CN108489768A - The mounting structure of sampler is detected in a kind of waste water treatment system - Google Patents

Abstract

The present invention provides the mounting structures that sampler is detected in a kind of waste water treatment system, belong to environmental protection tests technical field.It solves the problems, such as how to ensure to make the installation of immersible pump and maintenance more convenient while immersible pump can consolidate installation positioning.This waste water treatment system includes wastewater collection pond and work well head, it includes immersible pump and outlet pipe to detect sampler, this mounting structure includes the fixed frame for being vertically inserted into wastewater collection pond bottom and being fixed on the fixed link of wastewater collection pond bottom and being fixed on above work well head, anchor ear is fixed on immersible pump, there is armful ring portion annular in shape on anchor ear, embrace ring portion be set in fixed link and with fixed link clearance fit, hoist engine is fixed on fixed frame, the cable wire of hoist engine from work well head stretch into wastewater collection pond and with immersible pump be connected and it is exceptionally straight, embracing ring portion can slide under the pulling of cable wire along fixed link.By being designed above so that the installation and maintenance of immersible pump are more convenient.

Description

An installation structure of a detection and sampling device in a wastewater treatment system

technical field

The invention belongs to the technical field of environmental detection and relates to an installation structure of a detection sampling device in a waste water treatment system.

Background technique

Industrial wastewater refers to the wastewater, sewage and waste liquid produced in the process of industrial production, which contains industrial production materials, intermediate products and products lost with water, as well as sewage produced in the production process. With the rapid development of industry, the types and quantities of wastewater have increased rapidly, and the pollution of water bodies has become increasingly widespread and serious, threatening human health and safety.

For this reason, the state requires enterprises to treat waste water before discharging it to reduce the total amount of pollutants in the waste water so that it meets the discharge standards or environmental capacity requirements, and finally discharge the treated water into water bodies or urban pipelines. Although people have already treated wastewater, there are still problems of incomplete wastewater treatment and excessive discharge. Therefore, environmental protection departments often monitor the water quality of wastewater that has been discharged or is being treated.

Water quality monitoring is an important part of the environmental protection department's monitoring of the environment, and it is also an important activity carried out by wastewater treatment and environmental protection companies. In order to achieve the purpose of continuously monitoring the water quality of the wastewater, in the prior art, the monitoring department generally designs an online continuous monitoring system in the wastewater discharge system. In the wastewater monitoring system, the link of wastewater testing and sampling is very important, which is an important factor in determining whether the testing results are accurate. Specifically, the sampling operation is generally performed by putting the submersible pump into the wastewater collection tank. For example, Chinese patent [Application No.: 201220085253.X] discloses an integrated pumping station with a deodorizing device, including an integrated cabin. The integrated cabin includes a liquid storage cabin, an inspection cabin, a deodorizing device cabin, a gas mixing cabin, a reaction cabin, and a fan cabin; a liquid inlet is provided on the side wall of the liquid storage cabin, and a A submersible pump; a liquid outlet pipe is installed in the maintenance cabin; one end of the liquid outlet pipe extends into the liquid storage tank to communicate with the submersible pump, and the other end of the liquid outlet pipe passes through the maintenance cabin. Wherein, the submersible pump is fixed at the bottom of the liquid storage tank, and a ladder is designed on the bulkhead of the liquid storage tank to realize the installation or maintenance of the submersible pump by the installer.

However, in the actual working environment, the water flow in the waste water pool is relatively turbulent, and the submersible pump is installed in the above-mentioned way. Although the installation and positioning are stable, because the submersible pump is generally deep into the water surface, the above-mentioned installation method makes the installation and operation of the submersible pump very difficult; at the same time , When the submersible pump needs to be overhauled and taken out, it needs to be pulled out manually, which makes it very inconvenient to overhaul the submersible pump.

Contents of the invention

The purpose of the present invention is to solve the above-mentioned problems in the existing technology, and propose an installation structure for a detection and sampling device in a wastewater treatment system. Installation and maintenance are more convenient.

