CN217505120U - Sodium silicate storage barrel sealing performance detection equipment - Google Patents

Abstract

The utility model provides a sodium silicate deposits bucket leakproofness check out test set, it has carries out sealing performance to depositing the bucket and detects, guarantees the technological effect of water glass's quality. The utility model discloses a sodium silicate deposits bucket leakproofness check out test set, the detection case, it is equipped with open-top's water tank to slide in the detection case, and this water tank can follow the vertical slip of detection case, and the detection case internal fixation has the vertical ascending gas pole of flexible end, and the top and the water tank bottom fixed connection of this gas pole, water tank one side are fixed with the installation pole, and the top of this installation pole is equipped with the plug, be fixed with the socket on the detection case, the plug is used for pegging graft with the socket along with installation pole vertical migration, be fixed with the water pump on the detection case, the plug passes through the wire and is connected with the water pump, after water tank normal water loss, in time supplements the water in the water tank.

Description

Sodium silicate storage barrel sealing performance detection equipment

Technical Field

The utility model relates to a sodium silicate processing technology field especially relates to a sodium silicate deposits bucket leakproofness check out test set.

Background

Sodium silicate is a colorless, transparent, viscous solid. The sodium silicate is prepared by calcining quartz sand and sodium carbonate; the solution is alkaline when dissolved in water, and the transparent slurry solution is called water glass. The sodium silicate decomposes in the presence of acid to separate out a colloidal solution of silicic acid. Commercial products exist in aqueous solution or solid form, and are usually green or blue in color due to the presence of impurities.

The production method of sodium silicate includes two methods, namely a dry method and a wet method, wherein the wet method production takes quartz rock powder and caustic soda as raw materials, and the quartz rock powder and the caustic soda react in a high-pressure steamer under the steam of 0.6-1.0MPa to directly generate liquid water glass.

When the liquid water glass is stored, the liquid water glass needs to be placed in a shady, cool, sealed and dry storage mode, the water glass is generally placed in a plastic barrel-shaped storage barrel to be stored, if the storage barrel is poor in sealing performance or has leaks, the water glass can be caused to react with carbon dioxide in the air, and the water glass is deteriorated, so that the sealing performance of the storage barrel needs to be detected.

SUMMERY OF THE UTILITY MODEL

To exist not enough among the prior art, the utility model provides a sodium silicate deposits bucket leakproofness check out test set, it has carries out sealing performance to depositing the bucket and detects, guarantees the technological effect of water glass's quality.

The above technical purpose of the present invention can be achieved by the following technical solutions:

the utility model provides a sodium silicate deposits bucket leakproofness check out test set, includes the detection case, it is equipped with open-top's water tank to slide in the detection case, and this water tank can follow the vertical slip of detection case, and the detection case internal fixation has the vertical ascending gas pole of flexible end, and the top and the water tank bottom fixed connection of this gas pole, water tank one side are fixed with the installation pole, and the top of this installation pole is equipped with the plug, be fixed with the socket on the detection case, the plug is used for pegging graft with the socket along with installation pole vertical migration, be fixed with the water pump on the detection case, the plug passes through the wire and is connected with the water pump.

The working principle is as follows: an operator firstly connects a lead to the socket, so that the socket is in a state of being powered on for use, when the air tightness of the storage barrel needs to be detected, the operator firstly injects a certain amount of water into the water tank through the water pump, at the moment, the weight of the water in the water tank and the weight of the water tank press the telescopic end of the air rod downwards, so that the water tank can move downwards, the water tank drives the installation rod to move downwards, the installation rod drives the plug to move to separate the plug from the socket, at the moment, the water pump is in a power-off state, and the operator cannot inject water into the water tank through the water pump.

When the need carries out the gas tightness to depositing the bucket and detects, operating personnel will deposit the bucket and put into the water tank and will deposit the bucket with the help of external force and submerge the aquatic in the water tank, through whether have the bubble to emerge from the water tank in observing the water tank, if there is the bubble to emerge, then prove to deposit the case gas tightness not good, if there is not the bubble to emerge, then prove to deposit the case gas tightness better.

After the detection is completed every time, an operator needs to take the storage box out of the water tank, the storage box can take part of water out of the water tank in a clamping mode in the taking-out process, so that the water in the water tank is continuously reduced, after the detection use times are increased, the water in the water tank can be taken out by a large number of clamps, so that the water needs to be supplemented into the water tank in time, after the water in the water tank is reduced, the weight of the water in the water tank and the water in the water tank is reduced, at the moment, the telescopic end of the air rod pushes the water tank to move upwards, at the moment, the water tank moves upwards to drive the installation rod to move upwards, the installation rod drives the plug to move upwards until the plug can be plugged with the socket, at the moment, the circuit of the water pump can be conducted, and then a certain amount of water is supplemented into the water tank through the water pump.

