CN114984503B - Multi-parameter fire-fighting monitoring equipment based on data analysis - Google Patents

Abstract

The invention relates to the technical field of fire fighting monitoring, in particular to a multi-parameter fire fighting monitoring device based on data analysis, which comprises the following components: comprises a monitoring end and an early warning center; the monitoring end is connected with the early warning center through a network and is used for data transmission; the monitoring end comprises a first transmission unit and a monitoring module, and the monitoring module comprises a first monitoring unit and a positioning unit; the first monitoring unit takes a pressure detection device as a carrier, is arranged at a fire joint of the fire hydrant and is used for monitoring the pressure in the fire joint in real time, and transmits a pressure value to the monitoring module in real time; the positioning unit takes positioning equipment as a carrier and is used for positioning the specific position of the first monitoring unit. According to the invention, the pressure is monitored in real time through the first monitoring unit, and then early warning is carried out in real time through the early warning center, so that the use stability of the fire hydrant in the corresponding region is ensured, and further the public safety is maintained.

Description

Multi-parameter fire-fighting monitoring equipment based on data analysis

Technical Field

The invention relates to the technical field of fire fighting monitoring, in particular to multi-parameter fire fighting monitoring equipment based on data analysis.

Background

The fire monitoring refers to the detection and supervision of man-made and natural/accidental disasters encountered by people in the processes of life, work and learning, so as to achieve the purposes of preventing disasters and eliminating hidden dangers. The fire fighting detection is mainly used for detecting and testing the technical and performance indexes of various fire fighting facilities arranged in a building, so that whether the whole fire fighting system can meet the requirements of national standards and specifications or not is judged, and the performance of fire fighting facilities in the building can meet the design requirements.

The main contents of fire detection include fire power supply and distribution, fire automatic alarm system, fire water supply, fire hydrant, fire monitor, automatic water spraying fire extinguishing system, foam fire extinguishing system, gas fire extinguishing system, mechanical pressurization air supply system, mechanical smoke discharging system, emergency lighting and evacuation indication mark, emergency broadcast, emergency telephone, fire separation facilities (fire rolling curtain, fire door, fire valve, etc.), fire elevator, fire extinguisher, etc.

Generally, fire-fighting equipment detection is mainly performed by fire-fighting equipment detection companies or regional responsible persons, and qualified or unqualified fire-fighting equipment detection reports are provided after the detection. To the fire control interface in the fire hydrant, the measurement personnel then can unscrew the valve on the fire control interface, observes the play water condition to accomplish the monitoring, this kind of monitoring mode is comparatively single, and needs the manual work to inspect one by one, can't detect the water pressure of fire control interface simultaneously, also can not accomplish real-time supervision, thereby water pressure is not enough when having the urgent need of use, can't be used for the potential safety hazard of the rescue of putting out a fire.

Disclosure of Invention

In order to make up for the defects of the existing fire monitoring, the invention provides a multi-parameter fire monitoring device based on data analysis.

The invention relates to a multi-parameter fire fighting monitoring device based on data analysis, which comprises a plurality of monitoring ends and an early warning center, wherein the monitoring ends are arranged in a plurality; the monitoring end is connected with the early warning center through a network and used for data transmission. The network connecting the monitoring end and the early warning center can be a wireless network or a wired network;

the monitoring end comprises a first transmission unit and a monitoring module, and the monitoring module comprises a first monitoring unit and a positioning unit;

the first monitoring unit takes a pressure detection device as a carrier, such as a pressure gauge; the first monitoring unit is arranged at a fire hydrant fire joint and used for monitoring the pressure in the fire hydrant fire joint in real time; the first monitoring unit transmits the pressure value to the monitoring module in real time; the manometer is linked together with fire control joint inner space to show the pressure variation in the manometer with the inside rivers of fire control joint, thereby feed back pressure data in real time.

The positioning unit takes positioning equipment as a carrier, such as GPS positioning, beidou positioning, bluetooth positioning and the like; the positioning unit is used for positioning the specific position of the first monitoring unit; and sending the position information to the monitoring module; the monitoring module binds and combines the data fed back by the first monitoring unit and the positioning unit and transmits the data to the early warning center through the first transmission unit; the positioning unit is used for positioning a spatial position, and the spatial position comprises the horizontal height, the transverse and longitudinal distances and specific detailed addresses of the object.

