阅读说明：本技术 一种可伸缩调节的智能安检设备 (Intelligent security inspection equipment of scalable regulation ) 是由 周焕 于 2021-02-26 设计创作，主要内容包括：本发明涉及智能安检相关设备技术领域,具体为一种可伸缩调节的智能安检设备。一种可伸缩调节的智能安检设备,包括设置在安全检测场所内的进出口处的安检箱,所述安检箱上侧壁体内设有转动腔,所述转动腔内设有用于带动检查者进行转动的检测平台,所述安检箱内设有关于所述转动腔对称的驱动弹簧腔；能够通过自由收缩使体积最大程度上进行缩小,使设备在储存或者运输时能够更加方便,从而使空间能够很好的利用,且能使运输时更加方便；能够根据使用者的具体情况进行组合拼接,最大程度上满足使用者的需求,还能带动检查者的身体进行转动,从而对身体进行全方位的检查,从而有效的提高检查的准确率,使检查的安全程度大大提高。(The invention relates to the technical field of intelligent security check related equipment, in particular to a telescopically adjustable intelligent security check device. A telescopically adjustable intelligent security inspection device comprises a security inspection box arranged at an inlet and an outlet in a security inspection place, wherein a rotating cavity is arranged in the upper side wall body of the security inspection box, a detection platform for driving an inspector to rotate is arranged in the rotating cavity, and a driving spring cavity symmetrical to the rotating cavity is arranged in the security inspection box; the volume can be reduced to the maximum extent through free contraction, so that the equipment can be more convenient to store or transport, the space can be well utilized, and the transportation is more convenient; can make up the concatenation according to user's particular case, satisfy user's demand in the at utmost, can also drive examiner's health and rotate to carry out omnidirectional inspection to the health, thereby the rate of accuracy of effectual improvement inspection makes the safety degree of inspection improve greatly.)

1. The utility model provides an intelligent security installations of scalable regulation which characterized in that: the safety inspection box comprises a safety inspection box (001) arranged at any position in a safety inspection place, wherein a first detection mechanism (003) is arranged in the safety inspection box (001), the first detection mechanism (003) comprises a sliding block (303) in a sliding block cavity (304), three laser heads (301) for inspecting bodies are fixedly arranged in the first detection mechanism (003), a clamping block cavity (302) for splicing is arranged in a lower side wall body of the first detection mechanism (003), a plurality of splicing blocks (004) for splicing are arranged in the sliding cavity (100) in an array manner, an upper side wall body of each splicing block (004) is an inclined plane gradually reducing the gradient towards the direction of a detection platform (002), a bottom wall connecting cavity (402) for splicing is arranged in the lower side wall body of each splicing block (004), and a side wall connecting cavity (401) is arranged in a wall body on one side of the detection platform (002), the splicing block (004) on the lower side of the side wall connecting cavity (401) is far away from the wall body on one side of the first detection mechanism (003) and is internally provided with a connecting mechanism (005) in a rotating manner, and the connecting mechanism (005) and the splicing block (004) between the side wall connecting cavity (401) are internally provided with a clamping mechanism (006) for limiting the rotation of the connecting mechanism (005).

2. The intelligent security check device of claim 1, wherein: be equipped with in security check case (001) lateral wall body and rotate chamber (201), it is used for driving the examiner and carries out pivoted test platform (002) to rotate to be equipped with in chamber (201), be equipped with in security check case (001) about rotate driving spring chamber (103) of chamber (201) symmetry, driving spring chamber (103) keep away from in it is equipped with sliding chamber (100) to rotate chamber (201) one side, keep away from in it rotates chamber (201) one side be equipped with in security check case (001) lateral wall body with the ascending chamber (101) that slides chamber (100) intercommunication, ascending chamber (101) are controlled the lateral wall body and are equipped with slider chamber (304), it is equipped with first detection mechanism (003) to slide in chamber (101) to rise.

