CN112945722A

CN112945722A - Bearing wall body bearing pressure simulation experiment device based on pressure sensing determination

Info

Publication number: CN112945722A
Application number: CN202110097293.XA
Authority: CN
Inventors: 周新星
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-25
Filing date: 2021-01-25
Publication date: 2021-06-11

Abstract

The invention discloses a bearing wall bearing pressure simulation experiment device based on pressure sensing determination, which comprises a body, a humidity sensor, a collecting box and a cleaning rod, wherein a supporting rod is arranged above the body, a slide way is arranged on the inner side of the supporting rod, a sliding block is arranged on the outer wall of the slide way, a fixed disc is arranged at the bottom of a piston rod, and a pressure sensor is arranged on the outer wall of the left side of the fixed disc. This bearing wall body bearing pressure simulation experimental apparatus based on pressure sensing survey is provided with humidity inductor and clean pole, when using, the humidity inductor passes through under the cooperation of connecting block and piston rod, detect the inside of wall body, made things convenient for people to also can know the moisture data of wall body when doing the pressure simulation experiment to the wall body, the functionality of device has been improved, people's frequency of use has also been increased simultaneously, clean pole passes through under the cooperation of slide bar, the effectual people that has reduced time of cleaning, people's operation flow has also been simplified simultaneously, people's labour has been reduced.

Description

Bearing wall body bearing pressure simulation experiment device based on pressure sensing determination

Technical Field

The invention relates to the technical field of pressure simulation experiment devices, in particular to a bearing wall body bearing pressure simulation experiment device based on pressure sensing measurement.

Background

The bearing wall refers to a wall body supporting the weight of an upper floor, the black wall body is arranged on an engineering drawing, the whole building structure can be damaged when the black wall body is knocked down, and the non-bearing wall refers to a wall body not supporting the weight of the upper floor and only plays a role of separating one room from another room.

However, the bearing capacity of the bearing wall on the market is mostly manually estimated, the bearing capacity is estimated according to the quality of the used cement raw materials, the working efficiency of the algorithm is low, the working requirement cannot be met, the bearing capacity pressure simulation experiment device is mostly used for observing the vertical displacement, although the bearing capacity pressure simulation experiment device is simpler, estimation errors easily occur, the working accuracy is affected, and therefore the practicability of the device is reduced, the existing device cannot perform data comparison in wall pressure measurement, the working efficiency of people is reduced, meanwhile, dust left by the wall cannot be collected in the simulation experiment, the interior of the device is dirty and messy, the workload of people is increased, the working efficiency of people is reduced, the air tightness of some walls is poor, the house collapse or air leakage phenomenon can be caused by long-time use, and the existing device is difficult to detect in the experiment process, therefore, the health of people cannot be guaranteed, and great inconvenience is brought to people who work daily.

Therefore, a bearing wall bearing pressure simulation experiment device based on pressure sensing measurement is provided so as to solve the problems.

Disclosure of Invention

The invention aims to provide a bearing wall body bearing pressure simulation experiment device based on pressure sensing measurement, and aims to solve the problems that the bearing wall body pressure simulation experiment device in the prior market is complicated to use and poor in cleaning effect.

In order to achieve the purpose, the invention provides the following technical scheme: a bearing wall bearing pressure simulation experiment device based on pressure sensing determination comprises a body, a humidity sensor, a collecting box and a cleaning rod, wherein a supporting rod is installed above the body, a slide way is installed on the inner side of the supporting rod, a slide block is installed on the outer wall of the slide way, a fixture block is installed on the inner side of the slide block, a connecting block is installed at one end of the fixture block, a sensing box is installed inside the connecting block, the humidity sensor is installed on the outer wall of the sensing box, an ultrasonic detector is installed at the bottom of the sensing box, a placing block is installed on the outer wall of the ultrasonic detector, a telescopic spring is installed on the inner side of the placing block, a telescopic hammer is installed on the outer wall of the telescopic spring, an air cylinder is installed at the center position of the top of the body, a piston rod is installed at the bottom of the air cylinder, a, a storage device is arranged in the pressure sensor, a transmission line is arranged at the bottom of the storage device, a limiting block is arranged at the top of the transmission line, a placing box is arranged at the top of the limiting block, a movable block is arranged on the outer wall of the placing box, a placing groove is formed in the inner wall of the limiting block, a clamping tool is arranged on the outer wall of the movable block, a limiting groove is formed in the inner side of the top of the body, a supporting block is arranged at the inner bottom of the body, a collecting box is arranged in the center of the supporting block, a workbench is arranged at the tops of the collecting box and the supporting block, a placing frame is arranged in the workbench, a sliding rod is arranged in the placing frame, a sliding groove is formed in the inner side of the sliding rod, a cleaning rod is arranged on the outer wall of the sliding rod, a guide, and the top piece is installed to the interior bottom of supporting shoe, the bolt is installed at the top of body, and the bottom of bolt installs the fixed block, the connector is installed to pressure sensors's one end.