And the early warning center is used for analyzing and sorting the data of the monitoring end.

Preferably, the early warning center includes:

the second transmission unit is used for receiving the data information of the monitoring end;

the early warning module is used for receiving the data of the second transmission unit and analyzing the data; the early warning module carries out linear analysis of historical data and current data on each fire fighting device and gives an alarm to the fire fighting devices needing to be maintained.

Preferably, the monitoring end further comprises a prompt module; the prompting module comprises a first prompting unit and a second prompting unit; the first prompting unit takes electronic equipment as a carrier, such as a mobile phone; the second prompting unit is installed at the corresponding fire-fighting joint and takes an electronic device as a carrier, such as a buzzer.

Preferably, a plurality of monitoring ends are provided; the monitoring ends transmit the monitoring data of the monitoring ends to an early warning center; and the early warning module of the early warning center contrasts and analyzes the parameters of the fire-fighting joints at different positions.

Preferably, the monitoring module further comprises a second monitoring unit; the second monitoring unit takes handheld monitoring equipment as a carrier; the handheld monitoring device includes:

one end of the monitoring joint is matched with the fire-fighting joint, and is uniformly provided with a first through hole around a self central axis;

the second pressure gauge is fixedly arranged on the monitoring connector; the second pressure gauge is communicated with the first through hole;

the collecting block is connected to the other end of the monitoring connector in a rotating and sealing mode; the collecting block is uniformly provided with a second through hole around a self central shaft, and the first through hole is communicated with or staggered with the second through hole in the rotating process of the collecting block;

the drain hole is arranged on the outer wall of the collecting block; the drain hole is communicated with the second through hole through a gathering cavity.

Preferably, the drain hole is connected with a storage tank through threads; the bottom of the storage tank is provided with a sliding hole; a sliding rod is connected in the sliding hole in a sliding manner; a piston is connected in the storage tank in a sliding and sealing manner; the piston is fixedly connected with the end part of the sliding rod.

Preferably, the outer wall of the monitoring joint is fixedly connected with a folding sleeve; the folded sleeve is corrugated and made of a transparent material, such as plastic.

Preferably, the outer wall of the monitoring joint is fixedly connected with two first hole blocks; the two first hole blocks are close to each other and close to the corresponding first through holes; the outer wall of the collecting block is fixedly connected with two second hole blocks; the second hole block corresponds to the first hole block; the second hole block is connected with a switching pin in a sliding way; the opening and closing pin can slide into the first hole block under the action of external force.

The invention has the following beneficial effects:

1. according to the invention, the pressure is monitored in real time through the first monitoring unit, and then early warning is carried out in real time through the early warning center, so that the use stability of the fire hydrant in the corresponding region is ensured, and further the public safety is maintained.

2. The early warning module compares the data according to respective pressure data, compares the pressure change condition of the pressure value along with the time as the abscissa, checks the pressure stability condition of the fire-fighting joint, alarms the fire-fighting joint with inconstant pressure change in real time, namely alarms when the change difference between the adjacent three points or two points is larger than a preset threshold value through the change difference between the adjacent three points or two points, and then performs exploration, nuclear detection or maintenance through related personnel, thereby preventing potential safety hazards caused by unstable pressure of the fire-fighting joint and avoiding early stop.

3. The handheld monitoring equipment can detect the fire-fighting joint and prevent water from spilling, so that the cleanness of the surrounding environment is ensured.

Drawings

The invention is further described with reference to the following figures and embodiments.

FIG. 1 is a block flow diagram of a system of the present invention;

FIG. 2 is an internal block diagram of the handheld monitoring device of the present invention;

FIG. 3 is an enlarged view at A in FIG. 2;

FIG. 4 is an enlarged view at B in FIG. 2;

FIG. 5 is a cross-sectional view of a handheld monitoring device of the present invention;

reference numerals: monitoring joint 1, first through hole 11, second manometer 12, first hole piece 13, collection piece 2, no. two through holes 21, wash port 22, gather chamber 23, no. two hole pieces 24, opening and shutting round pin 25, holding vessel 3, slide opening 31, slide bar 32, piston 33, folding cover 4.

