CN112903448A

CN112903448A - Building cement piece pressure measurement equipment

Info

Publication number: CN112903448A
Application number: CN202110501944.7A
Authority: CN
Inventors: 王庆山; 王瑞祥
Original assignee: Nanjing Qingrui Cement Co ltd
Current assignee: Nanjing Qingrui Cement Co ltd
Priority date: 2021-05-08
Filing date: 2021-05-08
Publication date: 2021-06-04

Abstract

The invention discloses building cement block pressure detection equipment, and belongs to the technical field of cement detection. A pressure detection device for a building cement block comprises a supporting seat, a bearing table, a pressure supply mechanism, a pressure tester and a code scanning mechanism; according to the invention, the code reading assembly is arranged above the bearing platform, and the code reading assembly is used for scanning and reading the to-be-detected cement bricks with associated information, so that the information of the to-be-detected cement bricks is quickly led into an external control mechanism, and the operation mode of manual recording is avoided; the top surface of the supporting seat is also provided with a power assembly, the power assembly is used for driving the pressing assembly to rotate, so that when the pressing assembly pushes the pressure tester to perform pressure test on the cement bricks to be tested placed on the bearing table, the code reading assembly rotates and rises through the lifting assembly in friction transmission with the power assembly. The invention has high automation degree, low production cost and simple and convenient maintenance, and is beneficial to improving the detection efficiency and accuracy of the pressure test of the cement brick.

Description

Building cement piece pressure measurement equipment

Technical Field

The invention relates to the technical field of cement detection, in particular to a pressure detection device for a building cement block.

Background

With the continuous development of the economy and the comprehensive national force of China, the operation of various industries tends to be more and more standardized. The building industry is one of the basic industries of China, and the healthy operation of the building industry is directly related to the sustainable development of national economy. In recent years, with the gradual establishment and improvement of market economy in China, the construction industry is also subjected to spatial development, the construction industry is rapidly developed and simultaneously exposes a plurality of problems, and the quality of construction engineering becomes one of the focuses of people. Before the construction of the building engineering, a construction unit can carry out construction only after an authoritative cement sample qualification detection report is taken.

The existing pressure test of the cement blocks is mainly to manually prepare the cement blocks and carry out a press test after 28 days of maintenance, and the traditional manual recording of the state information of the cement blocks cannot meet the increasing production requirement due to the fact that the number of the test blocks is large and the maintenance time of each cement block is different in the maintenance and storage process. In view of this, we propose a pressure detection device for a block of building cement.

Disclosure of Invention

1. Technical problem to be solved

The present invention is directed to a pressure detecting apparatus for a building cement block to solve the above-mentioned problems of the background art.

2. Technical scheme

A building cement block pressure detection device comprises a supporting seat, a bearing table, a pressure supply mechanism, a pressure tester and a code scanning mechanism, wherein the supporting seat is of a C-shaped structure, the bearing table is arranged on the bottom surface of the inner side of the supporting seat, the position of the pressure supply mechanism relative to the bearing table penetrates through one side of the upper end of the supporting seat, the pressure tester is arranged at the lower end of the pressure supply mechanism and corresponds to the bearing table, and the code scanning mechanism is arranged on one side of the pressure supply mechanism and is in friction transmission with the pressure supply mechanism through a belt;

the pressure supply mechanism comprises a power assembly arranged on the top surface of the supporting seat and a pressing assembly penetrating the upper end of the supporting seat, the power assembly is used for providing a rotating force, and the pressing assembly is used for pushing the pressure tester; the code scanning mechanism comprises a lifting assembly penetrating the other side of the top surface of the supporting seat and a code reading assembly arranged at the lower end of the lifting assembly, the lifting assembly is used for driving the code reading assembly to rotate and lift, and the code reading assembly is used for reading cement bricks on the bearing platform;

the end part of the testing head of the pressure tester is provided with a testing cap which is used for protecting the testing head.