3. The intelligent security check device of claim 1, wherein: splice piece (004) be close to in the wall body of testing platform (002) one side is internal to be equipped with a plurality of magnetic detector (403) that are used for carrying out the health and detect to the person that detects, whether magnetic detector (403) can examine the person that inclines out and carry dangerous goods on one's body to carry out information feedback, connecting block (404) have set firmly on the lateral wall body around splice piece (004), axis of rotation (405) has set firmly between connecting block (404), between connecting block (404) rotate on axis of rotation (405) and be equipped with rotor plate (406) that can adjust the direction, splice piece (004) upside inclined plane with be equipped with between rotor plate (406) downside and can stretch out and draw back expanding spring (408), rotor plate (406) are in the horizontality when expanding spring (408) are in natural state.

4. The intelligent security check device of claim 1, wherein: the side wall connecting cavity (401) is arranged at the lower side of the side wall connecting cavity (401), the splicing block (004) is far away from the wall body at one side of the rotating cavity (201), the inner part of the side wall connecting cavity is provided with a rotating shaft, the inner part of the side wall connecting cavity (201) is provided with a connecting mechanism (005), the inner part of the side wall connecting mechanism (005) is provided with a hydraulic cylinder (502), the inner part of the hydraulic cylinder (502) is provided with a movable sliding cavity (501), a sliding block (503) is fixedly arranged on a hydraulic push rod of the movable sliding cavity (501), a rotating shaft cavity (504) is arranged in the front side wall body of the sliding block (503), a rotating shaft (506) is rotatably arranged on the bottom wall of the rotating shaft cavity (504), a connecting rod (507) is fixedly arranged on the lower side of the rotating shaft (506), a fixing rod (508) capable of sliding into the side wall connecting cavity (401) is fixedly arranged on the lower side of the, when the torsion spring (505) is in a natural state, the connecting rod (507) is vertically downward, and the opening is vertically upward.

5. The intelligent security check device of claim 1, wherein: the side wall is connected the chamber (401) downside be equipped with spring chamber (604) in splice (004), spring chamber (604) with communicate from top to bottom, first electro-magnet (602) has set firmly on the lateral wall body on spring chamber (604), it is equipped with slide bar (606) to slide in spring chamber (604), slide bar (606) upside set firmly slidable mounting in second electro-magnet (603) in spring chamber (604), first electro-magnet (602) with be equipped with between second electro-magnet (603) can stretch out and draw back spring (605), spring (605) are in the extension state, first electro-magnet (602) with second electro-magnet (603) can drive after the circular telegram slide bar (606) reciprocate.

6. The intelligent security check device of claim 1, wherein: the utility model discloses a detection device for the safety of the foot, including rotation chamber (201) downside wall body internal fixation have a rotation motor (202), rotation motor (202) power output shaft sets firmly detection platform (002), detection platform (002) rotate install in rotation chamber (201), just detection platform (002) can detect the underfoot that is examining to ensure the safety of underfoot, detection platform (002) keep away from in the wall body of rotation motor (202) one side sets firmly pressure sensors (203) that are used for trigger device to start, rotation chamber (201) downside wall body internal fixation has a rotation motor (202), rotation motor (202) power output shaft sets firmly detection platform (002), detection platform (002) rotate install in rotation chamber (201), just detection platform (002) can detect the underfoot that is examining, thereby ensure the safety of underfoot, and a pressure sensor (203) used for triggering the start of the device is fixedly arranged in the wall body of one side of the detection platform (002) far away from the rotating motor (202).

7. The intelligent security check device of claim 1, wherein: it is used for promoting to slide in the driving spring chamber (103) splice (004) to keeping away from in sliding chamber (100) rotating drive spring (105) that chamber (201) one side removed, driving spring (105) be close to rotate chamber (201) one side with be equipped with between driving spring chamber (103) the diapire can the horizontal slip push pedal (104).

8. The intelligent security check device of claim 1, wherein: rise chamber (101) downside slip chamber (100) downside wall internal stability has set firmly drive spring chamber (103), first hydraulic pressure push pedal (107) have set firmly on the hydraulic pressure push rod of first pneumatic cylinder (106) upside, first hydraulic pressure push pedal (107) are close to it sets firmly auxiliary baffle (112) that are used for supplementary promotion on the downside wall body of rotation chamber (201) one side.

