CN213355657U - Effluent water sump capping device - Google Patents

Abstract

The utility model relates to a effluent water sump capping device, which comprises a frame, it can cover effluent water sump open-ended heat preservation to rotate to be provided with in the frame, is provided with the upset subassembly of drive heat preservation upset in the frame, and the upset subassembly is including connecting rope, live-rollers and driving piece, and the driving piece is installed in the frame, and the live-rollers rotates to be installed in the frame and is connected with the driving piece, connects the rope and slides and install in the frame, connects the one end and the live-rollers of rope and is connected, connects the other end and the heat preservation layer of rope and. This application has the dead quantity that reduces the microorganism in the effluent water sump to improve the sewage treatment efficiency of effluent water sump.

Description

Effluent water sump capping device

Technical Field

The application relates to sewage treatment's technical field, especially relates to a effluent water sump capping device.

Background

The domestic and foreign commonly used sewage treatment technology mainly adopts a biological method, and the method has the advantages of thorough treatment, high organic matter degradation rate, small secondary pollution, low energy consumption, convenient operation and management and the like; however, the requirement of the microorganisms on the adaptation of the environment also exists, particularly the problem that the water temperature is influenced by the natural environment is difficult to solve, and experiments prove that when the water temperature is lower than 8 ℃ or higher than 35 ℃, the quantity of the microorganisms and the reaction speed are obviously reduced.

The utility model discloses a current notice number is CN 209872490U's china utility model discloses a sewage treatment plant is with sewage treatment facility heat preservation capping device, including setting up the heat preservation in the cell body top, install on the heat preservation and be used for supporting a plurality of supporting components that the heat preservation established, a plurality of supporting components pass through the connection bridge subassembly and connect, and the heat preservation passes through supporting component and connection bridge subassembly and forms the heat preservation room in the cell body top. The heat-insulating layer is used for sealing the opening of the sewage tank, so that the heat loss in the sewage tank is slowed down, a large amount of steam is saved, and the normal operation of the wastewater treatment device is guaranteed; make the structure of this heat preservation more stable through supporting component, the design of connecting the bridge subassembly can make the supporting component of adjacent effluent water sump cell body top more stable.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: to the effluent water sump that adopts the biological method to carry out sewage treatment, the heat preservation on the effluent water sump seals the effluent water sump opening, and in summer, the heat that the sun shines the heat that produces and produce in the effluent water sump can be accumulated in the heat preservation room, because the heat preservation effect of heat preservation, makes the indoor temperature of heat preservation rise rapidly and surpass the temperature that the microorganism is fit for living, makes the microorganism in the effluent water sump die in a large number to the sewage treatment efficiency of effluent water sump has been reduceed.

SUMMERY OF THE UTILITY MODEL

In order to reduce the dead quantity of microorganism in the effluent water sump, improve the sewage treatment efficiency of effluent water sump, this application provides a effluent water sump capping device.

The application provides a pair of effluent water sump capping device adopts following technical scheme:

the utility model provides a cesspool capping device, includes the frame, it is provided with the heat preservation that can cover the cesspool open-ended to rotate in the frame, be provided with the drive in the frame the upset subassembly of heat preservation upset, the upset subassembly is including connecting rope, live-rollers and driving piece, the driving piece is installed in the frame, the live-rollers rotates to be installed in the frame and with the driving piece is connected, it slides and installs to connect the rope in the frame, the one end of connecting the rope with the live-rollers is connected, the other end of connecting the rope with the heat preservation is connected.

Through adopting the above-mentioned technical scheme, the heat preservation rotates and installs in the frame and can cover the effluent water sump, summer when the temperature in the effluent water sump is higher, driving piece drive live-rollers rotates, the live-rollers will be connected the rope rolling when rotating on the live-rollers, connect the rope and slide in the frame, and drive the heat preservation and rotate in the frame, the heat preservation is whole to be opened, make the environment and the external environment butt joint in the effluent water sump, air and external circulation in the effluent water sump, cool down in the effluent water sump, guarantee the survival rate of microorganism, reduce the dead quantity of microorganism in the effluent water sump, thereby improve the sewage treatment efficiency of effluent water sump.

Optionally, two fixing blocks are arranged on two sides of the rack, the two fixing blocks on the same side are respectively located at two ends of the rack, and the fixing blocks are provided with connecting assemblies; the heat preservation includes two the same heated boards, two the heated board rotates respectively to be installed the both sides of frame, two with one side coupling assembling all with same one side the heated board is connected, two the heated board can cover the effluent water sump.

