CN220609873U - Instant proportioning device of deodorization is killed to buried equipment - Google Patents

Abstract

The utility model discloses an instant proportioning device for disinfection and deodorization of underground equipment, which comprises a tap water pipeline structure, a first raw liquid pipeline structure, a second raw liquid pipeline structure, a mixing pipeline structure, a pump-out pipeline structure and an equipment end nozzle, wherein the tap water pipeline structure is used for injecting tap water from an external tap water source into the mixing pipeline structure; the first stock solution pipeline structure is connected with the first stock solution bottle and the mixing pipeline structure and is used for inputting the first type of disinfection stock solution in the first stock solution bottle into the mixing pipeline structure; the second stock solution pipeline structure is connected with the second stock solution bottle and the mixing pipeline structure and is used for inputting the second type of disinfection stock solution in the second stock solution bottle into the mixing pipeline structure; the utility model only pumps the stock solution from the stock solution bottle and mixes the stock solution with water when the stock solution is killed, thus realizing the instant mixing of the water and the disinfection stock solution, solving the technical problems that the mixed solution has high volatility and long time, is easy to separate and can not achieve the effect required by the mixed solution.

Description

Instant proportioning device of deodorization is killed to buried equipment

Technical Field

The utility model belongs to the technical field of environmental protection equipment, and particularly relates to a buried equipment sterilizing and deodorizing instant proportioning device.

Background

The underground garbage station is a device for carrying out garbage treatment by hiding the whole device in the ground, and the device is a household garbage collection, transfer and transportation device which integrates sealing, environmental protection and high efficiency, and solves the problems of peculiar smell, odor, mosquito and fly breeding and the like existing in the open operation mode of the traditional garbage compressor.

In general, buried garbage stations and other buried facilities need to be killed periodically, however, the conventional sterilizing apparatus has the following problems:

1. the mixed liquor for disinfection is mixed together for a long time before use, and is manually started to spray for removing peculiar smell, so that the mixed liquor has high volatility, is easy to separate for a long time, and cannot achieve the effect required by the mixed liquor;

2. the mixed liquid and the stock solution are not added with a monitoring module, and are required to be processed again by an administrator according to the actual state, so that the uncertainty is high;

3. the existing buried equipment is often airtight, heavy in abnormal flavor, not provided with a gas concentration sensing function, and certain danger exists in the trade operation of an administrator.

Disclosure of Invention

The utility model aims to solve the technical problem of providing an instant proportioning device for sterilizing and deodorizing buried equipment aiming at the defects of the prior art.

In order to achieve the technical purpose, the utility model adopts the following technical scheme:

an instant proportioning device for disinfection and deodorization of underground equipment comprises a tap water pipeline structure, a first stock solution pipeline structure, a second stock solution pipeline structure, a mixing pipeline structure, a pumping pipeline structure and an equipment end nozzle,

the tap water pipeline structure is connected with an external tap water source and the mixing pipeline structure and is used for injecting tap water of the external tap water source into the mixing pipeline structure;

the first stock solution pipeline structure is connected with the first stock solution bottle and the mixing pipeline structure and is used for inputting the first type of disinfection stock solution in the first stock solution bottle into the mixing pipeline structure;

the second stock solution pipeline structure is connected with the second stock solution bottle and the mixing pipeline structure and is used for inputting the second type of disinfection stock solution in the second stock solution bottle into the mixing pipeline structure;

the upper end of the mixing pipeline structure is respectively connected with the tap water pipeline structure, the first stock solution pipeline structure and the second stock solution pipeline structure, the lower end of the mixing pipeline structure is connected with the pump-out pipeline structure, the mixing pipeline structure is used for mixing tap water, the first type disinfection stock solution and the second type disinfection stock solution, and the mixed liquid is input into the pump-out pipeline structure,

the front end of the pump-out pipeline structure is connected with the mixing pipeline structure, the rear end of the pump-out pipeline structure is connected with the equipment end spray head, and the pump-out pipeline structure is used for pressurizing the mixed liquid and sending the high-pressure mixed liquid into the equipment end spray head;

the equipment end spray head is arranged in a foundation pit where the buried equipment is located, and is used for atomizing the liquid after high-pressure mixing and spraying the atomized liquid.

The tap water pipeline structure comprises a tap water pipeline, a tap water filter bottle and a tap water pipe valve, one end of the tap water pipeline is connected with an external tap water source, the other end of the tap water pipeline is connected with the mixed pipeline structure, the tap water filter bottle and the tap water pipe valve are respectively arranged on the tap water pipeline, the tap water filter bottle is used for filtering tap water, and the tap water pipe valve is used for controlling the on-off of the tap water pipeline.

