CN219909072U - A monitoring well with dual monitoring pipes - Google Patents

Abstract

The utility model discloses a monitoring well with double monitoring pipelines, which belongs to the technical field of monitoring wells and aims at the problems that a well cover is inconvenient to move and water sources are inconvenient to collect, and the monitoring well comprises a well mouth, wherein two well inlet pipe orifices are formed in the well mouth, an installation groove is formed in the middle end of the interior of the well mouth, an electric telescopic rod is fixed in the installation groove, a sliding plate is fixed at the driving end of the electric telescopic rod, stress springs are arranged at two ends of the interior of the installation groove, a sliding rack is connected in the installation groove in a sliding manner, a plurality of gears are connected to the exterior of the sliding rack in a meshed manner, rotating rods are fixed at the center of the gears, rotating doors are fixed at two ends of the exterior of the rotating rods, and a placing groove is formed in the front end of the interior of the well mouth; according to the utility model, through the mutual matching operation among the electric telescopic rod, the sliding plate, the stress spring, the sliding rack, the gear, the rotating rod and the rotating door, the well lid can be rapidly opened, so that the physical consumption of staff is reduced.

Description

A monitoring well with dual monitoring pipes

Technical field

The utility model belongs to the technical field of monitoring wells, and specifically relates to a monitoring well with dual monitoring pipes.

Background technique

At present, the amount of fresh water stored in the world is less than 3%, and many areas are seriously short of water. Therefore, underground water sources need to be mined for replenishment. The existing water mining wells first need to open a water source monitoring well, which can mainly monitor the water source mined underground. To detect whether drinking water standards are met, monitoring wells are monitoring equipment used to monitor the quality of groundwater and the dynamic distribution changes of pollutants in groundwater bodies.

In existing monitoring wells, when monitoring water sources, it is usually necessary to punch the manhole cover. However, the existing manhole covers are usually closed with marble, which makes the manhole cover inconvenient to move and requires multiple people to open it, which is a waste of physical strength and the existing water intake The equipment, usually using a sling, is collected using a collection bucket, resulting in inconvenient collection.

Therefore, a monitoring well with dual monitoring pipes is needed to solve the problems of inconvenience in moving the manhole cover and inconvenience in collecting water sources existing in the prior art.

Utility model content

The purpose of this utility model is to provide a monitoring well with dual monitoring pipelines to solve the problems raised in the above background technology.

In order to achieve the above purpose, the present utility model provides the following technical solution: a monitoring well with dual monitoring pipes, including a wellhead, two well entrance pipe openings are provided inside the wellhead, and an installation groove is provided at the middle end of the inside of the wellhead. An electric telescopic rod is fixed inside the installation groove, and a sliding plate is fixed at the driving end of the electric telescopic rod. Forced springs are provided at both ends of the installation groove. The interior of the installation groove is slidably connected with a sliding plate. Rack, the sliding rack is meshed with a plurality of gears on the outside, a rotating rod is fixed at the center of the gear, a rotating door is fixed on both outer ends of the rotating rod, and the inner front end of the wellhead is opened There is a placement slot, a double-head motor is fixed inside the placement slot, driving wheels are fixed on both sides of the driving ends of the double-head motor, a driven wheel is meshed with the outside of the driving wheel, and the center of the driven wheel A threaded rod is fixed at the top of the threaded rod, a sliding block is threadedly connected to the outside of the threaded rod, and a collection bucket is fixed at the top of the sliding block.

What needs to be explained in the solution is that limit grooves are provided at both ends of the placement groove, and the top end of the threaded rod is rotatably connected to the inside of the limit groove.

It is further worth mentioning that the sliding block is slidingly connected to the inner wall of the limiting groove, the sliding block is configured in a convex shape, and the limiting groove is configured in a convex shape.

It should be further noted that the opposite sides of the force-bearing springs are fixedly connected to the inner wall of the installation groove, and the opposite sides of the force-bearing springs are fixedly connected to the opposite sides of the sliding plate.

As a preferred embodiment, the top end of the sliding plate is fixedly connected to the bottom end of the sliding rack, and the gear is rotatably connected inside the installation groove.

As a preferred embodiment, the rotating door is rotatably connected inside the well entrance, and both the driving wheel and the driven wheel are rotatably connected inside the limiting groove.

Compared with the existing technology, the monitoring well with dual monitoring pipes provided by the present utility model at least includes the following beneficial effects:

(1) Through the mutual cooperation between the electric telescopic rod, sliding plate, force spring, sliding rack, gear, rotating rod and rotating door, the manhole cover can be opened quickly, thereby reducing the physical consumption of the staff.

(2) Through the mutual cooperation between the double-head motor, driving wheel, driven wheel, threaded rod, sliding block and collection bucket, the water source at the bottom of the wellhead can be quickly taken out, and then monitored, avoiding the inconvenience of taking out the water source. , leading to the problem of longer monitoring of water sources.

