CN211665192U - Electrolysis equipment and salt dissolving device thereof - Google Patents

Abstract

The utility model discloses a dissolve salt device, which comprises a housin, top-down has arranged storage salt storehouse and has dissolved the salt storehouse in the casing, but be linked together through throwing the salt valve break-make between storage salt storehouse and the dissolved salt storehouse, the top of casing can be provided with the salt mouth that adds that stores up the salt storehouse intercommunication with opening and shutting, be provided with on the casing and supply the saturated salt solution by dissolving the outlet pipe that the salt storehouse lets in outside electrolytic device, supply the saturated salt solution by outside electrolytic device backward flow to the back flow that dissolves the salt storehouse, the intercommunication dissolves the inlet tube of salt storehouse and outside water supply equipment and can send liquid into the salt flushing pump that stores up the salt storehouse by dissolving the salt storehouse, still be provided with the intake pipe of intercommunication dissolved salt storehouse and outside atmospheric environment and the breathing pipe that intercommunication dissolved salt storehouse and water ejector carry out gas-liquid separation. The salt dissolving device can effectively avoid the escape of the sterilizing gas in the salt adding process, and ensures the efficient and safe operation of the electrolysis equipment. The utility model also discloses an electrolysis equipment of using above-mentioned salt dissolving device.

Description

Electrolysis equipment and salt dissolving device thereof

Technical Field

The utility model relates to a supporting subassembly technical field of electrolysis salt solution equipment, in particular to dissolve salt device. The utility model also relates to an electrolysis device applying the salt dissolving device.

Background

In the related art, the electrolytic salt solution is generally used to prepare the disinfection gas such as chlorine for the related production operation.

Generally, salt solution is formed by dissolving salt in water for preparing electrolyte, and the salt adding, salt storage and salt dissolving processes of the equipment adopted in the existing salt dissolving process are all completed in the same cavity of the equipment.

Therefore, how to avoid the escape of the sterilizing gas in the process of adding salt and ensure the efficient and safe operation of the electrolysis equipment is an important technical problem to be solved by the technical personnel in the field at present.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a dissolve salt device, should dissolve salt device and can effectively avoid adding the exorbitant escape of the gaseous disinfectant of salt in-process, guarantee the high-efficient safe operation of electrolysis equipment. The utility model also aims to provide an electrolysis device applying the salt dissolving device.

In order to solve the technical problem, the utility model provides a salt dissolving device, which comprises a shell, wherein a salt storage bin and a salt dissolving bin are arranged in the shell from top to bottom, the salt storage bin and the salt dissolving bin are communicated with each other in a break-make way through a salt feeding valve, the top of the shell is provided with a salt adding port communicated with the salt storage bin in an opening-closing way, the shell is provided with a water outlet pipe for introducing saturated salt solution from the salt dissolving bin to an external electrolysis device, a return pipe for returning unsaturated salt solution electrolyzed by the external electrolysis device to the salt dissolving bin, a water inlet pipe for communicating the salt dissolving bin with external water supply equipment and a salt flushing pump capable of pumping liquid from the salt dissolving bin to the salt storage bin, the shell is also provided with an air inlet pipe communicated with the salt dissolving bin, the salt dissolving bin and the external atmospheric environment and an air suction pipe communicated with the salt storage bin, the salt dissolving bin and the external water ejector to perform gas-liquid separation.

Preferably, the bottom of the shell is provided with an overflow pipe and a sewage discharge pipe which are communicated with the dissolved salt bin and the external environment.

Preferably, the shell is provided with a liquid level sensor cooperatively matched with the salt storage bin, the salt dissolving bin and the salt flushing pump.

Preferably, the lateral wall of the shell is respectively provided with an observation window which is matched with the salt storage bin and the salt dissolving bin in an alignment mode, and the observation window is a transparent acrylic plate workpiece.

Preferably, the observation window is a long hole with the length direction consistent with the vertical direction.

Preferably, a salt storage tank which is communicated with the outlet end of the return pipe in an alignment manner is arranged in the salt dissolving bin.

