CN214512906U - Sewage sedimentation tank water body discharge control box - Google Patents

Abstract

The utility model relates to a sewage sedimentation tank water body discharge control box, including bearing the box, bear the backplate, horizontal direction slide rail, vertical direction slide rail, the locating piece, slider and binding post, two at least locating pieces are all established to horizontal direction slide rail rear end face, bear the backplate rear end face and pass through slider and horizontal direction slide rail sliding connection, terminal surface and two at least vertical direction slide rail connections before bearing the backplate, bear the box rear end face and pass through slider and vertical direction slide rail sliding connection, it includes the bearing groove to bear the box, sealed lid, baffle and temperature and humidity sensor, binding post inlays respectively and bears the box, bear the backplate surface. On one hand, the working position of the control box equipment can be flexibly adjusted according to the use requirement, so that the flexibility and convenience of operation and control operation are greatly improved; and on the other hand, the requirements of bearing, sealing protection and operation environment adjustment of various different types of circuit systems are flexibly met in operation.

Description

Sewage sedimentation tank water body discharge control box

Technical Field

The utility model relates to an electric control box for sedimentation tank of sewage plant belongs to sewage treatment equipment technical field.

Background

At present, a sewage sedimentation tank is an important sewage purification device, the usage amount is large, and during operation of the sedimentation tank, corresponding electrical control boxes are always required to be arranged at the position of the sedimentation tank to meet the requirements of carrying an electrical control circuit and operating the sewage sedimentation tank; on the other hand, in the operation and control operation, the current electrical control box is often relatively poor in sealing performance and cannot adjust the operation working environment of the electrical control box, so that electrical equipment in the current electrical control box is extremely easy to be corroded by water vapor, dust and other pollutants, and the operation stability and reliability of the electrical control box are seriously affected.

Therefore, in order to meet the current situation, the development of a water body discharge control box of the sewage sedimentation tank is urgently needed to meet the actual use requirement.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model provides a sewage sedimentation tank water body discharge control box, which has simple structure, good universality, high integration degree and modularization degree, can effectively meet the requirements of being matched with an overground sedimentation tank and a sedimentation tank with various structural types for use on one hand, can flexibly adjust the working position of control box equipment according to the use requirements, and greatly improves the flexibility and convenience of operation and control operation; on the other hand, the requirements of bearing, sealing protection and operation environment adjustment of various different types of circuit systems are flexibly met during operation, so that the operation stability and reliability of the circuit systems are greatly improved.

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

a sewage sedimentation tank water body discharge control box comprises a bearing box body, a bearing back plate, horizontal guide slide rails, vertical guide slide rails, positioning blocks, a slide block and a connecting terminal, wherein at least two horizontal guide slide rails are arranged, each horizontal guide slide rail is distributed in parallel with a horizontal plane, the rear end face of each horizontal guide slide rail is provided with at least two positioning blocks, the rear end face of the bearing back plate is connected with the horizontal guide slide rails in a sliding way through the slide block, the bearing back plate and the horizontal plane form an included angle of 30-90 degrees, the front end face of the bearing back plate is connected with at least two vertical guide slide rails, the vertical guide slide rails are mutually distributed in parallel and are vertically distributed with the horizontal guide slide rails, at least one bearing box body is arranged, the rear end face of the bearing box body is connected with the vertical guide slide rails in a sliding way through the slide block, the bearing box body comprises a bearing groove, a sealing cover, a partition plate and a temperature and humidity sensor, the bearing groove is of a U-shaped groove-shaped structure, the front end face of the bearing box body is hinged to the sealing cover, an airtight cavity structure is formed, the partition plates are embedded in the bearing groove, the axes of the partition plates are distributed in parallel with the horizontal plane, the partition plates are at least two, the partition plates are uniformly distributed along the axis of the bearing groove from top to bottom, the two end faces of the partition plates are hinged to the side wall of the bearing groove through the ratchet mechanism, the ratchet mechanism is in sliding connection with the inner surface of the side wall of the bearing groove through the sliding grooves, the sliding grooves are distributed in parallel with the axis of the bearing groove, the temperature and humidity sensors are respectively connected with the lower end face of each partition plate, at least two wiring terminals are respectively embedded in the bearing box body and the outer surface of the bearing back plate, and the wiring terminals between the bearing box body and the bearing back plate are electrically connected through guiding.

