CN111577898A - Plugging module for binding type plugging tool and using method thereof - Google Patents

Abstract

The invention discloses a leakage stopping module for a binding type leakage stopping tool and a using method thereof, and the leakage stopping module mainly comprises the following components: the method mainly comprises the following steps: the leakage stoppage device comprises a leakage stoppage component, a heightening component and a sealing component, wherein the heightening component, the leakage stoppage component and the sealing component are sequentially matched; the sealing assembly can be pressed at the leakage position of the cylinder under the action of the heightening assembly and the leakage plugging assembly, and then plugging is formed. According to the leakage stoppage module for the binding type leakage stoppage tool and the using method of the leakage stoppage module, the leakage stoppage assembly, the heightening assembly and the sealing assembly are quickly combined, so that the height of the leakage stoppage module is increased, the tensioning force of a rope is more effectively converted into pressing force and transmitted to the leakage stoppage adhesive, and effective plugging is realized.

Description

Plugging module for binding type plugging tool and using method thereof

Technical Field

The invention relates to the technical field of plugging devices, in particular to a plugging module for a binding type plugging tool and a using method thereof.

Background

The tank car with the pressure tank is a main mode for road transportation of dangerous chemicals. The tank car is easy to damage due to the influence of factors such as side turning, rear-end collision, rubbing, medium corrosion, welding defects, damage of sealing materials and the like, so that leakage, combustion and explosion accidents of dangerous chemicals are caused, and uncontrollable loss is brought to lives and properties of people. The cylinder is the main part of the tank truck which is damaged. Aiming at the barrel leakage accident of the tank truck with the pressure tank, a fireman generally adopts a binding type plugging tool to carry out emergency plugging. The binding type plugging tool mainly comprises a plugging block (or a plugging module), a rope (a steel wire rope and a binding belt), a rope tensioning-locking device, a power source and accessories thereof and the like, and the using method comprises the following steps: firstly, the plugging block is tightly pressed on a leakage part; secondly, binding a rope to the barrel, wherein one end of the rope is placed in a groove on the outer side of the leakage blocking sheet, and the other end of the rope is arranged on a rope tensioning-locking device; secondly, connecting the power source and accessories thereof with the rope tightening-locking device, and then driving the power source to tighten the rope until the leakage is avoided; finally, the harness cord-lock is operated to define the position of the harness and the power source and its accessories are removed.

The plugging block 110 is a key component of the binding type plugging tool, and the tensile force of the rope tool 500 can be converted into pressure through the plugging block 110, so that emergency plugging is realized. The existing plugging block 110 has a groove on the outer end surface for matching with the rope 500, and a plugging rubber 330 or a sealing pad 320 is adhered on the inner end surface. Although the plugging block 110 can realize emergency plugging in a partial leakage scene, there are many disadvantages: one is that the required height of the plugging block 110 is not taken into account. In order to convert the tensile force of the string 500 into the pressing force as much as possible, the angle θ (shown in fig. 2) between the plugging block 110 and the string 500 should be as small as possible. In order to achieve the above purpose, there is a certain height difference between the contact position of the plugging block 110 and the rope 500 and the leakage. In addition, some leak points, such as leak point B (shown in fig. 2), affected by the barrel attachment 410 also need to have a certain height of the block 110 for plugging, so as to ensure that the rope 500 is in contact with the block 110. Secondly, the rope device 500 installed in the groove can slide when being tensioned, so that the leakage stoppage module can slide. Thirdly, due to the lack of operating accessories, the operator is difficult to press the plugging block 110 to the leakage position under the action of the spraying pressure of the leakage medium.

Therefore, a binding type leakage stopping tool which can more effectively convert the tensioning force of the rope into the pressing force is needed to meet the requirement of fire fighting teams for emergency leakage stopping of the cylinder body of the tank truck with the pressure tank.

Disclosure of Invention

In order to overcome the defects of the conventional binding type plugging tool in use, the invention provides the plugging module for the binding type plugging tool and the use method thereof.

In order to achieve the above object, the invention provides a plugging module for a binding type plugging tool, which mainly comprises: the leakage stoppage device comprises a leakage stoppage component, a heightening component and a sealing component, wherein the heightening component, the leakage stoppage component and the sealing component are sequentially matched; the sealing assembly can be pressed at the leakage position of the cylinder under the action of the heightening assembly and the leakage plugging assembly, and then plugging is formed.