Preferably, the left width and the right width of the supporting rod are equal to the left width and the right width of the slideway, the upper length and the lower length of the slideway are smaller than the upper length and the lower length of the slideway, and the outer wall of the supporting rod is fixedly connected with the inner wall of the slideway.

Preferably, the inner side of the sliding block is movably connected with the outer wall of the sliding way, the shape and the size of the outer wall of the sliding way are the same as those of the inner side of the sliding block, and the sliding block is designed in a square structure.

Preferably, the left width and the right width of the sensing box are smaller than the left width and the right width of the connecting block, the upper length and the lower length of the connecting block are larger than the upper length and the lower length of the sensing box, and one end of the connecting block is fixedly connected with the outer wall of the sensing box.

Preferably, one end of the bolt penetrates through the top of the body and the top of the fixing block, the bottom of the body is fixedly connected with the top of the fixing block, and the bolt is designed in a T-shaped structure.

Preferably, the inner side of the limiting groove is movably connected with the outer wall of the transmission line, the shape and the size of the inner side of the limiting groove are the same as those of the outer wall of the transmission line, and the inner side of the limiting groove is designed to be rectangular.

Preferably, the top of the supporting block is fixedly connected with the bottom of the workbench, the upper and lower lengths of the supporting block are greater than the upper and lower lengths of the workbench, and the left and right widths of the supporting block are smaller than the left and right widths of the workbench.

Preferably, the inner side of the placing groove is fixedly connected with the outer wall of the movable block, the shape and the size of the inner side of the placing groove are the same as those of the outer wall of the movable block, and the inner side of the placing groove is designed into a rectangular structure.

Preferably, the inner side of the clamping tool is fixedly connected with the outer wall of the movable block, the shape and the size of the outer wall of the movable block are the same as those of the inner side of the clamping tool, and the clamping tool and the movable block are designed into a T-shaped structure.

Preferably, the inner side of the guide groove is movably connected with the outer wall of the cleaning rod, the shape and the size of the inner side of the guide groove are the same as those of the outer wall of the cleaning rod, and the guide groove is designed in a rectangular structure.

Compared with the prior art, the invention has the beneficial effects that: the bearing wall body bearing pressure simulation experiment device based on pressure sensing measurement;

1. the device is provided with the humidity sensor and the cleaning rod, when the device is used, the humidity sensor is matched with the piston rod through the connecting block to detect the interior of the wall body, so that people can conveniently know the water data of the wall body when performing a pressure simulation experiment on the wall body, the functionality of the device is improved, the use frequency of people is increased, the cleaning rod is matched with the sliding rod, the cleaning time of people is effectively reduced, the operation process of people is simplified, and the labor force of people is reduced;

2. the dust collecting device is provided with the collecting box and the placing box, when the dust collecting device is used, dust can be conveniently collected through the arrangement of the collecting box, the working efficiency of people is improved, the collecting box can be conveniently dismounted and mounted by people through the matching of the collecting box and the jacking block, the practicability of the device is improved, the stability of a display screen is improved through the matching of the movable block and the clamping tool, meanwhile, the movable block only needs to be pulled off during dismounting, the mounting is very convenient and fast, the complexity of people due to the inconvenience in mounting is reduced, and the operation flow of mounting of people is simplified;

3. be provided with ultrasonic detector, when using, through ultrasonic detector's setting, make things convenient for people to detect the gas tightness of wall body, also made things convenient for people to know its quality when selecting the wall body simultaneously, also effectually ensured people's health, also increased the functional of device simultaneously, still practiced thrift the cost, also improved the security of device simultaneously to daily work people's demand has also been satisfied.

