CN220978305U

CN220978305U - Elevator pit maintenance drainage facility

Info

Publication number: CN220978305U
Application number: CN202322175028.6U
Authority: CN
Inventors: 王圳海
Original assignee: Wuhan Qingbin Yuren Technology Co ltd
Current assignee: Wuhan Qingbin Yuren Technology Co ltd
Priority date: 2023-08-11
Filing date: 2023-08-11
Publication date: 2024-05-17
Anticipated expiration: 2033-08-11

Abstract

The utility model relates to the technical field of elevator pit maintenance drainage, in particular to an elevator pit maintenance drainage facility, which realizes automatic accumulated water cleaning on the premise of more energy saving and environmental protection by arranging a drainage mechanism, a sedimentation mechanism and an automatic mechanism, greatly reduces the blockage of impurities on a pipeline and improves the working efficiency; comprises a water discharging mechanism; the automatic sedimentation device also comprises a valve mechanism, a sedimentation mechanism, an automatic mechanism, a drainage mechanism and a sewage disposal mechanism, wherein the valve mechanism is arranged at the lower end of the sewage mechanism, the sedimentation mechanism is arranged at the lower end of the valve mechanism, the automatic mechanism is arranged at the right end of the sewage mechanism, the drainage mechanism is arranged at the left end of the sedimentation mechanism, and the sewage disposal mechanism is arranged in the sedimentation mechanism; the sewage mechanism collects accumulated water, the valve mechanism controls water flow, the sedimentation mechanism sediments impurities in sewage, the automatic mechanism automatically controls equipment, the drainage mechanism discharges water, and the pollution discharge mechanism collects and discharges impurities.

Description

Elevator pit maintenance drainage facility

Technical Field

The utility model relates to the technical field of elevator pit maintenance drainage, in particular to an elevator pit maintenance drainage facility.

Background

Elevators are a common special transportation device applied to buildings, the elevators run in shafts specially provided for the elevators, a plurality of devices for running power supply ladders are arranged in the elevator shafts, small water outlets are arranged in the elevator shafts in some buildings, water is discharged in the state that an elevator car is provided with an air conditioner, and accumulated water is generated in a pit of the elevator shafts for a long time.

In the existing elevator pit maintenance drainage facility, for example, an elevator pit maintenance drainage facility disclosed in the patent application number 202123223477.0 is provided with an elevator pit automatic drainage device, so that the collection effect of accumulated water is improved, the situation of residual accumulated water in an elevator shaft is avoided, the problems of water pollution in the elevator shaft and rust of equipment in the elevator shaft are further reduced, and the safety of the equipment in the elevator shaft during operation is further improved.

But in the long-term operation process of the elevator, a plurality of impurities exist at the bottom of the elevator pit to cause the blockage of the water outlet, so that the water discharge work is stopped, accumulated water corrodes equipment, and potential safety hazards are generated.

Disclosure of utility model

In order to solve the technical problems, the utility model provides an elevator pit maintenance drainage facility which is provided with a drainage mechanism, a sedimentation mechanism and an automatic mechanism, so that accumulated water is automatically cleaned on the premise of being more energy-saving and environment-friendly, the blockage of impurities to pipelines is greatly reduced, and the working efficiency is improved.

The utility model relates to an elevator pit maintenance drainage facility, which comprises a drainage mechanism; the automatic sedimentation device also comprises a valve mechanism, a sedimentation mechanism, an automatic mechanism, a drainage mechanism and a sewage disposal mechanism, wherein the valve mechanism is arranged at the lower end of the sewage mechanism, the sedimentation mechanism is arranged at the lower end of the valve mechanism, the automatic mechanism is arranged at the right end of the sewage mechanism, the drainage mechanism is arranged at the left end of the sedimentation mechanism, and the sewage disposal mechanism is arranged in the sedimentation mechanism;