Furthermore, the leakage stopping assembly mainly comprises a leakage stopping block, and a plurality of bearings are arranged on the upper end face of the leakage stopping block; the distribution of the bearings on the upper end surface of the leaking stoppage block ensures that the pressing force of the rope on the leaking stoppage block is uniformly distributed.

Furthermore, the heightening assembly comprises a heightening leaking stoppage block, and a quick combination structure matched with the leaking stoppage block is arranged on the lower end face of the heightening leaking stoppage block; the upper end surface of the heightening leakage blocking block is also provided with a plurality of bearings; the distribution of the bearings on the upper end surface of the heightening leakage-stopping block ensures that the pressing force of the rope on the heightening leakage-stopping block is uniformly distributed.

Furthermore, increase the subassembly and still include and increase the cushion group, increase the cushion group and form through quick integrated configuration combination by a plurality of cushion of increasing.

Further, the sealing assembly comprises a cushion block, a sealing gasket and leakage-stopping glue, wherein the sealing gasket is arranged on the lower end face of the cushion block; the leakage-blocking glue is arranged on the lower end face of the sealing gasket.

Furthermore, the shape of the leakage-blocking glue can be matched and arranged according to the shape of the leakage point; the quick combination structure of the sealing gasket and the lower end face of the cushion block can be matched according to the shape of the leakage stoppage glue.

Furthermore, the upper and lower end faces of the heightened leaking stoppage block, the heightened cushion block, the leaking stoppage block, the cushion block and the sealing gasket are provided with mutually matched quick combination structures, the heightened leaking stoppage block and the heightened cushion block, the heightened cushion block and the leaking stoppage block, and the leaking stoppage block and the cushion block can form a quick-inserting and quick-pulling structure through the quick combination structures.

Furthermore, grooves are formed in the front, the rear, the left and the right of the leakage blocking block and the heightened leakage blocking block.

Furthermore, a handle is arranged on the leaking stoppage block.

Aiming at the leakage stopping module for the binding type leakage stopping tool formed by the structure, the invention also provides a leakage stopping method of the leakage stopping module for the binding type leakage stopping tool.

Further, the leakage stopping method of the leakage stopping module for the binding type leakage stopping tool comprises the following steps:

(1) assembling a sealing component;

sticking the leakage-blocking glue on the lower end surface of the sealing gasket; pressing the sealing gasket into the cushion block to ensure that the upper end surface of the sealing gasket is contacted with the bottom surface of the cushion block;

(2) arranging a sealing component;

arranging the sealing assembly assembled in the step (1) on the lower end face of the plugging block to ensure that the upper end face of the cushion block is contacted with the bottom face of the plugging block;

(3) assembling a heightening assembly;

the heightened leakage stoppage blocks are respectively inserted into the two heightened cushion blocks and are inserted into the leakage stoppage blocks, so that the bottom surfaces of the heightened leakage stoppage blocks are ensured to be contacted with the upper end surfaces of the leakage stoppage blocks;

(4) plugging;

the handle on the leakage blocking block is tightly held by two hands, the leakage blocking glue is opposite to the center of the leakage opening, and the leakage blocking glue is pressed to the leakage part;

(5) arranging a rope;

taking a rope, winding the rope for one circle around the cylinder, arranging one end of the rope on any one of the bearings on two sides of the leaking stoppage block, and installing the other end of the rope on the tensioning-locking mechanism;

(6) locking operation;

operating the manual hydraulic pump, tensioning the rope tool, locking, and then removing the manual hydraulic pump;

(7) repeatedly locking;

and (5) repeating the steps (5) to (6) twice until the rope is respectively pressed on the corresponding bearings.

According to the leakage stoppage module for the binding type leakage stoppage tool and the using method of the leakage stoppage module, the height of the leakage stoppage module is increased by quickly combining the leakage stoppage assembly, the heightening assembly and the sealing assembly, and the tightening force of a rope is effectively converted into pressing force and transmitted to the leakage stoppage adhesive to achieve effective plugging.

Drawings

The invention is further described below in conjunction with the appended drawings and the detailed description.

Fig. 1 is a schematic front view of a plugging module for a binding type plugging tool in this example;

fig. 2 is a schematic structural view of the plugging module for the binding type plugging tool in the present embodiment during operation.

The reference numbers in the figures mean:

the leakage stoppage device comprises a leakage stoppage component 100, a leakage stoppage block 110, a bearing 111, a handle 112, a connecting bolt 113, a fixing bolt 114, a heightening component 200, a heightening cushion block group 210, a heightening cushion block 211, a heightening leakage stoppage block 220, a heightening block 230, a sealing component 300, a cushion block 310, a sealing gasket 320, leakage stoppage glue 330, a cylinder body 400, a cylinder body accessory 410, a rope tool 500, a leakage point A and a leakage point B.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings.