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 described with the specific embodiments.

As shown in fig. 1 to 5, the multi-parameter fire monitoring device based on data analysis of the present invention includes a plurality of monitoring terminals and an early warning center; the monitoring end is connected with the early warning center through a network and is used for data transmission; the network connecting the monitoring end and the early warning center can be a wireless network or a wired network.

The monitoring end comprises a first transmission unit and a monitoring module, and the monitoring module comprises a first monitoring unit and a positioning unit.

The first monitoring unit takes a pressure detection device as a carrier, such as a pressure gauge; the first monitoring unit is arranged at a fire hydrant fire joint and used for monitoring the pressure in the fire hydrant fire joint in real time; the first monitoring unit transmits the pressure value to the monitoring module in real time; the manometer is linked together with fire control joint inner space to show the pressure variation in the manometer with the inside rivers of fire control joint, thereby realize pressure data real time feedback.

The positioning unit takes positioning equipment as a carrier, such as GPS positioning, beidou positioning, bluetooth positioning and the like. The positioning unit is used for positioning the specific position of the first monitoring unit and sending position information to the monitoring module; the monitoring module binds and combines the data fed back by the first monitoring unit and the positioning unit and transmits the data to the early warning center through the first transmission unit; the positioning unit is used for positioning a spatial position, and the spatial position comprises the horizontal height, the transverse and longitudinal distances and specific detailed addresses of the object.

And the early warning center is used for analyzing and sorting the data of the monitoring end.

The first monitoring unit in the embodiment can detect the pressure value of each fire joint in real time and then transmit the pressure value to the first monitoring module; meanwhile, the positioning unit sends the specific space position where the fire joint sending the pressure value is located to the monitoring module, the monitoring module binds the data fed back by the first monitoring unit and the positioning unit and then transmits the data to the first transmission unit, and finally the data are transmitted to the early warning center through the first transmission unit.

The spatial position that this fire control joint place was looked over to the early warning center, because the water pressure requirement that requires on the different altitude position is different, consequently compares through looking over the water pressure that requires under this height and the numerical value of first monitoring unit survey, and when the numerical value of first monitoring unit survey is less than the requirement numerical value, then the early warning center reports to the police to the fire control joint of this department, and relevant personnel can find corresponding fire hydrant according to the position of reporting to the police, look over concrete under-voltage condition.

According to the fire hydrant monitoring system, the pressure at the fire hydrant fire joint is monitored in real time through the first monitoring unit, and then early warning is carried out in real time through the early warning center, so that the use stability of the fire hydrant in a corresponding region is guaranteed, and further the public safety is maintained.

As an embodiment of the invention, the early warning center comprises

The second transmission unit is used for receiving the data information of the monitoring end;

the early warning module is used for receiving the data of the second transmission unit and analyzing the data, and the early warning module performs linear analysis on historical data and current data of each fire fighting device and gives an alarm to the fire fighting devices needing to be maintained. During operation, the second transmission unit receives the data sent by the first transmission unit and then transmits the data to the early warning module, the early warning module compares the data according to respective pressure data, the pressure change condition of the pressure value along with time as a horizontal coordinate is compared, the pressure stability condition of the fire-fighting joint is checked, real-time alarm is carried out on the fire-fighting joint with inconstant pressure change, namely alarm is realized when the change difference of adjacent three points or two points is larger than a preset threshold value, and then exploration, nuclear detection or maintenance is carried out by related personnel, so that potential safety hazards caused by unstable pressure of the fire-fighting joint are prevented, and early prevention is realized.

As an implementation manner of the present invention, the monitoring end further includes a prompt module, and the prompt module includes a first prompt unit and a second prompt unit; the first prompting unit takes electronic equipment as a carrier, such as a mobile phone; the second prompting unit is installed at the fire-fighting joint and takes an electronic device as a carrier, such as a buzzer. When the device works, the early warning module transmits the pressure value of the unqualified fire-fighting joint to the first transmission unit through the second transmission unit, the first transmission unit transmits the pressure value to the prompting module through the monitoring module, the prompting module transmits data to the buzzer on the second prompting unit to realize alarming, relevant personnel search the specific position source of the fire-fighting joint according to the sound emitted by the buzzer, and then explore, check or maintain the corresponding fire-fighting joint; meanwhile, the information is transmitted to the first prompting unit through the prompting module, a fire-fighting facility administrator realizes the informed state through the prompt of the mobile phone, and meanwhile, the shortest or fastest electronic path can be generated by the mobile phone on the fire-fighting facility administrator according to the alarm of a single or a plurality of fire-fighting joints, so that the fire-fighting facility administrator can monitor in the shortest time, and the timeliness is guaranteed.