The sewage mechanism collects accumulated water, the valve mechanism controls water flow, the sedimentation mechanism settles impurities in sewage, the automatic mechanism automatically controls equipment, the drainage mechanism discharges water, and the pollution discharge mechanism collects and discharges impurities; when water is accumulated in the drainage mechanism to enable the automatic mechanism to be lifted and triggered, air in the drainage mechanism is discharged through the automatic mechanism, the automatic mechanism is closed, then the valve mechanism is opened to enable water to flow downwards, water in the drainage mechanism can automatically flow out to the sedimentation mechanism due to the siphon principle, and silt is located at the lower layer and is not easy to flow into a pipeline, so that the sewage is filtered for the first time, when the water is completely discharged to the sedimentation mechanism, the sewage is discharged through the drainage mechanism after standing and filtering, and the residual impurities are discharged through the pollution discharge mechanism, so that the accumulated water is automatically cleaned on the premise of being more energy-saving and environment-friendly, the blockage of the impurities to the pipeline is greatly reduced, and the working efficiency is improved.

Preferably, the water draining mechanism comprises a water tank, a water collecting bucket, a pipe cover, a pipe head, a rubber ring and a water pipe I, wherein the water collecting bucket is arranged at the lower end of the water tank, the pipe cover is arranged at the upper end of the water collecting bucket, the pipe head is arranged at the upper end of the water collecting bucket, the output end of the pipe head extends to the lower side of the water collecting bucket, the rubber ring is arranged at the lower end of the pipe head, and the rubber ring is sleeved at the input end of the water pipe I; the water pipe I is filled with water and matched with the pipe cover and the pipe head, so that water flow can be automatically transported downwards.

Preferably, the valve mechanism comprises a valve body, a hollow ball, a rotating handle and a water pipe II, wherein the valve body is arranged at the lower end of the water pipe, the hollow ball is rotatably arranged in the valve body, the input end of the hollow ball extends to the front side of the valve body, the rotating handle is connected with the input end of the hollow ball, and the water pipe II is arranged at the lower end of the valve body; the hollow ball is rotated by the rotating handle so that water can flow into the second water pipe.

Preferably, the sedimentation mechanism comprises a sedimentation tank and a filter screen, the sedimentation tank is arranged at the lower end of the water pipe II, and the filter screen is arranged at the left end of the sedimentation tank; the impurities in the sewage are settled through the settling tank, and the impurities are filtered through the filter screen.

Preferably, the automatic mechanism comprises a water passing tank, a filter box, a floating block, a thimble, an inductor, a water pipe III, a water pump I and a water pipe IV, wherein the water passing tank is arranged at the right end of the water tank; the floating block floats upwards through the rising of the water level in the water tank, so that the filter box rotates, the filter box rotates to drive the thimble to touch the sensor, the water pump I is opened to be matched with the water pipe III and the water pipe IV to extract a part of accumulated water in the water tank to fill the water pipe I, and then the water pump I is closed.

Preferably, the water draining mechanism comprises a water purifying tank, a water pump II and a water pipe V, wherein the water purifying tank is arranged at the left end of the sedimentation tank, the water pump II is arranged in the water purifying tank, the input end of the water pipe V is connected with the output end of the water pump II, and the output end of the water pipe V extends to the outer side of the water purifying tank; the sedimentation mechanism is started to filter the purified water flowing into the purified water tank and discharge the purified water through the water pipe five.

Preferably, the pollution discharge mechanism comprises a drawer and a handle, the drawer is arranged in the deposition box in a sliding and sealing manner, and the handle is arranged at the right end of the drawer; the deposited silt impurities are collected through the drawer, and then the handle is pulled to take out the drawer to pour the impurities.