Compared with the prior art, the utility model discloses following beneficial effect has:

before the water glass is put into the storage barrel, the tightness of the storage barrel needs to be detected, water is input into the water tank through the water pump, after the water in the water tank is increased, so that the weight of the water tank is increased, the water tank moves downwards, the mounting rod moves along with the water tank, the mounting rod drives the plug to move, the plug moves to be separated from the socket, the water pump stops working, the water in the water tank is not increased any more, the storage barrel is placed into the water tank, so that the storage barrel sinks to the bottom and the water surface submerges the storage barrel, after standing, if the sealing performance of the storage barrel is not good, then have the bubble to produce, will deposit the bucket and take out, the water in the water tank reduces, then the gas pole promotes the water tank rebound, and the installation pole moves along with the water tank, and the installation pole drives the plug and removes, and the plug removes and the socket contact, and the water pump begins work, and the water in the water tank increases, has guaranteed that hydroenergy in the water tank will deposit the bucket all the time and submerge for the sealing performance to depositing the bucket detects.

Drawings

FIG. 1 is a schematic sectional view of the present invention;

fig. 2 is an enlarged schematic view of a point a in fig. 1.

In the above drawings: 10. a water outlet pipe; 11. a strip-shaped hole; 12. a valve; 14. mounting blocks; 15. a water delivery pipe; 16. a water pipe; 18. a reservoir; 19. a water pump; 20. a detection box; 22. mounting a rod; 23. a connecting rod; 24. a support plate; 25. an elastic pad; 27. a gas lever; 29. a water tank; 30. mounting holes; 32. a socket; 33. a plug; 34. an insulating rod; 35. an elastic member.

Detailed Description

The technical solution of the present invention is further explained with reference to the drawings and the embodiments.

Example (b):

as shown in fig. 1 and 2, a sodium silicate storage barrel sealing performance detection device comprises a detection box 20, a water tank 29 with an open top is arranged in the detection box 20 in a sliding mode, the water tank 29 can vertically slide along the detection box 20, an air rod 27 with a telescopic end extending upwards is fixed in the detection box 20, the top of the air rod 27 is fixedly connected with the bottom of the water tank 29, a mounting rod 22 is fixed on one side of the water tank 29, a plug 33 is arranged at the top of the mounting rod 22, a socket 32 is fixed on the detection box 20, the plug 33 is used for vertically moving along with the mounting rod 22 and being plugged with the socket 32, a water pump 19 is fixed on the detection box 20, the plug 33 is connected with the water pump 19 through a conducting wire, and when the plug 33 is plugged with the socket 32, the water pump 19 works to deliver water into the water tank 29.

As shown in fig. 1, a vertical strip-shaped hole 11 is formed in the side wall of the detection box 20, a water outlet pipe 10 is fixedly communicated with the side wall of the water tank 29 close to the bottom, the water outlet pipe 10 penetrates through the strip-shaped hole 11 to extend out of the detection box 20, the water outlet pipe 10 can vertically slide along the strip-shaped hole 11, a valve 12 is arranged in the water outlet pipe 10, when water in the water tank 29 is used for a period of time and an operator needs to replace the water in the water tank 29, the operator opens the valve 12, water in the water tank 29 flows out of the water tank through the water outlet pipe 10, the water outlet pipe 10 and the valve 12 are designed, the operator can quickly discharge the water in the water tank 29 from the water tank 29, and therefore the efficiency of replacing the water in the water tank 29 is improved.

As shown in fig. 1, a supporting plate 24 is fixed at the bottom of the water tank 29, the top of the air rod 27 is fixedly connected with the bottom of the supporting plate 24, two elastic pads 25 are fixed at the bottom of the supporting plate 24, the two elastic pads 25 are symmetrical with the axis of the air rod 27 as the center, when the water tank 29 drives the supporting plate 24 to move downwards, the elastic pads 25 move along with the supporting plate 24, the vibration is reduced by the elastic pads 25, a connecting rod 23 is fixedly arranged at one end of the supporting plate 24, and the mounting rod 22 is fixed on the connecting rod 23.

When there is a loss of water in the water tank 29 by detecting the airtightness of the storage tub, the air lever 27 pushes the support plate 24 to move upward.

As shown in fig. 1, the water storage tank 18 is further included, the water storage tank 18 is fixed on the detection box 20, the top of the water storage tank 18 is open, the water pump 19 is of a submersible pump structure, the water pump 19 is arranged in the water storage tank 18, the output end of the water pump 19 is connected with the water service pipe 16, the other end of the water service pipe 16 is located above the top of the water tank 29, the top of the water tank 29 is fixedly provided with the mounting block 14, the mounting block 14 is transversely provided with the water conveying pipe 15 in a through manner, one end of the water conveying pipe 15 is connected with the water service pipe 16, the water conveying pipe 15 is matched with the water service pipe 16 to convey water in the water storage tank 18 to the water tank 29, the water storage tank 18 is designed, and an operator can inject water which needs to be supplied to the water storage tank 29 in advance into the water storage tank 18, so that the water pump 19 can further conveniently inject water into the water tank 29.

As shown in fig. 2, the top of the mounting rod 22 is downwardly opened with a mounting hole 30, the bottom of the mounting hole 30 is fixed with a vertical elastic member 35, the top of the elastic member 35 is fixed with an insulating rod 34, the insulating rod 34 can vertically slide along the mounting hole 30, the top of the insulating rod 34 is fixedly connected with the plug 33, and when the insulating rod 34 drives the plug 33 to move, the plug 33 is plugged into or disconnected from the socket 32.