Preferably, power component includes and sets firmly the three-phase motor in the supporting seat top through the motor mount pad is vertical, three-phase motor output shaft tip has synchronizing wheel A through the coupling joint, synchronizing wheel A passes through the belt and sweeps a yard mechanism upper portion friction drive.

Preferably, the push-down subassembly includes the screw thread section of thick bamboo with hub lower extreme fixed connection, screw thread section of thick bamboo lower extreme rotates through the turn trough of spacing arch and supporting seat top surface to be connected, still be equipped with the screw thread post rather than threaded connection in the screw thread section of thick bamboo, the screw thread post lower extreme is worn out the turn trough and is extended to the supporting seat inside and the welding has the push pedal, run through on the engaging lug of push pedal both sides and be equipped with the guide arm, the guide arm upper end is connected fixedly with the inboard top surface of supporting seat, the pressure tester sets firmly in push pedal middle part bottom surface through the mounting panel.

Preferably, the lifting assembly comprises a limiting seat which is arranged on one side of the threaded cylinder and is fixedly connected with the top surface of the supporting seat, the limiting seat is of an F-shaped structure, a synchronizing wheel B is limited in a cavity in the upper part of the limiting seat, the synchronizing wheel B is in friction transmission with the ratchet wheel through a belt, and a guide pillar is embedded on the wall surface of a hole cavity of the synchronizing wheel B.

Preferably, the lifting assembly further comprises a cam rod inserted into the cavity of the B-shaped hole of the synchronizing wheel, a curved groove is formed in one fourth of the outer wall of the upper portion of the cam rod, the curved groove is connected with the guide pillar in a sliding mode, the upper end of the cam rod penetrates through the top surface of the limiting seat, the lower end of the cam rod penetrates through the top surface of the supporting seat to extend into the supporting seat and is connected with the side wall of the supporting seat through the guide seat, and a damper movably abutted to the outer wall of the cam rod is arranged in the guide.

Preferably, the code reading assembly comprises a connecting plate arranged below the cam rod, a motor cover fixedly connected with the lower end of the cam rod is fixedly arranged at the starting end of the connecting plate, a driving motor is arranged in the motor cover, the end part of an output shaft of the driving motor penetrates through the starting end of the connecting plate to extend to the lower part of the connecting plate and is sleeved with a rotary table, and a pull rod is welded on the bottom surface of the rotary table close to the circumference.

Preferably, connecting plate terminal underrun tooth post rotates and is connected with the dwang, the kerve has been seted up to the position that is close to the starting end on the dwang, the kerve is the bar groove and slides with the pull rod extrusion, flexible chamber has been seted up at the dwang terminal, flexible intracavity slides and is equipped with the ejector pin, the code reader is installed at the ejector pin terminal, code reader projection route intersects with the bearing platform position, the tooth's socket with the tooth post adaptation is seted up to the ejector pin starting end, one side inner wall of the relative carousel rotation direction of tooth's socket is equipped with the rack with tooth post meshing.

Preferably, the test cap is movably sleeved with the end part of the test head of the pressure tester.

Preferably, the method for using the building cement block pressure detection device is characterized by comprising the following steps: s1, labeling and warehousing, namely, when the manufactured cement sample is placed into a curing warehouse for storage, printing label paper through a coding machine, and attaching the related information recorded with warehousing serial numbers, warehousing dates, manufacturers and the like to the surface of the cement sample; s2, scanning and discharging the codes, wherein workers discharge the cement bricks to be detected from the warehouse through scanning records by using handheld code readers; s3, performing pressure test, namely performing pressure test on the cement bricks to be detected which are delivered from the warehouse through pressure detection equipment; and S4, issuing a detection report.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