Aiming at the problem that the pressing force is converted from the tensioning force of a rope tool in the existing binding type leaking stoppage tool, and the pressing force is low in efficiency, the embodiment provides the leaking stoppage module for the binding type leaking stoppage tool, and the included angle between the leaking stoppage block and the rope tool is made to be as small as possible by increasing the height of the leaking stoppage module, so that the tensioning force of the rope tool is converted into the pressing force more effectively, and the effective plugging is realized.

As shown in fig. 1, the plugging module for the binding type plugging tool provided in this embodiment mainly includes: the leakage stoppage assembly 100, the heightening assembly 200 and the sealing assembly 300, wherein the heightening assembly 200 is arranged on the leakage stoppage assembly 100 and is used for heightening the height of the leakage stoppage block 110 and reducing the included angle between a rope and the leakage stoppage block 110; the sealing assembly 300 is arranged on the lower end face of the leakage stoppage assembly 100 and is used for being matched with the leakage stoppage assembly 100 and the heightening assembly 200 to block the leakage part of the cylinder.

The leakage stoppage assembly 100 is used for pressing and stopping a leakage part of a cylinder body and mainly comprises a leakage stoppage block 110.

The leaking stoppage block 110 is used for pressing and stopping the leaking position of the cylinder body, and a plurality of bearings 111 which are uniformly distributed are embedded on the upper end face of the leaking stoppage block and used for placing ropes and uniformly arranging the ropes on the upper end face of the leaking stoppage block 110.

By the arrangement, the rope tensioning force can be more effectively converted into pressing force through the bearing 111, and the pressing force is always vertical to the plugging block; secondly, the sliding of the plugging block 110 caused by the tightening operation of the rope tool can be effectively avoided.

For example, 3 pairs of bearings are selected as an example, and a pair of bearings is respectively arranged in the middle and at two ends of the leakage stoppage block 110 to ensure that the stress of the leakage stoppage block 110 is balanced and the rope does not slide due to uneven stress.

Because the three pairs of bearings are arranged identically, one pair is selected for detailed description here, and the rest is not described again.

The bearing 111 is specifically disposed on the upper end surface of the plugging block 110 by a connection bolt 113, and the connection bolt 113 is disposed on the plugging block 110 by a fixing bolt 114.

The lower end surface of the leakage blocking block 110 is provided with a quick assembly structure for forming a quick plugging structure with the sealing assembly 300.

The sealing assembly 300 specifically includes a spacer 310, a gasket 320, and a sealant 330.

The spacer 310 is used to increase the height of the leak-stopping block 110, and preferably to convert the tightening force of the rope into a pressing force.

In a specific arrangement, the spacer 310 may be an inverted step structure, which aims to transmit the pressing force applied by the plugging block 110 to the sealing pad 320 more intensively, thereby achieving more effective plugging.

The upper and lower end surfaces of the cushion block 310 are respectively provided with a quick combination structure, and the quick combination structure on the upper end surface is used for being matched with the quick combination structure on the lower end surface of the plugging block 110 to form a quick-plugging and quick-pulling structure.

In order to prevent the leakage-blocking rubber 330 from overflowing during the implementation, a sealing gasket 130 may be disposed at the lower end surface of the cushion block 310.

The upper end face and the lower end face of the sealing gasket 320 are respectively provided with a quick combination structure, and the quick combination structure on the upper end face is used for being matched with the quick combination structure on the lower end face of the cushion block 310 to form a structure setting of quick insertion and quick pull.

The leakage-blocking glue 330 is arranged on the lower end surface of the sealing gasket 320, the leakage-blocking glue 330 has extremely strong elastic deformation, and under the action of the pressing force transmitted by the sealing gasket 320, the leakage-blocking glue 330 is in close contact with the leakage opening, so that the sealing is realized.

It should be noted that the shape of the leakage blocking glue 330 can be configured according to the shape of the leakage point.

Meanwhile, the quick combination structure of the sealing pad 320 and the lower end surface of the cushion block 310 can also be arranged in a matching manner according to the shape of the leakage blocking glue 330.

Due to the structural arrangement, the sealing assembly 300 can achieve a better plugging effect when plugging is performed.

