CN219398817U - Foaming agent liquid storage device and mobile fire extinguishing system - Google Patents

Abstract

The utility model discloses a foaming agent liquid storage device and a mobile fire extinguishing system, comprising a containing unit, a liquid storage device and a fire extinguishing device, wherein the containing unit comprises a tank body and a sealing assembly arranged at the bottom of the tank body; the non-return unit comprises a valve body, a blocking block arranged in the valve body and a non-return spring arranged in the blocking block; the support unit comprises a trolley, an upright post arranged on the surface of the trolley, a group of bases arranged on the outer wall of the upright post, and a group of clamping assemblies arranged on the top of the upright post; the foam discharging unit comprises a pump, a collecting pipe arranged at the inlet of the pump and a foam generating assembly arranged at one side of the pump. The lightweight liquid storage device has the beneficial effects that the lightweight liquid storage device can be convenient for unified management, maintenance and overhaul, can be manually carried and installed without starting large hoisting equipment, and can be directly replaced after the foam mixture is used up in fire extinguishment, so that the uninterrupted fire extinguishment capability is realized.

Description

Foaming agent liquid storage device and mobile fire extinguishing system

Technical Field

The utility model relates to the technical field of protection of absorption towers, in particular to a foaming agent liquid storage device and a mobile fire extinguishing system.

Background

The flue gas desulfurization of the coal-fired thermal power plant is mainly performed by a wet desulfurization process, and an absorption tower is key equipment of a desulfurization system in the wet desulfurization. The desulfurizing absorption tower adopts an absorption method to remove sulfide from gas. Most of the columns are packed columns, and Methyl Diethanolamine (MDEA) is used as an absorption solvent.

Desulfurization towers require routine maintenance or inspection each year, but the internal materials are extremely flammable, and encountering unexpected open fires directly results in fire hazards that are difficult to control, and it is counted that the fire hazards caused by maintenance generate at least tens of millions of yuan losses each year. Not only brings great economic loss to enterprises, but also seriously affects personal and equipment safety.

Disclosure of Invention

This section is intended to outline some aspects of embodiments of the utility model and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description summary and in the title of the application, to avoid obscuring the purpose of this section, the description summary and the title of the utility model, which should not be used to limit the scope of the utility model.

The present utility model has been made in view of the above-mentioned prior art problems.

The utility model aims to provide a foamer liquid storage device, which aims to solve the problems that foam mixed liquid is unfavorable for unified storage and management, the cost problem that a large-sized liquid storage device can only be lifted by engineering equipment in the use process, and the problem that the fire extinguishing process is interrupted due to the fact that foam fire extinguishing agent is unfavorable for timely filling after the use of the foam fire extinguishing agent in conventional liquid storage equipment.

In order to solve the technical problems, the utility model provides the following technical scheme: a foamer liquid storage device comprises a containing unit, a liquid storage device and a foam liquid storage device, wherein the containing unit comprises a tank body and a sealing assembly arranged at the bottom of the tank body;

the check unit comprises a valve body, a blocking block arranged in the valve body, and a check spring arranged in the blocking block.

As a preferred embodiment of the foamer stock solution device of the utility model, wherein: the tank body comprises a filling opening arranged at the top of the tank body, a blocking piece arranged at the bottom of the tank body, a first circulation opening arranged at one side of the blocking piece, a release opening arranged at the bottom of the blocking piece, a limiting seat arranged at the inner wall of the release opening and a pair of locking holes arranged at the outer wall of the limiting seat.

As a preferred embodiment of the foamer stock solution device of the utility model, wherein: the sealing assembly comprises a movable sheet and a locking mechanism arranged on one side of the movable sheet.

As a preferred embodiment of the foamer stock solution device of the utility model, wherein: the movable piece comprises a limiting ring arranged at the bottom of the movable piece and a second flow port which is communicated with the surface of the movable piece;

the locking mechanism comprises a hollow column, and a bolt and an adjusting spring which are arranged in the hollow column.

As a preferred embodiment of the foamer stock solution device of the utility model, wherein: the valve body comprises a first matching surface arranged at the top of the valve body, a circular groove arranged on the inner wall of the valve body, and a spring seat arranged below the circular groove;

the plugging block comprises a second matching surface arranged at the top of the plugging block, and a group of communication ports which are communicated with the plugging block.