according to the invention, the code reading assembly is arranged above the bearing platform, and the code reading assembly is used for scanning and reading the to-be-detected cement bricks with the associated information, so that the information of the to-be-detected cement bricks is quickly led into the external control mechanism, the operation mode of manual recording is avoided, time and labor are saved, the standard management is facilitated, and the detection accuracy is improved; the top surface of the supporting seat is also provided with a power assembly, the power assembly is used for positively rotating to drive the pressing assembly, so that the pressing assembly pushes the pressure tester to perform pressure test on the cement bricks to be tested placed on the bearing table, and meanwhile, when the pressure tester is pushed, the code reading assembly rotationally ascends through the lifting assembly in friction transmission with the power assembly to provide enough space for the pressure tester to perform pressure test. The invention has high automation degree, low production cost and simple and convenient maintenance, and is beneficial to improving the detection efficiency and accuracy of the pressure test of the cement brick.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention before pressure testing;

FIG. 2 is a schematic diagram of the overall structure after pressure testing;

FIG. 3 is a bottom view of the overall structure of the present invention;

FIG. 4 is a schematic diagram of the overall structure of the present invention, shown disassembled;

FIG. 5 is a schematic view of the pressure feeding mechanism of the present invention;

FIG. 6 is a schematic view of the code scanning mechanism of the present invention;

FIG. 7 is a partial schematic structural view of the present invention;

FIG. 8 is a schematic view of the reading assembly of the present invention, shown in disassembled form;

the reference numbers in the figures illustrate: 1. a supporting seat; 2. a bearing table; 3. a pressure supply mechanism; 4. a code scanning mechanism; 5. a belt; 6. a power assembly; 601. a three-phase motor; 602. a synchronizing wheel A; 7. pressing the assembly; 701. a threaded barrel; 702. a threaded post; 703. pushing the plate; 704. a guide bar; 8. a lifting assembly; 801. a limiting seat; 802. a synchronizing wheel B; 803. a cam lever; 804. a curved groove; 805. a guide post; 9. a code reading component; 901. a connecting plate; 902. a motor cover; 903. a drive motor; 904. a turntable; 905. a pull rod; 906. rotating the rod; 907. groove drawing; 908. a code reader; 909. a tooth post; 910. a top rod; 10. and (6) testing the cap.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1-8, the present invention provides a technical solution:

a building cement block pressure detection device comprises a supporting seat 1, a bearing table 2, a pressure supply mechanism 3, a pressure tester and a code scanning mechanism 4, wherein the supporting seat 1 is of a C-shaped structure, the bearing table 2 is arranged on the inner bottom surface of the supporting seat 1, the position of the pressure supply mechanism 3, which is opposite to the bearing table 2, is arranged on one side of the upper end of the supporting seat 1 in a penetrating manner, the pressure tester is arranged at the lower end of the pressure supply mechanism 3 and corresponds to the bearing table 2, and the code scanning mechanism 4 is arranged on one side of the pressure supply mechanism 3 and is in friction transmission with the pressure supply mechanism 3 through a belt 5; in the invention, the pressure supply mechanism 3, the pressure tester and the code scanning mechanism 4 are all connected with an external control mechanism.

The pressure supply mechanism 3 comprises a power assembly 6 arranged on the top surface of the supporting seat 1 and a pressing assembly 7 penetrating the upper end of the supporting seat 1, the power assembly 6 is used for providing a rotating force, and the pressing assembly 7 is used for pushing a pressure tester; the code scanning mechanism 4 comprises a lifting component 8 penetrating the other side of the top surface of the supporting seat 1 and a code reading component 9 arranged at the lower end of the lifting component 8, the lifting component 8 is used for driving the code reading component 9 to rotate, and the code reading component 9 is used for reading cement bricks on the bearing platform 2; according to the invention, the code reading assembly 9 is arranged above the bearing platform 2, and the code reading assembly 9 is used for scanning and reading the to-be-detected cement bricks with associated information, so that the information of the to-be-detected cement bricks is quickly led into an external control mechanism, the operation mode of manual recording is avoided, time and labor are saved, the standard management is facilitated, and the detection accuracy is improved; the top surface of the supporting seat 1 is also provided with a power component 6, the power component 6 is used for driving a pressing component 7 to push the pressure tester to carry out pressure test on the cement bricks to be tested placed on the bearing table 2, and meanwhile, when the pressure tester is pushed, the code reading component 9 rotates and rises through a lifting component 8 in friction transmission with the power component 6 to provide enough space for the pressure tester to carry out pressure test. The invention has high automation degree, low production cost and simple and convenient maintenance, and is beneficial to improving the detection efficiency and accuracy of the pressure test of the cement brick.