The purpose of the present invention can be achieved through the following technical proposals: an installation structure of a detection and sampling device in a waste water treatment system, the waste water treatment system includes a waste water collection tank and a working wellhead communicating with the waste water collection tank, and the detection and sampling device includes The submersible pump located in the waste water collection tank and the outlet pipe connected to the water outlet of the submersible pump, the outlet pipe extends from the waste water collection tank to the working wellhead, characterized in that the installation structure includes vertically inserted into the bottom of the waste water collection tank And fixed on the fixed rod at the bottom of the waste water collection tank and the fixed frame fixed on the top of the working wellhead, the submersible pump is fixed with a hoop, and the hoop has a ring-shaped hoop, and the hoop is covered with It is installed on the fixed rod and cooperates with the fixed rod in a gap. The fixed frame is fixedly connected with a hoist, and the steel cable of the hoist extends from the working wellhead into the waste water collection tank and is fixedly connected with the submersible pump and stretched straight. The embracing ring The part can slide along the fixed rod under the pull of the cable.

Different from the prior art, in the installation structure of the testing and sampling device, the design of the fixed rod and the winch and the cooperation between the two and the submersible pump ensure that the submersible pump can be stably installed and positioned while making the installation and maintenance of the submersible pump easier. Convenience; specifically, on the one hand, by inserting the fixed rod into the bottom of the waste water collection tank, since the ring part of the fixed hoop on the submersible pump is sleeved on the fixed rod and fits with the fixed rod, that is to say, This makes the submersible pump and the fixed rod realize the sliding connection, and at the same time enables the submersible pump to realize the positioning with the fixed rod in the radial direction; The cooperation enables the submersible pump to be reliably positioned in the environment of turbulent water flow, thereby realizing the stable installation and positioning of the submersible pump; and at this time, cooperate with the cable on the hoist, that is, the cable is stretched straight to pull the submersible pump, It can provide further auxiliary positioning for the installation of the submersible pump, which can further improve the stability of the installation and positioning of the submersible pump; on the other hand, the installation or maintenance of the submersible pump is controlled by the winch. Outside the wellhead, fit the hoop on the submersible pump with the fixed rod in advance, then install the outlet pipe, fix the steel cable, and then control the winch to lower until the submersible pump slides below the water surface along the fixed rod to complete the installation; when needed During maintenance, just control the winch to pull the submersible pump up to take out the submersible pump for maintenance; that is to say, the entire installation and maintenance process does not need to be installed or taken out manually in the waste water collection tank, which greatly improves the installation and maintenance of submersible pumps. Convenience; at the same time, the above-mentioned fixed rod not only provides a solid positioning foundation for the submersible pump, but also provides a guide for the lifting of the submersible pump, making the lifting operation more smooth during the installation and maintenance of the submersible pump, and can further improve the installation and maintenance of the submersible pump. Convenience; In addition, in this installation structure, the ladder structure is canceled, which can simplify the structure and help reduce the construction cost of the entire wastewater treatment system.

In the above installation structure of the detection and sampling device in the wastewater treatment system, the lower end of the fixing rod has a conical insertion end. In the wastewater treatment system, there will be a thick mud layer at the bottom of the wastewater collection tank. Through the design of the above insertion end, the fixing rod can be inserted deeper into the bottom of the wastewater collection tank, so that the fixing rod can be firmly fixed, and then The fixing rod can improve a stable positioning foundation for the installation of the submersible pump, and ensure that the submersible pump can be stably installed and positioned.

In the above-mentioned installation structure of the detection and sampling device in the wastewater treatment system, an installation box is fixed on the fixed frame, a positioning sleeve 1 is fixed on the installation box, a horizontal bar is fixed on the working wellhead, and the horizontal bar is fixed on the installation box. A positioning sleeve 2 located on the same axis as the positioning sleeve 1 is fixed on the bar, and the fixing rod passes through the positioning sleeve 1 and the positioning sleeve 2 in sequence and is respectively fixedly connected with the two by bolts. Through the design of the above positioning sleeve 1 and positioning sleeve 2, together with the fixed point at the insertion end of the fixed rod, the fixed rod is fixed by three fixed points, which greatly improves the stability of the fixed rod itself, so that the fixed rod can be Provide more reliable positioning for the submersible pump, which is conducive to improving the stability of the installation and positioning of the submersible pump.