The foaming agent liquid storage device has the beneficial effects that: the lightweight liquid storage device can be convenient for unified management, maintenance and overhaul, also can be carried and installed manually and need not to start large-scale lifting device, and after foam mixture uses to be depleted when putting out a fire, the device can be directly replaced, realizes the ability of incessant putting out a fire.

Another object of the present utility model is to provide a mobile fire extinguishing system, which aims to solve the problem that unexpected open fire is encountered before the maintenance of the desulfurization absorption tower, and the problem that the desulfurization absorption tower cannot extinguish fire in time when a fire occurs.

In order to solve the technical problems, the utility model also provides the following technical scheme: a mobile fire suppression system comprising a foamer reservoir; the support unit comprises a cart, a stand column arranged on the surface of the cart, a group of bases arranged on the outer wall of the stand column, and a group of clamping assemblies arranged on the top of the stand column;

the foam discharging unit comprises a pump, a collecting pipe arranged at the inlet of the pump and a foam generating assembly arranged at one side of the pump.

As a preferred embodiment of the mobile fire suppression system of the present utility model, wherein: the base comprises an adapting groove which is arranged on the surface of the base in a penetrating way; the base is annular;

the clamping assembly comprises a supporting block arranged at the top of the upright post, a pair of clamping jaws arranged at the top of the supporting block, and a reset spring arranged at the bottom of the clamping jaws.

As a preferred embodiment of the mobile fire suppression system of the present utility model, wherein: the clamping jaw comprises a half gear arranged on one side of the clamping jaw and a spring plate arranged at the bottom of the clamping jaw; the clamping jaw is arc-shaped.

As a preferred embodiment of the mobile fire suppression system of the present utility model, wherein: the foam generating assembly comprises a shell, a fan arranged in the shell, a character mouth pipe arranged on one side of the fan and an ingress pipe penetrating through the upper end of the character mouth pipe.

As a preferred embodiment of the mobile fire suppression system of the present utility model, wherein: the shell comprises a dense net arranged at one side of the shell;

the mouth-shaped pipe comprises a group of spray holes which are arranged on the surface in a penetrating way.

The movable fire extinguishing system has the beneficial effects that: the liquid storage device is convenient to install, the isolation belt of an unknown fire source is also convenient to build around the desulfurization absorption tower in advance, and meanwhile, the fire extinguishing system can be timely handled and mobilized to extinguish fire when a fire disaster occurs.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

fig. 1 is an overall three-dimensional view of the present utility model.

FIG. 2 is a block diagram of a foamer reservoir of the present utility model.

Fig. 3 is a schematic view of a mobile fire suppression system according to the present utility model.

Fig. 4 is an enlarged view of a portion a of fig. 3 in the present utility model.

Detailed Description

In order that the above-recited objects, features and advantages of the present utility model will become more readily apparent, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, but the present utility model may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present utility model is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the utility model. The appearances of the phrase "in one embodiment" 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.

Example 1

Referring to fig. 1 and 2, a first embodiment of the present utility model provides a foamer stock solution device, which includes a containing unit 100 including a can 101 and a sealing assembly 102 disposed at the bottom of the can 101; the check unit 200 includes a valve body 201, a block 202 provided inside the valve body 201, and a check spring 203 provided inside the block 202.

Further, the can 101 includes a pouring port 101a provided at the top thereof, a stopper 101b provided at the bottom of the can 101, a first flow port 101c provided at one side of the stopper 101b, a release port 101d provided at the bottom of the stopper 101b, a movable groove 101e penetrating the release port 101d, a stopper seat 101f provided at the inner wall of the release port 101d, and a pair of locking holes 101g penetrating the outer wall of the stopper seat 101 f.

Further, the seal assembly 102 includes a movable piece 102a, and a locking mechanism 102b provided on one side of the movable piece 102 a.

Further, the movable plate 102a includes a limiting ring 102a-1 disposed at the bottom thereof, and a second flow port 102a-2 penetrating the surface of the movable plate 102 a;

the locking mechanism 102b includes a hollow post 102b-1, a latch 102b-2 and an adjustment spring 102b-3 disposed within the hollow post 102 b-1.