Furthermore, the bearing backboard comprises a bearing frame, an electric heating wire, a temperature and humidity sensor, a semiconductor refrigerating mechanism and a wiring groove, the cross section of the bearing frame is of a rectangular frame structure, the electric heating wire is embedded in the bearing frame, and distributed in a spiral structure around the axis of the bearing frame, at least one semiconductor refrigerating mechanism is embedded in the bearing frame, the refrigerating end of the semiconductor refrigerating mechanism is 0-10 mm higher than the front end surface of the bearing frame, and is abutted against the rear end face of the bearing box body, at least one temperature and humidity sensor is embedded in the rear end face of the bearing frame and is distributed in parallel with the rear end face of the bearing frame, the wiring groove is of a closed tubular structure with a rectangular cross section, at least one wiring groove is embedded in the bearing frame and connected with the inner surface of the bearing frame through a plurality of insulated terminals, the electric heating wire, the temperature and humidity sensor and the semiconductor refrigerating mechanism are electrically connected with the wiring terminal.

Furthermore, a walking driving mechanism which is parallel to the axis of the horizontal guide sliding rail and the vertical guide sliding rail is arranged in the horizontal guide sliding rail and the vertical guide sliding rail, and the walking driving mechanism is connected with the rear end face of the sliding block and is electrically connected with a wiring terminal on the side surface of the bearing backboard.

Furthermore, the walking driving mechanism is any one of a transmission belt and a transmission chain.

Furthermore, in the horizontal guide slide rail and the vertical guide slide rail, two adjacent horizontal guide slide rails and two adjacent vertical guide slide rails are connected through at least two telescopic adjusting rods, the telescopic adjusting rods are respectively and vertically connected with the side surfaces of the horizontal guide slide rails and the vertical guide slide rails, and the telescopic adjusting rods are uniformly distributed along the axial direction of the horizontal guide slide rails and the vertical guide slide rails.

Furthermore, the telescopic adjusting rod is any one of at least two stages of spiral telescopic rods and spring telescopic rods.

Furthermore, the positioning block is connected with the rear end face of the horizontal guide sliding rail through an adjusting bolt, the adjusting bolt is vertically distributed with the rear end face of the horizontal guide sliding rail, and the intersection point is located on the axis of the horizontal guide sliding rail.

The novel structure is simple, the universality is good, the integration degree and the modularization degree are high, on one hand, the requirement of being matched with the overground sedimentation tanks and sedimentation tanks with various structural types for use can be effectively met, the working positions of control box equipment can be flexibly adjusted according to the use requirement, and the flexibility and the convenience of operation and control operation are greatly improved; on the other hand, the requirements of bearing, sealing protection and operation environment adjustment of various different types of circuit systems are flexibly met during operation, so that the operation stability and reliability of the circuit systems are greatly improved.

Drawings

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

FIG. 1 is a schematic diagram of the novel structure;

FIG. 2 is a schematic view of a horizontal guide rail structure;

FIG. 3 is a schematic view of a load-bearing backing plate;

fig. 4 is a schematic cross-sectional structure diagram of the carrying box.

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.

As shown in fig. 1 to 4, a control box for water body discharge of a sewage sedimentation tank comprises a bearing box body 1, a bearing back plate 2, horizontal guide slide rails 3, vertical guide slide rails 4, positioning blocks 5, a slide block 6 and a wiring terminal 7, wherein the horizontal guide slide rails 3 are at least two, each horizontal guide slide rail 3 is distributed in parallel with a horizontal plane, the rear end surface of each horizontal guide slide rail 3 is provided with at least two positioning blocks 5, the rear end surface of the bearing back plate 2 is in sliding connection with the horizontal guide slide rails 3 through the slide block 6, the bearing back plate 2 forms an included angle of 30-90 degrees with the horizontal plane, the front end surface of the bearing back plate 2 is connected with at least two vertical guide slide rails 4, the vertical guide slide rails 4 are distributed in parallel with each other and are perpendicular to the horizontal guide slide rails 3, the bearing box body 1 is at least one, and the rear end surface of the bearing back plate is in sliding connection with the vertical guide slide rails 4 through the slide block 6.

In this embodiment, the carrying box 1 includes a carrying groove 101, a sealing cover 102, a partition 103 and a temperature and humidity sensor 104, the carrying groove 101 has a cross-section of a U-shaped groove structure, a front end surface of the carrying groove is hinged to the sealing cover 102 to form a closed cavity structure, the partition 103 is embedded in the carrying groove 101, an axis of the partition is parallel to a horizontal plane, at least two partitions 103 are provided, the partitions 103 are uniformly distributed along the axis of the carrying groove 101 from top to bottom, two end surfaces of the partitions 103 are hinged to side walls of the carrying groove 101 through a ratchet mechanism 105, the ratchet mechanism 105 is slidably connected to inner surfaces of the side walls of the carrying groove 101 through a sliding groove 106, the sliding groove 106 is parallel to the axis of the carrying groove 101, and the temperature and humidity sensor 104 is respectively connected to lower end surfaces of the partitions 103;

in this embodiment, at least two of the connecting terminals 7 are respectively embedded in the outer surfaces of the carrying case 1 and the carrying backboard 2, and the connecting terminals 7 between the carrying case 1 and the carrying backboard 2 are electrically connected through guiding.