The end part of the testing head of the pressure tester is provided with a testing cap 10, and the testing cap 10 is used for protecting the testing head.

As a preferred scheme of the invention, the power assembly 6 comprises a three-phase motor 601 vertically and fixedly arranged above the supporting seat 1 through a motor mounting seat, the end part of an output shaft of the three-phase motor 601 is connected with a synchronizing wheel A602 through a coupling, and the synchronizing wheel A602 is in friction transmission with the upper part of the code scanning mechanism 4 through a belt 5. The three-phase motor 601 of the present invention is controlled by an external control mechanism.

As a preferred scheme of the invention, the pressing component 7 comprises a threaded cylinder 701 fixedly connected with the lower end of the shaft skin, the lower end of the threaded cylinder 701 is rotatably connected with a rotary groove on the top surface of the supporting seat 1 through a limiting bulge, a threaded column 702 in threaded connection with the threaded cylinder 701 is further arranged in the threaded cylinder 701, the lower end of the threaded column 702 penetrates through the rotary groove and extends to the inside of the supporting seat 1 and is welded with a push plate 703, guide rods 704 penetrate through connecting lugs on two sides of the push plate 703, the upper end of each guide rod 704 is fixedly connected with the top surface on the inner side of the supporting seat 1, and a pressure tester is fixedly arranged on the. The distance of downward rotary movement of the threaded column 702 is matched with the distance from the lower end of the pressure tester to the top surface of the bearing table 2.

As a preferred scheme of the invention, the lifting assembly 8 comprises a limiting seat 801 which is arranged on one side of the threaded cylinder 701 and is fixedly connected with the top surface of the supporting seat 1, the limiting seat 801 is of an F-shaped structure, a synchronizing wheel B802 is limited in a cavity at the upper part of the limiting seat 801, the synchronizing wheel B802 is in friction transmission with the ratchet wheel through a belt 5, and a guide pillar 805 is embedded on the wall surface of the cavity of the synchronizing wheel B802.

As a preferable scheme of the present invention, the lifting assembly 8 further includes a cam rod 803 inserted into the cavity of the synchronizing wheel B802, a curved groove 804 is formed in a quarter of an outer wall of the upper portion of the cam rod 803, that is, an included angle between a starting end of the curved groove 804 and a terminal end of the curved groove is 90 degrees, the curved groove 804 is slidably connected to the guide pillar 805, an upper end of the cam rod 803 penetrates through a top surface of the limit seat 801, a lower end of the cam rod 803 penetrates through a top surface of the support seat 1 to extend into the support seat and is connected to a side wall of the support seat 1 through the guide seat, a damper movably abutted to an outer wall of the cam rod 803 is provided in. According to the invention, the guide post 805 is driven by the driving wheel 802, so that the guide post 805 extrudes the cam rod 803 which is in sliding connection with the guide post 805 in the rotating process, and the cam rod 803 is rotated by 90 degrees while being lifted up and down. The relative height of the code reading assembly 9 and the bearing table 2 can be increased through the rotary lifting of the cam rod 803, so that the situation that cement bricks are splashed when a pressure tester moves downwards to press the codes is avoided, and the code reading assembly 9 is broken.

As a preferred scheme of the present invention, the code reading assembly 9 includes a connecting plate 901 disposed below the cam rod 803, a motor cover 902 fixedly connected to the lower end of the cam rod 803 is fixedly disposed at the start end of the connecting plate 901, a driving motor 903 is disposed in the motor cover 902, the driving motor 903 is a servo motor and can adjust the rotation speed, the end of the output shaft of the driving motor 903 extends to the lower portion through the start end of the connecting plate 901 and is sleeved with a turntable 904, and a pull rod 905 is welded on the bottom surface of the turntable 904 near the circumference.