Further, the valve body 201 includes a first mating surface 201a disposed at the top thereof, a circular groove 201b disposed on the inner wall of the valve body 201, and a spring seat 201c disposed below the circular groove 201 b;

the plugging block 202 includes a second mating surface 202a disposed on a top portion thereof, and a set of communication ports 202b disposed through the plugging block 202.

The check unit 200 prevents the liquid from leaking when the foam mixture is stored in the container unit 100, and balances the air pressure inside the container unit 100 when the liquid is passively extracted, so that the seal assembly 102 is used to communicate and close the bottom of the container unit 100.

Preferably, a filling port 101a is arranged above the can body 101 and can be in threaded connection with the bottom of the valve body 201, the filling port can be used for filling liquid, the blocking piece 101b is fixedly connected with the inner wall of the can body 101 at the bottom of the inner cavity of the can body 101, a first flow port 101c used for communicating the outside is arranged on one side of the blocking piece 101b, a release port 101d is arranged at the bottom of the can body 101 and can be used for discharging liquid, threads are arranged at the inner side of an opening of the release port 101d and can be used for connecting a water pipe, a circle of limiting seat 101f is fixedly connected at the upper position of the inner wall of the release port 101d below the blocking piece 101b, a circle of annular groove is formed in the upper position of the limiting seat 101f and the inner wall of the release port 101d and can be matched with a limiting ring 102a-1, the limiting ring 102a-1 and the limiting seat 101f form a limit, the movable piece 102a can rotate around the limiting seat 101f, two locking holes 101g are formed in a through connection mode on the limiting seat 101f, an included angle between the two locking holes 101g is 90 degrees, the movable groove 101e is formed at the upper side wall of the release port 101d, and the movable groove 101e is slightly exposed at the circumference of the lower side wall of the release groove 101e, and the movable groove is slightly exposed at the circumference of the upper side of the 101e, and the movable groove is slightly exposed at the circumference of the opening 101 e.

Preferably, a hollow column 102b-1 is fixedly connected to one side of the limiting ring 102a-1 of the movable plate 102a, two ends of the inner cavity of the hollow column 102b-1 are communicated and slightly extend out of the movable groove 101e, a plug 102b-2 is arranged in the hollow column 102b-1, the tail end of the plug 102b-2 is longer than the hollow column 102b-1 and is matched with the inner cavity of the hollow column 102b-1 through a circular ring on the outer circumference of the plug, and limiting is formed between the hollow column and the hollow column, so that the plug 102b-2 only has a fixed stroke, and is released after the circular ring and the tail of the hollow column 102b-1 are pulled out, and the plug 102b-2 can be reset.

Preferably, the upper surface of the movable plate 102a is completely attached to the bottom of the blocking plate 101b, the latch 102b-2 can be aligned and pushed into any locking hole 101g by rotating the movable plate 102a, the top end of the movable plate 102a is provided with a second flow port 102a-2, the second flow port 102a-2 can be aligned with the first flow port 101c, and the second flow port 102a-2 can be completely dislocated with the first flow port 101c by rotating the movable plate 102a, so that the release and blocking of the liquid in the tank 101 are realized.

Preferably, a cavity which is completely penetrated is formed in the valve body 201, a first matching surface 201a is arranged at an opening at the upper end of the valve body 201 to match, the opening inner diameter at the upper end of the valve body 201 is smaller than the outer diameter of the plugging block 202, the plugging of the upper end of the plugging block 200 can be realized, the circular groove 201b can be used for cooperating with the communication port 202b to enable the outside to form a passage with the valve body 201, when the plugging block 202 props against the opening at the upper end of the valve body 201, the circular groove 201b does not work with the communication port 202b, the spring seat 201c is used for simultaneously bearing the plugging block 202 and the plugging spring 203, due to the effect of the spring seat 201c, the plugging block 202 has a fixed stroke in the valve body 201, the plugging spring 203 is fixedly connected between the upper surface of the spring seat 201c and the hole bottom of the inner hole of the plugging block 202, under normal conditions, the plugging block 202 can prop against the plugging block 202, when the plugging block 202 is reversely acted, the plugging block 202 compresses the plugging spring 203, and the inside and outside of the valve body 201 can be communicated.