In order to optimize the technical scheme, the specific measures adopted further comprise:

the first stock solution pipeline structure comprises a first stock solution pipeline, a first stock solution bottle, a first stock solution pipeline switch, a three-way valve, an injection pipeline and an injection pump, wherein one end of the first stock solution pipeline is connected with the first stock solution bottle, the other end of the first stock solution pipeline is connected with the first end of the three-way valve, the first stock solution pipeline switch is arranged on the first stock solution pipeline and used for controlling the on-off of the first stock solution pipeline, one end of the injection pipeline is connected with the third end of the three-way valve, the other end of the injection pipeline is connected with the mixed pipeline structure, and the injection pump is arranged on the injection pipeline and used for providing power for sterilizing stock solution of a first type from the first stock solution pipeline to the mixed pipeline structure.

The second stock solution pipeline structure comprises a second stock solution pipeline, a second stock solution bottle and a second stock solution pipeline switch, one end of the second stock solution pipeline is connected with the second stock solution bottle, the other end of the second stock solution pipeline is connected with the second end of the three-way valve, the second stock solution pipeline switch is arranged on the second stock solution pipeline and used for controlling the on-off of the second stock solution pipeline, and the injection pump can provide power for the second type disinfection stock solution to flow from the second stock solution pipeline to the mixed pipeline structure.

The mixing pipeline structure comprises a mixing pipeline and a mixing liquid bottle, the tap water pipeline and the injection pipeline are connected with the upper end of the mixing liquid bottle, the lower end of the mixing liquid bottle is connected with the upper end of the mixing pipeline, and the lower end of the mixing pipeline is connected with the pump-out pipeline structure.

The pump-out pipeline structure comprises a pump-out pipeline and a high-pressure pump, wherein one end of the pump-out pipeline is connected with the lower end of the mixing pipeline, the other end of the pump-out pipeline is connected with the equipment end spray head, the high-pressure pump is arranged on the pump-out pipeline, and the high-pressure pump is used for pressurizing mixed liquid in the pump-out pipeline.

The buried equipment disinfection device further comprises a control device, wherein the tap water pipe valve, the first stock solution pipeline switch and the second stock solution pipeline switch are all electromagnetic valves, and the control device is respectively connected with the tap water pipe valve, the first stock solution pipeline switch and the second stock solution pipeline switch and can control the on-off of the tap water pipe valve, the first stock solution pipeline switch and the second stock solution pipeline switch.

The liquid level sensor is arranged on the first stock solution bottle, the second stock solution bottle and the mixed solution bottle and is used for sensing the liquid level in the first stock solution bottle, the second stock solution bottle and the mixed solution bottle, the liquid level sensor is in signal connection with the control device, and the liquid level sensor can send detected liquid level information to the control device.

The control device is a singlechip with a display, the singlechip is connected with the display, the received information can be displayed on the display, a static mixer is arranged on the injection pipeline, one end of the tap water pipeline, which is connected with the mixing pipeline structure, is connected to the inlet of the static mixer, and the static mixer is used for mixing tap water, the first type disinfection stock solution and the first type disinfection stock solution.

The device comprises a control device, a ground-buried equipment, a control device and a foundation pit, wherein the foundation pit is provided with a harmful gas sensor, the harmful gas sensor is connected with the control device through signals, and the harmful gas sensor is used for detecting the concentration of harmful gas in the foundation pit of the ground-buried equipment and sending the detected concentration information of the harmful gas to the control device.

The utility model has the following advantages:

the buried equipment disinfection device is provided with a tap water pipeline structure, a first stock solution pipeline structure, a second stock solution pipeline structure, a mixing pipeline structure, a pump-out pipeline structure and an equipment end spray head, when disinfection is not carried out, disinfection stock solution is stored in a stock solution bottle, the stock solution is not mixed, only when disinfection is carried out, the injection pump extracts the stock solution from the stock solution bottle and mixes the stock solution with water, the immediate mixing of water and the disinfection stock solution is realized, and the technical problems that the volatility of the mixed solution is high, the mixed solution is easy to separate for a long time, and the effect required by the mixed solution cannot be achieved are solved.