In the above-mentioned installation structure of the detection and sampling device in the wastewater treatment system, the upper end of the fixed rod is threadedly connected to the limit head, the limit head is located above the positioning sleeve one, and the limit head has a spherical limit part, the diameter of the limiting part is larger than the outer diameter of the positioning sleeve one. Through the above design of the upper limit head, the sinking of the fixing rod due to the soft bottom mud layer can be avoided, and the fixing rod can always provide a reliable positioning basis for the submersible pump, thereby helping to improve the stability of the installation and positioning of the submersible pump.

In the above-mentioned installation structure of the detection and sampling device in the wastewater treatment system, the fixed rod is divided into several short rods, and two adjacent short rods are threaded. Through the segmental design of the fixing rod above, the length of the fixing rod can be flexibly adjusted according to the installation requirements, which is conducive to improving the convenience of submersible pump installation.

Preferably, in the above-mentioned installation structure of the detection and sampling device in the wastewater treatment system, the fixed rod is a square tube, and the hoop is sleeved on the fixed rod to form a circumferential positioning with the fixed rod. Through the above design, the stability of the installation and positioning of the submersible pump can be further improved.

In the above-mentioned installation structure of the detection and sampling device in the wastewater treatment system, the hoist is fixed on the installation box, and there is a limit between the casing of the hoist and the inner wall of the installation box that is directly opposite to the straight pipe section of the outlet pipe. The straight pipe section of the water outlet pipe can protrude along the limit opening. In the prior art, the outlet pipe generally includes a straight pipe section and a bent pipe section; When the submersible pump is descending, the straight pipe section is restricted by the limit port and will not be excessively bent and interfere with the surrounding components, so that the installation operation of the submersible pump can be carried out smoothly, which is conducive to improving the convenience of submersible pump installation; when submersible When the pump needs to be repaired, it is first necessary to remove the elbow section of the outlet pipe, and then control the rise of the submersible pump. At this time, the outlet pipe will rise with the rise of the submersible pump. Then, through the design of the upper limit port, the straight pipe section will be affected. The restriction of the limit opening will not be excessively bent and interfere with peripheral components, so that the maintenance operation of the submersible pump can be carried out smoothly, thereby improving the convenience of maintenance of the submersible pump.

In the above installation structure of the detection and sampling device in the wastewater treatment system, the hoop includes a strip-shaped connecting body, one side of the connecting body has a ring-shaped fixing ring part, and the pump body of the submersible pump wears It is arranged in the fixed ring part and is fixedly connected with the fixed ring part. The ring part is located on the other side of the connecting body. The ring part includes a belt-shaped ring body, and one end of the ring body has a locking seat. The other end of the ring body is set in the locking seat and there is a rack portion on the outer surface of the ring body near the other end. A locking screw with an elliptical cross-section is threaded in the locking seat. The locking screw The external thread of the gear meshes with the above-mentioned rack part. Through the design of the elliptical locking screw and the rack part in the ring part, the ring part is sleeved on the fixed rod and is not easy to loosen when it cooperates with it, which can ensure the stability of the installation and positioning of the submersible pump.

In the above-mentioned installation structure of the detection and sampling device in the wastewater treatment system, a cover plate is fixed at the head of the working well, and a limiting groove is provided on the cover plate, and one end of the limiting groove communicates with the outside world. The width of the groove is the same as the diameter of the steel cable, and the steel cable passes through the limiting groove and contacts and abuts against the groove walls on both sides of the limiting groove. Through the design of the upper limit groove, the steel cable is limited, so that the positioning of the steel cable is more stable when it collapses and pulls the submersible pump.