It is emphasized that the carrier back plate 2 includes a carrier 21, an electric heating wire 22, temperature and humidity sensors 104, semiconductor refrigeration mechanisms 23 and wiring grooves 24, the carrier 21 is a frame structure with a rectangular cross section, the electric heating wire 22 is embedded in the carrier 21 and distributed in a spiral structure around the axis of the carrier 21, at least one semiconductor refrigeration mechanism 23 is embedded in the carrier 21, the refrigeration end of the semiconductor refrigeration mechanism 23 is 0-10 mm higher than the front end surface of the carrier 21 and abuts against the rear end surface of the carrier box 1, at least one temperature and humidity sensor 104 is embedded in the rear end surface of the carrier 21 and distributed in parallel and level with the rear end surface of the carrier 21, the wiring grooves 24 are a closed tubular structure with a rectangular cross section, and at least one wiring groove 24 is embedded in the carrier 21 and connected with the inner surface of the carrier 21 through a plurality of insulating terminals 25, the electric heating wire 22, the temperature and humidity sensor 104 and the semiconductor refrigerating mechanism 23 are electrically connected with the wiring terminal 7.

Meanwhile, a walking driving mechanism 8 which is distributed in parallel with the axes of the horizontal guide slide rail 2 and the vertical guide slide rail 3 is arranged in the horizontal guide slide rail 3 and the vertical guide slide rail 4, and the walking driving mechanism 8 is connected with the rear end face of the sliding block 6 and is electrically connected with a wiring terminal 7 on the side surface of the bearing backboard 2.

Preferably, the travel driving mechanism 8 is any one of a transmission belt and a transmission chain.

In addition, in the horizontal guide slide rail 3 and the vertical guide slide rail 4, two adjacent horizontal guide slide rails 3 and two adjacent vertical guide slide rails 4 are connected through at least two telescopic adjusting rods 9, the telescopic adjusting rods 9 are respectively connected with the side surfaces of the horizontal guide slide rail 3 and the vertical guide slide rail 4 perpendicularly, and the telescopic adjusting rods 9 are uniformly distributed along the axial direction of the horizontal guide slide rail 3 and the vertical guide slide rail 4.

Preferably, the telescopic adjusting rod 9 is at least one of a two-stage spiral telescopic rod and a spring telescopic rod.

In this embodiment, the positioning block 5 is connected with the rear end face of the horizontal guide slide rail 3 through the adjusting bolt 10, the adjusting bolt 10 is vertically distributed with the rear end face of the horizontal guide slide rail 3, and the intersection point is located on the axis of the horizontal guide slide rail 3.

This is novel in concrete implementation, at first pass through locating piece and sewage sedimentation tank surface connection to constituting this neotype horizontal direction slide rail, and strengthen the location to interval between each horizontal direction slide rail through flexible regulating rod, then to constituting this neotype bearing box body, bear the weight of the backplate, horizontal direction slide rail, vertical direction slide rail, the locating piece, slider and binding post assemble, install circuit system in the bearing box body at last, and bear the weight of the location to circuit system through the baffle, and with binding post and the circuit system after the installation electrical connection between, thereby accomplish this novel assembly.

When the operation platform is used, under the cooperation of the horizontal guide slide rail of bearing box accessible, vertical guide slide rail and the slider that are used for circuit system installation location in this novel, position adjustment is carried out along the sedimentation tank surface to realize satisfying the needs that the operation is controlled to the different positions of adjustment sedimentation tank in a flexible way.

Meanwhile, in this novel operation, at first temperature and humidity when carrying box and bearing the weight of temperature and humidity sensor in the backplate to current electrical control equipment operation detect, when the internal high temperature of bearing box or humidity are too high, the operation of semiconductor refrigeration mechanism in the backplate is born in the direct drive, carry out whole cooling to bearing the weight of the box, and reach through the cooling and carry out low temperature freeze-drying dehumidification operation to bearing the weight of the box inside, only humidity is too high or ambient temperature crosses when low excessively when the box is internal simultaneously, then drive the operation of electric heating wire and heat and dry bearing the weight of the box, thereby reach and improve the inside operating temperature of bearing the box, when eliminating the influence that low temperature caused circuit equipment, reach the purpose of drying to bearing the internal circuit system of box through high temperature in addition.

In addition, this is novel in service, accessible bears the weight of groove, sealed lid in addition and seals the protection to circuit system, further reduces the erosion damage that outside dust and vapor caused circuit system.

The novel structure is simple, the universality is good, the integration degree and the modularization degree are high, on one hand, the requirement of being matched with the overground sedimentation tanks and sedimentation tanks with various structural types for use can be effectively met, the working positions of control box equipment can be flexibly adjusted according to the use requirement, and the flexibility and the convenience of operation and control operation are greatly improved; on the other hand, the requirements of bearing, sealing protection and operation environment adjustment of various different types of circuit systems are flexibly met during operation, so that the operation stability and reliability of the circuit systems are greatly improved.