The utility model further provides a control device, the tap water pipe valve, the first stock solution pipeline switch and the second stock solution pipeline switch are changed into electromagnetic valves, liquid level sensors are arranged on the first stock solution bottle, the second stock solution bottle and the mixed solution bottle, each time of disinfection is realized, the control device can control the first stock solution bottle and the second stock solution bottle to flow out a preset amount of stock solution according to the liquid level sensors of the first stock solution bottle and the second stock solution bottle, then the first stock solution pipeline switch and the second stock solution pipeline switch are closed, and then the proportion of stock solution and water is controlled according to the liquid level sensors of the mixed solution bottle, so that the mixing ratio of each time of disinfection mixed solution is stable, and the disinfection effect is controllable.

The utility model further provides a harmful gas sensor, the harmful gas concentration in the foundation pit can be monitored in real time through the harmful gas sensor, the harmful gas concentration is sent to the control device in time, and an administrator can perform ventilation operation according to the harmful gas concentration, so that accidents are prevented.

Drawings

FIG. 1 is a schematic view of a first embodiment of the present utility model;

FIG. 2 is a schematic diagram of a second embodiment of the present utility model;

FIG. 3 is a schematic diagram of the first and second liquid concentrate line switches of FIG. 2 modified to solenoid valves;

FIG. 4 is a schematic view of the structure of a third embodiment of the present utility model;

fig. 5 is a schematic view of the injection pipe of fig. 4 with a static mixer mounted thereon.

The reference numerals in the drawings are: tap water pipe structure 1, tap water pipe 11, tap water filter bottle 12, tap water pipe valve 13, first stock solution pipe structure 2, first stock solution bottle 21, first stock solution pipe 22, first stock solution pipe switch 23, three-way valve 24, injection pipe 25, injection pump 26, second stock solution pipe structure 3, second stock solution bottle 31, second stock solution pipe 32, second stock solution pipe switch 33, mixing pipe structure 4, mixing pipe 41, mixing liquid bottle 42, pump-out pipe structure 5, pump-out pipe 51, high-pressure pump 52, and equipment-end shower nozzle 6.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described and illustrated below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden on the person of ordinary skill in the art based on the embodiments provided herein, are intended to be within the scope of the present application.

It is apparent that the drawings in the following description are only some examples or embodiments of the present application, and it is possible for those of ordinary skill in the art to apply the present application to other similar situations according to these drawings without inventive effort. Moreover, it should be appreciated that while such a development effort might be complex and lengthy, it would nevertheless be a routine undertaking of design, fabrication, or manufacture for those of ordinary skill having the benefit of this disclosure, and thus should not be construed as having the benefit of this disclosure.

Reference in the specification to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is to be expressly and implicitly understood by those of ordinary skill in the art that the embodiments described herein can be combined with other embodiments without conflict.

Unless defined otherwise, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs. Reference to "a," "an," "the," and similar terms herein do not denote a limitation of quantity, but rather denote the singular or plural. The terms "comprising," "including," "having," and any variations thereof, are intended to cover a non-exclusive inclusion; for example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those listed or may include additional steps or elements not expressly listed or inherent to such process, method, article, or apparatus. The terms "connected," "coupled," and the like in this application are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. The term "plurality"/"a number" as used herein refers to two or more. "and/or" describes an association relationship of an association object, meaning that there may be three relationships, e.g., "a and/or B" may mean: a exists alone, A and B exist together, and B exists alone. The character "/" generally indicates that the context-dependent object is an "or" relationship. The terms "first," "second," "third," and the like, as used herein, are merely distinguishing between similar objects and not representing a particular ordering of objects.

First embodiment: as shown in figure 1 of the drawings,

the buried equipment sterilizing device of the embodiment comprises a tap water pipeline structure 1, a first stock solution pipeline structure 2, a second stock solution pipeline structure 3, a mixed pipeline structure 4, a pumping pipeline structure 5 and an equipment end nozzle 6,

the tap water pipeline structure 1 comprises a tap water pipeline 11, a tap water filter bottle 12 and a tap water pipeline valve 13, one end of the tap water pipeline 11 is connected with an external tap water source, the other end of the tap water pipeline 11 is connected with the mixed pipeline structure 4, and the tap water filter bottle 12 and the tap water pipeline valve 13 are respectively arranged on the tap water pipeline 11.

The first stock solution pipeline structure 2 comprises a first stock solution pipeline 22, a first stock solution bottle 21, a first stock solution pipeline switch 23, a three-way valve 24, an injection pipeline 25 and an injection pump 26, wherein one end of the first stock solution pipeline 22 is connected with the first stock solution bottle 21, the other end of the first stock solution pipeline is connected with the first end of the three-way valve 24, the first stock solution pipeline switch 23 is arranged on the first stock solution pipeline 22, one end of the injection pipeline 25 is connected with the third end of the three-way valve 24, the other end of the injection pipeline 25 is connected with the mixing pipeline structure 4, and the injection pump 26 is arranged on the injection pipeline 25.