In the above-mentioned installation structure of the detection and sampling device in the wastewater treatment system, a positioning hole is provided on the cover plate, and the outlet pipe is passed through the positioning hole and forms a circumferential positioning with the positioning hole. Through the above design, the outlet pipe can also be effectively positioned, so that the submersible pump can achieve more stable installation and positioning through the cooperation and positioning of the fixing rod, the steel cable and the outlet pipe.

Compared with the prior art, the installation structure of the detection and sampling device in the wastewater treatment system has the following advantages: the installation structure coordinates with the submersible pump through the fixed rod, the steel cable and the water outlet pipe, thereby ensuring that the submersible pump can be used in turbulent conditions. Stable installation and positioning in the water surface environment; at the same time, through the function of the hoist and the fixed rod, the installation and maintenance of the submersible pump do not need to go down the well, which makes the installation and maintenance of the submersible pump more convenient.

Description of drawings

Fig. 1 is a schematic diagram 1 of the installation structure of the detection and sampling device in the wastewater treatment system.

Fig. 2 is a second schematic diagram of the installation structure of the detection and sampling device in the wastewater treatment system.

Fig. 3 is a structural schematic diagram of one of the short rods of the installation structure.

Fig. 4 is a structural schematic diagram of the hoop in the installation structure.

Fig. 5 is a structural schematic diagram of the cover plate in the installation structure.

In the figure, 1. waste water collection tank; 2. working wellhead; 3. submersible pump; 4. outlet pipe; 5. fixed rod; 5a, insertion end; 51. short rod; Section; 6, fixed frame; 7, hoop; 71, connector; 72, fixed ring part; 73, ring part; 731, ring body; 732, locking seat; 733, rack part; 8, hoist; , steel cable; 10, installation box; 11, positioning sleeve one; 12, horizontal bar; 13, positioning sleeve two; 14, limit head; 141, limit part; 15, limit port; 16, locking Screw; 17, cover plate; 18, limit slot; 19, positioning hole.

Detailed ways

The following are specific embodiments of the present invention and in conjunction with the accompanying drawings, the technical solutions of the present invention are further described, but the present invention is not limited to these embodiments.

Specifically, as shown in FIG. 1 and FIG. 2 , the wastewater treatment system includes a wastewater collection pool 1 and a working wellhead 2 communicating with the wastewater collection pool 1 . The detection and sampling device includes a submersible pump 3 located in the waste water collection tank 1 and an outlet pipe 4 connected to the water outlet of the submersible pump 3 , and the outlet pipe 4 extends from the waste water collection tank 1 to the working wellhead 2 . The installation structure includes a fixed rod 5 inserted into the bottom of the waste water collection tank 1 in the vertical direction and fixed on the bottom of the waste water collection tank 1, and a fixed frame 6 fixed on the top of the working wellhead 2. The fixed frame 6 is fixed with an installation box 10, and the installation box 10 is fixed with a positioning sleeve 11, the working wellhead 2 is fixed with a horizontal bar 12, and the horizontal bar 12 is fixed with a positioning sleeve 2 13 on the same axis as the positioning sleeve 11, and the fixed rod 5 passes through it in turn. Positioning sleeve one 11 and positioning sleeve two 13 are respectively fixedly connected with both by bolts. A hoop 7 is fixed on the submersible pump 3, and the hoop 7 has a ring-shaped hoop 73. The hoop 73 is sleeved on the fixed rod 5 and fits with the fixed rod 5. The hoist 8 is fixed on the installation box 10 Above, between the casing of the winch 8 and the inner wall of the installation box 10, a limit opening 15 facing the straight pipe section of the water outlet pipe 4 is formed, and the straight pipe section of the water outlet pipe 4 can protrude along the limit mouth 15. The steel cable 9 of the winch 8 extends from the working wellhead 2 into the waste water collection tank 1 and is fixedly connected with the submersible pump 3 and stretched straight.