Compared with the prior art, the utility model has the beneficial effects that: when water is accumulated in the drainage mechanism to enable the automatic mechanism to be lifted and triggered, air in the drainage mechanism is discharged through the automatic mechanism, the automatic mechanism is closed, then the valve mechanism is opened to enable water to flow downwards, water in the drainage mechanism can automatically flow out to the sedimentation mechanism due to the siphon principle, and silt is located at the lower layer and is not easy to flow into a pipeline, so that the sewage is filtered for the first time, when the water is completely discharged to the sedimentation mechanism, the sewage is discharged through the drainage mechanism after standing and filtering, and the residual impurities are discharged through the pollution discharge mechanism, so that the accumulated water is automatically cleaned on the premise of being more energy-saving and environment-friendly, the blockage of the impurities to the pipeline is greatly reduced, and the working efficiency is improved.

Drawings

FIG. 1 is a schematic illustration of an axially measured structure of the present utility model;

FIG. 2 is a schematic elevational view of the present utility model;

FIG. 3 is a schematic elevational cross-sectional view of the present utility model;

FIG. 4 is an enlarged cross-sectional schematic view of the launching mechanism of the present utility model at section A of FIG. 3;

FIG. 5 is an enlarged schematic view of the front cross-section of the automated mechanism of the present utility model at section B of FIG. 3;

The reference numerals in the drawings: 1. a water discharging mechanism; 11. a water tank; 12. a water collection bucket; 13. a tube cover; 14. a tube head; 15. a rubber ring; 16. a first water pipe; 2. a valve mechanism; 21. a valve body; 22. a hollow sphere; 23. a rotating handle; 24. a second water pipe; 3. a sedimentation mechanism; 31. a deposition box; 32. a filter screen; 4. an automatic mechanism; 41. passing through a water tank; 42. a filter box; 43. a floating block; 44. a thimble; 45. an inductor; 46. a third water pipe; 47. a first water pump; 48. a water pipe IV; 5. a drainage mechanism; 51. a clean water tank; 52. a second water pump; 53. a fifth water pipe; 6. a sewage disposal mechanism; 61. a drawer; 62. a handle.

Detailed Description

In order that the utility model may be readily understood, a more complete description of the utility model will be rendered by reference to the appended drawings. This utility model may be embodied in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

The utility model relates to an elevator pit maintenance drainage facility, which comprises a drainage mechanism 1; the automatic sewage treatment device further comprises a valve mechanism 2, a sedimentation mechanism 3, an automatic mechanism 4, a drainage mechanism 5 and a sewage disposal mechanism 6, wherein the valve mechanism 2 is arranged at the lower end of the sewage mechanism 1, the sedimentation mechanism 3 is arranged at the lower end of the valve mechanism 2, the automatic mechanism 4 is arranged at the right end of the sewage mechanism 1, the drainage mechanism 5 is arranged at the left end of the sedimentation mechanism 3, and the sewage disposal mechanism 6 is arranged in the sedimentation mechanism 3;

