet of the separator body 1 through a clamp 7.

Example 2

As shown in fig. 7 to 9, the present embodiment is different from embodiment 1 in the structure of the rotating means and the water passing pipe 4, that is, the flow path of the filtered water is different. In this embodiment, the rotating device is a rotating disc 52 arranged on the separator body, and the water passing pipes 4 are all fixed on the rotating disc 52; and the first water passing pipe and the third water passing pipe are communicated with each other at the central position of the rotating device by the communicating part 45, when the first slag collecting groove 31 is positioned on the elastic supporting device 2, the filtered water in the first slag collecting groove 31 can flow into the filtered water collecting device through the first water passing pipe, the communicating part 45 and the third water passing pipe in sequence; in order to enable the filtered water to smoothly flow out of the water passing pipe 4, the end part of the water passing pipe 4 is provided with the drainage sheet 43, the filtered water can flow downwards through the drainage sheet 43 and then flows into the containing part 81, the containing part 81 is positioned inside the separator body 1 in the embodiment, one end of the connecting pipe 82 is positioned inside the separator body 1 and communicated with the containing part 81, and the other end of the connecting pipe is positioned in the collecting tank 8 outside the separator body 1, so that the filtered water can finally flow into the collecting tank 8.

In the same structure, the communicating part 45 is arranged at the central position of the rotating device, and the second water passing pipe and the fourth water passing pipe are communicated, so that when the second slag collecting groove 32 is positioned on the elastic supporting device 2, filtered water in the second slag collecting groove 32 can flow through the second water passing pipe, the communicating part 45 and the fourth water passing pipe in sequence and flow into the filtered water collecting device.

In order to prevent the filtered water in the water pipe 4 from flowing back to the water collecting area 36, the water passage 37 is arranged on the mounting hole 44 of the water pipe 4 at the bottom of the water collecting area, and the water passage 37 extends to the inside of the water pipe 4.

The above embodiments are only specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of changes or substitutions within the technical scope of the present invention, and all should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The slag-water separator is characterized by comprising a separator body (1), a rotating device, an elastic supporting device (2), a slag collecting groove (3), a filtered water collecting device and a scum collecting device (71), wherein the rotating device and the elastic supporting device (2) are arranged on the separator body (1), and a plurality of slag collecting grooves (3) are arranged on the rotating device and can synchronously rotate with the rotating device; the slag collecting groove (3) comprises a slag collecting area (35) and a water collecting area (36), and the slag collecting area (35) is communicated with the water collecting area (36) through a filtering device;

the slag water obtained by the air floatation equipment can be conveyed into a slag collecting groove (3) on the elastic supporting device (2) through a slag water conveying device, filtered water in the slag water is filtered to the water collecting area (36) through the filtering device, and scum is accumulated in the slag collecting area (35); the filtered water in the water collecting area (36) can flow into the filtered water collecting device through the filtered water conveying device;

when the accumulated amount of the scum exceeds the bearing limit value of the elastic supporting device (2), the elastic supporting device (2) can be switched from a supporting state to a non-supporting state, and the scum collecting tank (3) is separated from the elastic supporting device (2);

when the slag collecting groove (3) is separated from the elastic supporting device (2), the elastic supporting device (2) can be switched to a supporting state from a non-supporting state, and meanwhile, the slag collecting groove (3) rotates downwards under the action of gravity and drives the rotating device and other slag collecting grooves (3) to rotate until the other slag collecting groove (3) rotates to the elastic supporting device (2); in the downward rotation process of the scum collecting tank (3) filled with scum, the scum can be separated from the scum collecting area (35) under the action of gravity and transferred into the scum collecting device (71) from a scum outlet of the separator body (1).

2. The slag-water separator according to claim 1, characterized in that the slag trap (3) comprises a first slag trap (31), a second slag trap (32), a third slag trap (33) and a fourth slag trap (34); the water filtering transmission device comprises a water pipe (4) and corresponds to the slag collecting tank (3), the water pipe (4) comprises a first water pipe, a second water pipe, a third water pipe and a fourth water pipe, the water collecting area (36) is connected with the corresponding water pipe (4), and the water filtering energy in the water collecting area (36) flows into the corresponding water pipe (4) under the action of gravity and flows into the water filtering and collecting device through the water pipe (4).

3. The slag-water separator according to claim 2, wherein the rotating device comprises a shaft sleeve (51) fixed on the separator body (1), a hollow rotating shaft (6) is arranged in the shaft sleeve (51), the water passing pipes (4) are communicated with the hollow rotating shaft (6), and filtered water in the water collecting area (36) can flow into the hollow rotating shaft (6) through the corresponding water passing pipes (4) and can flow into the filtered water collecting device through the hollow rotating shaft (6).

4. The slag-water separator according to claim 3, characterized in that the water outlet end (41) of the water pipe (4) protrudes from the inner surface of the hollow rotating shaft (6) connected with the water pipe.

5. The slag-water separator according to claim 2, wherein the first water passing pipe and the third water passing pipe are communicated at the center of the rotating device, and when the first slag trap (31) is positioned on the elastic supporting device (2), filtered water in the first slag trap (31) can flow through the first water passing pipe and the third water passing pipe in sequence and flow into the filtered water collecting device;

the second water passing pipe and the fourth water passing pipe are communicated at the center of the rotating device, and when the second slag collecting groove (32) is positioned on the elastic supporting device (2), filtered water in the second slag collecting groove (32) can flow through the second water passing pipe and the fourth water passing pipe in sequence and flow into the water filtering and collecting device.

6. The slag-water separator according to claim 5, characterized in that the filtered water collecting means comprises a collecting tank (8), a connecting pipe (82) and a receptacle (81) arranged at one end of the connecting pipe (82), filtered water flowing out of the water pipe (4) can flow into the receptacle (81) under the action of gravity and flow into the collecting tank (8) through the connecting pipe (82); the receiving portion (81) is located inside the separator body (1), one end of the connecting pipe (82) is located inside the separator body (1) and communicated with the receiving portion (81), and the other end of the connecting pipe is located in a collecting tank (8) outside the separator body (1).

7. The slag-water separator according to any one of claims 1-6, characterized in that the elastic support means (2) comprise a hinge (23), a support plate (21) and a gas spring (22), the support plate (21) being connected to the separator body (1) by means of the hinge (23) and the gas spring (22).

8. The slag-water separator according to any one of claims 1-6, wherein said filtering means is a filter cloth (38), said slag collection zone (35) being located above said filter cloth (38), and said water collection zone (36) being located below said filter cloth (38).

9. The slag-water separator according to any one of claims 1-6, wherein the dross collecting device (71) is detachably connected to the dross outlet of the separator body (1).

10. The slag-water separator according to claim 9, characterized in that the dross collecting device (71) is a collecting bag and is connected to the dross outlet of the separator body (1) by means of a collar (7).

Images