9. The intelligent security check device of claim 1, wherein: a third hydraulic cylinder (110) is fixedly arranged in a wall body on one side of the ascending cavity (101) far away from the rotating cavity (201), a third hydraulic push plate (111) is fixedly arranged on a liquid push rod on one side of the third hydraulic cylinder (110) close to the rotating cavity (201), the third hydraulic push plate (111) is used for fixing the splicing block (004) in the ascending cavity (101), a sensor (102) is fixedly arranged on a partition wall between the ascending cavity (101) and the sliding cavity (100), and the sensor (102) is used for detecting whether the bottom wall of the splicing block (004) in the ascending cavity (101) is positioned on the same plane with the top wall of the sliding cavity (100) or not, so that the starting of the third hydraulic cylinder (110) is effectively controlled.

10. The intelligent security check device of claim 1, wherein: slide chamber (100) keep away from in the wall body of rotation chamber (201) one side has set firmly second hydraulic cylinder (108), second hydraulic cylinder (108) be close to in the liquid push rod of slide chamber (100) one side has set firmly second hydraulic pressure push pedal (109), second hydraulic pressure push pedal (109) are used for the concatenation to accomplish splice (004) promote to reset.

Technical Field

The invention relates to the technical field of intelligent security check related equipment, in particular to a telescopically adjustable intelligent security check device.

Background

The safety inspection is the inspection for the construction project to carry out the conditions of safety production laws and regulations, safety production conditions, labor conditions, accident hidden dangers and the like; the safety inspection is divided into four inspection methods: firstly, X-ray security check equipment, secondly, a door detection check door, thirdly, a magnetic detector and fourthly, manual check, namely, manual inspection personnel manually turn over passenger luggage, and respectively carry out searching and checking on male and female inspectors, and the like; these are some inspection methods of security inspection, in which the physical inspection of the inspector and the detection of whether the inspector carries contraband may have errors by a detection inspection door, and the detection may also require a detection of close-up inspection by a detector, so that the detection becomes cumbersome, and some errors may occur by human detection, but in some important places or important meetings, the errors are fatal; general higher-end intelligent security inspection equipment is cumbersome to transport; therefore, the intelligent security inspection equipment capable of being adjusted in a telescopic mode needs to be designed.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides the intelligent safety inspection equipment with telescopic adjustment, the size can be reduced to the maximum extent through free contraction, and the equipment can be more convenient to store or transport, so that the space can be well utilized, and the transportation is more convenient; and can make up the concatenation according to user's particular case, satisfy user's demand to the at utmost, can also carry out the omnidirectional to examiner's health and examine to the rate of accuracy of effectual improvement inspection makes the degree of safety improve greatly.

The technical scheme adopted by the invention for solving the technical problems is as follows: a scalable intelligent security inspection equipment that adjusts, including the security inspection case of exit position that sets up in the safety inspection place, be equipped with the rotation chamber in the security inspection case upside wall body, be equipped with the testing platform that is used for driving the inspector and rotates in the rotation chamber, the security inspection incasement is equipped with the drive spring chamber about the rotation chamber symmetry, the drive spring chamber is kept away from rotation chamber one side and is equipped with the slip chamber, keep away from rotation chamber one side security inspection case upside wall body be equipped with the chamber that rises of slip intercommunication, the chamber that rises is equipped with the slider chamber about the lateral wall body, it is equipped with first detection mechanism to slide in the chamber that rises, set firmly symmetrical sliding block of sliding mounting in the slider chamber on the wall body outside the first detection mechanism, the sliding block with the slider chamber can carry out electronic chucking, can pass through electric control promptly the sliding block card goes into the slider intracavity is fixed, the sliding block can be driven to slide in the sliding block cavity to move out through power failure, the first detection mechanism is internally and fixedly provided with three laser heads for checking bodies close to the arc-shaped wall body on one side of the rotating cavity, the lower side wall body of the first detection mechanism is internally provided with a fixture block cavity for splicing, the sliding cavity is internally provided with a plurality of splicing blocks for splicing, the upper side wall body of each splicing block is an inclined plane gradually reducing towards the direction of the detection platform, the lower side wall body of each splicing block is internally provided with a bottom wall connecting cavity for splicing, the splicing block far away from the wall body on one side of the detection platform is internally provided with a side wall connecting cavity, the splicing block on the lower side of the side wall connecting cavity is far away from the wall body on one side of the first detection mechanism and is internally provided with a connecting mechanism in a rotating manner, and the splicing block between the connecting mechanism and the side wall connecting cavity is, the splice piece is close to in the wall body of testing platform one side is internal to be equipped with a plurality of magnetic detector that are used for carrying out the health to the person of examining and detect, whether magnetic detector can examine the person of examining and carry dangerous goods on one's body to carry out information feedback, the connecting block has set firmly on the lateral wall body around the splice piece, the axis of rotation has set firmly between the connecting block, between the connecting block rotate in the axis of rotation and be equipped with the rotor plate that can adjust the direction, splice piece upside inclined plane with be equipped with the expanding spring that can stretch out and draw back between the rotor plate downside, the rotor plate is in the horizontality when expanding spring is in natural state.