The second stock solution pipeline structure 3 comprises a second stock solution pipeline 32, a second stock solution bottle 31 and a second stock solution pipeline switch 33, one end of the second stock solution pipeline 32 is connected with the second stock solution bottle 31, the other end of the second stock solution pipeline is connected with the second end of the three-way valve 24, the second stock solution pipeline switch 33 is arranged on the second stock solution pipeline 32, and the injection pump 26 can provide power for the second type of disinfection stock solution to flow from the second stock solution pipeline 32 to the mixing pipeline structure 4.

The mixing pipeline structure 4 comprises a mixing pipeline 41 and a mixing liquid bottle 42, the tap water pipeline 11 and the injection pipeline 25 are connected with the upper end of the mixing liquid bottle 42, the lower end of the mixing liquid bottle 42 is connected with the upper end of the mixing pipeline 41, and the lower end of the mixing pipeline 41 is connected with the pump out pipeline structure 5.

The pump-out piping structure 5 includes a pump-out piping 51 and a high-pressure pump 52, one end of the pump-out piping 51 is connected to the lower end of the mixing piping 41, the other end of the pump-out piping 51 is connected to the equipment-end shower head 6, the high-pressure pump 52 is mounted on the pump-out piping 51, and the high-pressure pump 52 is used for pressurizing the mixed liquid in the pump-out piping 51.

The equipment end spray head 6 is arranged in a foundation pit where the buried equipment is located, and the equipment end spray head 6 is used for atomizing the liquid after high-pressure mixing and spraying the atomized liquid.

In this embodiment, the first type of disinfection stock solution is selected from liquid pesticides or 84 disinfectant, the liquid pesticides are selected from the group consisting of trichosanthes, mosquito killer and the like, and the second type of disinfection stock solution is selected from the group consisting of concentrated plant essence or chemical essence.

When the buried equipment sterilizing device of the present embodiment is used, the first stock solution pipeline switch 23 and the second stock solution pipeline switch 33 are manually turned on, the injection pump 26 is started, the injection pump 26 pumps the first type sterilizing stock solution in the first stock solution bottle 21 and the second type sterilizing stock solution in the second stock solution bottle 31 into the mixed solution bottle 42, after a certain amount of sterilizing stock solution is injected, the tap water pipe valve 13 is manually turned on, water is injected into the mixed solution bottle 42, water and sterilizing stock solution are mixed in the mixed solution bottle 42, the high-pressure pump 52 is started, the mixed solution in the mixed solution bottle 42 of the high-pressure pump 52 is pumped to the equipment end spray head 6, and after the mixed solution is atomized by the equipment end spray head 6, the buried equipment is sterilized.

Second embodiment: as shown in figures 2-3 of the drawings,

the control device is added on the basis of the first embodiment, the tap water pipe valve 13, the first raw liquid pipeline switch 23 and the second raw liquid pipeline switch 33 are all changed into electromagnetic valves, and the control device is respectively connected with the tap water pipe valve 13, the first raw liquid pipeline switch 23 and the second raw liquid pipeline switch 33 and can control the opening and closing of the tap water pipe valve 13, the first raw liquid pipeline switch 23 and the second raw liquid pipeline switch 33.

All install liquid level sensor on first stoste bottle 21, second stoste bottle 31 and the mixed liquor bottle 42, liquid level sensor is used for responding to the liquid level height in first stoste bottle 21, second stoste bottle 31 and the mixed liquor bottle 42, liquid level sensor and controlling means signal connection, and liquid level sensor can send the liquid level height information who detects to controlling means.

The control device is a singlechip with a display, and the singlechip is connected with the display and can display the received information on the display.

And a harmful gas sensor is arranged in the foundation pit where the buried equipment is positioned, the harmful gas sensor is in signal connection with the control device, and the harmful gas sensor is used for detecting the concentration of harmful gas in the foundation pit where the buried equipment is positioned and sending the detected concentration information of the harmful gas to the control device.

The harmful gas sensor includes at least methane, carbon monoxide and carbon dioxide sensors.

The embodiment is an improved generation of the first embodiment, and the uncertainty of the ratio of the artificial mixed liquid is solved through automatic control of the control device.