Through adopting above-mentioned technical scheme, two heated board detachable install in the frame, can cover the effluent water sump completely when two heated boards butt each other, because the effluent water sump can produce corrosive gas, can corrode the heated board gradually, when the heated board damaged, can separate heated board and coupling assembling, take off the heated board from the fixed block to make the change of heated board convenient.

Optionally, a horizontal sliding hole is formed in the fixed block, a limiting hole communicated with the sliding hole is formed in the side wall of the fixed block, and a clamping groove communicated with the limiting hole is formed in the side wall of the fixed block; the connecting assembly comprises a sliding rod arranged in the sliding hole in a sliding mode, a push rod arranged in the limiting hole in a sliding mode and a limiting part arranged in the clamping groove in a sliding mode, the sliding rod is connected with the push rod, inserting grooves are formed in the two ends of the heat insulation board, one end of the sliding rod slides out of the sliding hole and is inserted in the inserting grooves, and the push rod can be inserted in the clamping groove and connected with the limiting part.

Through adopting above-mentioned technical scheme, during the installation heated board, with the whole sliding of slide bar on the fixed block in advancing the slide hole earlier, place the heated board between two fixed blocks, it is coaxial with the slide hole to make the inserting groove, it removes in spacing downthehole to promote the push rod, the push rod drives the slide bar and removes, the slide bar shifts out and inserts in the inserting groove from the slide hole, two slide bars peg graft respectively and install in the inserting groove at the heated board both ends, rotating the push rod, make the push rod peg graft and install in the draw-in groove, the push rod is connected with the locating part in the draw-in groove, thereby restrict the push rod in the draw-in groove and with the slide bar restriction in the inserting groove.

Optionally, a containing groove is formed in a groove side wall of the clamping groove, the limiting part comprises a spring and a ball, the ball is installed in the containing groove in a sliding mode, one end of the spring is connected with a groove bottom of the containing groove, the other end of the spring is connected with the ball, a circular groove matched with the ball in a clamping mode is formed in a side wall of the push rod, the push rod is installed in the inserting groove in an inserting mode, and the spring enables the ball to be kept in a state of being clamped in the circular groove.

Through adopting above-mentioned technical scheme, the push rod rotates and the joint is installed the back in the draw-in groove, and the spring promotes the ball and removes, makes the ball joint that is less than half volume install in the circular slot on the push rod lateral wall to with the push rod restriction in the draw-in groove.

Optionally, supporting blocks are arranged on two sides of the rack, the supporting blocks are located between the two fixing blocks on the same side, and the side wall of the heat-insulation board is rotatably connected with the side wall of the supporting blocks.

Through adopting above-mentioned technical scheme, during the installation heated board, place the heated board on the supporting shoe earlier, then will slide the pole peg graft and install the inserting groove on the heated board again, with the heated board install back in the frame, the heated board can rotate on the supporting shoe, the supporting shoe plays the supporting role to the heated board to reduced the heated board to the action of gravity of sliding the pole, reduced the probability that the sliding pole produces deformation because of the gravity of heated board.

Optionally, a waterproof plate is arranged on one of the side walls of the heat-insulating plate far away from the insertion groove, a waterproof groove which horizontally penetrates through the heat-insulating plate is formed in the side wall of the heat-insulating plate, and the waterproof plate can be inserted and installed in the waterproof groove.

By adopting the technical scheme, when the two insulation boards are mutually abutted, the insulation boards are inserted and installed in the waterproof groove, and in rainy days, rainwater can pass through the gap between the two insulation boards and flow into the sewage pool to influence the temperature and acid-base balance in the sewage pool; the rainwater passes the clearance messenger between two heated boards, falls into the waterproof board in, flows the both ends of heated board through the waterproof board to rainwater in the effluent water sump has been reduced.

Optionally, the upper end of frame both sides is rotated respectively and is provided with first pulley and second pulley, it includes first rope and second rope to connect the rope, first rope with the one end of second rope is all installed on the live-rollers, first rope is kept away from the one end of live-rollers is walked around first pulley and with being close to the live-rollers the heated board is connected, the second rope is kept away from the one end of live-rollers is walked around first pulley and second pulley and connection are another on the heated board.

Through adopting above-mentioned technical scheme, when live-rollers rolling first rope and second rope, first rope rotated on first pulley, made first rope drive one of them heated board and rotated, the second rope walked around first pulley and second pulley and driven another heated board and rotated to make two heated boards rotate simultaneously, thereby can control two heated boards and open simultaneously and close the effluent water sump.