The sewage mechanism 1 collects accumulated water, the valve mechanism 2 carries out water flow control, the sedimentation mechanism 3 carries out sedimentation on impurities in sewage, the automatic mechanism 4 carries out automatic control on equipment, the water drainage mechanism 5 discharges water, and the pollution discharge mechanism 6 collects and discharges impurities; the water draining mechanism 1 comprises a water tank 11, a water collecting bucket 12, a pipe cover 13, a pipe head 14, a rubber ring 15 and a water pipe I16, wherein the water collecting bucket 12 is arranged at the lower end of the water tank 11, the pipe cover 13 is arranged at the upper end of the water collecting bucket 12, the pipe head 14 is arranged at the upper end of the water collecting bucket 12, the output end of the pipe head 14 extends to the lower side of the water collecting bucket 12, the rubber ring 15 is arranged at the lower end of the pipe head 14, and the rubber ring 15 is sleeved at the input end of the water pipe I16; the valve mechanism 2 comprises a valve body 21, a hollow ball 22, a rotating handle 23 and a water pipe II 24, wherein the valve body 21 is arranged at the lower end of the water pipe I16, the hollow ball 22 is rotatably arranged in the valve body 21, the input end of the hollow ball 22 extends to the front side of the valve body 21, the rotating handle 23 is connected with the input end of the hollow ball 22, and the water pipe II 24 is arranged at the lower end of the valve body 21; the sedimentation mechanism 3 comprises a sedimentation tank 31 and a filter screen 32, the sedimentation tank 31 is arranged at the lower end of the second water pipe 24, and the filter screen 32 is arranged at the left end of the sedimentation tank 31; the automatic mechanism 4 comprises a water passing tank 41, a filter box 42, a floating block 43, a thimble 44, an inductor 45, a water pipe III 46, a water pump I47 and a water pipe IV 48, wherein the water passing tank 41 is arranged at the right end of the water tank 11, the filter box 42 is rotatably arranged in the water passing tank 41, the floating block 43 is arranged at the left end of the filter box 42, the thimble 44 is arranged at the upper end of the floating block 43, the inductor 45 is arranged at the right end of the water tank 11, the input end of the water pipe III 46 is connected with the right end of the water passing tank 41, the water pump I47 is arranged at the upper end of the deposition tank 31, the input end of the water pump I47 is connected with the output end of the water pipe III 46, the input end of the water pipe IV 48 is connected with the output end of the water pump I47, and the output end of the water pipe IV 48 is internally communicated with the water pipe I16; the water discharging mechanism 5 comprises a clean water tank 51, a water pump II 52 and a water pipe III 53, wherein the clean water tank 51 is arranged at the left end of the sedimentation tank 31, the water pump II 52 is arranged in the clean water tank 51, the input end of the water pipe III 53 is connected with the output end of the water pump II 52, and the output end of the water pipe III 53 extends to the outer side of the clean water tank 51; the drain mechanism 6 includes a drawer 61 and a handle 62, the drawer 61 is slidably and sealingly mounted in the deposition box 31, and the handle 62 is mounted at the right end of the drawer 61.

As shown in fig. 1 to 5, in the elevator pit maintenance drainage facility of the present utility model, in operation, the floating block 43 floats up by rising the water level in the water tank 11, so as to rotate the filter box 42, the filter box 42 rotates to drive the thimble 44 to touch the sensor 45, so that the water pump 47 is opened to cooperate with the water pipe three 46 and the water pipe four 48 to pump a part of the accumulated water in the water tank 11 to fill the water pipe one 16, then the water pump one 47 is closed, the hollow ball 22 is rotated by rotating the handle 23 to enable the water to circulate into the water pipe two 24, the water pipe one 16 filled with the water automatically flows downwards into the sedimentation tank 31 through the water pipe two 24 due to the siphon principle in cooperation with the pipe cover 13 and the pipe head 14, and the sludge is located at the lower layer and is not easy to flow into the pipeline, so as to be filtered for the first time, the impurities in the sewage are settled by the sedimentation tank 31, the impurities are filtered by the filter screen 32, the purified water filtered by the sedimentation mechanism 3 is filtered by the water pump two 52 is discharged by the water pipe five 53, the settled impurities are collected by the drawer 61, and then the handle 61 is pulled to pour the impurities by the drawer 61.

The inductor 45, the first pump 47 and the second pump 52 of the present utility model are commercially available and can be installed and operated by those skilled in the art according to the attached instructions without the need for creative efforts of those skilled in the art.

The main functions realized by the utility model are as follows: in the elevator pit maintenance drainage process, through setting up drainage mechanism, subsidence mechanism and automatic mechanism to realized the clearance of automation to ponding under the prerequisite of more energy-concerving and environment-protective, and very big reduction impurity has improved work efficiency to the jam of pipeline.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that it will be apparent to those skilled in the art that modifications and variations can be made without departing from the technical principles of the present utility model, and these modifications and variations should also be regarded as the scope of the utility model.

