CN221765437U - A tap water detection device - Google Patents

Abstract

The utility model provides a tap water detection device, and belongs to the technical field of tap water detection. Including water quality detector and check out test set mechanism, water quality detector's outside fixed connection annular slab, check out test set mechanism includes a circular section of thick bamboo, the outside at water quality detector is installed to a circular section of thick bamboo, the round hole is seted up to the lateral surface of circular section of thick bamboo, the inside of a water collection section of thick bamboo sliding connection circular section of thick bamboo, the surface fixed connection diaphragm of a water collection section of thick bamboo. Through the slidable water collection tube of internally mounted at the circular tube, the surface fixed connection diaphragm of water collection tube, the bottom fixed connection kicking block of diaphragm enters into the circular tube inside through water, makes the kicking block rise to drive water collection tube and reciprocate, be in the inboard position of water collection tube with the detection end on the water quality detector, conveniently detect water quality, and through the protection of circular tube to water collection tube, can avoid water collection tube inside to fall into the dust, ensure to water quality testing accuracy.

Description

A tap water detection device

Technical Field

The utility model relates to the technical field of tap water detection, in particular to a tap water detection device.

Background Art

At present, the environment is polluted by various factors and groundwater is also affected. Therefore, in order to ensure that residents use healthy water, groundwater will be extracted and then eliminated and purified to make the treated groundwater qualified before it can be transported to residents' homes for use. In order to ensure the water quality is qualified, the water quality needs to be tested before it is discharged to ensure the water quality is qualified.

At present, the methods of water quality testing are becoming more and more convenient. You can directly carry a small water quality detector to the water plant, take water samples, and then place the detection end of the small water quality detector in the water. After the value on the detector stabilizes, the corresponding water quality value can be detected to know whether the water quality is qualified.

Although the above method can detect water, and the method of sampling water, the current common method is to directly scoop it and place it in a container, so that a small water quality detector can be inserted into the container for detection. However, this method of taking water requires carrying a water container. Since the water containers are open, if dust enters the interior of the water container, it will affect the accuracy of the water quality detection. Therefore, we propose a tap water detection device to solve the above problem.

Utility Model Content

In order to make up for the above deficiencies, the utility model provides a tap water detection device that overcomes the above technical problems or at least partially solves the above problems.

The utility model is achieved in this way:

The utility model provides a tap water detection device, comprising a water quality detector, wherein the outside of the water quality detector is fixedly connected to a ring plate;

A detection device mechanism, the detection device mechanism comprising:

A circular cylinder, wherein the circular cylinder is installed on the outside of the water quality detector, and a circular hole is provided on the outer side of the circular cylinder;

A water collecting cylinder, the water collecting cylinder is slidably connected to the inside of a circular cylinder, a drainage mechanism is arranged on the water collecting cylinder, the drainage mechanism comprises a water outlet, a sealing block and a spring, the water outlet is provided on the outer surface of the water collecting cylinder, the inside of the circular cylinder is fixedly connected to an arc block, one side of the arc block is provided with a groove, the inner wall of the groove is fixedly connected to a spring, one end of the spring is fixedly connected to a sealing block, the outside of the sealing block is sleeved with a sealing gasket, and the sealing block is slidably connected to the inside of the water outlet;

A floating block, the outer surface of the water collecting cylinder is fixedly connected to a transverse plate, and the bottom of the transverse plate is fixedly connected to the floating block.

In a preferred solution, the bottom of the annular plate is fixedly connected to a connecting rod, and one end of the connecting rod is fixedly connected to the outer surface of the circular cylinder.

In a preferred embodiment, the bottom of the water collecting cylinder is fixedly connected to a circular plate, the upper surface of the circular plate is fixedly connected to a first magnet, the bottom of the circular cylinder is fixedly connected to a second magnet, and the magnetic poles of the first magnet and the second magnet are opposite.

In a preferred solution, a water inlet hole is provided at the top of the circular cylinder, the interior of the water inlet hole is rotatably connected to a closing plate, and the top of the water collecting cylinder is fixedly connected to a push rod, and the position of the push rod corresponds to that of the closing plate.

In a preferred solution, a drainage hole is provided at the bottom of the water collecting cylinder, the drainage hole passes through the inside of the circular plate, and a sealing plug is provided inside the drainage hole.