Drawings

FIG. 1 is a schematic view of the main sectional structure of the present invention;

FIG. 2 is a schematic view of the connection structure of the pressure sensor and the storage device according to the present invention;

FIG. 3 is a schematic view of the connection structure of the placement box, the movable block and the clamp according to the present invention;

FIG. 4 is a schematic view of the structure of the work table, slide bar and cleaning bar of the present invention;

FIG. 5 is a schematic perspective view of a worktable according to the present invention;

FIG. 6 is a schematic view of a connection structure of a slider and a fixture block according to the present invention;

fig. 7 is a schematic view of the connection structure of the placing block and the telescopic hammer of the present invention.

In the figure: 1. a body; 2. a strut; 3. a slideway; 4. a slider; 5. a clamping block; 6. a cylinder; 7. a piston rod; 8. fixing the disc; 9. connecting blocks; 10. a sensing box; 11. a humidity sensor; 12. a pressure sensor; 13. a bolt; 14. a fixed block; 15. placing a box; 16. a limiting groove; 17. a work table; 18. a support block; 19. an outlet; 20. a collection box; 21. a top block; 22. a column; 23. a transmission line; 24. a reservoir; 25. a connector; 26. a limiting block; 27. a placement groove; 28. a movable block; 29. a holder; 30. a cleaning rod; 31. a slide bar; 32. a chute; 33. placing a rack; 34. a guide groove; 35. an ultrasonic detector; 36. placing the blocks; 37. a telescopic hammer; 38. a telescoping spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a bearing wall bearing pressure simulation experiment device based on pressure sensing determination comprises a body 1, a support rod 2, a slide rail 3, a slide block 4, a clamping block 5, a cylinder 6, a piston rod 7, a fixed disc 8, a connecting block 9, a sensing box 10, a humidity sensor 11, a pressure sensor 12, a bolt 13, a fixed block 14, a placing box 15, a limiting groove 16, a workbench 17, a supporting block 18, an outlet 19, a collecting box 20, a top block 21, an upright column 22, a transmission line 23, a storage 24, a connecting head 25, a limiting block 26, a placing groove 27, a movable block 28, a clamping tool 29, a cleaning rod 30, a slide rod 31, a slide groove 32, a placing frame 33, a guide groove 34, an ultrasonic detector 35, a placing block 36, a telescopic hammer 37 and a telescopic spring 38, wherein the support rod 2 is installed above the body 1, the slide rail 3 is installed on the inner side of the support rod 2, the slide block 4 is installed on the, and one end of the fixture block 5 is provided with a connection block 9, a sensor box 10 is arranged inside the connection block 9, a humidity sensor 11 is arranged on the outer wall of the sensor box 10, an ultrasonic detector 35 is arranged at the bottom of the sensor box 10, a placement block 36 is arranged on the outer wall of the ultrasonic detector 35, a telescopic spring 38 is arranged on the inner side of the placement block 36, a telescopic hammer 37 is arranged on the outer wall of the telescopic spring 38, a cylinder 6 is arranged at the top center position of the body 1, a piston rod 7 is arranged at the bottom of the cylinder 6, a fixed disc 8 is arranged at the bottom of the piston rod 7, a pressure sensor 12 is arranged above the fixed disc 8, a storage device 24 is arranged inside the pressure sensor 12, a transmission line 23 is arranged at the bottom of the storage device 24, a limit block 26 is arranged at the top of the transmission line 23, a placement box 15 is, the inner wall of the limiting block 26 is provided with a placing groove 27, the outer wall of the movable block 28 is provided with a clamping tool 29, the inner side of the top of the body 1 is provided with a limiting groove 16, the inner bottom of the body 1 is provided with a supporting block 18, the inner side of the center of the supporting block 18 is provided with a collecting box 20, and the top of the collecting box 20 and the supporting block 18 is provided with a workbench 17, the inner side of the workbench 17 is provided with a placing frame 33, the inner side of the placing frame 33 is provided with a slide bar 31, and the inner side of the sliding rod 31 is provided with a sliding chute 32, the outer wall of the sliding rod 31 is provided with a cleaning rod 30, the outer wall of the working platform 17 is provided with a guide groove 34, and the bottom of the working table 17 is provided with an outlet 19, the outer wall of the supporting block 18 is provided with an upright post 22, and the inner bottom of the supporting block 18 is provided with a top block 21, the top of the body 1 is provided with a bolt 13, and the bottom of the bolt 13 is provided with a fixed block 14, and one end of the pressure sensor 12 is provided with a connector 25.