Claims

1. An elevator pit maintenance drainage facility comprises a drainage mechanism (1); the automatic water draining device is characterized by further comprising a valve mechanism (2), a sedimentation mechanism (3), an automatic mechanism (4), a water draining mechanism (5) and a sewage draining mechanism (6), wherein the valve mechanism (2) is arranged at the lower end of the water draining mechanism (1), the sedimentation mechanism (3) is arranged at the lower end of the valve mechanism (2), the automatic mechanism (4) is arranged at the right end of the water draining mechanism (1), the water draining mechanism (5) is arranged at the left end of the sedimentation mechanism (3), and the sewage draining mechanism (6) is arranged in the sedimentation mechanism (3);

The sewage mechanism (1) collects accumulated water, the valve mechanism (2) controls water flow, the sedimentation mechanism (3) sediments impurities in sewage, the automatic mechanism (4) automatically controls equipment, the drainage mechanism (5) discharges water, and the pollution discharge mechanism (6) collects and discharges impurities.

2. An elevator pit maintenance drainage facility as claimed in claim 1, wherein the drainage mechanism (1) comprises a water tank (11), a water collecting bucket (12), a pipe cover (13), a pipe head (14), a rubber ring (15) and a water pipe one (16), the water collecting bucket (12) is mounted at the lower end of the water tank (11), the pipe cover (13) is mounted at the upper end of the water collecting bucket (12), the pipe head (14) is mounted at the upper end of the water collecting bucket (12), the output end of the pipe head (14) extends to the lower side of the water collecting bucket (12), the rubber ring (15) is mounted at the lower end of the pipe head (14), and the rubber ring (15) is sleeved at the input end of the water pipe one (16).

3. An elevator pit maintenance drainage facility as defined in claim 2, wherein the valve mechanism (2) comprises a valve body (21), a hollow ball (22), a knob (23) and a second water pipe (24), the valve body (21) is mounted at the lower end of the first water pipe (16), the hollow ball (22) is rotatably mounted in the valve body (21), the input end of the hollow ball (22) extends to the front side of the valve body (21), the knob (23) is connected with the input end of the hollow ball (22), and the second water pipe (24) is mounted at the lower end of the valve body (21).

4. A pit maintenance drainage facility according to claim 3, wherein the sedimentation mechanism (3) comprises a sedimentation tank (31) and a filter screen (32), the sedimentation tank (31) is mounted at the lower end of the second water pipe (24), and the filter screen (32) is mounted at the left end of the sedimentation tank (31).

5. The elevator pit maintenance drainage facility as claimed in claim 4, wherein the automatic mechanism (4) comprises a water passing tank (41), a filter box (42), a floating block (43), a thimble (44), an inductor (45), a water pipe III (46), a water pump I (47) and a water pipe IV (48), the water passing tank (41) is installed at the right end of the water tank (11), the filter box (42) is rotatably installed in the water passing tank (41), the floating block (43) is installed at the left end of the filter box (42), the thimble (44) is installed at the upper end of the floating block (43), the inductor (45) is installed at the right end inside the water tank (11), the input end of the water pipe III (46) is connected with the right end of the water passing tank (41), the water pump I (47) is installed at the upper end of the sedimentation tank (31), and the input end of the water pump I (47) is connected with the output end of the water pipe III (46), the input end of the water pipe IV (48) is connected with the output end of the water pump I (47), and the output end of the water pipe IV (48) is internally communicated with the water pipe I (16).

6. An elevator pit maintenance drainage facility as claimed in claim 4, wherein the drainage mechanism (5) comprises a clean water tank (51), a second water pump (52) and a fifth water pipe (53), the clean water tank (51) is installed at the left end of the settling tank (31), the second water pump (52) is installed in the clean water tank (51), the input end of the fifth water pipe (53) is connected with the output end of the second water pump (52), and the output end of the fifth water pipe (53) extends to the outside of the clean water tank (51).

7. An elevator pit maintenance drainage facility as claimed in claim 4, wherein the drainage mechanism (6) comprises a drawer (61) and a handle (62), the drawer (61) is slidably and sealingly mounted in the deposition tank (31), and the handle (62) is mounted at the right end of the drawer (61).