CN212731359U - Multistage ceramic tile waste water treatment device - Google Patents

Abstract

The utility model discloses a multistage ceramic tile production wastewater treatment device, which comprises a wastewater buffering unit, an outer buffer tank and an inner buffer tank; the wastewater separation unit is provided with a separation tank, a filter bag, a receiving tank and a water distributor; a plurality of through holes are formed in the bottom surface of the inner side of the separation groove, and a linear motor is installed on the outer wall of one side of the separation groove in the length direction; the filter bag is detachably fixed in the separation tank; the receiving groove is located below the separating groove and forms a structural seal with the separating groove; the water distributor is positioned above the separation tank and is connected with the linear motor; a wastewater transfer unit having a pump and a hose; the inlet end of the pump is connected with the bottom of the cache inner tank, and the outlet end of the pump is connected with one end of the hose; the other end of the hose is connected with the water distributor. The utility model provides a multistage ceramic tile waste water treatment plant can realize waste water reuse, and the environmental protection just realizes that the resource is utilizing.

Description

Multistage ceramic tile waste water treatment device

Technical Field

The utility model relates to a waste water treatment technical field especially relates to a multistage ceramic tile waste water treatment device.

Background

The water produced in the production process of the ceramic tile also contains a large amount of extremely fine silt (with the grain diameter of about 300-500 meshes), and the direct discharge is unfavorable for the environment. When silt in the waste water is directly recycled, the addition amount can not be accurately controlled due to unstable silt content.

SUMMERY OF THE UTILITY MODEL

The utility model provides an overcome the problem that prior art exists, provide a multistage ceramic tile waste water treatment device, can realize waste water reuse, the environmental protection just realizes that the resource is utilizing.

The utility model adopts the technical proposal that:

a multistage ceramic tile production wastewater treatment device comprises

The wastewater buffering unit is provided with a buffering outer tank and a buffering inner tank; the inner cache tank is positioned at the inner side of the outer cache tank; the position of the top open end of the cache inner tank is lower than that of the top open end of the cache outer tank;

the wastewater separation unit is provided with a separation tank, a filter bag, a receiving tank and a water distributor; the separation groove is provided with a plurality of through holes on the inner side bottom surface of a cuboid with an open top surface, a linear motor is arranged on the outer wall of one side of the separation groove in the length direction, and the linear motor can reciprocate along the length direction of the separation groove; the filter bag is detachably fixed in the separation tank, and the outer wall of the filter bag is in fit contact with the inner side wall and the bottom surface of the separation tank; the receiving groove is in a hollow cuboid shape, the length direction of the receiving groove is consistent with that of the separating groove, and the receiving groove is positioned below the separating groove and forms structural seal with the separating groove; the inner area of the separation groove is communicated with the inner area of the receiving groove through the through hole, and the bottom of the receiving groove is provided with a clear liquid pipe; the water distributor is positioned above the separation tank and is connected with the linear motor;

a wastewater transfer unit having a pump and a hose; the inlet end of the pump is connected with the bottom of the cache inner tank, and the outlet end of the pump is connected with one end of the hose; the other end of the hose is connected with the water distributor.

Furthermore, an installation seat is arranged outside one side of the width direction of the receiving groove, a vacuum pump is fixed on the installation seat, and the vacuum pump is communicated with the upper area of the receiving groove.

Further, the clear pipe has a trap.

Further, the separation groove is detachably connected with the receiving groove.

Further, the separating tank bottom surface sets up the socket of round square frame form, the through-hole is located the socket inboard corresponds on the separating tank bottom surface region, receiving tank top surface is uncovered and with the socket cooperation, the socket inserts form structural seal behind the receiving tank top.

Furthermore, the water distributor is in a hollow rectangular shape and comprises a water distributor body, a connector and a water outlet nozzle, the length direction of the water distributor body is perpendicular to the inner bottom surface of the separation tank, one side of the water distributor body is connected with the linear motor through a connecting piece, the connector is located at the top of the water distributor body, the water outlet nozzle is located at the bottom of the water distributor body, and the hose is connected with the connector.