The left width and the right width of the supporting rod 2 are equal to the left width and the right width of the slideway 3, the upper length and the lower length of the slideway 3 are smaller than the upper length and the lower length of the slideway 3, the outer wall of the supporting rod 2 is fixedly connected with the inner wall of the slideway 3, the structural design increases the mobility of the fixture block 5, and the functionality of the fixture block 5 is also improved.

The inboard of slider 4 and slide 3's outer wall swing joint, and the shape size of slide 3 outer wall is the same with the inboard shape size of slider 4 to slider 4 is square shape structural design, and the design of above-mentioned structure increases the slip effect of slider 4.

The left width and the right width of the sensing box 10 are smaller than the left width and the right width of the connecting block 9, the upper length and the lower length of the connecting block 9 are larger than the upper length and the lower length of the sensing box 10, one end of the connecting block 9 is fixedly connected with the outer wall of the sensing box 10, and the safety of the humidity sensor 11 is improved due to the design of the structure.

The top of body 1 and fixed block 14 is run through to the one end of bolt 13, and the bottom of body 1 and the top fixed connection of fixed block 14 to bolt 13 is "T" word shape structural design, and the design of above-mentioned structure increases the connectivity of body 1 and fixed block 14, has also increased the stability of fixed block 14 and branch 2 simultaneously.

The inner side of the limiting groove 16 is movably connected with the outer wall of the transmission line 23, the shape and the size of the inner side of the limiting groove 16 are the same as those of the outer wall of the transmission line 23, and the inner side of the limiting groove 16 is designed to be of a rectangular structure, so that the safety of the transmission line 23 is improved.

The top of supporting shoe 18 and the bottom fixed connection of workstation 17, and the upper and lower length of supporting shoe 18 is greater than the upper and lower length of workstation 17 to the left and right width of supporting shoe 18 is less than the left and right width of workstation 17, and the design of above-mentioned structure has increased the stable effect of workstation 17, has also increased the stability of device during operation simultaneously.

The inboard outer wall fixed connection with the movable block 28 of standing groove 27, and the shape size of the inboard shape size of standing groove 27 is the same with the shape size of the outer wall of movable block 28 to the inboard of standing groove 27 is rectangle shape structural design, and the design of above-mentioned structure makes things convenient for the block of movable block 28 and standing groove 27, increases the stability of movable block 28.

The inboard outer wall fixed connection with movable block 28 of centre gripping utensil 29, and the shape size of movable block 28 outer wall is the same with the inboard shape size of centre gripping utensil 29 to centre gripping utensil 29 is "T" word shape structural design with movable block 28, and the design of above-mentioned structure is convenient to the insisting on of display screen, has also made things convenient for people's installation and dismantlement simultaneously, has practiced thrift people's operating time.

The inside of guide way 34 and the outer wall swing joint of cleaning rod 30, and the shape size of the inboard shape size of guide way 34 is the same with the shape size of cleaning rod 30 outer wall to guide way 34 is the design of rectangle shape structure, and the design of above-mentioned structure has increased the functionality of device, has also reduced the time that people cleaned simultaneously, the indirect work load that has simplified people.