Preferably, a sealing cover is detachably connected to the salt adding opening in a threaded manner.

The utility model also provides an electrolysis equipment, including the salt device and the electrolytic device of dissolving of mutually supporting, dissolve the salt device and be as above-mentioned arbitrary one dissolve the salt device.

Compared with the prior art, the utility model provides a salt dissolving device, in its operation use, because salt storage storehouse and salt dissolving storehouse are independently arranged separately, when needs add salt operation, put into salt storage storehouse earlier by salt adding mouth department input salt, the valve of throwing salt is in the closed condition this moment, salt storage storehouse and salt dissolving storehouse are kept apart from each other, the disinfection gas in the salt dissolving storehouse can not let in the salt storage storehouse, can not escape via salt storage storehouse and salt adding mouth even more, guaranteed the healthy of operating personnel in the salt adding process, the waste of disinfection gas has been avoided; after the salt adding operation is finished, closing the salt adding port, then operating a salt flushing pump to send liquid in the salt dissolving bin into the salt storing bin, simultaneously connecting a salt throwing valve to flush the salt in the salt storing bin and bring the salt into the salt dissolving bin, after the flushing operation is finished, closing the salt flushing pump to fully mix and dissolve the salt and the liquid brought into the salt dissolving bin to form saturated salt solution, then sending the salt solution into an electrolysis device through a water outlet pipe to carry out electrolysis to generate disinfection gas such as chlorine, then returning the liquid with the disinfection gas into the salt dissolving bin through a return pipe to enable the disinfection gas dissolved in the liquid to escape, then utilizing the negative pressure generated by a water flow flowing through a water ejector, extracting the disinfection gas contained in the salt dissolving bin after escaping through an air suction pipe, sucking the disinfection gas through the water ejector, carrying out hydration and hydration reaction with water, and adding the disinfection gas into the water body to be treated, the disinfection treatment effect is completed. In the process, air is respectively supplemented into the salt storage bin and the salt dissolving bin through the air inlet pipe, so that the air pressure inside the salt dissolving bin is balanced, and the continuous and stable extraction process of the sterilizing gas is ensured.

In another preferred scheme of the utility model, the bottom of casing is provided with the intercommunication the overflow pipe and the blow off pipe of dissolved salt storehouse and external environment. When the liquid in each chamber in the shell, particularly in the salt dissolving bin, is excessive, part of the liquid can be discharged through the overflow pipe, so that the liquid amount in the chamber is in a stable and proper range, and the concentration of the salt solution and the operation efficiency of equipment are ensured; meanwhile, liquid which can not be used any more can be quickly discharged through the drainage pipe, and then new water can be supplemented into the salt dissolving device through the water supply pipe, so that subsequent salt solution preparation and electrolysis operation can be carried out continuously.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a front view of a salt dissolving device according to an embodiment of the present invention;

FIG. 2 is a side view of FIG. 1;

FIG. 3 is a top view of FIG. 1;

fig. 4 is a rear view of the structure of the salt dissolving bin portion in fig. 2.

Wherein, the device comprises a shell 11, a salt adding port 111, a sealing cover 112, an observation window 113, a salt storage bin 12, a salt dissolving bin 13, an overflow pipe 131, a sewage discharge pipe 132, a salt throwing valve 14, an air inlet pipe 151, an air suction pipe 152 and a liquid level sensor 16.

Detailed Description

The core of the utility model is to provide a salt dissolving device which can effectively avoid the escape of the sterilization gas in the salt adding process and ensure the high-efficiency and safe operation of the electrolysis equipment; meanwhile, the electrolytic equipment applying the salt dissolving device is provided.

In order to make the technical field better understand the solution of the present invention, the following detailed description of the present invention is provided with reference to the accompanying drawings and the detailed description.

Referring to fig. 1 to 4, fig. 1 is a front view of a salt dissolving device according to an embodiment of the present invention; FIG. 2 is a side view of FIG. 1; FIG. 3 is a top view of FIG. 1; fig. 4 is a rear view of the structure of the salt dissolving bin portion in fig. 2.