As preferred, the lateral wall connection chamber downside the splice keep away from in the internal being equipped with of wall of rotation chamber one side, the internal being equipped with of internal, the upside wall is equipped with, keep away from in rotation chamber one side has set firmly coupling mechanism, be equipped with the pneumatic cylinder in the coupling mechanism, the pneumatic cylinder internal setting has removed smooth chamber, the sliding block has set firmly on removing smooth chamber hydraulic push rod, the internal pivot chamber that is equipped with of lateral wall before the sliding block, it is equipped with the pivot to rotate on the pivot chamber diapire, the pivot downside has set firmly the connecting rod, the connecting rod downside has set firmly can slide to the dead lever in the lateral wall connection chamber, the pivot with be equipped with the torsional spring that can hold power between the pivot chamber, when the torsional spring is in natural state the connecting rod is perpendicular downwards, this.

Preferably, a spring cavity is formed in the splicing block on the lower side of the side wall connecting cavity, the spring cavity is communicated with the upper portion and the lower portion, a first electromagnet is fixedly arranged on a wall body on the upper side of the spring cavity, a sliding rod is slidably arranged in the spring cavity, a second electromagnet slidably arranged in the spring cavity is fixedly arranged on the upper side of the sliding rod, a spring capable of stretching is arranged between the first electromagnet and the second electromagnet, the spring is in an extending state, and the first electromagnet and the second electromagnet can be driven to move up and down after being electrified.

Preferably, a rotating motor is fixedly arranged in the wall body on the lower side of the rotating cavity, a detection platform is fixedly arranged on a power output shaft of the rotating motor, the detection platform is rotatably arranged in the rotating cavity and can detect the feet under the examination, so that the safety of the feet is ensured, and a pressure sensor for starting the trigger device is fixedly arranged in the wall body on one side of the rotating motor and is far away from the detection platform. Rotate the intracavity side wall body internal setting and have rotated the motor, rotate and set firmly testing platform on the motor power output shaft, testing platform rotate install in rotate the intracavity, just testing platform can detect the underfoot that is examining to ensure underfoot safety, testing platform keep away from in rotate the wall body of motor one side and set firmly the pressure sensors who is used for trigger device to start.

Preferably, the driving spring cavity is internally provided with a driving spring in a sliding manner, the driving spring is used for pushing the splicing blocks in the sliding cavity to move towards the side far away from the rotating cavity, and a sliding push plate capable of sliding left and right is arranged between the side close to the rotating cavity and the bottom wall of the driving spring cavity.

Preferably, a driving spring cavity is fixedly arranged in the lower side wall body of the sliding cavity on the lower side of the ascending cavity, a first hydraulic push plate is fixedly arranged on a hydraulic push rod on the upper side of the first hydraulic cylinder, and an auxiliary baffle plate for assisting pushing is fixedly arranged on the lower side wall body close to one side of the rotating cavity.

Preferably, a third hydraulic cylinder is fixedly arranged in a wall body on one side of the rotating cavity far away from the ascending cavity, a third hydraulic push plate is fixedly arranged on a liquid push rod on one side of the third hydraulic cylinder close to the rotating cavity, the third hydraulic push plate is used for fixing the splicing blocks in the ascending cavity, a sensor is fixedly arranged on a wall between the ascending cavity and the sliding cavity, and the sensor is used for detecting whether the bottom wall of the splicing blocks in the ascending cavity and the top wall of the sliding cavity are in the same plane, so that the starting of the third hydraulic cylinder is effectively controlled.