Optionally, the driving part comprises a driving motor, a driving gear and a rotating gear, the driving motor is installed on the rack, the driving gear is coaxially installed on an output shaft of the driving motor, and the rotating gear is coaxially installed on the rotating roller and meshed with the driving gear.

Through adopting above-mentioned technical scheme, driving motor drives drive gear and rotates, and drive gear drives the running gear and rotates, and the running gear drives the live-rollers rotation to make the live-rollers can the rolling or release first rope and second rope.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the setting of upset subassembly, make the heat preservation can open, the air in the sewage pond can with external circulation of air to make the cooling in the sewage pond reduce, reduce the dead quantity of microorganism in the sewage pond, thereby improve the sewage treatment efficiency of sewage pond.

2. Through the setting of coupling assembling, make heated board detachable install in the frame, make things convenient for the installation and the dismantlement of heated board.

3. Through the setting of supporting shoe, reduced the heated board to the action of gravity of slide bar, reduced the probability that slide bar produces deformation because of the gravity of heated board.

Drawings

FIG. 1 is a schematic perspective view of the present application;

FIG. 2 is a partial perspective view of the present application with the mounting block cut away to show internal structure;

fig. 3 is a partial perspective view of the flashing and flashing channel of the present application.

Reference numerals: 100. a frame; 110. a fixed block; 111. a sliding hole; 112. a limiting hole; 113. a card slot; 114. a containing groove; 120. a support block; 130. mounting blocks; 200. a connecting assembly; 210. a slide bar; 220. a push rod; 230. a limiting member; 231. a spring; 232. a ball bearing; 300. a heat-insulating layer; 310. a thermal insulation board; 311. a support frame; 312. a heat preservation film; 313. inserting grooves; 400. a turnover assembly; 410. a drive member; 411. a drive motor; 412. a drive gear; 413. a rotating gear; 420. connecting ropes; 421. a first rope; 422. a second rope; 430. a rotating roller; 431. a baffle plate; 440. a connecting rod; 510. a first pulley; 520. a second pulley; 610. a waterproof sheet; 620. a waterproof groove.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

Referring to fig. 1 and 2, a capping device for a sewage tank, including a frame 100 fixedly installed on the sewage tank, two rectangular fixing blocks 110 are fixedly installed on the outer side walls of two sides of the frame 100, two fixing blocks 110 on the same side are respectively and fixedly installed at two ends of the frame 100, horizontal sliding holes 111 are formed in the fixing blocks 110, axis extension lines of the two sliding holes 111 on the same side of the frame 100 are collinear, elongated limiting holes 112 are formed in the side wall of the fixing block 110 departing from the frame 100, the limiting holes 112 are horizontal and communicated with the sliding holes 111, elongated clamping grooves 113 are formed in the side wall of the fixing block 110 departing from the frame 100, the clamping grooves 113 are vertical, the upper ends of the clamping grooves are communicated with the limiting holes 112, and the lower ends of the clamping grooves 113.

Referring to fig. 1 and 2, the fixing block 110 is provided with a connecting assembly 200, the connecting assembly 200 includes a sliding rod 210, a push rod 220 and a limiting member 230, the sliding rod 210 is horizontally slidably installed in the sliding hole 111, the push rod 220 is horizontally slidably installed in the limiting hole 112, one end of the push rod 220 penetrates into the sliding hole 111 and is fixedly connected with the sliding rod 210, the push rod 220 is perpendicular to the sliding rod 210, and one end of the push rod 220, which is away from the sliding rod 210, penetrates out of the limiting hole 112.

Referring to fig. 1 and 2, a cylindrical receiving groove 114 is formed in a side wall of the receiving groove 113, the position limiting member 230 includes a spring 231 and a ball 232, the ball 232 is slidably mounted in the receiving groove 114, one end of the spring 231 is fixedly connected to a bottom of the receiving groove 114, and the other end of the spring 231 is fixedly connected to the ball 232; the push rod 220 can rotate and be inserted and installed in the clamping groove 113, a circular groove is formed in the side wall of the push rod 220 and is matched with the ball 232 in a clamped mode, and when the spring 231 is in a natural state, the ball 232 in a clamping mode smaller than half of the volume is installed in the circular groove.

Two sides of the frame 100 are horizontally spaced and fixedly provided with two supporting blocks 120, and the two supporting blocks 120 are located between the two fixing blocks 110 on the same side.