In a specific embodiment, the salt dissolving device provided by the utility model comprises a shell 11, a salt storage bin 12 and a salt dissolving bin 13 are arranged in the shell 11 from top to bottom, the salt storage bin 12 and the salt dissolving bin 13 are communicated with each other through a salt feeding valve 14 in an on-off manner, a salt adding port 111 communicated with the salt storage bin 12 is arranged at the top of the shell 11 in an openable manner, a water outlet pipe for leading saturated salt solution from the salt dissolving bin 13 to an external electrolysis device, a return pipe for leading unsaturated salt solution electrolyzed by the external electrolysis device to return to the salt dissolving bin 13, a water inlet pipe for communicating the salt dissolving bin 13 with external water supply equipment and a salt flushing pump capable of sending the salt solution from the salt dissolving bin 13 to the salt storage bin 12 are arranged on the shell 11, the casing 11 is further provided with an air inlet pipe 151 for communicating the salt storage bin 12, the salt dissolving bin 13 and the external atmosphere environment, and an air suction pipe 152 for communicating the salt storage bin 12, the salt dissolving bin 13 and the water ejector for gas-liquid separation.

In the operation and use process, the salt storage bin 12 and the salt dissolving bin 13 are independently arranged, so that when salt adding operation is required, salt added from the salt adding port 111 is firstly placed into the salt storage bin 12, the salt adding valve 14 is in a closed state at the moment, the salt storage bin 12 and the salt dissolving bin 13 are mutually isolated, the sterilizing gas in the salt dissolving bin 13 cannot be introduced into the salt storage bin 12 and cannot escape from the salt storage bin 12 and the salt adding port 111, the health of operators in the salt adding process is ensured, and the waste of the sterilizing gas is avoided; after the salt adding operation is finished, the salt adding port 111 is closed, then the salt flushing pump is operated to send the liquid in the salt dissolving bin 13 into the salt storage bin 12, the salt throwing valve 14 is connected at the same time, so that the salt in the salt storage bin 12 is flushed and carried into the salt dissolving bin 13, after the flushing operation is finished, the salt flushing pump is closed, so that the salt and the liquid brought into the salt dissolving bin 13 are fully mixed and dissolved to form saturated salt solution, then the salt solution is sent into the electrolysis device through the water outlet pipe to be electrolyzed to generate chlorine and other sterilizing gases, then the liquid with the sterilizing gases is returned into the salt dissolving bin 13 through the return pipe to be kept still, so that the sterilizing gases dissolved in the liquid escape, and then the sterilizing gases which escape and are contained in the salt dissolving bin 13 can be pumped to downstream gas equipment through the air suction pipe 152 by utilizing equipment such as a water ejector and the like to utilize the sterilizing gases to implement the sterilizing operation by utilizing the sterilizing gases, the process of extracting the sterilizing gas can be realized by supplementing air into the salt dissolving bin 13 through the air inlet pipe 151, so that the air pressure inside the salt dissolving bin 13 is ensured to be balanced, and the continuous and stable sterilizing gas extraction process is ensured.

It should be noted that for the general equipment assembly structure, the specific assembly position of the salt flushing pump can refer to the notch position at the lower right corner of the component structure in fig. 4. Certainly, the specific assembly position of the salt flushing pump is not limited to this, and the specific assembly positions of other components not explicitly labeled in the figures in this document also do not need to be specifically limited, and in practical application, a worker can flexibly select the specific assembly positions of the components such as the salt flushing pump according to specific working condition requirements, and in principle, the salt flushing pump can be any pump as long as the stable and reliable operation of the components can be ensured and the actual working operation requirements of the salt dissolving device can be met.

Further, the bottom of the housing 11 is provided with an overflow pipe 131 and a sewage drain 132 for communicating the dissolved salt bin 13 with the external environment. When the liquid in each chamber in the shell 11, especially in the salt dissolving bin 13 is too much, part of the liquid can be discharged through the overflow pipe 131, so that the liquid amount in the chamber is in a stable and proper range, and the concentration of the salt solution and the operation efficiency of the equipment are ensured; meanwhile, liquid which cannot be used any more can be quickly discharged through the drainage pipe 132, and then a new water body can be supplemented into the salt dissolving device through the water supply pipe, so that subsequent salt solution preparation and electrolysis operation can be continuously carried out.