In use, referring to fig. 2, the foam mixture is poured into the accommodating unit 100, and then the check unit 200 is mounted in the left-most locking hole 101g of the accommodating unit 100 in the movable groove 101e and has been pushed into the left-most locking hole 101g, the first flow port 101c and the second flow port 102a-2 are completely dislocated, so that the bottom of the can 101 is also in a sealed state, when the foam mixture is required to be sucked from the release port 101d, the latch 102b-2 is pulled out through the tail of the latch 102b-2, the latch 102b-2 is completely disengaged from the left-most locking hole 101g, and then the latch 102b-2 is rotated counterclockwise by about 90 °, the movable piece 102a is thereby passively rotated by 90 °, the first flow port 101c and the second flow port 102a-2 are aligned, the bottom of the can 101 is communicated to the outside, and then the latch 102b-2 is released, and the latch 102b-3 is reset to be pushed into the right-most locking hole 101g and the movable piece 102a is locked.

The foam mixture is forced to be pumped outwards and output, in the process, the pressure in the tank body 101 is reduced, under the action of atmospheric pressure, the blocking block 202 compresses the check spring 203, so that the inside and the outside of the valve body 201 are communicated, the pressure in the tank body 101 and the pressure in the outside are balanced, the blocking block 202 resets after balancing, the upper end opening of the valve body 201 is propped up again, and the smooth output of the foam mixture can be ensured by arranging the check unit 200.

In addition, the liquid storage device is miniaturized, so that unified management, maintenance and overhaul can be facilitated, large hoisting equipment can be manually carried and installed without being started, and the liquid storage device can be directly replaced after the foam mixture is used completely during fire extinguishment, so that uninterrupted fire extinguishment capability is realized.

Example 2

Referring to fig. 1-4, a second embodiment of the present utility model is further provided as a mobile fire suppression system. The device comprises a supporting unit 300, a pushing unit 301, a column 302 arranged on the surface of the pushing unit 301, a group of bases 303 arranged on the outer wall of the column 302, and a group of clamping assemblies 304 arranged on the top of the column 302;

the foam discharging unit 400 comprises a pump 401, a collecting pipe 402 arranged at the inlet of the pump 401, and a foam generating assembly 403 arranged at one side of the pump 401.

Further, the base 303 includes an adaptation groove 303a penetrating through the surface thereof; the base 303 is annular;

the clamping assembly 304 includes a support block 304a disposed on top of the post 302, a pair of clamping jaws 304b disposed on top of the support block 304a, and a return spring 304c disposed on the bottom of the clamping jaws 304 b.

Further, the clamping jaw 304b comprises a half gear 304b-1 arranged at one side of the clamping jaw, and a spring plate 304b-2 arranged at the bottom of the clamping jaw 304 b; the jaw 304b is arcuate.

Further, the foam generating unit 403 includes a housing 403a, a fan 403b provided in the housing 403a, a mouthpiece 403c provided on one side of the fan 403b, and an introduction tube 403d penetrating the upper end of the mouthpiece 403 c.

Further, the housing 403a includes a dense mesh 403a-1 disposed on one side thereof;

the manifold 403c includes a set of injection holes 403c-1 disposed therethrough.

It should be noted that the support unit 300 is used for installing a liquid storage device, and the foam discharging unit 400 is used for manufacturing foam.

Preferably, the cart 301 can ensure the maneuverability of the whole set of fire extinguishing system, the upright post 302 is mounted on one side of the surface of the cart 301, and is connected through bolts, the lower end of the outer surface of the upright post 302 is fixedly connected with three bases 303, which can be used for directly supporting the liquid storage device, the bases 303 are penetrated with circular openings, the release openings 101d can be accommodated, the adapting grooves 303a are connected with the circular openings, and the shape of the adapting grooves are adapted with the shape of the locking mechanism 102b, so that the installation of the liquid storage device is prevented from being hindered. The clamping assembly 304 is used for clamping after installation of the reservoir.

Preferably, three supporting blocks 304a are uniformly and respectively connected with the top of the upright post 302, two symmetrical cylinders are arranged on the upper surface of each supporting block 304a and hinged with the clamping jaw 304b, the half gears 304b-1 are concentric with the cylinders, the clamping jaws 304b are symmetrically distributed, the half gears 304b-1 on the two clamping jaws 304b are meshed with each other, so that the two clamping jaws 304b can only open and close without dislocation, the inner diameter of the clamping jaws 304b is matched with the shape of the outer wall of the liquid storage device, the total arc length of the two clamping jaws 304b is larger than half of the circumference of the inner diameter of the clamping jaw 304b, and a return spring 304c is fixedly connected between a spring plate 304b-2 at the bottom of each clamping jaw 304b and one corresponding side of the supporting block 304a and used for clamping the two clamping jaws 304 b.