The utility model provides a tap water detection device, and its beneficial effects include:

1. A slidable water collecting cylinder is installed inside the circular cylinder, and the outer surface of the water collecting cylinder is fixedly connected to a horizontal plate, and the bottom of the horizontal plate is fixedly connected to a floating block. Water enters the circular cylinder to cause the floating block to rise, thereby driving the water collecting cylinder upward. The detection end of the water quality detector is located on the inner side of the water collecting cylinder, which is convenient for water quality detection. The circular cylinder protects the water collecting cylinder, which can prevent dust from falling into the water collecting cylinder, thereby ensuring the accuracy of water quality detection.

2. By fixing an arc block on the inner wall of the circular cylinder, a spring is installed inside the arc block, one end of the spring is fixedly connected to a sealing block, and the sealing block is extended into the inside of the water outlet. This can not only seal the water collecting cylinder to prevent water leakage, but also position the water collecting cylinder and improve the stability of the connection between the water collecting cylinder and the circular cylinder, so that the water quality detector can stably detect water quality and meet the requirements of use.

BRIEF DESCRIPTION OF THE DRAWINGS

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings required for use in the embodiments are briefly introduced below. It should be understood that the following drawings only show certain embodiments of the present utility model, and therefore should not be regarded as limiting the scope. For ordinary technicians in this field, other relevant drawings can be obtained based on these drawings without creative work.

Figure 1 is a schematic diagram of the main structure of the utility model;

Figure 2 is a schematic diagram of the bottom structure of the circular plate of the utility model;

Figure 3 is a schematic diagram of the external structure of the water collecting tube of the utility model;

Figure 4 is a schematic diagram of the internal structure of the circular cylinder of the utility model;

In the figure: 1. water quality detector; 2. annular plate; 3. detection equipment mechanism; 31. circular cylinder; 311. circular hole; 32. water collecting cylinder; 33. floating block; 331. horizontal plate; 4. connecting rod; 5. circular plate; 6. first magnet; 7. second magnet; 8. closing plate; 9. push rod; 10. sealing plug; 11. drainage mechanism; 111. water outlet; 112. sealing block; 113. spring; 12. arc block; 13. groove.

DETAILED DESCRIPTION

In order to make the purpose, technical solution and advantages of the implementation of the utility model clearer, the technical solution in the implementation of the utility model will be clearly and completely described below in conjunction with the drawings in the implementation of the utility model. Obviously, the described implementation is a part of the implementation of the utility model, not all of the implementations. Based on the implementation of the utility model, all other implementations obtained by ordinary technicians in this field without creative work are within the scope of protection of the utility model.

Example

1 to 4 , the utility model provides a technical solution: a tap water detection device, comprising a water quality detector 1 and a detection device mechanism 3, the outside of the water quality detector 1 is fixedly connected to a ring plate 2, the detection device mechanism 3 comprises a circular cylinder 31, the circular cylinder 31 is installed on the outside of the water quality detector 1, a circular hole 311 is provided on the outer side of the circular cylinder 31, a water collecting cylinder 32 is slidably connected to the inside of the circular cylinder 31, the outer surface of the water collecting cylinder 32 is fixedly connected to a horizontal plate 331, and the bottom of the horizontal plate 331 is fixedly connected to a floating block 33.

In a preferred embodiment, the bottom of the annular plate 2 is fixedly connected to the connecting rod 4, and one end of the connecting rod 4 is fixedly connected to the outer surface of the circular cylinder 31. The device controls the water collecting cylinder 32 to move inside the circular cylinder 31 so that the detection head on the water quality detector 1 is located inside the water collecting cylinder 32. In order to ensure the stable use of the circular cylinder 31, the connecting rod 4 is installed on the annular plate 2, and the connecting rod 4 is fixedly connected to the circular cylinder 31, so that the circular cylinder 31 can be used stably.

In a preferred embodiment, the bottom of the water collecting cylinder 32 is fixedly connected to the circular plate 5, the upper surface of the circular plate 5 is fixedly connected to the first magnet 6, and the bottom of the circular cylinder 31 is fixedly connected to the second magnet 7. The magnetic poles of the first magnet 6 and the second magnet 7 are opposite. The device controls the water collecting cylinder 32 to move upward inside the circular cylinder 31. In order to enable the water collecting cylinder 32 to be stably installed inside the circular cylinder 31 after rising, the second magnet 7 is fixedly connected to the bottom of the circular cylinder 31, and the upper surface of the circular plate 5 is fixedly connected to the first magnet 6. Through the attraction between the first magnet 6 and the second magnet 7, the water collecting cylinder 32 can be stably installed inside the circular cylinder 31, so that the water quality detector 1 can stably detect the water quality.