As an implementation manner of the invention, the monitoring ends are multiple, and the multiple monitoring ends transmit their own monitoring data to the early warning center; and the early warning module of the early warning center contrasts and analyzes the parameters of the fire-fighting joints at different positions. When the fire fighting branch pipe pressure monitoring device works, the early warning module can acquire the pressure floating value of each fire fighting joint, namely the pressure change of adjacent points, and by comparing the pressure values of a plurality of fire fighting joints in the same area, if the pressure values on the branch pipes are approximately the same, the problem is solved on the main pipeline, and if the pressure value change difference on the branch pipes is large, the problem is solved on the branch pipeline, so that the fire fighting joint pressure monitoring device is convenient for workers to check; and the pressure values of the fire-fighting joints in the same area and at the same height are compared, so that abnormal points are found quickly, and timely treatment is performed, such as pipeline blockage and other reasons.

As an embodiment of the present invention, the monitoring module further includes a second monitoring unit, where the second monitoring unit uses a handheld monitoring device as a carrier; the handheld monitoring device includes:

monitoring the joint 1; one end of the monitoring joint 1 is matched with the fire-fighting joint, and is uniformly provided with a first through hole 11 around a central shaft of the monitoring joint;

a second pressure gauge 12; the second pressure gauge 12 is fixedly arranged on the monitoring connector 1; the second pressure gauge 12 is communicated with the first through hole 11;

a collection block 2; the collecting block 2 is connected to the other end of the monitoring joint 1 in a rotating and sealing manner; the collecting block 2 is uniformly provided with second through holes 21 around the central axis of the collecting block 2, and the first through holes 11 are communicated with or staggered with the second through holes 21 in the rotating process of the collecting block 2;

a drain hole 22; the drain hole 22 is arranged on the outer wall of the collecting block 2; the drain hole 22 is communicated with the second through hole 21 through a gathering cavity 23.

The handheld monitoring equipment is used for fixed-point exploration and nuclear detection of workers. During operation, the staff will monitor and connect 1 and install on the fire control connects, and monitoring connects 1 and fire control and connects the phase-match to guarantee the installation and seal, under the condition that a through-hole 11 in monitoring connects 1 and No. two through-holes 21 intercommunication in collecting block 2 afterwards, unscrew the valve on the fire hydrant, the impact of rivers will monitor and connect 1 inside unnecessary gas and discharge. When the water is drained from the drainage hole 22, the collecting block 2 is rotated, so that the collecting block 2 rotates relative to the monitoring connector 1, the through hole 21 II in the collecting block 2 is staggered with the through hole 11I in the monitoring connector 1 under rotation, finally, as the water continues to be sprayed out from the fire-fighting connector, the display value of the second pressure gauge 12 is changed until the display value is kept unchanged, the display value is the static pressure of the fire-fighting connector, and in the process of initially waiting for the water to be drained from the drainage hole 22, the dynamic pressure can be recorded by observing the pressure gauge.

The second monitoring unit can transmit the dynamic pressure and the static pressure of second manometer 12 to monitoring module, transmits to early warning module through first transmission unit at last and carries out the analysis, and static pressure can be compared according to the standard value, and dynamic pressure can be according to the staff unscrew the pressure value that the valve size corresponds of opening and shutting behind the number of turns of valve, does the comparison with the dynamic pressure value that second manometer 12 surveyed to whether reach the dynamic pressure value on this fire control connects and accord with the regulation.