When the buried equipment sterilizing device of the embodiment is used, the control device controls the tap water pipe valve 13, the first stock solution pipeline switch 23 and the second stock solution pipeline switch 33 to be simultaneously opened, the injection pump 26 pumps the first type sterilizing stock solution in the first stock solution bottle 21 and the second type sterilizing stock solution in the second stock solution bottle 31 into the mixed solution bottle 42, the liquid level sensors on the first stock solution bottle 21 and the second stock solution bottle 31 send the height information of the stock solution in the first stock solution bottle 21 and the second stock solution bottle 31 to the control device in real time, the liquid level sensors on the mixed solution bottle 42 send the height information of the mixed solution in the mixed solution bottle 42 to the control device in real time, the control device keeps the water, the first stock solution and the second stock solution in the mixed solution bottle 42 according to a preset proportion by controlling the opening of the tap water pipe valve 13, the first stock solution pipeline switch 23 and the second stock solution pipeline switch 33, after the height of the mixed solution in the mixed solution bottle 42 reaches a preset value, the tap water pipe valve 13, the first stock solution pipeline switch 23 and the second stock solution pipeline switch 33 are closed, and the mixed solution pump 52 is started up to the high-pressure pump equipment at the end of the buried equipment, and the spray nozzle is 6 to the buried equipment is mixed at the mixed end of the buried equipment.

Third embodiment: as shown in figures 4-5 of the drawings,

this embodiment is a modification of the second embodiment,

the injection pipe 25 of this embodiment is provided with a static mixer, and one end of the tap water pipe 11 connected to the mixing pipe structure 4 is connected to an inlet of the static mixer, where the static mixer is used for mixing tap water, the first type disinfection stock solution and the first type disinfection stock solution.

The static mixer adopts an SV type static mixer or an SK type static mixer.

The method of use of this embodiment is the same as that of the second embodiment.

The above is only a preferred embodiment of the present utility model, and the protection scope of the present utility model is not limited to the above examples, and all technical solutions belonging to the concept of the present utility model belong to the protection scope of the present utility model. It should be noted that modifications and adaptations to the utility model without departing from the principles thereof are intended to be within the scope of the utility model as set forth in the following claims.

Claims (10)

1. An instant proportioning device for disinfection and deodorization of underground equipment is characterized in that: comprises a tap water pipeline structure (1), a first stock solution pipeline structure (2), a second stock solution pipeline structure (3), a mixing pipeline structure (4), a pumping pipeline structure (5) and a device end spray head (6),

the tap water pipeline structure (1) is connected with an external tap water source and the mixing pipeline structure (4) and is used for injecting tap water of the external tap water source into the mixing pipeline structure (4);

the first stock solution pipeline structure (2) is connected with the first stock solution bottle (21) and the mixing pipeline structure (4) and is used for inputting the first type of disinfection stock solution in the first stock solution bottle (21) into the mixing pipeline structure (4);

the second stock solution pipeline structure (3) is connected with the second stock solution bottle (31) and the mixing pipeline structure (4) and is used for inputting the second type of disinfection stock solution in the second stock solution bottle (31) into the mixing pipeline structure (4);

the upper end of the mixing pipeline structure (4) is respectively connected with the tap water pipeline structure (1), the first stock solution pipeline structure (2) and the second stock solution pipeline structure (3), the lower end of the mixing pipeline structure is connected with the pump-out pipeline structure (5), the mixing pipeline structure (4) is used for mixing tap water, the first type disinfection stock solution and the second type disinfection stock solution, and the mixed liquid is input into the pump-out pipeline structure (5),

the front end of the pump-out pipeline structure (5) is connected with the mixing pipeline structure (4), the rear end of the pump-out pipeline structure is connected with the equipment end spray head (6), and the pump-out pipeline structure (5) is used for pressurizing mixed liquid and sending the liquid after high-pressure mixing into the equipment end spray head (6);

the equipment end spray head (6) is arranged in a foundation pit where the buried equipment is located, and the equipment end spray head (6) is used for atomizing the liquid after high-pressure mixing and spraying the atomized liquid.

2. The immediate proportioning device for sterilizing and deodorizing of underground equipment according to claim 1, which is characterized in that: the tap water pipeline structure (1) comprises a tap water pipeline (11), a tap water filter bottle (12) and a tap water pipeline valve (13), one end of the tap water pipeline (11) is connected with an external tap water source, the other end of the tap water pipeline is connected with the mixed pipeline structure (4), the tap water filter bottle (12) and the tap water pipeline valve (13) are respectively arranged on the tap water pipeline (11), the tap water filter bottle (12) is used for filtering tap water, and the tap water pipeline valve (13) is used for controlling the on-off of the tap water pipeline (11).