The working principle is as follows: when the bearing wall body bearing pressure simulation experiment device based on pressure sensing determination is used, firstly, referring to fig. 1-2, a part of the bearing wall body is placed above a workbench 17 in a body 1, the bottom of the workbench 17 is supported by a supporting block 18, the stability of the workbench 17 is increased, meanwhile, the two sides of the supporting block 18 are connected with supporting rods 2 through upright posts 22, the fixity of the supporting block 18 is increased, the influence of shaking generated in work on the experiment result is avoided, then, an air cylinder 6 is started, the air cylinder 6 drives a connecting block 9 to perform a pressure simulation experiment on the wall body through the cooperation with a piston rod 7 when working, a humidity sensor 11 is installed at the bottom of the connecting block 9, when the connecting block 9 extrudes the wall body through the piston rod 7, humidity detection is performed on the interior of the wall body through the humidity sensor 11, the humidity sensor 11 transmits the detected data to a display screen through the connection part with a sensing box 10, the sensing box 10 is arranged at the central position where the humidity sensor 11 is connected with the connecting block 9, so that people can conveniently record, when a pressure detection test of the wall is completed, the ultrasonic detector 35 is attached to the front side of the wall, after the attachment, the telescopic hammer 37 is matched with the telescopic spring 38 to beat the surface of the wall, when the beating sound detects the air tightness of the wall through the ultrasonic detector 35, the detected data is also matched with the transmission line 23 through the sensing box 10 to transmit the data to a display, so that people can conveniently record, and meanwhile, people can conveniently replace the wall in time, when one end of the bolt 13 penetrates through the fixed block 14 and the supporting rod 2, the fixation of the three parts during connection is increased, the stability of the connecting block 9 during operation is also ensured, referring to fig. 6, under the matching of the slide 3 arranged on the supporting rod 2 and the slide block 4, the effect of up-and-down movement of the connecting block 9 is increased, meanwhile, the stability of the connecting block 9 is also increased, then, a secondary extrusion simulation experiment is performed on the wall body, referring to fig. 3, data obtained through the pressure sensor 12 is transmitted to the display screen through the transmission line 23 for recording, and the comparison of the bearing pressure of the wall body is facilitated for people, when the connecting block 9 moves up and down along with the piston rod 7 and the cylinder 6, the transmission line 23 is zoomed through the turntable when the connecting block 23 moves up and down, so that the problem that the length of the transmission line 23 is avoided, when the placing box 15 is used, people can clamp and adjust the position of the display screen through pulling the movable block 28 and the clamping tool 29, and also facilitate the disassembly and the installation of people, the storage device 24 is arranged inside the pressure sensor 12 for preventing the loss of data, so that people can conveniently retain the data, when the experiment, referring to fig. 4-5, the wall body is taken out of the workbench 17, the dust left on the workbench 17 is moved back and forth on the workbench 17 by the cleaning rod 30 in the using process under the matching of the cleaning rod 30 and the sliding rod 31, so that people can clean the upper part of the workbench 17 conveniently, the outer wall of the cleaning rod 30 works through a brush, when the cleaning rod 30 gathers the dust to the central position of the workbench 17, the dust flows into the collecting box 20 from the outlet 19, after the dust flows out, the outlet 19 is blocked by an electromagnetic valve, so that people can collect the dust conveniently, when people take out the collecting box 20, the collecting box 20 and the top block 21 can be separated by pushing up the top block 21, the people are also very convenient in the collecting process, the practicability of the device is increased, and the operation flow of people is simplified.

To thereby carry out a series of tasks, the contents of which are not described in detail in the present specification are prior art well known to those skilled in the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a bearing wall bears pressure simulation experiment device based on pressure sensing survey, includes body (1), humidity transducer (11), collecting box (20) and clean pole (30), its characterized in that: the improved water-saving device is characterized in that a support rod (2) is installed above a body (1), a slide way (3) is installed on the inner side of the support rod (2), a sliding block (4) is installed on the outer wall of the slide way (3), a clamping block (5) is installed on the inner side of the sliding block (4), a connecting block (9) is installed at one end of the clamping block (5), a sensing box (10) is installed inside the connecting block (9), a humidity sensor (11) is installed on the outer wall of the sensing box (10), an ultrasonic detector (35) is installed at the bottom of the sensing box (10), a placing block (36) is installed on the outer wall of the ultrasonic detector (35), a telescopic spring (38) is installed on the inner side of the placing block (36), a telescopic hammer (37) is installed on the outer wall of the telescopic spring (38), an air cylinder (6) is installed at the top center position of the body, and the bottom of the piston rod (7) is provided with a fixed disk (8), a pressure sensor (12) is arranged above the fixed disk (8), a storage device (24) is arranged inside the pressure sensor (12), the bottom of the storage device (24) is provided with a transmission line (23), the top of the transmission line (23) is provided with a limit block (26), the top of the limit block (26) is provided with a placing box (15), the outer wall of the placing box (15) is provided with a movable block (28), the inner wall of the limit block (26) is provided with a placing groove (27), the outer wall of the movable block (28) is provided with a clamping tool (29), the inner side of the top of the body (1) is provided with a limit groove (16), the inner bottom of the body (1) is provided with a supporting block (18), the inner side of the center of the supporting block (18) is provided with a collecting box (20), and the tops of the collecting, rack (33) are installed to the inboard of workstation (17), and slide bar (31) are installed to the inboard of rack (33) to spout (32) have been seted up to the inboard of slide bar (31), clean pole (30) are installed to the outer wall of slide bar (31), guide way (34) have been seted up to the outer wall of workstation (17), and the bottom installation of workstation (17) has seted up export (19), stand (22) are installed to the outer wall of supporting shoe (18), and the interior bottom of supporting shoe (18) installs kicking block (21), bolt (13) are installed at the top of body (1), and fixed block (14) are installed to the bottom of bolt (13), connector (25) are installed to the one end of pressure sensors (12).