Referring to fig. 1 and 2, a heat insulation layer 300 is arranged on the frame 100, the heat insulation layer 300 includes two heat insulation plates 310, the two heat insulation plates 310 can cover the sewage tank, the heat insulation plates 310 include a rectangular support frame 311 and a heat insulation film 312 fixedly mounted on the support frame 311, the upper surface of the support block 120 is rotatably connected with the side wall of the support frame 311, and the support block 120 supports the support frame 311.

The end faces of the two ends of the supporting frame 311 in the length direction are respectively provided with an insertion groove 313 which is in insertion fit with the sliding rod 210, the two insertion grooves 313 are both positioned on the same side of the supporting frame 311, and one end of the sliding rod 210 slides out of the sliding hole 111 and is inserted into the insertion groove 313.

Referring to fig. 1 and 2, a turnover assembly 400 is disposed on the machine frame 100, the turnover assembly 400 includes a driving member 410, two connecting ropes 420 and two rotating rollers 430, the driving member 410 includes a driving motor 411, a driving gear 412 and a rotating gear 413, the driving motor 411 is horizontally and fixedly mounted on a side wall of one side of the machine frame 100, and the driving gear 412 is coaxially and fixedly mounted on an output shaft of the driving motor 411.

Two rectangular mounting blocks 130 are horizontally and fixedly arranged on the side wall of the rack 100 at intervals, the two mounting blocks 130 are respectively positioned at two ends of the rack 100 and are positioned at the same side with the driving motor 411, a horizontal connecting rod 440 is rotatably arranged on the two mounting blocks 130, and a rotating gear 413 is coaxially and fixedly arranged at one end of the connecting rod 440 and is meshed with the driving gear 412; the two rotating rollers 430 are respectively and fixedly coaxially installed at two ends of the connecting rod 440, and the two rotating rollers 430 are respectively located at the sides of the two installation blocks 130 which are deviated from each other; three circular baffles 431 are coaxially and fixedly arranged on the rotating roller 430, and the three baffles 431 are horizontally arranged on the rotating roller 430 at intervals, so that two winding areas are formed on the rotating roller 430.

Referring to fig. 1 and 2, a first pulley 510 and a second pulley 520 are rotatably disposed at both ends of the frame 100, the first pulley 510 and the second pulley 520 are respectively located at the upper ends of both sides of the frame 100, the connection rope 420 includes a first rope 421 and a second rope 422 made of steel wires, one ends of the first rope 421 and the second rope 422 are respectively and fixedly mounted on two winding regions on the rotation roller 430, one end of the first rope 421, which is far away from the rotation roller 430, passes around the first pulley 510 and is fixedly connected to the support frame 311, which is close to the connection rod 440, the first rope 421 is connected to a side wall of the support frame 311, which is far away from the connection rod 440, one end of the second rope 422, which is far away from the rotation roller 430, passes around the first pulley 510 and the second pulley 520 and is fixedly connected to another support frame 311, and the second rope 422 is connected to a side wall of.

Referring to fig. 3, the side walls of the two support frames 311 departing from the support block 120 can abut against each other, a circular arc-shaped waterproof plate 610 is arranged on the side wall of one support frame 311 away from the support block 120, one side of the waterproof plate 610 is horizontally and fixedly mounted on the side wall of the support frame 311, the other side of the waterproof plate 610 extends upwards, a waterproof groove 620 is formed in the side wall of the other support frame 311, the waterproof groove 620 horizontally penetrates through the support frame 311, and the waterproof plate 610 can be installed in the waterproof groove 620 in an inserted manner.

The operating principle of the capping device for the sewage pool in the embodiment of the application is as follows:

the heat preservation film 312 is fixedly installed on the supporting frame 311, then the supporting frame 311 is placed on the supporting block 120, the supporting block 120 supports the supporting frame 311, the push rod 220 on the fixing block 110 is pushed, the push rod 220 drives the sliding rod 210 to slide in the sliding hole 111, one end of the sliding rod 210 penetrates through the sliding hole 111 and is inserted into the insertion groove 313 installed on the supporting frame 311, and therefore the supporting frame 311 is rotatably installed on the rack 100.