Meanwhile, whether the monitoring joint 1 and the fire joint combined part are leaked or not can be observed in the monitoring fire joint process, so that whether the sealing ring of the monitoring fire joint is in the service life or not is detected, therefore, the second monitoring unit can detect the water outlet condition, the pressure value and the sealing element durability condition of the fire joint, multi-parameter monitoring is achieved, monitoring diversification is greatly improved, and potential safety hazards are reduced. After the staff accomplished the monitoring of second manometer 12, twist the valve and connect the fire control to close, rotate collection piece 2 at last, make collection piece 2 monitor joint 1 relatively and rotate, thereby get through No. two through-holes 21 and a through-hole 11, accomplish the pressure release, unnecessary water can flow out from wash port 22, in order to prevent that water from spilling, can place the water collector below wash port 22, treat that water flows down the back from wash port 22, the staff will monitor again and connect 1 and take off from the fire control joint, carry out the fire control monitoring to next point according to electronic map again.

As an embodiment of the present invention, the drain hole 22 is screwed with the storage tank 3; the bottom of the storage tank 3 is provided with a sliding hole 31; a sliding rod 32 is connected in the sliding hole 31 in a sliding manner; the gas can flow away along the gap between the slide hole 31 and the slide rod 32; a piston 33 is connected in the storage tank 3 in a sliding and sealing manner; the piston 33 is fixedly connected to the end of the slide rod 32.

In operation, before the monitor connector 1 is installed on the fire hydrant, the operator pushes the sliding rod 32 to slide the piston 33 in the storage tank 3, so that the gas in the storage tank 3 is squeezed out. Subsequently, in the existing state, the monitoring connector 1 is installed on the fire-fighting connector, water can pass through the first through hole 11 and the second through hole 21 after being discharged from the fire-fighting connector, finally, the water is excessively discharged into the water discharge hole 22 through the aggregation cavity 23, and finally enters the storage tank 3 through the water discharge hole 22, and as the amount of water in the storage tank 3 increases, the water extrudes the piston 33, so that whether the sliding rod 32 slides along the sliding hole 31 is observed, and therefore the water discharge condition is judged. According to the scales, the water in the storage tank 3 does not need to be poured out after the last fire-fighting joint is finished, and the fire-fighting joint can be continuously used by workers; when next fire control connects the use, only need observe the scale mark on the slide bar 32 and can observe out the water condition, fire control connects the long-term impurity that can remain without inside, and impurity easily causes the jam to the check out test set inner space, and this embodiment also can drive piston 33 through slide bar 32, and the inner space of handheld monitoring facilities is strikeed to rethread negative pressure or water pressure, realizes the purpose of the mediation of handheld monitoring facilities inner space, has improved its result of use. This embodiment has made things convenient for staff's monitoring on the one hand through holding vessel 3, and on the other hand prevents the unrestrained of water, guarantees the cleanness of surrounding environment.

As an embodiment of the invention, the outer wall of the monitoring connector 1 is fixedly connected with a folding sleeve 4; the folded sleeve 4 is corrugated and made of a transparent material, such as plastic. The during operation, install the monitoring back of implementing on the fire control joint at monitoring joint 1, the staff will fold cover 4 and take off, until folding cover 4 crosses the kneck that monitoring joint 1 and fire control connect, make water reveal the back from monitoring joint 1 and fire control joint, can collect water through folding cover 4, thereby avoid the unrestrained of water, connecting 1 taking off the back from the fire control joint with monitoring, the monitoring that inclines again connects 1, with water from a through-hole 11, no. two through-holes 21 drainage to the storage chamber.

As an embodiment of the invention, two first hole blocks 13 are fixedly connected to the outer wall of the monitoring connector 1; the two first hole blocks 13 are close to each other and close to the corresponding first through holes 11; the outer wall of the collecting block 2 is fixedly connected with two second hole blocks 24; the second hole block 24 corresponds to the first hole block 13; the second hole block 24 is connected with a switching pin 25 in a sliding way; the opening and closing pin 25 can slide into the first hole block 13 under the action of external force.

When the monitoring device works, when the first through hole 11 and the second through hole 21 need to be communicated, the monitoring connector 1 is rotated, after the first through hole block 13 is aligned with one second through hole block 24, the opening and closing pin 25 slides into the first through hole block 13, so that the monitoring connector 1 and the collecting block 2 are locked, when the first through hole 11 and the second through hole 21 need to be staggered, the monitoring connector 1 is rotated, after the first through hole block 13 is aligned with the other second through hole block 24, the opening and closing pin 25 slides into the first through hole block 13, so that the monitoring connector 1 and the collecting block 2 are locked again, so that the operation and the use of workers are facilitated after each locking, accidents caused by the change of the communication state of the first through hole 11 and the second through hole 21 in the monitoring process are prevented, and the safety of the handheld monitoring device is greatly improved; the number of the first hole block 13, the second hole block 24 and the opening and closing pin 25 can be set to be plural, and is determined according to the strength.

