CN209906395U - Vibrations formula is convenient for separate sewage treatment plant of sewage debris - Google Patents

Abstract

The utility model relates to a vibrations formula is convenient for separate sewage treatment plant of sewage debris, including bearing the frame, the drain pipe, the drainage tube, oscillation mechanism, solid-liquid separation equipment, negative pressure pump and control circuit, wherein bear the frame for bearing the stand and bear the support, the drain pipe inlays in bearing the stand of frame, and the drain pipe up end communicates with solid-liquid separation equipment each other, every bears and all establishes an at least drainage tube and a solid-liquid separation equipment in the support, the same each drainage intertube that bears in the support parallelly connected each other and bears the solid-liquid separation equipment in the support rather than the place and establish ties each other respectively. This novel knot can realize on the one hand that high-efficient convenient is to the easy water separation operation between solid pollutant in the sewage, and on the other hand can be as required according to the use, changes and maintains the solid-liquid separation equipment who is used for sewage purification in a flexible way, and changes the maintenance operation and can go on in step with sewage purification operation.

Description

Vibrations formula is convenient for separate sewage treatment plant of sewage debris

Technical Field

The utility model relates to a sewage treatment device, which belongs to the technical field of sewage purification devices.

Background

At present, when the sewage is subjected to the water body purification operation, the separation operation of suspended or floating solid pollutants in the sewage and the water body is directly realized through a solid-liquid separation device, but in the actual sewage solid-liquid separation operation, the current solid-liquid separation device is mainly used for carrying out the solid-liquid separation in the state of standing and the like through the pressure when the sewage flows and the gravity of the sewage when the sewage is subjected to the separation operation, so that the efficiency of the solid-liquid separation operation is relatively low, and meanwhile, when the sewage purification operation is carried out through a solid-liquid separation device, when the solid-liquid separation device needs to be maintained or replaced and the like, the whole sewage treatment system is always in a stop state, so that the efficiency of the sewage purification and the stability and the reliability of the operation of the sewage purification operation are seriously influenced, thereby aiming at the current situation, the development of a novel microorganism sewage purification device is urgently needed to meet the requirement of practical use.

SUMMERY OF THE UTILITY MODEL

To exist not enough on the prior art, the utility model provides a vibrations formula is convenient for separate sewage treatment plant of sewage debris, this novel simple structure, it is nimble convenient to use, the commonality is good, integrate and the modularization degree is high, can realize on the one hand that high-efficient convenient is to the easy water separation operation of solid pollutant in the sewage, on the other hand can be according to the use needs, change and maintain the solid-liquid separation equipment who is used for sewage purification in a flexible way, and change and maintain the operation and can go on with sewage purification operation in step, thereby when very big improvement sewage purification operating efficiency, effectual improvement sewage purification equipment uses and the convenience and the reliability of maintaining in addition.

In order to achieve the above purpose, the present invention is realized by the following technical solution:

a vibration type sewage treatment device convenient for separating sewage sundries comprises a bearing frame, drain pipes, a drainage pipe, an oscillation mechanism, a solid-liquid separation device, a negative pressure pump and a control circuit, wherein the bearing frame comprises a bearing upright post and bearing supports, the bearing upright post and the bearing supports are both hollow tubular structures, the axis of the bearing upright post is vertically distributed with a horizontal plane, the upper end surface of the bearing upright post is mutually connected with at least two bearing supports, the bearing supports are uniformly distributed around the axis of the bearing upright post, the axis of the bearing supports and the axis of the bearing upright post form an included angle of 30-60 degrees and are intersected, the bearing upright post and the bearing supports jointly form a frame structure with a Y-shaped axial section, the drain pipes are embedded in the bearing upright post of the bearing frame and are coaxially distributed with the bearing upright post, the upper end surfaces of the drain pipes are mutually communicated with the solid, and each bearing support is internally provided with at least one drainage tube and one solid-liquid separation device, wherein the axes of the drainage tubes are distributed in parallel with the axis of the bearing support, the drainage tubes in the same bearing support are mutually connected in parallel and are respectively mutually connected in series with the solid-liquid separation device in the bearing support, the solid-liquid separation device is respectively positioned at the connecting position of the bearing support and the bearing upright post and is mutually connected with the inner surface of the bearing support through an elastic support, an oscillating mechanism and a negative pressure pump are respectively positioned on the upper end surface of the bearing upright post, the negative pressure pump is respectively communicated with the solid-liquid separation devices through a flow guide branch pipe, the oscillating mechanism is respectively mutually connected with the outer surface of each solid-liquid separation device through a connecting rod, and a control circuit is embedded on the outer surface of the bearing support and.

Furthermore, control valves are arranged at the connecting positions of the solid-liquid separation device, the drain pipe and the drainage pipe, and the control valves are electrically connected with the control circuit.

Furthermore, in the solid-liquid separation devices, the solid-liquid separation devices positioned in the bearing brackets are connected with each other through the diversion branch pipes.