More specifically, as shown in FIG. 1 , the upper end of the fixed rod 5 is screwed to the limit head 14, the limit head 14 is located above the positioning sleeve one 11, the limit head 14 has a spherical limit portion 141, and the limit The diameter of the portion 141 is larger than the outer diameter of the positioning sleeve one 11 . The lower end of the fixing rod 5 has a conical insertion end 5a. As shown in Figure 3, the fixed rod 5 is divided into several sections of short rods 51, and one end of the last section of the short rods 51 has an internally threaded hole 511 or an external thread connection section 512, and the other end is an insertion section; one end of the remaining short rods 51 has The other end of the internally threaded hole 511 has an externally threaded connection section 512 . Two adjacent short rods 51 are threadedly connected. Preferably, the fixed rod 5 is a square tube, and the hoop 7 is sleeved on the fixed rod 5 and forms a circumferential positioning with the fixed rod 5 .

As shown in Figure 4, the above-mentioned hoop 7 includes a strip-shaped connecting body 71, and one side of the connecting body 71 has a ring-shaped fixing ring part 72, and the pump body of the submersible pump 3 is passed through the fixing ring part 72 and is connected to the fixing ring part 72. The fixed ring part 72 is fixedly connected, and the ring part 73 is located on the other side of the connecting body 71. The ring part 73 includes a belt-shaped ring body 731, one end of the ring body 731 has a locking seat 732, and the other end of the ring body 731 is worn Located in the locking seat 732 and the outer surface of the ring body 731 near the other end has a section of rack portion 733, the locking seat 732 is pierced with a locking screw 16 with an elliptical cross-section, and the external thread of the locking screw 16 is the same as the above-mentioned The rack portion 733 meshes.

As shown in Figure 5, cover plate 17 is fixed at 2 places of working wellhead, and limit groove 18 is offered on cover plate 17, and one end of limit groove 18 communicates with the outside world, and the width of limit groove 18 is identical with the diameter of steel cable 9, The steel cable 9 passes through the limiting groove 18 and contacts and abuts against two sides of the limiting groove 18 . A positioning hole 19 is also opened on the cover plate 17 , and the water outlet pipe 4 is passed through the positioning hole 19 and forms a circumferential positioning with the positioning hole 19 .

The specific embodiments described herein are merely illustrative of the spirit of the invention. Those skilled in the art to which the present invention belongs can make various modifications or supplements to the described specific embodiments or adopt similar methods to replace them, but they will not deviate from the spirit of the present invention or go beyond the definition of the appended claims range.

Although the waste water collection tank 1, the working wellhead 2, the submersible pump 3, the outlet pipe 4, the fixed rod 5, the insertion end 5a, the short rod 51, the internal threaded hole 511, the external threaded connection section 512, and the fixed frame 6 are used more frequently in this paper. , hoop 7, connector 71, fixed ring part 72, ring part 73, ring body 731, locking seat 732, rack part 733, winch 8, steel cable 9, installation box 10, positioning sleeve 11, horizontal Bar 12, positioning sleeve 2 13, limiting head 14, limiting part 141, limiting opening 15, locking screw 16, cover plate 17, limiting groove 18, positioning hole 19 and other terms, but does not exclude the use of other term possibility. These terms are used only for the purpose of describing and explaining the essence of the present invention more conveniently; interpreting them as any kind of additional limitation is against the spirit of the present invention.

Claims (10)