Furthermore, the two water outlet nozzles are arranged and are arranged in a centrosymmetric manner by taking the center of the bottom surface of the water distributor body as a symmetric center, and the outlet of each water outlet nozzle is in a linear shape.

The utility model has the advantages that:

the utility model discloses a solve prior art ceramic tile waste water direct discharge and can cause environmental pollution, and the unchangeable problem of reuse, designed a multistage ceramic tile waste water treatment plant, the device includes waste water buffer unit. A waste water separation unit and a waste water transfer unit. The waste water buffer unit is used for receiving waste water for buffering, separating partial silt through gravity settling and separating clear liquid through overflow. The waste water separation unit is used for separating silt in the waste water to form a filter cake and a filtrate for reuse. The waste water conveying unit is used for continuously transferring the waste water buffer unit to the waste water separation unit. Meanwhile, the wastewater separation unit is internally provided with a linear motor which can drive the water distributor to reciprocate, and the wastewater continuously sprayed by the water distributor impacts the wastewater in the filter bag, so that sediment deposition is prevented, and the filtering service time of the filter bag is prolonged. After the ceramic tile production wastewater treatment device in the implementation is adopted, wastewater can be treated, and environmental pollution caused by direct discharge is avoided. Meanwhile, one part of the wastewater is settled by natural gravity to separate silt. The other part of the wastewater is separated into filter cake and clear water. The clear water can be reused. After the sediment and the filter cake which are naturally settled are subjected to moisture measurement, the sediment and the filter cake can be accurately added into the raw materials for producing the ceramic tiles for reutilization, so that the resource reutilization is realized.

Drawings

In order to more clearly illustrate the embodiments of the present application 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 application, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is the first schematic structural diagram of the wastewater treatment device for ceramic tile production in the implementation of the present invention.

FIG. 2 is a schematic structural diagram of a ceramic tile production wastewater treatment device according to the present invention

Figure 3 is the utility model discloses in the implementation, ceramic tile production effluent treatment plant's schematic structure diagram is three.

Fig. 4 is a schematic structural diagram of a separation tank in the practice of the present invention.

Fig. 5 is a schematic view of a receiving groove according to the present invention.

Detailed Description

In the following, only certain exemplary embodiments are briefly described. As those skilled in the art will recognize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. Accordingly, the drawings and description are to be regarded as illustrative in nature, and not as restrictive.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

The following disclosure provides many different embodiments or examples for implementing different features of the invention. In order to simplify the disclosure of the present invention, the components and arrangements of specific examples are described below. Of course, they are merely examples and are not intended to limit the present invention.

Embodiments of the present invention/utility model will be described in detail below with reference to the drawings.

The utility model discloses an embodiment, a multistage ceramic tile waste water treatment device, its structure is shown as attached figure 1~ 3. The apparatus includes a waste water buffer unit 10, a waste water separating unit 20, and a waste water transferring unit 30. Wherein, the wastewater buffer unit 10 is used for receiving wastewater for buffering, separating partial silt by gravity settling, and separating clear liquid by overflow. The wastewater separation unit 20 is used for separating silt in wastewater to form filter cake and filtrate for reuse. The waste water transfer unit 30 is used to continuously transfer the waste water buffering unit 10 to the waste water separating unit 20.

Specifically, the wastewater buffer unit 10 includes a cylindrical buffer outer tank 11 and a buffer inner tank 12.

The top of the outer buffer tank 11 is open. The sand outlet 111 is arranged at the lower part of the side wall of the buffer tank 11. The top end of the inner buffer tank 12 is open and is positioned at the inner side of the outer buffer tank 11, and the axial centers of the two are parallel or coincident. The bottom surfaces of the buffer outer tank 11 and the buffer inner tank 12 are overlapped. A drain pipe 121 is provided at the bottom of the buffer inner tank 12. The height of the inner buffer tank 12 is smaller than that of the outer buffer tank 11, namely the open end of the inner buffer tank 12 is positioned below the open end of the outer buffer tank, after the wastewater is injected into the region between the inner wall of the outer buffer tank 11 and the inner wall of the inner buffer tank 12, part of silt is settled due to gravity, and part of wastewater overflows into the inner region of the inner buffer tank 12.