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 (7)

1. The utility model provides a sewage sedimentation pond water body discharges control box which characterized in that: the water body discharge control box of the sewage sedimentation tank comprises a bearing box body, a bearing back plate, horizontal guide slide rails, vertical guide slide rails, positioning blocks, a sliding block and a wiring terminal, wherein at least two horizontal guide slide rails are arranged, each horizontal guide slide rail is distributed in parallel with a horizontal plane, at least two positioning blocks are arranged on the rear end surface of each horizontal guide slide rail, the rear end surface of the bearing back plate is in sliding connection with the horizontal guide slide rails through the sliding block, the bearing back plate and the horizontal plane form an included angle of 30-90 degrees, the front end surface of the bearing back plate is connected with at least two vertical guide slide rails, the vertical guide slide rails are distributed in parallel with each other and are distributed perpendicular to the horizontal guide slide rails, at least one bearing box body is arranged, the rear end surface of the bearing box body is in sliding connection with the vertical guide slide rails through the sliding block, and the bearing box body comprises a bearing groove, a sealing cover, a partition plate and a temperature and humidity sensor, bear the groove and personally submit "U" font slot-shaped structure for the cross-section, its preceding terminal surface is articulated with sealed lid to constitute airtight cavity structures, the baffle inlays in bearing the inslot, its axis and horizontal plane parallel distribution, at least two of baffle, each baffle along bearing the groove axis from last equipartition down, baffle both ends face is articulated through ratchet with bearing the groove lateral wall within a definite time, and ratchet passes through spout sliding connection with bearing the groove lateral wall internal surface, spout and bearing groove axis parallel distribution, temperature and humidity sensor is connected with terminal surface under each baffle respectively, binding post is at least two, inlays respectively and bears the box, bears the backplate surface, and bears the binding post between box, the bearing backplate and pass through wire electrical connection.

2. The water body discharge control box of the sewage sedimentation tank according to claim 1, characterized in that: the bearing backboard comprises a bearing frame, an electric heating wire, a temperature and humidity sensor, a semiconductor refrigerating mechanism and a wiring groove, the cross section of the bearing frame is of a rectangular frame structure, the electric heating wire is embedded in the bearing frame, and distributed in a spiral structure around the axis of the bearing frame, at least one semiconductor refrigerating mechanism is embedded in the bearing frame, the refrigerating end of the semiconductor refrigerating mechanism is 0-10 mm higher than the front end surface of the bearing frame, and is abutted against the rear end face of the bearing box body, at least one temperature and humidity sensor is embedded in the rear end face of the bearing frame and is distributed in parallel with the rear end face of the bearing frame, the wiring groove is of a closed tubular structure with a rectangular cross section, at least one wiring groove is embedded in the bearing frame and connected with the inner surface of the bearing frame through a plurality of insulated terminals, the electric heating wire, the temperature and humidity sensor and the semiconductor refrigerating mechanism are electrically connected with the wiring terminal.

3. The water body discharge control box of the sewage sedimentation tank according to claim 1, characterized in that: and the horizontal guide sliding rail and the vertical guide sliding rail are internally provided with a walking driving mechanism which is distributed in parallel with the axes of the horizontal guide sliding rail and the vertical guide sliding rail, and the walking driving mechanism is connected with the rear end surface of the sliding block and is electrically connected with a wiring terminal on the side surface of the bearing backboard.

4. The water body discharge control box of the sewage sedimentation tank according to claim 3, characterized in that: the walking driving mechanism is any one of a transmission belt and a transmission chain.

5. The water body discharge control box of the sewage sedimentation tank according to claim 1, characterized in that: in the horizontal guide slide rail and the vertical guide slide rail, two adjacent horizontal guide slide rails and two adjacent vertical guide slide rails are connected through at least two telescopic adjusting rods, the telescopic adjusting rods are respectively and vertically connected with the side surfaces of the horizontal guide slide rails and the vertical guide slide rails, and the telescopic adjusting rods are uniformly distributed along the axial direction of the horizontal guide slide rails and the vertical guide slide rails.

6. The water body discharge control box of the sewage sedimentation tank according to claim 5, wherein: the telescopic adjusting rod is any one of at least two stages of spiral telescopic rods and spring telescopic rods.

7. The water body discharge control box of the sewage sedimentation tank according to claim 5, wherein: the positioning block is connected with the rear end face of the horizontal guide sliding rail through an adjusting bolt, the adjusting bolt is vertically distributed with the rear end face of the horizontal guide sliding rail, and the intersection point is located on the axis of the horizontal guide sliding rail.

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