Preferably, a second hydraulic cylinder is fixedly arranged in the wall body of one side of the sliding cavity, which is far away from the rotating cavity, a second hydraulic push plate is fixedly arranged on a liquid push rod close to one side of the sliding cavity, and the second hydraulic push plate is used for pushing and resetting the splicing blocks after splicing.

The invention has the advantages that the volume can be reduced to the maximum extent through free shrinkage, so that the equipment can be more convenient to store or transport, thereby the space can be well utilized, and the transportation is more convenient; can make up the concatenation according to user's particular case, satisfy user's demand in the at utmost, can also drive examiner's health and rotate to carry out omnidirectional inspection to the health, thereby the rate of accuracy of effectual improvement inspection makes the safety degree of inspection improve greatly.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a telescopically adjustable intelligent security inspection apparatus according to the present invention;

FIG. 2 is an isometric view of a telescopically adjustable intelligent security inspection apparatus of FIG. 1;

FIG. 3 is an expanded schematic view of the telescopically adjustable intelligent security inspection apparatus of FIG. 1;

FIG. 4 is an enlarged view of the first sensing mechanism of FIG. 1;

FIG. 5 is an enlarged view of the splice of FIG. 1;

FIG. 6 is a partial cross-sectional view taken at "A-A" in FIG. 5;

FIG. 7 is a partial cross-sectional view taken at "B-B" of FIG. 5;

FIG. 8 is a partial cross-sectional view taken at "C-C" in FIG. 5;

wherein, the security inspection box 001, the sliding cavity 100, the ascending cavity 101, the sensor 102, the driving spring cavity 103, the sliding push plate 104, the driving spring 105, the first hydraulic cylinder 106, the first hydraulic push plate 107, the second hydraulic cylinder 108, the second hydraulic push plate 109, the third hydraulic cylinder 110, the third hydraulic push plate 111, the auxiliary baffle 112, the detection platform 002, the rotating cavity 201, the rotating motor 202, the pressure sensor 203, the arc detection block 003, the laser head 301, the fixture cavity 302, the sliding block 303, the sliding cavity 304, the splicing block 004, the side wall connecting cavity 401, the bottom wall connecting block cavity 402, the magnetic detector 403, the connecting block 404, the rotating shaft 405, the rotating plate 406, the clamping block 407, the expansion spring 408, the connecting mechanism 005, the moving sliding cavity 501, the hydraulic cylinder 502, the sliding block 503, the rotating shaft cavity 504, the torsion spring 505, the rotating shaft 506, the connecting rod 507, the fixing rod 508, the clamping mechanism 006, the first electromagnet 602, A second electromagnet 602, a spring cavity 604, a spring 605, a sliding rod 606, and a locking groove 607.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