The waste water separation unit 20 includes a separation tank 21, a filter bag (not shown), a receiving tank 22, and a water distributor 23.

The structure of the separation tank 21 is shown in FIG. 4. The separation tank 21 is in the shape of a rectangular parallelepiped with an open top surface. A plurality of through holes 211 are formed on the inner bottom surface of the separation groove 21. A linear motor 212 is mounted on an outer wall of one side of the separation tank 21 in the length direction, and the linear motor 212 can reciprocate along the length direction of the separation tank 21.

The filter bag is detachably fixed in the separation tank 21, and the outer wall of the filter bag is in contact with the inner side wall and the bottom surface of the separation tank 21 in an attaching manner. The filter bag can be made of non-woven fabrics

The receiving groove 22 is constructed as shown in fig. 5. The receiving groove 22 is hollow and rectangular, has a longitudinal direction corresponding to the longitudinal direction of the separation groove 21, is located below the separation groove 21, and forms a structural seal with the separation groove 21. The inner region of the separation groove 21 is electrically connected to the inner region of the receiving groove 22 through the through hole 211.

In this embodiment, in order to accelerate the separation of silt and water, a mounting seat 221 is provided outside one side in the width direction of the receiving groove 22. A vacuum pump 222 is fixed to the mounting seat 221, and the vacuum pump 222 is in communication with an upper region of the receiving groove 22, i.e., a region adjacent to the separation groove 21. A clear liquid pipe 223 is provided outside the bottom of the receiving groove 22. Vacuum pump 222, when activated, creates a negative pressure in receiving tank 22, thereby accelerating the passage of water through the filter bag into receiving tank 22, while silt is trapped within the filter bag.

In this embodiment, in order to prevent the receiving tank 22 from being completely emptied of water to affect the degree of vacuum, the clear water pipe 223 has a trap 2231.

In this embodiment, the separation groove 21 and the receiving groove 22 are detachably connected to facilitate cleaning and maintenance of the receiving groove 22. A rectangular frame-shaped socket 213 is provided on the bottom surface of the separation groove 21, and the through hole 213 is located on the bottom surface area of the separation groove 21 corresponding to the inside of the socket 213. The top surface of the receiving groove 22 is open and fits into the insertion opening 213, i.e., the top of the receiving groove 22 has a size corresponding to the outer wall of the insertion opening 213. The insertion of the receptacle 213 into the top of the receiving channel 22 forms a structural seal.

The water distributor 23 is a hollow rectangular shape, and includes a water distributor body 231, a joint 232, and a water outlet nozzle 233. The length direction of the water distributor body 231 is perpendicular to the inner bottom surface of the separation tank 21, and one side of the water distributor body 231 is connected with the linear motor 212 through the connecting piece 234, that is, the reciprocating movement of the linear motor 212 drives the water distributor body 231 to be synchronously connected. The joint 232 is located at the top of the water distributor body 231, and the water outlet 231 is located at the bottom of the water distributor body 231.

In this embodiment, in order to improve the water discharging efficiency and simultaneously utilize the impact force when the wastewater is ejected at a high speed, two water outlets 233 are provided, and are arranged in a central symmetry manner with the center of the bottom surface of the water distributor body 231 as a symmetry center. The outlet of each nozzle 233 is in a line. In the moving process of the water distributor body 231, the two water outlets 233 move synchronously and impact the waste water in the filter bag from different directions, so that the filtering service time of the filter bag is prolonged.

The waste water transfer unit 30 includes a pump 31 and a hose 32. The inlet end of the pump 31 is connected to a drain pipe 121. The outlet end of the pump 31 is connected to a hose 32. The other end of the hose 32 is connected to a nipple 232.