In a preferred embodiment, a water inlet hole is opened at the top of the circular cylinder 31, and the inside of the water inlet hole is rotatably connected to the closing plate 8. The top of the water collecting cylinder 32 is fixedly connected to a push rod 9, and the position of the push rod 9 corresponds to that of the closing plate 8. The device extends the detection end of the water quality detector 1 into the interior of the water collecting cylinder 32 to detect water. Therefore, in order to facilitate the addition of water to the interior of the water collecting cylinder 32, the closing plate 8 is rotatably installed on the top of the circular cylinder 31, and a push rod 9 is installed on the top of the water collecting cylinder 32. The closing plate 8 is pushed up by the push rod 9 so as to introduce water into the interior of the water collecting cylinder 32. A certain amount of water is injected into the interior of the water collecting cylinder 32, and the water can be detected by the water quality detector 1.

After the water quality test is completed, the water in the water collecting cylinder 32 can be discharged by opening a drainage hole at the bottom of the water collecting cylinder 32. The drainage hole passes through the interior of the circular plate 5. A sealing plug 10 is set inside the drainage hole. When draining, the sealing plug 10 is taken out from the interior of the circular plate 5, and the water inside the water collecting cylinder 32 can be discharged.

In order to accelerate the drainage effect, the device is provided with a drainage mechanism 11 on the water collecting cylinder 32. The drainage mechanism 11 includes a water outlet 111, a sealing block 112 and a spring 113. The water outlet 111 is provided on the outer surface of the water collecting cylinder 32. The inside of the circular cylinder 31 is fixedly connected to the arc block 12. A groove 13 is provided on one side of the arc block 12. The inner wall of the groove 13 is fixedly connected to the spring 113. One end of the spring 113 is fixedly connected to the sealing block 112. The outer sleeve of the sealing block 112 is connected to the sealing gasket. The sealing block 112 It is slidably connected to the inside of the water outlet hole 111. In actual use, the arc block 12 is fixedly installed on the inner wall of the circular cylinder 31, and a spring 113 is installed inside the arc block 12. One end of the spring 113 is fixedly connected to the sealing block 112. The sealing block 112 is extended into the inside of the water outlet hole 111. It can not only seal the water collecting cylinder 32 to prevent water leakage, but also position the water collecting cylinder 32, thereby improving the connection stability between the water collecting cylinder 32 and the circular cylinder 31, so that the water quality detector 1 can stably detect the water quality and meet the requirements of use.

Specifically, the working process or working principle of a tap water detection device is: currently, the way of water quality detection is becoming more and more convenient. A small water quality detector is directly carried to the water plant, and the water is sampled. Then, the detection end of the small water quality detector is placed in the water. After the value on the detector stabilizes, the corresponding water quality value can be detected to know whether the water quality is qualified.

Although the above method can detect water and take water samples, the common method at present is to directly scoop and place it in a container, so that the small water quality detector can be inserted into the container for detection. However, such a water collection method requires carrying a water container, which is placed in a bag. If the water container is contaminated, it will pollute the tap water when taking water, thereby affecting the use of tap water. Therefore, this device is designed to solve this problem. The device is carried to the water plant, and the treated tap water is tested by the device. The bottom of the device is directly placed in the tap water. When the water overflows the position of the circular hole 311, the water will enter the interior of the circular cylinder 31 from the position of the circular hole 311. At this time, the floating block 33 will move upward under the buoyancy of the water, thereby driving the water collecting cylinder 32 to move upward. As the water continues to enter the interior of the circular cylinder 31, the floating block 33 will continue to move upward, which can drive the water collecting cylinder 32 to continue to move upward inside the circular cylinder 31, and the detection end on the water quality detector 1 will also be inside the water collecting cylinder 32.

When the circular plate 5 at the bottom of the water collecting cylinder 32 contacts the bottom of the circular cylinder 31, the first magnet 6 and the second magnet 7 will attract each other to position the water collecting cylinder 32. At the same time, the sealing block 112 on the inner wall of the circular cylinder 31 will extend into the water outlet 111 under the action of the spring 113, thereby improving the connection stability between the water collecting cylinder 32 and the circular cylinder 31.

Since a push rod 9 is installed on the top of the water collecting cylinder 32, the closing plate 8 at the top of the circular cylinder 31 is pushed by the push rod 9 to rotate it, and the top of the circular cylinder 31 is turned down. At this time, the circular cylinder 31 continues to be pressed into the water. When the circular cylinder 31 is completely immersed in the water, water will add water to the inside of the water collecting cylinder 32 through the open position on the top of the circular cylinder 31, so that a certain amount of water is injected into the water collecting cylinder 32, and the detection end of the water quality detector 1 is placed in the water, so that the water quality can be detected by the water quality detector 1.