As a preferable scheme of the invention, the bottom surface of the terminal of the connecting plate 901 is rotatably connected with a rotating rod 906 through a tooth pillar 909, a pull groove 907 is arranged on the rotating rod 906 at a position close to the starting end, the pull groove 907 is a strip-shaped groove and is extruded and slid with a pull rod 905, a telescopic cavity is arranged at the terminal of the rotating rod 906, a top rod 910 is arranged in the telescopic cavity in a sliding manner, a code reader 908 is arranged at the terminal of the top rod 910, the projection path of the code reader 908 is intersected with the position of the bearing platform 2, a tooth socket matched with the tooth pillar 909 is arranged at the starting end of the top rod 910, and a rack meshed with the tooth. The elevation of the movement of the code reader 908 in the present invention is adapted to the elevation of the downswing of the threaded post 702. The label of the cement brick to be detected is read by the scanning code reader 908 which swings back and forth, so that the reading area is favorably increased, the label information can be read by express delivery without being placed at a specified position, and the detection efficiency is favorably improved. In addition, the sliding-out top rod 910 is arranged in the rotating rod 906, so that when the rotating rod 906 is pushed and pulled by the pull rod 905 to rotate around the tooth column 909, the top rod 910 meshed with the tooth column 909 drives the code reader 908 to stretch and retract, and further, when code reading is started, the code reader 908 is pushed and extended by the top rod 910 in the first half rotation of the rotating disc 904, and pulled and retracted by the top rod 910 in the second half rotation of the rotating disc 904, so that transverse space is temporarily used when the code reader 9 is driven by the lifting assembly 8 to rotate, the volume of the pressure detection equipment is reduced, and the miniaturization development of products is facilitated.

As a preferable scheme of the invention, the testing cap 10 is movably sleeved with the end part of the testing head of the pressure tester.

The use method of the building cement block pressure detection equipment is characterized by comprising the following steps: s1, labeling and warehousing, namely, when the manufactured cement sample is placed into a curing warehouse for storage, printing label paper through a coding machine, and attaching the related information recorded with warehousing serial numbers, warehousing dates, manufacturers and the like to the surface of the cement sample; s2, scanning and discharging the codes, wherein workers discharge the cement bricks to be detected from the warehouse through scanning records by using handheld code readers; the handheld code reader is networked with an external control mechanism; s3, performing pressure test, namely performing pressure test on the cement bricks to be detected which are delivered from the warehouse through pressure detection equipment; and S4, issuing a detection report. In the present invention, the pressure tester and code reader 908 outputs the detected electrical signal to the external control mechanism, and the external control mechanism performs report printing through a printer connected to the external control mechanism.