Meanwhile, the cushion block 310 is also provided with a plurality of slotted hole structures, so that the weight of the whole leaking stoppage module can be reduced on one hand, and the effect of convenient grabbing is achieved on the other hand.

Furthermore, the left end and the right end of the plugging block 110 are respectively provided with a handle 112, so that under the action of the jet pressure of the leakage medium, an operator can conveniently press the plugging block 110 on the leakage part, and the subsequent tensioning-locking operation is convenient.

By way of example, the sealing assembly 300 herein may be used in a row-by-row configuration as desired for a particular application.

(1) The leakage blocking glue 330 can be selected to be arranged on the lower end surface of the leakage blocking block 110;

(2) or the leakage-stopping glue can be arranged on the lower end surface of the cushion block 310, and the cushion block 310 and the leakage-stopping block 110 are connected through a quick combination structure;

(3) alternatively, the leakage blocking glue 330 may be disposed on the lower end surface of the sealing pad 320, and the sealing pad 320 and the leakage blocking block 110 are connected by a quick assembly structure;

(4) or the leakage blocking glue 330 is arranged on the lower end surface of the sealing gasket 320, the sealing gasket 320 and the cushion block 310, and the cushion block 310 and the leakage blocking block 110 are connected through a quick combination structure.

On the basis of the structure, the heightening component 200 is further arranged for heightening the leaking stoppage block 110, so that the tensioning force of the rope tool is more effectively converted into pressing force, the included angle between the rope tool and the leaking stoppage block 110 is reduced, and effective plugging is realized.

The heightening assembly 200 mainly comprises a heightening leakage blocking block 220, the structure of the heightening leakage blocking block 220 can be the same as or different from that of the leakage blocking block 110, and the structure arrangement the same as that of the leakage blocking block 110 is not described in detail here.

In specific application, the structure of the heightened leaking stoppage block 220 can be different from that of the leaking stoppage block 110, the specific width of the heightened leaking stoppage block can be narrower than that of the leaking stoppage block 110, and the upper end face of the heightened leaking stoppage block is also provided with a bearing assembly which is the same as that of the leaking stoppage block 110, so that the tensioning force of the rope tool can be transmitted to the leaking stoppage block 110 more intensively.

Meanwhile, the heightening block 230 is further disposed on the lower end surface of the heightening leakage blocking block 220 to heighten the height of the leakage blocking block 110, so that the tightening force of the rope is transmitted to the leakage blocking block 110 more intensively.

When the device is specifically arranged, the heightening block 230 can be fixedly arranged on the lower end surface of the heightening leakage stopping block 220; the heightened block 230 and the heightened leakage stopping block 220 can be connected through a quick combination structure to form a quick-inserting and quick-pulling structure.

Further, the heightening blocks 230 and the plugging blocks 110 also form a quick-inserting and quick-pulling structure through a quick-combining structure.

It should be noted here that the raised plugging block 220 and the plugging block 110 can be used independently to plug the leakage site with limited operation space.

When the plugging device is applied specifically, a heightening cushion group 210 can be further arranged between the heightening plugging block 220 and the plugging block 110, and the heightening cushion group 210 can transmit the pressing force born by the heightening plugging block 220 to the plugging block 110 more uniformly.

Specifically, the heightening cushion block group 210 is formed by sequentially connecting a plurality of heightening cushion blocks 211, and the upper end face and the lower end face of each heightening cushion block 211 are provided with a quick combination structure for being matched with each other or different heightening cushion blocks to form a quick-inserting and quick-pulling structure.

The rapid combination structure of the uppermost heightening cushion block of the heightening cushion block group 210 is used for being matched with the rapid combination structure of the lower end face of the heightening block 230 on the heightening leakage blocking block 220 to form a rapid insertion and rapid pull-out structure.

The rapid combination structure of the heightening cushion block at the lowest end of the heightening cushion block group 210 is used for being matched with the rapid combination structure of the upper end surface of the plugging block 110 to form a rapid inserting and rapid pulling structure.

The number of the heightening blocks 211 can be set according to actual needs, and is not particularly limited.

Furthermore, when the plugging blocks 110 and the heightening plugging blocks 220 are specifically arranged, grooves can be further formed in the front, the rear, the left and the right of the plugging blocks, so that the overall weight of the plugging module is reduced, and the plugging block is convenient for operators to grab and is beneficial to operation and carrying.

Based on the above scheme, the present example also gives a specific implementation case:

the first embodiment is as follows:

the single use of the block 110 can form a small included angle between the rope and the block 110, and the pressing force of the rope on the block 110 is also large.