In this embodiment, a multistage ceramic tile waste water treatment device's theory of operation is:

after the ceramic tile wastewater is collected and flows into the outer buffer tank 11, partial silt is settled due to gravity, and the wastewater overflows into the inner buffer tank 12 and is discharged. Meanwhile, the wastewater is pumped into the water distributor 23 through the pump 31 and sprayed into the filter bag at a high speed. The silt is trapped and the clean water enters the receiving tank 22 through the passage 211 of the separation tank 21, and is discharged for reuse. Meanwhile, due to the action of the vacuum pump 222, negative pressure can be formed in the receiving groove 22, and fresh water separation is accelerated. When the separation speed of the wastewater in the filter bag is obviously reduced, stopping pumping the wastewater, separating the residual wastewater in the filter bag, and taking down the filter bag to obtain a filter cake.

After the ceramic tile production wastewater treatment device in the implementation is adopted, wastewater can be treated, and environmental pollution caused by direct discharge is avoided. Meanwhile, one part of the wastewater is settled by natural gravity to separate silt. The other part of the wastewater is separated into filter cake and clear water. The clear water can be reused. After the sediment and the filter cake which are naturally settled are subjected to moisture measurement, the sediment and the filter cake can be accurately added into the raw materials for producing the ceramic tiles for reutilization, so that the resource reutilization is realized.

Claims (7)

1. The utility model provides a multistage ceramic tile waste water treatment device which characterized in that: comprises that

The wastewater buffering unit is provided with a buffering outer tank and a buffering inner tank; the inner cache tank is positioned at the inner side of the outer cache tank; the position of the top open end of the cache inner tank is lower than that of the top open end of the cache outer tank;

the wastewater separation unit is provided with a separation tank, a filter bag, a receiving tank and a water distributor; the separation groove is provided with a plurality of through holes on the inner side bottom surface of a cuboid with an open top surface, a linear motor is arranged on the outer wall of one side of the separation groove in the length direction, and the linear motor can reciprocate along the length direction of the separation groove; the filter bag is detachably fixed in the separation tank, and the outer wall of the filter bag is in fit contact with the inner side wall and the bottom surface of the separation tank; the receiving groove is in a hollow cuboid shape, the length direction of the receiving groove is consistent with that of the separating groove, the receiving groove is positioned below the separating groove and is structurally sealed with the separating groove, the inner area of the separating groove is communicated with the inner area of the receiving groove through the through hole, and a clear liquid pipe is arranged at the bottom of the receiving groove; the water distributor is positioned above the separation tank and is connected with the linear motor;

a wastewater transfer unit having a pump and a hose; the inlet end of the pump is connected with the bottom of the cache inner tank, and the outlet end of the pump is connected with one end of the hose; the other end of the hose is connected with the water distributor.

2. The tile production wastewater treatment device according to claim 1, wherein: and an installation seat is arranged outside one side of the width direction of the receiving groove, a vacuum pump is fixed on the installation seat, and the vacuum pump is communicated with the upper area of the receiving groove.

3. The tile production wastewater treatment device according to claim 2, wherein: the clean water pipe has a trap.

4. The tile production wastewater treatment device according to claim 1, wherein: the separation groove is detachably connected with the receiving groove.

5. The tile production wastewater treatment device according to claim 4, wherein: the separating tank bottom surface sets up the socket of round square frame form, the through-hole is located the socket inboard corresponds on the separating tank bottom surface region, receiving tank top surface is uncovered and with the socket cooperation, the socket inserts form the structure behind the receiving tank top and seal.

6. The tile production wastewater treatment device according to claim 1, wherein: the water distributor is in a hollow rectangular shape and comprises a water distributor body, a connector and a water outlet nozzle, wherein the length direction of the water distributor body is perpendicular to the inner bottom surface of the separation tank, one side of the water distributor body is connected with the linear motor through a connecting piece, the connector is positioned at the top of the water distributor body, the water outlet nozzle is positioned at the bottom of the water distributor body, and the hose is connected with the connector.

7. The tile production wastewater treatment device according to claim 6, wherein: the water distributor is characterized in that the number of the water outlet nozzles is two, the water outlet nozzles are arranged in a centrosymmetric manner by taking the center of the bottom surface of the water distributor body as a symmetric center, and the outlet of each water outlet nozzle is in a linear shape.

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