When the two supporting frames 311 are separated, the driving motor 411 is started, the driving motor 411 drives the driving gear 412 to rotate, the driving gear 412 drives the rotating gear 413 to rotate, the rotating gear 413 drives the connecting rod 440 to rotate, the connecting rod 440 drives the rotating roller 430 to rotate, the rotating roller 430 winds the first rope 421 and the second rope 422, the first rope 421 rotates on the first pulley 510, the first rope 421 drives one of the supporting frames 311 to rotate, the second rope 422 winds the first pulley 510 and the second pulley 520 and drives the other supporting frame 311 to rotate, the two supporting frames 311 simultaneously rotate in opposite directions, and therefore the two supporting frames 311 can be controlled to simultaneously open and close the sewage pool.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a effluent water sump capping device, includes frame (100), its characterized in that: rotate on frame (100) and be provided with and cover effluent water sump open-ended heat preservation (300), be provided with the drive on frame (100) upset subassembly (400) of heat preservation (300) upset, upset subassembly (400) are including connecting rope (420), live-rollers (430) and driving piece (410), install driving piece (410) on frame (100), live-rollers (430) rotate to be installed frame (100) go up and with driving piece (410) are connected, it slides and installs to connect rope (420) on frame (100), the one end of connecting rope (420) with live-rollers (430) are connected, the other end of connecting rope (420) with heat preservation (300) are connected.

2. A cesspool capping device in accordance with claim 1, wherein: two fixing blocks (110) are arranged on two sides of the rack (100), the two fixing blocks (110) on the same side are respectively positioned at two ends of the rack (100), and a connecting assembly (200) is arranged on each fixing block (110); the heat preservation layer (300) comprises two identical heat preservation plates (310), the two heat preservation plates (310) are respectively rotatably installed on two sides of the rack (100), the two heat preservation plates on the same side are connected with the heat preservation plates (310) on the same side, and the two heat preservation plates (310) can cover the sewage pool.

3. A cesspool capping device in accordance with claim 2, wherein: a horizontal sliding hole (111) is formed in the fixing block (110), a limiting hole (112) communicated with the sliding hole (111) is formed in the side wall of the fixing block (110), and a clamping groove (113) communicated with the limiting hole (112) is formed in the side wall of the fixing block (110); the connecting assembly (200) comprises a sliding rod (210) installed in the sliding hole (111) in a sliding mode, a push rod (220) installed in the limiting hole (112) in a sliding mode and a limiting piece (230) installed in the clamping groove (113), the sliding rod (210) is connected with the push rod (220), insertion grooves (313) are formed in two ends of the heat insulation board (310), one end of the sliding rod (210) slides out of the sliding hole (111) and is installed in the insertion grooves (313) in an insertion mode, and the push rod (220) can be installed in the clamping groove (113) in an insertion mode and is connected with the limiting piece (230).

4. A cesspool capping device in accordance with claim 3, wherein: the groove side wall of the clamping groove (113) is provided with a containing groove (114), the limiting part (230) comprises a spring (231) and a ball (232), the ball (232) is slidably mounted in the containing groove (114), one end of the spring (231) is connected with the groove bottom of the containing groove (114), the other end of the spring (231) is connected with the ball (232), the side wall of the push rod (220) is provided with a circular groove matched with the ball (232) in a clamping manner, the push rod (220) is mounted in the inserting groove (313) in an inserting manner, and the spring (231) enables the ball (232) to be kept in a clamping manner in the circular groove.

5. A cesspool capping device in accordance with claim 2, wherein: supporting blocks (120) are arranged on two sides of the rack (100), the supporting blocks (120) are located between the two fixing blocks (110) on the same side, and the side wall of the heat-insulation board (310) is rotatably connected with the side wall of the supporting blocks (120).

6. A cesspool capping device according to claim 4, wherein: one of the heat insulation plates (310) is provided with a waterproof plate (610) on the side wall far away from the insertion groove (313), the side wall of the heat insulation plate (310) is provided with a waterproof groove (620) which horizontally penetrates through the heat insulation plate (310), and the waterproof plate (610) can be inserted into the waterproof groove (620).

7. A cesspool capping device in accordance with claim 2, wherein: the upper end of frame (100) both sides is rotated respectively and is provided with first pulley (510) and second pulley (520), it includes first rope (421) and second rope (422) to connect rope (420), first rope (421) with the one end of second rope (422) is all installed on rotation roller (430), first rope (421) are kept away from the one end of rotation roller (430) is walked around first pulley (510) and with be close to rotation roller (430) heated board (310) are connected, second rope (422) are kept away from the one end of rotation roller (430) is walked around first pulley (510) and second pulley (520) are connected in another heated board (310) are last.

8. A cesspool capping device in accordance with claim 1, wherein: the driving piece (410) comprises a driving motor (411), a driving gear (412) and a rotating gear (413), the driving motor (411) is installed on the rack (100), the driving gear (412) is coaxially installed on an output shaft of the driving motor (411), and the rotating gear (413) is coaxially installed on the rotating roller (430) and meshed with the driving gear (412).

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