Example two;

the combination of the heightened leakage stoppage block 220 and the sealing assembly 300 is independently used, the situation is suitable for the situation that the diameter of the cylinder body is larger, the heightened leakage stoppage block 220 is independently used, so that a smaller included angle is formed between the rope and the leakage stoppage block 110, and the pressing force of the rope on the heightened leakage stoppage block 220 is also larger.

Example three:

the heightening leaking stoppage blocks 220, the leaking stoppage blocks 110 and the sealing assemblies 200 are connected and arranged in various combinations, the condition is suitable for the situation that the diameter of a cylinder body is large, a small included angle can be formed between a rope and the leaking stoppage blocks 110 only by using the combination of the heightening leaking stoppage blocks 220 and the leaking stoppage blocks 110, and then the rope can form large pressing force on the leaking stoppage blocks 110 through the heightening leaking stoppage blocks 220.

Example four:

the heightening leakage stoppage block 220, the heightening leakage stoppage cushion block 210, the leakage stoppage block 110 and the sealing assembly 200 are connected, the condition is suitable for the large diameter of the cylinder, a small included angle can be formed between the rope and the leakage stoppage block 110 only by using the combination of the heightening leakage stoppage block 220, the heightening leakage stoppage cushion block 210 and the leakage stoppage block 110, and at the moment, the rope can form large pressing force on the leakage stoppage block 110 through the heightening leakage stoppage block 220.

When the plugging module provided by the scheme is used, the plugging blocks 110, the heightening cushion block group 210, the heightening plugging blocks 220 and the sealing assembly 300 can be quickly combined according to actual needs, so that the height of the plugging module is increased, the pressing force is increased, and the application range is expanded.

Aiming at the arrangement scheme of the plugging module for the binding type plugging tool, the use method of the plugging module is further provided, the height of the plugging module is increased by quickly combining the plugging assembly, the heightening assembly and the sealing assembly, and the tightening force of the rope is more effectively converted into pressing force and transmitted to the plugging adhesive to achieve effective plugging.

The specific operation comprises the following steps:

(1) assembling a sealing component;

sticking the leakage-blocking glue on the lower end surface of the sealing gasket; pressing the sealing gasket into the cushion block to ensure that the upper end surface of the sealing gasket is contacted with the bottom surface of the cushion block;

(2) arranging a sealing component;

arranging the sealing assembly assembled in the step (1) on the lower end face of the plugging block to ensure that the upper end face of the cushion block is contacted with the bottom face of the plugging block;

(3) assembling a heightening assembly;

the heightened leakage stoppage blocks are respectively inserted into the two heightened cushion blocks and are inserted into the leakage stoppage blocks, so that the bottom surfaces of the heightened leakage stoppage blocks are ensured to be contacted with the upper end surfaces of the leakage stoppage blocks;

(4) plugging;

the handle on the leakage blocking block is tightly held by two hands, the leakage blocking glue is opposite to the center of the leakage opening, and the leakage blocking glue is pressed to the leakage part;

(5) arranging a rope;

taking a rope, winding the rope for one circle around the cylinder, arranging one end of the rope on any one of the bearings on two sides of the leaking stoppage block, and installing the other end of the rope on the tensioning-locking mechanism;

(6) locking operation;

operating the manual hydraulic pump, tensioning the rope tool, locking, and then removing the manual hydraulic pump;

(7) repeatedly locking;

and (5) repeating the steps (5) to (6) twice until the rope is respectively pressed on the corresponding bearings.

According to the leakage stoppage module for the binding type leakage stoppage tool and the using method of the leakage stoppage module, the leakage stoppage assembly, the heightening assembly and the sealing assembly are quickly combined, so that the height of the leakage stoppage module is increased, the tensioning force of a rope is more effectively converted into pressing force and transmitted to the leakage stoppage adhesive, and effective plugging is realized.

According to the leakage stopping module for the binding type leakage stopping tool and the using method thereof, the bearing is embedded on the upper end face of the leakage stopping module, so that the tensioning force of the rope is more effectively converted into the pressing force, the pressing force is always vertical to the leakage stopping block, and the sliding of the leakage stopping block caused by the tensioning operation of the rope can be effectively avoided.