Furthermore, the upper end surface of the drain pipe is respectively connected with each solid-liquid separation device through a collecting pipe.

Furthermore, the side wall of the bearing support corresponding to the solid-liquid separation device is provided with an access hole, and the access hole and the solid-liquid separation device are coaxially distributed.

Further, the control circuit is a circuit system based on any one of a single chip microcomputer or a programmable controller.

This novel simple structure, it is nimble convenient to use, the commonality is good, integrate with the modularization degree high, can realize on the one hand that high-efficient convenient to the easy water separation operation between the solid pollutant in the sewage, on the other hand can be according to the use needs, change and maintain the solid-liquid separation equipment that is used for sewage purification in a flexible way, and change and maintain the operation and can go on in step with sewage purification operation to when very big improvement sewage purification operating efficiency, effectual improvement sewage purification equipment in addition uses and maintains convenience and reliability.

Drawings

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural view of the present invention;

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

The vibration type sewage treatment device convenient for separating sewage sundries as shown in figure 1 comprises a bearing frame 1, a drain pipe 2, a drain pipe 3, an oscillation mechanism 4, a solid-liquid separation device 5, a negative pressure pump 6 and a control circuit 7, wherein the bearing frame 1 comprises a bearing upright column 101 and bearing supports 102, the bearing upright column 101 and the bearing supports 102 are both hollow tubular structures, the axis of the bearing upright column 101 is vertically distributed with the horizontal plane, the upper end surface of the bearing upright column 101 is connected with at least two bearing supports 102, the bearing supports 102 are uniformly distributed around the axis of the bearing upright column 101, the axes of the bearing supports 102 and the axis of the bearing upright column 101 form an included angle of 30-60 degrees and are intersected, the bearing upright column 101 and the bearing supports 102 jointly form a frame structure with a Y-shaped axial section, the drain pipe 2 is embedded in the bearing upright column 101 of the bearing frame 1 and is coaxially distributed with the bearing upright column 101, and the, the number of the drainage tubes 3 and the oscillating mechanism 4 is the same as that of the bearing supports 102 of the bearing frame 1, and each bearing support 102 is internally provided with at least one drainage tube 3 and one solid-liquid separation device 5, wherein the axes of the drainage tubes 3 are distributed in parallel with the axes of the bearing supports 102, the drainage tubes 3 in the same bearing support 102 are mutually connected in parallel and are respectively mutually connected with the solid-liquid separation devices 5 in the bearing supports 102, the solid-liquid separation devices 5 are respectively positioned at the connecting positions of the bearing supports 102 and the bearing upright columns 102 and are mutually connected with the inner surfaces of the bearing supports 102 through elastic supports 8, the oscillating mechanism 4 and the negative pressure pump 6 are both positioned on the upper end surface of the bearing upright columns 101, wherein the negative pressure pump 6 is respectively communicated with the solid-liquid separation devices 5 through a diversion branch pipe 9, the oscillating mechanism 4 is respectively connected with the outer surfaces of the solid-liquid separation, and is electrically connected with the oscillating mechanism 4, the solid-liquid separation device 5 and the negative pressure pump 6 respectively.

Control valves 10 are arranged at the connecting positions of the solid-liquid separation device 5, the drain pipe 2 and the drainage pipe 3, the control valves 10 are electrically connected with the control circuit 7, in the solid-liquid separation device 5, the solid-liquid separation devices 5 positioned in the bearing brackets 102 are mutually connected through flow guide branch pipes 9, the side walls of the bearing brackets 102 corresponding to the solid-liquid separation devices 5 are provided with overhaul ports 11, and the overhaul ports 11 and the solid-liquid separation devices 5 are mutually and coaxially distributed.

Meanwhile, the upper end surface of the drain pipe 2 is respectively connected with each solid-liquid separation device 5 through a collecting pipe 12.

In addition, the control circuit 7 is a circuit system based on any one of a single chip microcomputer or a programmable controller.

This is novel when carrying out solid-liquid separation purification operation to sewage, at first assembles bearing frame, drain pipe, drainage tube, oscillation mechanism, solid-liquid separation equipment, negative pressure pump and control circuit, then with each drainage tube and sewage water source intercommunication, with drain pipe and sewage drainage pipeline intercommunication, at last with control circuit and external power source and control system electrical connection, can accomplish this novel assembly.

The sewage solid-liquid separation and purification operation is carried out, wherein sewage is directly conveyed to a plurality of solid-liquid separation devices through each drainage tube, the solid-liquid separation operation is carried out simultaneously, and then water bodies separated by the solid-liquid separation devices are gathered and guided by a drainage pipe, so that the purpose of solid-liquid separation and purification of the sewage is completed.

In the operation process of the solid-liquid separation device, on one hand, the purpose of improving the solid-liquid separation of the sewage is achieved by simultaneously operating a plurality of solid-liquid separation devices, on the other hand, the negative pressure pump operates to generate pressure difference between the water inlet end and the water outlet end of the solid-liquid separation device, so that the efficiency of the solid-liquid separation operation of the sewage is further improved through the pressure difference of air pressure.