The foregoing illustrates and describes the principles, general features, and advantages of the present 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 (6)

1. A multi-parameter fire-fighting monitoring device based on data analysis is characterized by comprising a monitoring end and an early warning center; the monitoring end is connected with the early warning center through a network and is used for data transmission;

the monitoring end comprises a first transmission unit and a monitoring module; the monitoring module comprises a first monitoring unit, a second monitoring unit and a positioning unit;

the first monitoring unit takes a pressure detection device as a carrier, is arranged at a fire hydrant fire joint and is used for monitoring the pressure in the fire hydrant fire joint in real time; the first monitoring unit transmits the pressure value to the monitoring module in real time;

the positioning unit takes positioning equipment as a carrier and is used for positioning the specific position of the first monitoring unit and sending position information to the monitoring module; the monitoring module binds and combines the data fed back by the first monitoring unit and the positioning unit and transmits the data to the early warning center through the first transmission unit;

the early warning center is used for analyzing and sorting the data of the monitoring end;

the second monitoring unit uses handheld monitoring facilities as the carrier, handheld monitoring facilities includes:

one end of the monitoring joint (1) is matched with the fire-fighting joint, and first through holes (11) are uniformly formed around the central axis of the monitoring joint (1);

the second pressure gauge (12) is fixedly arranged on the monitoring connector (1) and is communicated with the first through hole (11);

the collecting block (2) is connected to the other end of the monitoring joint (1) in a rotating and sealing mode; the collecting block (2) is uniformly provided with second through holes (21) around a central shaft of the collecting block, and the first through holes (11) are communicated with or staggered with the second through holes (21) in the rotating process of the collecting block (2);

the drain hole (22) is formed in the outer wall of the collecting block (2), and the drain hole (22) is communicated with the second through hole (21) through a collecting cavity (23); the drain hole (22) is connected with a storage tank (3) through threads; the bottom of holding vessel (3) is provided with slide opening (31), sliding connection has slide bar (32) in slide opening (31), sliding sealing connection has piston (33) in holding vessel (3), piston (33) with the tip of slide bar (32) links firmly.

2. A multi-parameter fire monitoring apparatus based on data analysis as recited in claim 1, wherein the early warning center comprises:

the second transmission unit is used for receiving the data information of the monitoring end;

and the early warning module is used for receiving the data of the second transmission unit, analyzing the data, performing linear analysis on historical data and current data of each fire fighting device, and alarming the fire fighting device needing to be maintained.

3. A multi-parameter fire fighting monitoring device based on data analysis as recited in claim 2, wherein the monitoring end further comprises a prompt module; the prompting module comprises a first prompting unit and a second prompting unit; the first prompting unit takes electronic equipment as a carrier; the second prompting unit is installed at the fire-fighting joint and takes the electronic equipment as a carrier.

4. A multi-parameter fire monitoring device based on data analysis as recited in claim 2, wherein the number of monitoring terminals is plural; the monitoring ends transmit the monitoring data of the monitoring ends to an early warning center; and the early warning module of the early warning center contrasts and analyzes parameters of different fire-fighting joints.

5. A data analysis based multi-parameter fire monitoring device according to claim 1, wherein a folded sleeve (4) is attached to the outer wall of the monitoring joint (1), and the folded sleeve (4) is corrugated and made of transparent material.

6. A multi-parameter fire-fighting monitoring device based on data analysis according to claim 1, characterized in that two first hole blocks (13) are fixedly connected to the outer wall of the monitoring joint (1); the two first hole blocks (13) are close to each other and are close to the corresponding first through holes (11);

the outer wall of the collecting block (2) is fixedly connected with two second hole blocks (24); the second hole block (24) corresponds to the first hole block (13); the second hole block (24) is connected with a switching pin (25) in a sliding way; the opening and closing pin (25) slides into the first hole block (13) under the action of external force.

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