The working principle is as follows: in the invention, a three-phase motor 601, a driving motor 903, a pressure tester, a damper and a code reader 908 are all connected with an external control mechanism, when a cement block needs to be continuously detected, a hand-held code reader is manually held to take the cement block to be detected out of a warehouse, and scanning information is uploaded to the external control mechanism through the Internet for information processing; placing the cement block with the label paper information on the top surface of the bearing platform 2 (the label paper is upward), driving the driving motor 903 to rotate through an external control mechanism, driving the rotating disc 904 to rotate by the output shaft of the driving motor 903, driving the rotating disc 904 to rotate through the pull rod 905 at the far point of the rotating disc 904 in the rotating process, so that the rotating disc 906 swings around the tooth post 909 in a reciprocating manner, when code reading is started, the front half circle of the rotating disc 904 rotates, the code reader 908 is pushed out by the ejector rod 910, the rear half circle of the rotating disc 904 rotates, the code reader 908 is pulled by the ejector rod 910 to retract, and the code reader 908 at the terminal of the rotating disc 906 realizes information reading of the cement block to be tested; after the code reader 908 finishes scanning, the three-phase motor 601 is driven to rotate positively through an external control mechanism, so that the three-phase motor 601 drives the synchronizing wheel A602, the synchronizing wheel A602 drives the threaded cylinder 701 fixedly connected with the synchronizing wheel A, the threaded cylinder 701 extrudes the threaded column 702 in threaded connection with the threaded cylinder through a threaded groove in the threaded cylinder when rotating on the top surface of the supporting seat 1, the threaded column 702 generates downward rotation motion under the limiting action of the guide rod 704, and the threaded column 702 pushes the pressure tester arranged on the bottom surface of the push plate 703 to move downwards until a test point at the lower end of the pressure tester extrudes a cement block to perform pressure test; meanwhile, when the three-phase motor 601 rotates, the synchronizing wheel a602 drives the synchronizing wheel B802 to rotate through the belt 5, the synchronizing wheel B802 rotates to enable the guide pillar 805 in the hole cavity of the synchronizing wheel B to extrude the cam rod 803 in sliding connection with the guide pillar, so that the cam rod 803 moves upwards in the rotating process, the code reading assembly 9 is limited by the curve groove 804 and rotates 90 degrees when moving upwards along with the cam rod 803, and the cam rod 803 is electrified and damped by the damper to avoid gravity falling of the cam rod 803 when the cam rod is lifted to the highest point and rotates 90 degrees; after the pressure test of the cement block is completed, the damper is powered off and is separated from contact with the high-position cam rod 803, the three-phase motor 601 is driven to rotate reversely through the external control mechanism, and the process is reversely carried out, so that the pressure tester and the code reader 908 are reset to wait for the next detection.

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, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a building cement piece pressure measurement equipment which characterized in that: the automatic code scanning device comprises a supporting seat (1), a bearing table (2), a pressure supply mechanism (3), a pressure tester and a code scanning mechanism (4), wherein the supporting seat (1) is of a C-shaped structure, the bearing table (2) is arranged on the inner bottom surface of the supporting seat (1), the position of the pressure supply mechanism (3) relative to the bearing table (2) is arranged on one side of the upper end of the supporting seat (1) in a penetrating manner, the pressure tester is arranged at the lower end of the pressure supply mechanism (3) and corresponds to the bearing table (2), and the code scanning mechanism (4) is arranged on one side of the pressure supply mechanism (3) and is in friction transmission with the pressure supply mechanism (3) through a belt (5); the pressure supply mechanism (3) comprises a power assembly (6) arranged on the top surface of the supporting seat (1) and a pressing assembly (7) penetrating the upper end of the supporting seat (1), the power assembly (6) is used for providing a rotating force, and the pressing assembly (7) is used for pushing a pressure tester; the code scanning mechanism (4) comprises a lifting component (8) penetrating through the other side of the top surface of the supporting seat (1) and a code reading component (9) arranged at the lower end of the lifting component (8), the lifting component (8) is used for driving the code reading component (9) to rotate, and the code reading component (9) is used for reading cement bricks on the bearing platform (2); the end part of the testing head of the pressure tester is provided with a testing cap (10), and the testing cap (10) is used for protecting the testing head.

2. The apparatus for detecting the pressure of a structural cement block according to claim 1, wherein: power component (6) are including vertically setting firmly three-phase motor (601) in supporting seat (1) top through the motor mount pad, three-phase motor (601) output shaft tip has synchronizing wheel A (602) through the coupling joint, synchronizing wheel A (602) through belt (5) with sweep yard mechanism (4) upper portion friction drive.