3. The immediate proportioning device for sterilizing and deodorizing of underground equipment according to claim 2, which is characterized in that: the utility model provides a first stoste pipeline structure (2) include first stoste pipeline (22), first stoste bottle (21), first stoste pipeline switch (23), three-way valve (24), injection pipeline (25) and injection pump (26), first stoste pipeline (22) one end be connected with first stoste bottle (21), the other end is connected with the first end of three-way valve (24), first stoste pipeline switch (23) install on first stoste pipeline (22), first stoste pipeline switch (23) are used for controlling first stoste pipeline (22) break-make, injection pipeline (25) one end be connected with the third end of three-way valve (24), the other end is connected with hybrid pipeline structure (4), injection pump (26) install on injection pipeline (25) for provide the power that first class disinfects stoste from first stoste pipeline (22) flow direction hybrid pipeline structure (4).

4. The immediate proportioning device for sterilizing and deodorizing of buried equipment according to claim 3, characterized in that: the second stoste pipeline structure (3) include second stoste pipeline (32), second stoste bottle (31) and second stoste pipeline switch (33), second stoste pipeline (32) one end be connected with second stoste bottle (31), the other end is connected with the second end of three-way valve (24), second stoste pipeline switch (33) install on second stoste pipeline (32), second stoste pipeline switch (33) are used for controlling second stoste pipeline (32) break-make, injection pump (26) can provide the power of second class disinfection stoste from second stoste pipeline (32) flow direction hybrid pipeline structure (4).

5. The immediate proportioning device for sterilizing and deodorizing of buried equipment according to claim 4, which is characterized in that: the mixing pipeline structure (4) comprises a mixing pipeline (41) and a mixing liquid bottle (42), the tap water pipeline (11) and the injection pipeline (25) are connected with the upper end of the mixing liquid bottle (42), the lower end of the mixing liquid bottle (42) is connected with the upper end of the mixing pipeline (41), and the lower end of the mixing pipeline (41) is connected with the pump-out pipeline structure (5).

6. The immediate proportioning device for sterilizing and deodorizing of buried equipment according to claim 5, which is characterized in that: the pump-out pipeline structure (5) comprises a pump-out pipeline (51) and a high-pressure pump (52), one end of the pump-out pipeline (51) is connected with the lower end of the mixing pipeline (41), the other end of the pump-out pipeline (51) is connected with the equipment end spray head (6), the high-pressure pump (52) is arranged on the pump-out pipeline (51), and the high-pressure pump (52) is used for pressurizing mixed liquid in the pump-out pipeline (51).

7. The immediate proportioning device for sterilizing and deodorizing of buried equipment according to claim 6, characterized in that: still include controlling means, running water pipe valve (13), first stoste pipeline switch (23) and second stoste pipeline switch (33) be the solenoid valve, controlling means be connected with running water pipe valve (13), first stoste pipeline switch (23) and second stoste pipeline switch (33) respectively to can control running water pipe valve (13), first stoste pipeline switch (23) and the disconnection of second stoste pipeline switch (33).

8. The immediate proportioning device for sterilizing and deodorizing of buried equipment according to claim 7, characterized in that: the liquid level sensor is used for sensing the liquid level in the first stock solution bottle (21), the second stock solution bottle (31) and the mixed solution bottle (42), the liquid level sensor is connected with the control device through signals, and the liquid level sensor can send detected liquid level information to the control device.

9. The immediate proportioning device for sterilizing and deodorizing of underground equipment according to claim 8, which is characterized in that: the control device is a singlechip with a display, the singlechip is connected with the display and can display the received information on the display, the injection pipeline (25) is provided with a static mixer, one end of the tap water pipeline (11) connected with the mixing pipeline structure (4) is connected to the inlet of the static mixer, and the static mixer is used for mixing tap water, the first type disinfection stock solution and the first type disinfection stock solution.

10. The immediate proportioning device for sterilizing and deodorizing of buried equipment according to claim 9, characterized in that: the device is characterized in that a harmful gas sensor is arranged in a foundation pit where the buried equipment is located, the harmful gas sensor is in signal connection with the control device, and the harmful gas sensor is used for detecting the concentration of harmful gas in the foundation pit where the buried equipment is located and sending the detected concentration information of the harmful gas to the control device.