Preferably, the connection between the inlet of the pump 401 and the release port 101d is directly connected to the pipe for sucking the foam mixture, and the connection between the outlet of the pump 401 and the inlet pipe 403d is directly connected to the pipe for transporting the foam mixture.

Preferably, the independent power supply is arranged at the vacant position on the surface of the cart 301 to realize the power supply of the pump 401 and realize the remote operation of the fire extinguishing system.

Preferably, the manifold 402 is a bridging pipeline for connecting a plurality of liquid storage devices in parallel, here, three water inlets and one water outlet, the three water inlets are connected with the three liquid storage devices through pipelines, and one water outlet is directly connected with the inlet of the pump 401.

Preferably, in the foam generating assembly 403, the housing 403a is hollow and has two ends penetrating completely, and a fan 403b is disposed at one side of the interior of the housing 403 a. In the direction of air outlet of the fan 403b, a dense net 403a-1 is fixedly connected to an opening at one side of the casing 403a, a mouth-shaped pipe 403c is arranged at the inner side of the dense net 403a-1, the periphery of the outer ring of the mouth-shaped pipe 403c is fixedly connected with the inner wall of the casing 403a, an ingress pipe 403d is fixedly connected to the top of the mouth-shaped pipe 403c, the ingress pipe 403d is communicated with the mouth-shaped pipe 403c, and a plurality of injection holes 403c-1 are uniformly distributed at the inner ring of the mouth-shaped pipe 403c and used for outputting a foam mixture.

When the device is used, firstly, the liquid storage device is installed, the release port 101d and the locking mechanism 102b are aligned with the center of the base 303 corresponding to the opening shape of the base 303, the liquid storage device is pushed into the clamping assembly 304, the two clamping jaws 304b are simultaneously opened, the two clamping jaws 304b are simultaneously folded under the action of the reset spring 304c after being pushed in, and the liquid storage device is completely clamped.

After all the pipelines are connected, the pump 401 is started, the foam mixture is pumped, the multi-directional foam mixture enters the pump 401 through the external pipeline through the collecting pipe 402, then enters the word pipe 403c through the external pipeline through the inlet pipe 403d, the foam mixture is sprayed from the periphery to the center through the spraying holes 403c-1 under the pressure action of the pump 401, meanwhile, the fan 403b is powered on to work, the sprayed foam mixture is blown to the dense net 403a-1 by air flow, and finally a large amount of foam is continuously formed.

To sum up, this design is convenient for install liquid storage device, also is convenient for establish the median of unknown fire source in advance around desulfurization absorption tower, can in time deal with and mobilize fire extinguishing system in the time of the conflagration simultaneously and put out a fire.

It is important to note that the construction and arrangement of the present application as shown in a variety of different exemplary embodiments is illustrative only. Although only a few embodiments have been described in detail in this disclosure, those skilled in the art who review this disclosure will readily appreciate that many modifications are possible (e.g., variations in sizes, dimensions, structures, shapes and proportions of the various elements, values of parameters (e.g., temperature, pressure, etc.), mounting arrangements, use of materials, colors, orientations, etc.) without materially departing from the novel teachings and advantages of the subject matter described in this application. For example, elements shown as integrally formed may be constructed of multiple parts or elements, the position of elements may be reversed or otherwise varied, and the nature or number of discrete elements or positions may be altered or varied. Accordingly, all such modifications are intended to be included within the scope of present utility model. The order or sequence of any process or method steps may be varied or re-sequenced according to alternative embodiments. In the claims, any means-plus-function clause is intended to cover the structures described herein as performing the recited function and not only structural equivalents but also equivalent structures. Other substitutions, modifications, changes and omissions may be made in the design, operating conditions and arrangement of the exemplary embodiments without departing from the scope of the present utility models. Therefore, the utility model is not limited to the specific embodiments, but extends to various modifications that nevertheless fall within the scope of the appended claims.

Furthermore, in order to provide a concise description of the exemplary embodiments, all features of an actual implementation may not be described (i.e., those not associated with the best mode presently contemplated for carrying out the utility model, or those not associated with practicing the utility model).