1. the installation structure of detection sampling device in a kind of waste water treatment system, described waste water treatment system comprises waste water collection pond (1) and the working wellhead (2) that communicates with waste water collection pond (1), described detection sampling device includes The submersible pump (3) in the wastewater collection tank (1) and the outlet pipe (4) connected to the water outlet of the submersible pump (3), the outlet pipe (4) stretches out of the working wellhead from the wastewater collection tank (1) (2), characterized in that the installation structure includes a fixed rod (5) inserted into the bottom of the waste water collection pool (1) in the vertical direction and fixed on the bottom of the waste water collection pool (1) and fixed above the working wellhead (2). The fixing frame (6), the submersible pump (3) is fixed with a hoop (7), and the hoop (7) has a ring-shaped hoop (73), and the hoop (73) ) is sleeved on the fixed rod (5) and fits with the fixed rod (5) in clearance, the fixed frame (6) is fixedly connected with the winch (8), and the steel cable (9) of the winch (8) from the working The wellhead (2) extends into the waste water collection tank (1) and is fixedly connected with the submersible pump (3) and stretched straight, and the ring part (73) can be pulled along the fixed rod (5) under the pull of the steel cable (9). slide. 2. The installation structure of the detection and sampling device in the wastewater treatment system according to claim 1, characterized in that, the lower end of the fixed rod (5) has a conical insertion end (5a). 3. the installation structure of detecting and sampling device in the waste water treatment system according to claim 2, it is characterized in that, on the described fixed frame (6) is fixed with installation box (10), on the described installation box (10) is fixed with Positioning sleeve one (11), a horizontal bar (12) is fixed at the working wellhead (2), and a positioning sleeve on the same axis as the positioning sleeve one (11) is fixed on the horizontal bar (12) Two (13), the fixed rod (5) passes through the positioning sleeve one (11) and the positioning sleeve two (13) successively and is respectively fixedly connected with the two by bolts. 4. The installation structure of the detection and sampling device in the waste water treatment system according to claim 3, characterized in that, the upper end of the fixed rod (5) is threaded to a limit head (14), and the limit head (14) Located above the positioning sleeve one (11), the limiting head (14) has a spherical limiting portion (141), and the diameter of the limiting portion (141) is larger than the outer diameter of the positioning sleeve one (11) . 5. The installation structure of the detection and sampling device in the wastewater treatment system according to claim 1 or 2 or 3 or 4, characterized in that, the fixed rod (5) is divided into several sections of short rods (51), two adjacent Threaded connection between section short rods (51). 6. The installation structure of the detection and sampling device in the wastewater treatment system according to claim 1 or 2 or 3 or 4, characterized in that, the fixed rod (5) is a square tube, and the hoop (7) is sleeved On the fixed rod (5) and form circumferential positioning with the fixed rod (5). 7. The installation structure of the detection sampling device in the wastewater treatment system according to claim 3, characterized in that, the hoist (8) is fixed on the installation box (10), and the casing of the hoist (8) is connected with the installation A limit opening (15) is formed between the inner walls of the box (10) and is directly opposite to the straight pipe section of the water outlet pipe (4), and the straight pipe section of the water outlet pipe (4) can protrude along the limit opening (15) . 8. The installation structure of the detection and sampling device in the wastewater treatment system according to claim 1 or 2 or 3 or 4, characterized in that, the hoop (7) includes a strip-shaped connector (71), and the connection One side of the body (71) has a ring-shaped fixed ring part (72), and the pump body of the submersible pump (3) is passed through the fixed ring part (72) and is fixedly connected with the fixed ring part (72). The ring-wrapping part (73) is located on the other side of the connector (71), and the ring-wrapping part (73) includes a belt-shaped ring body (731), and one end of the ring body (731) has a locking seat (732), the other end of the ring body (731) is passed through the locking seat (732) and there is a section of rack portion (733) on the outer surface of the ring body (731) near the other end, the locking seat ( 732) is pierced with a locking screw (16) with an elliptical cross-section, and the external thread of the locking screw (16) engages with the above-mentioned rack portion (733). 9. The installation structure of the detection and sampling device in the wastewater treatment system according to claim 1 or 2 or 3 or 4, characterized in that a cover plate (17) is fixed at the working wellhead (2), and the cover plate (17) provides a limit groove (18), one end of the limit groove (18) communicates with the outside world, the width of the limit groove (18) is the same as the diameter of the steel cable (9), and the The steel cable (9) passes through the limiting groove (18) and contacts and abuts against both sides of the limiting groove (18). 10. The installation structure of the detection and sampling device in the wastewater treatment system according to claim 9, characterized in that, the cover plate (17) is also provided with a positioning hole (19), and the outlet pipe (4) is pierced In the positioning hole (19) and form a circumferential positioning with the positioning hole (19).