2. The bearing wall bearing pressure simulation experiment device based on the pressure sensing measurement as claimed in claim 1, wherein: the left width and the right width of the supporting rod (2) are equal to the left width and the right width of the slide (3), the upper length and the lower length of the slide (3) are smaller than the upper length and the lower length of the slide (3), and the outer wall of the supporting rod (2) is fixedly connected with the inner wall of the slide (3).

3. The bearing wall bearing pressure simulation experiment device based on the pressure sensing measurement as claimed in claim 1, wherein: the inner side of the sliding block (4) is movably connected with the outer wall of the sliding way (3), the shape and the size of the outer wall of the sliding way (3) are the same as those of the inner side of the sliding block (4), and the sliding block (4) is designed into a square structure.

4. The bearing wall bearing pressure simulation experiment device based on the pressure sensing measurement as claimed in claim 1, wherein: the left width and the right width of the sensing box (10) are smaller than the left width and the right width of the connecting block (9), the upper length and the lower length of the connecting block (9) are larger than the upper length and the lower length of the sensing box (10), and one end of the connecting block (9) is fixedly connected with the outer wall of the sensing box (10).

5. The bearing wall bearing pressure simulation experiment device based on the pressure sensing measurement as claimed in claim 1, wherein: one end of the bolt (13) penetrates through the tops of the body (1) and the fixing block (14), the bottom of the body (1) is fixedly connected with the top of the fixing block (14), and the bolt (13) is designed to be of a T-shaped structure.

6. The bearing wall bearing pressure simulation experiment device based on the pressure sensing measurement as claimed in claim 1, wherein: the inner side of the limiting groove (16) is movably connected with the outer wall of the transmission line (23), the shape and size of the inner side of the limiting groove (16) are the same as those of the outer wall of the transmission line (23), and the inner side of the limiting groove (16) is designed to be rectangular.

7. The bearing wall bearing pressure simulation experiment device based on the pressure sensing measurement as claimed in claim 1, wherein: the top of the supporting block (18) is fixedly connected with the bottom of the workbench (17), the upper and lower lengths of the supporting block (18) are greater than the upper and lower lengths of the workbench (17), and the left and right widths of the supporting block (18) are smaller than the left and right widths of the workbench (17).

8. The bearing wall bearing pressure simulation experiment device based on the pressure sensing measurement as claimed in claim 1, wherein: the inner side of the placing groove (27) is fixedly connected with the outer wall of the movable block (28), the shape and size of the inner side of the placing groove (27) are the same as those of the outer wall of the movable block (28), and the inner side of the placing groove (27) is designed into a rectangular structure.

9. The bearing wall bearing pressure simulation experiment device based on the pressure sensing measurement as claimed in claim 1, wherein: the inner side of the clamping tool (29) is fixedly connected with the outer wall of the movable block (28), the shape and the size of the outer wall of the movable block (28) are the same as those of the inner side of the clamping tool (29), and the clamping tool (29) and the movable block (28) are designed into a T-shaped structure.

10. The bearing wall bearing pressure simulation experiment device based on the pressure sensing measurement as claimed in claim 1, wherein: the inner side of the guide groove (34) is movably connected with the outer wall of the cleaning rod (30), the shape and size of the inner side of the guide groove (34) are the same as those of the outer wall of the cleaning rod (30), and the guide groove (34) is designed in a rectangular structure.