It should be appreciated that in the development of any such actual implementation, as in any engineering or design project, numerous implementation-specific decisions may be made. Such a development effort might be complex and time consuming, but would nevertheless be a routine undertaking of design, fabrication, and manufacture for those of ordinary skill having the benefit of this disclosure.

It should be noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present utility model may be modified or substituted without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered in the scope of the claims of the present utility model.

Claims (10)

1. A foamer stock solution device, characterized in that: comprising the steps of (a) a step of,

a containing unit (100) comprising a tank body (101) and a sealing assembly (102) arranged at the bottom of the tank body (101);

the backstop unit (200) comprises a valve body (201), a blocking block (202) arranged inside the valve body (201), and a backstop spring (203) arranged inside the blocking block (202).

2. The foamer stock solution device of claim 1 wherein:

the tank body (101) comprises a filling port (101 a) arranged at the top of the tank body, a blocking piece (101 b) arranged at the bottom of the tank body (101), a first flow port (101 c) arranged at one side of the blocking piece (101 b), a release port (101 d) arranged at the bottom of the blocking piece (101 b), a movable groove (101 e) penetrating through one side of the release port (101 d), a limiting seat (101 f) arranged on the inner wall of the release port (101 d) and a pair of locking holes (101 g) penetrating through the outer wall of the limiting seat (101 f).

3. A foamer reservoir as claimed in claim 2, wherein:

the seal assembly (102) includes a movable piece (102 a), and a locking mechanism (102 b) provided on one side of the movable piece (102 a).

4. A foamer reservoir as claimed in claim 3, wherein:

the movable piece (102 a) comprises a limiting ring (102 a-1) arranged at the bottom of the movable piece and a second flow port (102 a-2) penetrating through the surface of the movable piece (102 a);

the locking mechanism (102 b) comprises a hollow column (102 b-1), and a bolt (102 b-2) and an adjusting spring (102 b-3) which are arranged inside the hollow column (102 b-1).

5. The foamer stock solution device of any one of claims 1 to 4, wherein:

the valve body (201) comprises a first matching surface (201 a) arranged at the top of the valve body, a circular groove (201 b) arranged on the inner wall of the valve body (201), and a spring seat (201 c) arranged below the circular groove (201 b);

the plugging block (202) comprises a second matching surface (202 a) arranged at the top of the plugging block, and a group of communication ports (202 b) penetrating through the plugging block (202).

6. A mobile fire suppression system, characterized by: comprising a foamer stock solution device according to any one of claims 1 to 5; the method comprises the steps of,

the support unit (300) comprises a trolley (301), a stand column (302) arranged on the surface of the trolley (301), a group of bases (303) arranged on the outer wall of the stand column (302), and a group of clamping assemblies (304) arranged on the top of the stand column (302);

the foam discharging unit (400) comprises a pump (401), a collecting pipe (402) arranged at the inlet of the pump (401), and a foam generating assembly (403) arranged at one side of the pump (401).

7. The mobile fire suppression system of claim 6, wherein:

the base (303) comprises an adapting groove (303 a) penetrating through the surface of the base; the base (303) is in a circular ring shape;

the clamping assembly (304) comprises a supporting block (304 a) arranged at the top of the upright post (302), a pair of clamping jaws (304 b) arranged at the top of the supporting block (304 a), and a reset spring (304 c) arranged at the bottom of the clamping jaws (304 b).

8. The mobile fire suppression system of claim 7, wherein:

the clamping jaw (304 b) comprises a half gear (304 b-1) arranged on one side of the clamping jaw, and a spring plate (304 b-2) arranged at the bottom of the clamping jaw (304 b); the clamping jaw (304 b) is arc-shaped.

9. The mobile fire suppression system of claim 8, wherein:

the foam generating assembly (403) comprises a shell (403 a), a fan (403 b) arranged in the shell (403 a), a mouth-shaped pipe (403 c) arranged on one side of the fan (403 b), and an ingress pipe (403 d) penetrating through the upper end of the mouth-shaped pipe (403 c).

10. The mobile fire suppression system of claim 9, wherein:

the housing (403 a) includes a dense mesh (403 a-1) disposed on one side thereof;

the mouth-shaped pipe (403 c) comprises a group of injection holes (403 c-1) penetrating through the surface of the mouth-shaped pipe.