3. The apparatus for detecting the pressure of a structural cement block according to claim 2, wherein: push down subassembly (7) include with axle skin lower extreme fixed connection's a thread section of thick bamboo (701), a thread section of thick bamboo (701) lower extreme rotates through the rotary trough of spacing arch and supporting seat (1) top surface to be connected, still be equipped with in a thread section of thick bamboo (701) rather than threaded connection's screw thread post (702), screw thread post (702) lower extreme is worn out the rotary trough and is extended to inside and the welding of supporting seat (1) and has push pedal (703), run through on the engaging lug of push pedal (703) both sides and be equipped with guide arm (704), guide arm (704) upper end is connected fixedly with supporting seat (1) inboard top surface, the pressure tester sets firmly in push pedal (703) middle part bottom surface through the mounting panel.

4. The apparatus for detecting the pressure of a structural cement block according to claim 3, wherein: the lifting assembly (8) comprises a limiting seat (801) which is arranged on one side of the threaded cylinder (701) and is fixedly connected with the top surface of the supporting seat (1), the limiting seat (801) is of an F-shaped structure, a synchronizing wheel B (802) is limited in a cavity in the upper part of the limiting seat (801), the synchronizing wheel B (802) is in friction transmission with a ratchet wheel through a belt (5), and a guide pillar (805) is embedded on the wall surface of a hole cavity of the synchronizing wheel B (802).

5. The apparatus for detecting the pressure of a structural cement block according to claim 4, wherein: the lifting assembly (8) further comprises a cam rod (803) inserted into a hole cavity of the synchronizing wheel B (802), a curve groove (804) is formed in the outer wall of one fourth of the upper portion of the cam rod (803), the curve groove (804) is in sliding connection with a guide pillar (805), the upper end of the cam rod (803) penetrates through the top surface of the limiting seat (801), the lower end of the cam rod (803) penetrates through the top surface of the supporting seat (1) to extend into the supporting seat and is connected with the side wall of the supporting seat (1) through a guide seat, and a damper movably abutted to the outer wall of the cam rod (803) is arranged in the guide seat.

6. The apparatus for detecting the pressure of a structural cement block according to claim 5, wherein: the code reading assembly (9) comprises a connecting plate (901) arranged below the cam rod (803), a motor cover (902) fixedly connected with the lower end of the cam rod (803) is fixedly arranged at the starting end of the connecting plate (901), a driving motor (903) is arranged in the motor cover (902), the end part of an output shaft of the driving motor (903) penetrates through the starting end of the connecting plate (901) to extend to the lower part and is sleeved with a rotating disc (904), and a pull rod (905) is welded at the position, close to the circumference, of the bottom surface of the rotating disc (904).

7. The apparatus for detecting the pressure of a structural cement block according to claim 6, wherein: the bottom surface of the terminal of the connecting plate (901) is rotatably connected with a rotating rod (906) through a toothed column (909), a pull groove (907) is formed in the position, close to the starting end, of the rotating rod (906), the pull groove (907) is a strip-shaped groove and extrudes and slides with a pull rod (905), a telescopic cavity is formed in the terminal of the rotating rod (906), a push rod (910) is arranged in the telescopic cavity in a sliding mode, a code reader (908) is installed at the terminal of the push rod (910), the projection path of the code reader (908) is intersected with the position of the bearing platform (2), a tooth socket matched with the toothed column (909) is formed in the starting end of the push rod (910), and a rack meshed with the toothed column (909) is arranged on the inner wall of one side.

8. The apparatus for detecting the pressure of a structural cement block according to claim 1, wherein: the test cap (10) is movably sleeved with the end part of the test head of the pressure tester.

9. The method for using the building cement block pressure detection device according to any one of claims 1 to 8, comprising the steps of: s1, labeling and warehousing, namely, when the manufactured cement sample is placed into a curing warehouse for storage, printing label paper through a coding machine, and attaching the labeled cement sample with a warehousing number, a warehousing date and manufacturer related information on the surface of the cement sample; s2, scanning and discharging the codes, wherein workers discharge the cement bricks to be detected from the warehouse through scanning records by using handheld code readers; s3, performing pressure test, namely performing pressure test on the cement bricks to be detected which are delivered from the warehouse through pressure detection equipment; and S4, issuing a detection report.