Description of the drawings

Figure 1 is a perspective view of the utility model;

Figure 2 is a front cross-sectional view of the utility model;

Figure 3 is a front cross-sectional view of the wellhead of the utility model;

Figure 4 is a top perspective view of the utility model.

In the picture: 1. Wellhead; 2. Well entrance; 3. Installation slot; 4. Electric telescopic rod; 5. Sliding plate; 6. Forced spring; 7. Sliding rack; 8. Gear; 9. Rotating rod; 10. Rotating door; 11. Placement slot; 12. Double-headed motor; 13. Driving wheel; 14. Driven wheel; 15. Threaded rod; 16. Sliding block; 17. Collection bucket; 18. Limiting slot.

Detailed ways

The utility model will be further described below in conjunction with the embodiments.

Please refer to Figures 1-4. The present utility model provides a monitoring well with dual monitoring pipes, including a wellhead 1. Two well entrance pipe openings 2 are provided inside the wellhead 1. An installation groove 3 is provided at the middle end of the wellhead 1. Slot 3 can mainly place and fix the electric telescopic rod 4, and then drive the sliding plate 5 to slide, so that it can drive the force spring 6 to be squeezed, and at the same time, it can drive the sliding rack 7 to slide, thereby driving the gear 8 to move. The rotation can further drive the rotating rod 9 to rotate and at the same time drive the rotating door 10 to rotate. When the rotating door 10 rotates, the well pipe mouth 2 can be sealed. An electric telescopic rod 4 is fixed inside the installation groove 3. The electric telescopic rod 4 is fixed inside the installation groove 3. The telescopic rod 4 can mainly drive the sliding plate 5 to slide, so that it can drive the sliding rack 7 to slide, and further drive the gear 8 to slide. At the same time, it can drive the rotating rod 9 to rotate, and further drive the rotating door 10 to rotate. The well pipe mouth 2 is sealed. The driving end of the electric telescopic rod 4 is fixed with a sliding plate 5. The sliding plate 5 can mainly drive the sliding rack 7 to slide. Both ends of the installation groove 3 are equipped with force springs 6. The installation groove 3 is slidingly connected with a sliding rack 7, and the external meshing connection of the sliding rack 7 is with a plurality of gears 8. Rotating rods 9 are fixed at the centers of the gears 8. The rotating rods 9 can mainly drive the rotating door 10 to rotate, so that It seals the well entrance 2. Rotating doors 10 are fixed at both outer ends of the rotating rod 9. A placement slot 11 is provided at the internal front end of the wellhead 1. A double-head motor 12 is fixed inside the placement slot 11. The double-head motor 12 It can mainly drive the driving wheel 13 to rotate, and further drive the driven wheel 14 to rotate. Then when the driven wheel 14 rotates, the threaded rod 15 is driven to rotate, so that it can drive the sliding block 16 to slide up and down, and further can drive the collection bucket 17 up and down. Moving, the driving ends of the double-head motor 12 are fixed with driving wheels 13 on both sides. The outer part of the driving wheel 13 is meshed with a driven wheel 14. A threaded rod 15 is fixed at the center of the driven wheel 14. The threaded rod 15 rotates and slides with the The blocks 16 are threaded, and the sliding block 16 can move up and down, and can further drive the collection bucket 17 to move up and down. The external thread of the threaded rod 15 is connected with the sliding block 16, and the top of the sliding block 16 is fixed with the collection bucket 17. The collection bucket 17 can mainly collect water in the well, thereby facilitating monitoring and inspection.

As further shown in Figures 1 and 3, it is worth explaining in detail that limiting grooves 18 are provided at both ends of the placement groove 11, and the top end of the threaded rod 15 is rotationally connected inside the limiting groove 18. The threaded rod 15 can mainly The sliding block 16 is driven to move up and down, and the collection bucket 17 can be moved to the top of the wellhead 1 to facilitate water collection and monitoring.

As further shown in Figures 1, 2, 3 and 4, it is worth explaining in detail that the sliding block 16 is slidingly connected to the inner wall of the limiting groove 18. The sliding block 16 is configured in a convex shape, and the limiting groove 18 is convex. The limiting groove 18 can mainly facilitate the sliding block 16 to perform limiting sliding.

This solution has the following working process: when it is necessary to monitor the water source inside the wellhead 1, first start the electric telescopic rod 4 so that it can drive the sliding plate 5 to slide under force. When the sliding plate 5 slides, it can also drive the sliding rack. 7 slides, and then can drive the gear 8 to rotate. When the gear 8 rotates, it can drive the rotating rod 9 to rotate, and then the rotating rod 9 can drive the rotating door 10 to rotate, so that it can open the well pipe mouth 2, thereby facilitating water collection. , at the same time, by starting the double-headed motor 12, it can drive the driving wheel 13 to rotate. When the driving wheel 13 rotates, it can drive the driven wheel 14 to rotate, and then it can drive the threaded rod 15 to rotate, and when the threaded rod 15 rotates, The sliding block 16 can be driven to slide, and the collection bucket 17 can be driven to remove the water source, and then the collection bucket 17 can be moved to the top of the wellhead 1, making it easier to take out the water source at the bottom of the wellhead 1, and thereby facilitate monitoring of the water source quality.