Meanwhile, when the solid-liquid separation operation of the sewage is carried out, on one hand, the sewage flows from top to bottom, while utilizing the flowing pressure of the sewage, the gravitational potential energy of the sewage is further improved, the working efficiency of the purification operation and the conveying operation of the sewage through the solid-liquid separation device is improved, on the other hand, when the solid-liquid separation device needs to be replaced, only the drainage tube communicated with the solid-liquid separation device needs to be closed, or the drainage tube communicated with the solid-liquid separation device is communicated with other solid-liquid separation devices through the diversion branch tube, thereby disconnecting the communication between the solid-liquid separation device to be replaced and the water channel, directly carrying out replacement operation, other solid-liquid separation devices are in normal working state, thereby achieving the aim of smoothly developing the sewage treatment operation without influencing, the solid-liquid separation device is replaced and maintained, and the stability and reliability of the operation of the equipment are improved.

This novel simple structure, it is nimble convenient to use, the commonality is good, integrate with the modularization degree high, can realize on the one hand that high-efficient convenient to the easy water separation operation between the solid pollutant in the sewage, on the other hand can be according to the use needs, change and maintain the solid-liquid separation equipment that is used for sewage purification in a flexible way, and change and maintain the operation and can go on in step with sewage purification operation to when very big improvement sewage purification operating efficiency, effectual improvement sewage purification equipment in addition uses and maintains convenience and reliability.

Those skilled in the art should understand that the present invention is not limited by the above embodiments. The foregoing embodiments and description have been made only for the purpose of illustrating the principles of the invention. The present invention can be further modified and improved without departing from the spirit and scope of the present invention. Such changes and modifications are intended to be within the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a vibrations formula is convenient for separate sewage treatment plant of sewage debris which characterized in that: the vibration type sewage treatment device convenient for separating sewage sundries comprises a bearing frame, a drain pipe, a drainage pipe, an oscillation mechanism, a solid-liquid separation device, a negative pressure pump and a control circuit, wherein the bearing frame comprises a bearing upright post and bearing supports, the bearing upright post and the bearing supports are both hollow tubular structures, the axis of the bearing upright post is vertically distributed with the horizontal plane, the upper end surface of the bearing upright post is connected with at least two bearing supports, the bearing supports are uniformly distributed around the axis of the bearing upright post, the axis of the bearing supports and the axis of the bearing upright post form an included angle of 30-60 degrees and are intersected, the bearing upright post and the bearing supports jointly form a frame structure with a Y-shaped axial section, the drain pipe is embedded in the bearing upright post of the bearing frame and is coaxially distributed with the bearing upright post, and the upper end surface of the drain pipe is communicated with the, the number of the drainage tubes and the oscillation mechanisms is consistent with that of the bearing supports of the bearing frame, at least one drainage tube and one solid-liquid separation device are arranged in each bearing support, wherein the axes of the drainage tubes are distributed in parallel with the axis of the bearing support, the drainage tubes in the same bearing support are connected in parallel with each other and are respectively connected with the solid-liquid separation device in the bearing support in series, the solid-liquid separation devices are respectively positioned at the connecting positions of the bearing support and the bearing upright post and are connected with the inner surface of the bearing support through elastic supports, the oscillation mechanisms and the negative pressure pumps are both positioned on the upper end surface of the bearing upright post, the negative pressure pumps are respectively communicated with the solid-liquid separation devices through flow guide branch tubes, the oscillation mechanisms are respectively connected with the outer surfaces of the solid-liquid separation devices through connecting rods, and the control circuit is embedded on the, and is respectively electrically connected with the oscillating mechanism, the solid-liquid separation device and the negative pressure pump.

2. The vibratory sewage treatment plant convenient to separate impurities in sewage according to claim 1, wherein: the connection positions of the solid-liquid separation device, the drain pipe and the drainage pipe are respectively provided with a control valve, and the control valves are electrically connected with a control circuit.

3. The vibratory sewage treatment plant convenient to separate impurities in sewage according to claim 1, wherein: in the solid-liquid separation device, the solid-liquid separation devices positioned in the bearing brackets are mutually connected through the diversion branch pipes.

4. The vibratory sewage treatment plant convenient to separate impurities in sewage according to claim 1, wherein: the upper end surface of the drain pipe is respectively connected with each solid-liquid separation device through a collecting pipe.

5. The vibratory sewage treatment plant convenient to separate impurities in sewage according to claim 1, wherein: and the side wall of the bearing bracket corresponding to the solid-liquid separation device is provided with an access hole, and the access hole and the solid-liquid separation device are coaxially distributed.

6. The vibratory sewage treatment plant convenient to separate impurities in sewage according to claim 1, wherein: the control circuit is a circuit system based on any one of a single chip microcomputer or a programmable controller.

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