Then take the device out of the water. During the taking-out process, the water inside the circular cylinder 31 will be discharged through the circular hole 311 and flow back into the pool, leaving only the water inside the water collecting cylinder 32. Then, let the device stand still. After the value displayed on the water quality detector 1 stabilizes, it can be detected whether the water quality is qualified, which is convenient for use.

After the water quality test is completed, the circular plate 5 is pulled, and the water collecting cylinder 32 is pulled outward from the inside of the circular cylinder 31. Since the side of the sealing block 112 is in an arc shape, the sealing block 112 will be pulled out from the inside of the water outlet 111 under the traction of the outside, so that the movement of the water collecting cylinder 32 can be controlled. At this time, the water inside the water collecting cylinder 32 will be discharged from the position of the water outlet 111. In order to drain all the water inside the water collecting cylinder 32, the sealing plug 10 can be taken out from the inside of the circular plate 5 to speed up the discharge of the water inside the water collecting cylinder 32. Then, after the device is dried, it can be stored for next use.

After one end of the water collecting cylinder 32 slides out from the inside of the circular cylinder 31, the closing plate 8 on the top of the circular cylinder 31 will close the top of the circular cylinder 31 again, thereby blocking the opening position of the water collecting cylinder 32, effectively preventing dust from entering the interior of the water collecting cylinder 32, and ensuring the accuracy of the water quality detection of this device.

It should be noted that the water quality detector 1 is a device or equipment existing in the prior art, or a device or equipment that can be realized in the prior art. Its power supply, specific composition and principle are clear to those skilled in the art, so they are not described in detail.

Claims (8)

1. The tap water detection device is characterized by comprising a water quality detector (1), wherein the outside of the water quality detector (1) is fixedly connected with an annular plate (2);

A detection device mechanism (3), the detection device mechanism (3) comprising;

The circular cylinder (31), the circular cylinder (31) is arranged at the outer side of the water quality detector (1), and a round hole (311) is formed in the outer side surface of the circular cylinder (31);

A water collecting cylinder (32), wherein the water collecting cylinder (32) is connected with the inside of the circular cylinder (31) in a sliding way;

The floating block (33), the surface fixed connection diaphragm (331) of catchment section of thick bamboo (32), the bottom fixed connection floating block (33) of diaphragm (331).

2. Tap water detection device according to claim 1, characterised in that the bottom of the annular plate (2) is fixedly connected with a connecting rod (4), one end of the connecting rod (4) being fixedly connected with the outer surface of the circular cylinder (31).

3. Tap water detection device according to claim 2, wherein a circular plate (5) is fixedly connected to the bottom of the water collecting cylinder (32), a first magnet (6) is fixedly connected to the upper surface of the circular plate (5), a second magnet (7) is fixedly connected to the bottom of the circular cylinder (31), and the magnetic poles of the first magnet (6) and the magnetic poles of the second magnet (7) are opposite.

4. A tap water detection device according to claim 3, wherein a water inlet hole is formed in the top of the circular cylinder (31), the inside of the water inlet hole is rotatably connected with the sealing plate (8), the top of the water collecting cylinder (32) is fixedly connected with the push rod (9), and the push rod (9) corresponds to the sealing plate (8).

5. Tap water detection arrangement according to claim 4, characterised in that the bottom of the water collection cylinder (32) is provided with a drain hole penetrating the inside of the circular plate (5), the drain hole being internally provided with a sealing plug (10).

6. Tap water detection arrangement according to claim 5, characterised in that the water collection cartridge (32) is provided with a drainage mechanism (11), the drainage mechanism (11) comprising a water outlet (111), a sealing block (112) and a spring (113).

7. The tap water detection device according to claim 6, wherein the water outlet hole (111) is formed in the outer surface of the water collecting barrel (32), the arc-shaped block (12) is fixedly connected to the inside of the circular barrel (31), and a groove (13) is formed in one side surface of the arc-shaped block (12).

8. The tap water detection device according to claim 7, wherein a spring (113) is fixedly connected to the inner wall of the groove (13), one end of the spring (113) is fixedly connected to a sealing block (112), a sealing gasket is sleeved on the outer portion of the sealing block (112), and the sealing block (112) is slidably connected with the inner portion of the water outlet hole (111).