Specifically, a liquid level sensor 16 cooperatively matched with the salt storage bin 12, the salt dissolving bin 13 and the salt flushing pump is arranged on the shell 11. The liquid level sensor 16 can monitor and feed back the liquid level and the saturated salt solution state in each cavity of the salt dissolving device in real time, so that a worker can correspondingly operate a salt flushing pump or other components to drain or supplement liquid for the corresponding cavity, and the liquid level in each cavity, especially the salt dissolving bin 13, is ensured to be in a stable and proper state, so that the overall operation efficiency and the working performance of the salt dissolving device are ensured.

More specifically, the side wall of the housing 11 is provided with an observation window 113 aligned with the salt storage bin 12 and the salt dissolving bin 13, respectively, and the observation window 113 is made of transparent acrylic. In the operation process of the equipment, the staff can also visually know the liquid amount and/or the salt storage amount in each chamber through each observation window 113 so as to correspondingly implement operations of liquid supplementing, liquid draining, salt adding and the like, and ensure that the preparation of the salt solution and the supply of the corresponding electrolyte are sufficient and stable.

The observation window 113 is an elongated hole whose longitudinal direction coincides with the vertical direction. The long hole structure arranged along the vertical direction in the length direction helps to further improve the effective observation range of the observation window 113, so that the staff can observe the liquid amount and/or the salt inventory in the cavity more accurately and efficiently in real time, and the accuracy and the regulation effect of subsequent corresponding operation are ensured.

On the other hand, a salt storage tank communicated with the salt storage bin 12 and communicated with the outlet end of the return pipe in an alignment manner is arranged in the salt dissolving bin 13. After the operation of adding salt is accomplished, some newly-added salt can be fallen into the salt storage tank by storing up salt storehouse 12 in, later when implementing the scouring operation, the liquid that is extracted by towards salt pump autolysis salt storehouse 13 bottom can flow through in proper order and erode and store up salt storehouse 12 and salt storage tank, in order to further improve the solution efficiency and the effect of liquid to salt through storing up salt storehouse 12 and two positions of salt storage tank in with the salinity, after the completion of scouring, the liquid that has some undissolved salt secretly converges and stews in dissolving the salt storehouse, so that salt and liquid further fully dissolve the mixture, form saturated salt solution, later directly concentrate the extraction in the autolysis salt storehouse by the outlet pipe and in order to supply with the electrolysis, thereby further improve the supply and the transport efficiency of electrolyte, guarantee the continuous high-efficient implementation of follow-up electrolysis operation.

In addition, a sealing cover 112 is detachably screwed on the salt adding opening 111. This kind of threaded connection simple structure is reliable, and dismouting operating efficiency is higher, can guarantee that closing cap 112 is to adding salt mouth 111 reliable encapsulation simultaneously, effectively reduces the operation degree of difficulty of adding salt in-process staff, improves operating efficiency.

Of course, the above-mentioned engagement form of the cover 112 and the salting opening 111 is not limited to the above-mentioned screw connection in practical application, and any adapter and assembly structure can be used as long as the reliable sealing of the cover 112 to the salting opening 111 can be ensured.

In a specific embodiment, the present invention provides an electrolysis apparatus, comprising a salt dissolving device and an electrolysis device, which are matched with each other, wherein the salt dissolving device is the salt dissolving device as in the above embodiments. The electrolytic equipment can not generate the phenomenon of the escape of the sterilizing gas, and the working operation process is safe and efficient.