According to the above working process, it can be seen that by activating the combination between the electric telescopic rod 4 and the sliding plate 5, the rotating door 10 can be rotated, thereby facilitating the rapid opening of the well pipe mouth 2, making it convenient to collect water for monitoring. , and at the same time, by starting the double-head motor 12, it can move the collection bucket 17 at the bottom of the wellhead 1 to the top of the well pipe mouth 2, thereby facilitating the quick removal of the water source for monitoring.

As further shown in Figure 2, it is worth explaining in detail that the opposite sides of the force-bearing spring 6 are fixedly connected to the inner wall of the installation groove 3, and the opposite sides of the force-bearing spring 6 are fixedly connected to the opposite sides of the sliding plate 5. The sliding plate 5 can mainly drive the sliding rack 7 to slide and further drive the gear 8 to rotate.

As further shown in Figure 2, it is worth explaining in detail that the top end of the sliding plate 5 is fixedly connected to the bottom end of the sliding rack 7, and the gear 8 is rotatably connected inside the mounting slot 3. The mounting slot 3 can mainly move the electric telescopic rod. 4 Perform fixed limit.

As further shown in Figures 2, 3 and 4, it is worth describing in detail that the rotating door 10 is rotatably connected inside the well entrance pipe mouth 2, and the driving wheel 13 and the driven wheel 14 are both rotatably connected inside the limiting groove 18. , the rotating door 10 can mainly seal and open the well pipe mouth 2.

To sum up: first, when the water source needs to be monitored, the electric telescopic rod 4 is started to drive the sliding plate 5 to slide under force. When the sliding plate 5 slides, it can drive the sliding rack 7 to slide, and then drive the gear. 8 rotates, when the gear 8 rotates, it can drive the rotating rod 9 to rotate, and then the rotating rod 9 can drive the rotating door 10 to rotate, so as to facilitate the quick opening of the well pipe mouth 2, and then start the double-head motor 12 to make it It can drive the driving wheel 13 to rotate. When the driving wheel 13 rotates, it can drive the driven wheel 14 to rotate, and then it can drive the threaded rod 15 to rotate. When the threaded rod 15 rotates, it can drive the sliding block 16 to slide, and the collection can be driven. The bucket 17 removes the water source, and then moves the collection bucket 17 to the top of the wellhead 1, so that it is convenient to take out the water source at the bottom of the wellhead 1, and then it is convenient to monitor the quality of the water source.

The electric telescopic rod 4 and the double-headed motor 12 can be purchased from the market. The electric telescopic rod 4 and the double-headed motor 12 are equipped with power supplies. They are mature technologies in this field and have been fully disclosed, so they will not be repeated in the description.

Claims (6)

1. The utility model provides a monitoring well of two monitoring pipelines, includes well head (1), its characterized in that, two well entry mouths (2) have been seted up to the inside of well head (1), mounting groove (3) have been seted up to the inside middle-end of well head (1), the inside of mounting groove (3) is fixed with electric telescopic handle (4), the drive end of electric telescopic handle (4) is fixed with sliding plate (5), the inside both ends of mounting groove (3) all are provided with atress spring (6), the inside sliding connection of mounting groove (3) has sliding rack (7), the outside meshing of sliding rack (7) is connected with a plurality of gears (8), the center department of gear (8) all is fixed with dwang (9), the outside both ends of dwang (9) all are fixed with revolving door (10), the inside front end of well head (1) has been seted up standing groove (11), the inside of standing groove (11) is fixed with stud motor (12), both sides of the drive end of stud motor (12) all are fixed with sliding rack (13), the outside meshing of driving wheel (13) is connected with threaded rod (14), the outside of driving wheel (15) has the outside threaded rod (16), the top ends of the sliding blocks (16) are respectively fixed with a collecting barrel (17).

2. A dual monitor well according to claim 1, wherein: limiting grooves (18) are formed in two ends of the placing groove (11), and the top end of the threaded rod (15) is rotationally connected to the inside of the limiting grooves (18).

3. A dual monitor well according to claim 1, wherein: the sliding block (16) is slidably connected to the inner wall of the limiting groove (18), the sliding block (16) is arranged in a convex shape, and the limiting groove (18) is arranged in a convex shape.

4. A dual monitor well according to claim 1, wherein: the opposite sides of the stress springs (6) are fixedly connected to the inner wall of the mounting groove (3), and the opposite sides of the stress springs (6) are fixedly connected to the opposite sides of the sliding plate (5).

5. A dual monitor well according to claim 1, wherein: the top of the sliding plate (5) is fixedly connected to the bottom of the sliding rack (7), and the gear (8) is rotationally connected to the inside of the mounting groove (3).

6. A dual monitor well according to claim 1, wherein: the rotary door (10) is rotationally connected to the inside of the well inlet pipe (2), and the driving wheel (13) and the driven wheel (14) are rotationally connected to the inside of the limit groove (18).