According to the leakage stopping module for the binding type leakage stopping tool and the using method of the leakage stopping module, the handle is arranged on the leakage stopping block, so that the operation is more convenient, and under the action of the jet pressure of a leakage medium, an operator can press the leakage stopping block on a leakage part, so that the subsequent tensioning-locking operation is facilitated.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a binding type leaking stoppage module for leaking stoppage tool which characterized in that mainly includes: the leakage stoppage device comprises a leakage stoppage component, a heightening component and a sealing component, wherein the heightening component, the leakage stoppage component and the sealing component are sequentially matched; the sealing assembly can be pressed at the leakage position of the cylinder under the action of the heightening assembly and the leakage plugging assembly, and then plugging is formed.

2. The plugging module for the binding-type plugging tool according to claim 1, wherein the plugging assembly mainly comprises a plugging block, and a plurality of bearings are further arranged on the upper end surface of the plugging block; the distribution of the bearings on the upper end surface of the leaking stoppage block ensures that the pressing force of the rope on the leaking stoppage block is uniformly distributed.

3. The plugging module for the binding-type plugging tool according to claim 1, wherein the heightening assembly comprises a heightening plugging block, and a quick combination structure matched with the plugging block is arranged on the lower end surface of the heightening plugging block; the upper end surface of the heightening leakage blocking block is also provided with a plurality of bearings; the distribution of the bearings on the upper end surface of the heightening leakage-stopping block ensures that the pressing force of the rope on the heightening leakage-stopping block is uniformly distributed.

4. The plugging module for the binding-type plugging tool according to claim 3, wherein the heightening assembly further comprises a heightening cushion group, and the heightening cushion group is formed by combining a plurality of heightening cushions through a quick combination structure.

5. The plugging module for the binding type plugging tool according to any one of claims 1 to 4, wherein the sealing assembly comprises a cushion block, a sealing gasket and a plugging rubber, and the sealing gasket is arranged on the lower end surface of the cushion block; the leakage-blocking glue is arranged on the lower end face of the sealing gasket.

6. A leaking stoppage module for a binding type leaking stoppage tool according to claim 5, wherein the upper and lower end surfaces of the heightening leaking stoppage block, the heightening cushion block, the leaking stoppage block, the cushion block and the sealing gasket are respectively provided with a fast combination structure which is mutually matched, and the fast insertion and fast extraction structure can be formed between the heightening leaking stoppage block and the heightening cushion block, between the heightening cushion block and the leaking stoppage block, between the leaking stoppage block and the cushion block, and between the cushion block and the sealing gasket through the fast combination structure.

7. The plugging module for the binding-type plugging tool according to claim 2 or 3, wherein grooves are further formed on the front, rear, left and right surfaces of the plugging block and the heightened plugging block.

8. The plugging module for the binding type plugging tool according to claim 2, wherein a handle is further provided on the plugging block.

9. A leaking stoppage method of a leaking stoppage module for a bindable leaking stoppage tool is characterized in that the leaking stoppage method is used for rapidly combining a leaking stoppage component, a heightening component and a sealing component, so that the height of the leaking stoppage module is increased, and the tensioning force of a rope is more effectively converted into pressing force and transmitted to the leaking stoppage glue to achieve effective plugging.

10. The method for plugging a plugging module for a bindable plugging tool according to claim 9, wherein the method for plugging a plugging module for a bindable plugging tool comprises the steps of:

(1) assembling a sealing component;

sticking the leakage-blocking glue on the lower end surface of the sealing gasket; pressing the sealing gasket into the cushion block to ensure that the upper end surface of the sealing gasket is contacted with the bottom surface of the cushion block;

(2) arranging a sealing component;

arranging the sealing assembly assembled in the step (1) on the lower end face of the plugging block to ensure that the upper end face of the cushion block is contacted with the bottom face of the plugging block;

(3) assembling a heightening assembly;

the heightened leakage stoppage blocks are respectively inserted into the two heightened cushion blocks and are inserted into the leakage stoppage blocks, so that the bottom surfaces of the heightened leakage stoppage blocks are ensured to be contacted with the upper end surfaces of the leakage stoppage blocks;

(4) plugging;

the handle on the leakage blocking block is tightly held by two hands, the leakage blocking glue is opposite to the center of the leakage opening, and the leakage blocking glue is pressed to the leakage part;

(5) arranging a rope;

taking a rope, winding the rope for one circle around the cylinder, arranging one end of the rope on any one of the bearings on two sides of the leaking stoppage block, and installing the other end of the rope on the tensioning-locking mechanism;

(6) locking operation;

operating the manual hydraulic pump, tensioning the rope tool, locking, and then removing the manual hydraulic pump;

(7) repeatedly locking;

and (5) repeating the steps (5) to (6) twice until the rope is respectively pressed on the corresponding bearings.

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