When the mounting rod 22 moves upwards, the mounting rod 22 drives the insulating rod 34 to move upwards together, the plug 33 abuts against the socket 32, the mounting rod 22 continues to move upwards, the elastic piece 35 is in a compression state, when the mounting rod 22 moves downwards, the plug 33 is still in a contact state with the socket 32, after the elastic piece 35 is in a stretching state, the elastic piece 35 pulls the insulating rod 34 to move downwards, the insulating rod 34 drives the plug 33 to move downwards, the plug 33 moves downwards and is separated from the socket 32, and the elastic piece 35 can enable the plug-in of the plug 33 and the socket 32 to be smoother.

The working principle is as follows:

when the sealing performance of the storage barrel needs to be detected, water is injected into the water storage tank 18 and the water tank 29, the water tank 29 is heavy to move downwards after the water is injected into the water tank 29, the water tank 29 drives the support plate 24 to move downwards, the support plate 24 drives the connecting rod 23 to move downwards, the connecting rod 23 drives the mounting rod 22 to move downwards, the mounting rod 22 drives the insulating rod 34 to move downwards through the elastic piece 35, the plug 33 moves along with the insulating rod 34, the plug 33 is separated from the socket 32, the storage barrel is placed into the water tank 29, the storage barrel is submerged by the water, if bubbles are generated, the sealing performance of the storage barrel is poor, and if the bubbles are not generated, the sealing performance of the storage barrel is good;

when the water in the water tank 29 is lost, the air rod 27 pushes the support plate 24 to move upwards, the support plate 24 drives the connecting rod 23 to move upwards, the connecting rod 23 drives the mounting rod 22 to move upwards, the mounting rod 22 drives the insulating rod 34 to move upwards through the elastic piece 35, the plug 33 moves along with the insulating rod 34, the plug 33 is in contact with the socket 32, the water pump 19 works, and the water pump 19 inputs the water in the reservoir 18 into the water tank 29 through the water pipe 16 and the water pipe 15.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (10)

1. The utility model provides a sodium silicate deposits bucket leakproofness check out test set which characterized in that: including detection case (20), it is equipped with open-top's water tank (29) to slide in detection case (20), and detection case (20) vertical slip can be followed in this water tank (29), and detection case (20) internal fixation has flexible end vertical ascending gas pole (27), the top and water tank (29) bottom fixed connection of this gas pole (27), and water tank (29) one side is fixed with installation pole (22), and the top of this installation pole (22) is equipped with plug (33), be fixed with socket (32) on detection case (20), plug (33) are used for along with installation pole (22) vertical migration and peg graft with socket (32), be fixed with water pump (19) on detection case (20), plug (33) are connected with water pump (19) through the wire.

2. The sodium silicate storage barrel tightness detection device according to claim 1, characterized in that: it has vertical bar hole (11) to open on detection case (20) lateral wall, water tank (29) are close to and are fixed to switch on the lateral wall of bottom has outlet pipe (10), and this outlet pipe (10) pass bar hole (11) and stretch out detection case (20), and outlet pipe (10) can be along the vertical slip of bar hole (11).

3. The sodium silicate storage barrel tightness detection device according to claim 2, characterized in that: a valve (12) is arranged in the water outlet pipe (10).

4. The sodium silicate storage barrel tightness detection device according to claim 1, characterized in that: the bottom of the water tank (29) is fixedly provided with a support plate (24), the top of the air rod (27) is fixedly connected with the bottom of the support plate (24), and the bottom of the support plate (24) is fixedly provided with an elastic cushion (25).

5. The sodium silicate storage barrel tightness detection device according to claim 4, characterized in that: the two elastic cushions (25) are symmetrical by taking the axis of the air rod (27) as the center.

6. The sodium silicate storage barrel tightness detection device according to claim 1, characterized in that: the device also comprises a water reservoir (18), wherein the water reservoir (18) is fixed on the detection box (20).

7. The sodium silicate storage barrel tightness detection device according to claim 6, characterized in that: the water pump (19) is of a submersible pump structure, and the water pump (19) is arranged in the water storage tank (18).

8. The sodium silicate storage barrel tightness detection device according to claim 7, characterized in that: the output end of the water pump (19) is connected with a water pipe (16), and the other end of the water pipe (16) is positioned above the top of the water tank (29).

9. The sodium silicate storage barrel tightness detection device according to claim 6, characterized in that: the water reservoir (18) is open at the top.

10. The sodium silicate storage barrel tightness detection device according to claim 1, characterized in that: the top of the mounting rod (22) is downwards provided with a mounting hole (30), the bottom of the mounting hole (30) is fixed with a vertical elastic piece (35), the top of the elastic piece (35) is fixed with an insulating rod (34), the insulating rod (34) can vertically slide along the mounting hole (30), and the top of the insulating rod (34) is fixedly connected with the plug (33).

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