In conclusion, the utility model provides a salt dissolving device, in its operation use, because salt storage bin and salt dissolving bin arrange independently separately, when needs add salt operation, put into salt storage bin earlier by salt adding mouth department's input salt, the valve of throwing salt is in the closed condition this moment, salt storage bin and salt dissolving bin are isolated from each other, the disinfection gas in the salt dissolving bin can not let in the salt storage bin, can not escape through salt storage bin and salt adding mouth even more, guaranteed the healthy of operating personnel in the salt adding process, avoided the waste of disinfection gas; after the salt adding operation is finished, closing the salt adding port, then operating a salt flushing pump to send liquid in the salt dissolving bin into the salt storing bin, simultaneously connecting a salt throwing valve to flush the salt in the salt storing bin and bring the salt into the salt dissolving bin, after the flushing operation is finished, closing the salt flushing pump to fully mix and dissolve the salt and the liquid brought into the salt dissolving bin to form salt solution, then sending the salt solution into an electrolysis device through a water outlet pipe to carry out electrolysis to generate disinfection gas such as chlorine, then returning the liquid with the disinfection gas into the salt dissolving bin through a return pipe to stand so as to enable the disinfection gas dissolved in the liquid to escape, then utilizing the negative pressure generated by a water flow through a water ejector, extracting the disinfection gas contained in the salt dissolving bin after escaping through an air suction pipe, sucking the disinfection gas through the water ejector, carrying out hydration and hydration reaction with water, and adding the disinfection gas into the water body to be treated, accomplish the disinfection treatment effect, the in-process of extraction disinfectant gas can be through the intake pipe to the air of mending in the salt dissolving storehouse to guarantee that the inside atmospheric pressure in salt dissolving storehouse is balanced, guarantee that disinfectant gas extraction process is stable in succession.

In addition, the utility model provides an use electrolysis equipment of above-mentioned salt dissolving device, it can not take place the gaseous phenomenon of escaping outward of disinfection, and its work operation process is comparatively safe high-efficient.

The salt dissolving device and the electrolysis equipment using the salt dissolving device provided by the utility model are described in detail above. The principles and embodiments of the present invention have been explained herein using specific examples, and the above descriptions of the embodiments are only used to help understand the method and its core ideas of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (8)

1. A salt dissolving device is characterized in that: the salt storage device comprises a shell, wherein a salt storage bin and a salt dissolving bin are arranged in the shell from top to bottom, the salt storage bin and the salt dissolving bin are communicated through a salt throwing valve, the top of the shell is provided with a salt adding port communicated with the salt storage bin in an openable mode, a water outlet pipe for allowing saturated salt solution to be introduced into an external electrolysis device from the salt dissolving bin, a backflow pipe for allowing unsaturated salt solution electrolyzed by the external electrolysis device to flow back to the salt dissolving bin, a water inlet pipe for communicating the salt dissolving bin with external water supply equipment and a salt flushing pump for pumping the salt solution into the salt storage bin from the salt dissolving bin are arranged on the shell, and the shell is further provided with a gas inlet pipe for communicating the salt storage bin, the salt dissolving bin and an external atmospheric environment and a gas suction pipe for communicating the salt storage bin and the salt dissolving bin with an external water ejector to perform gas-liquid separation.

2. A salt dissolving device as claimed in claim 1, wherein: the bottom of the shell is provided with an overflow pipe and a sewage discharge pipe which are communicated with the dissolved salt bin and the external environment.

3. A dissolved salt apparatus according to claim 2, wherein: and a liquid level sensor which is matched with the salt storage bin, the salt dissolving bin and the salt flushing pump in a cooperative manner is arranged on the shell.

4. A salt dissolving device as claimed in claim 3, wherein: and the side wall of the shell is respectively provided with an observation window which is matched with the salt storage bin and the salt dissolving bin in an alignment way, and the observation window is a transparent acrylic plate workpiece.

5. The salt dissolving device as claimed in claim 4, wherein: the observation window is a long hole with the length direction consistent with the vertical direction.

6. A salt dissolving device as claimed in claim 1, wherein: and a salt storage tank which is communicated with the outlet end of the return pipe in an alignment way is arranged in the salt dissolving bin.

7. A salt dissolving device as claimed in claim 1, wherein: the salt adding port is detachably connected with a sealing cover in a threaded manner.

8. An electrolysis equipment, includes salt dissolving device and electrolytic device mutually supporting, its characterized in that: the salt dissolving device as claimed in any one of claims 1 to 7.

Images