As shown in fig. 1-8, an intelligent security inspection device capable of telescopic adjustment comprises a security inspection box 001 disposed at an entrance and exit position in a security inspection place, a rotation cavity 201 is disposed in an upper side wall body of the security inspection box 001, a detection platform 002 for driving an inspector to rotate is disposed in the rotation cavity 201, a driving spring cavity 103 symmetrical to the rotation cavity 201 is disposed in the security inspection box 001, a sliding cavity 100 is disposed on one side of the driving spring cavity 103 away from the rotation cavity 201, an ascending cavity 101 communicated with the sliding cavity 100 is disposed in an upper side wall body of the security inspection box 001 away from one side of the rotation cavity 201, sliding block cavities 304 are disposed in left and right side wall bodies of the ascending cavity 101, a first detection mechanism 003 is slidably disposed in the ascending cavity 101, sliding blocks 303 symmetrically slidably mounted in the sliding block cavities 304 are fixedly disposed on an outer side wall body of the first detection mechanism 003, the sliding block 303 and the sliding block cavity 304 can be electrically clamped, that is, the sliding block 303 can be clamped into the sliding block cavity 304 for fixation through electric control, the sliding block 303 can be driven to slide in the sliding block cavity 304 for removal through power failure, the first detection mechanism 003 is close to the arc-shaped wall body on one side of the rotating cavity 201, three laser heads 301 for body examination are fixedly arranged in the arc-shaped wall body, the lower side wall body of the first detection mechanism 003 is provided with a fixture block cavity 302 for splicing, the sliding cavity 100 is internally provided with a plurality of splicing blocks 004 for splicing, the upper side wall body of each splicing block 004 is an inclined plane gradually reducing the gradient towards the detection platform 002 direction, the lower side wall body of each splicing block 004 is provided with a bottom wall connecting cavity 402 for splicing, the splicing block 004 is far away from the wall body on one side of the detection platform 002, the splicing block 004 at the lower side of the side wall connecting cavity 401 is rotatably provided with a connecting mechanism 005 in the wall body at the side far away from the first detection mechanism 003, the splicing block 004 between the connecting mechanism 005 and the side wall connecting cavity 401 is internally provided with a clamping mechanism 006 for limiting the rotation of the connecting mechanism 005, the splicing block 004 is close to the wall body at the side of the detection platform 002, a plurality of magnetic detectors 403 for detecting the body of a detected person are arranged in the wall body, the magnetic detectors 403 can detect whether the detected person carries dangerous articles or not so as to feed back information, the front side wall body and the rear side wall body of the splicing block 004 are fixedly provided with connecting blocks 404, a rotating shaft 405 is fixedly arranged between the connecting blocks 404, a rotating plate 406 capable of adjusting the direction is rotatably arranged on the rotating shaft 405 between the connecting blocks 404, and a telescopic spring 408 is arranged between the inclined plane at the upper side of the splicing block 004 and the lower side of the rotating, the rotating plate 406 is in a horizontal state when the extension spring 408 is in a natural state;

the splicing blocks 004 can be spliced one by inserting the connecting mechanism 005 into the side wall connecting cavity 401, and the connecting mechanism 005 can move up and down to drive the splicing blocks 004 on the lower side to move up and down, when the splicing blocks 004 move up, the clamping blocks 407 on the upper side of the splicing blocks 004 on the lower side are driven to be slidably mounted in the bottom wall connecting cavity 402 arranged in the wall body on the lower side of the splicing blocks 004 on the upper side, so that each section of the splicing blocks 004 can be spliced, the sliding blocks 303 are clamped into the sliding block cavities 304 without moving through electric control, then the clamping blocks 407 on the lower side of the first detection mechanism 003 can be driven to slide into the clamping block cavities 302 to be clamped by driving the splicing blocks 004 on the lower side of the first detection mechanism 003 to splice the first detection mechanism 003 and the splicing blocks 004, after the first detection mechanism 003 and the splice 004 are spliced, the upward movement and the clamping one by one can be carried out, the first detection mechanism 003 can press the lower side about gravity down the rotor plate 406 on the upper side of the splice 004 rotates along the connecting block 404 as the center, the telescopic spring 408 compresses at the moment, the first detection mechanism 003 and the splice 004 are combined, and the part extending out of the ascending cavity 101 forms an arc surface to one side of the rotating cavity 201, when the extending-out assembly reaches a specified height, the arc-shaped joint is used for carrying out safety inspection on an inspector, and the inspection mode can realize the comprehensive inspection of the human body from top to bottom, thereby effectively improving the accuracy of the safety inspection.

The splicing block 004 at the lower side of the side wall connecting cavity 401 is arranged in a wall body at one side far away from the rotating cavity 201, the splicing block is rotationally arranged in the upper side wall body, a connecting mechanism 005 is fixedly arranged at one side far away from the rotating cavity 201, a hydraulic cylinder 502 is arranged in the connecting mechanism 005, a movable sliding cavity 501 is fixedly arranged in the hydraulic cylinder 502, a sliding block 503 is fixedly arranged on a hydraulic push rod of the movable sliding cavity 501, a rotating shaft cavity 504 is arranged in the side wall body in front of the sliding block 503, a rotating shaft 506 is rotatably arranged on the bottom wall of the rotating shaft cavity 504, a connecting rod 507 is fixedly arranged at the lower side of the rotating shaft 506, a fixing rod 508 capable of sliding into the side wall connecting cavity 401 is fixedly arranged at the lower side of the connecting rod 507, a torsion spring 505 capable of storing power is arranged between the rotating shaft 506 and the rotating shaft cavity 504, and, the opening is vertically upward; the connecting mechanism 005 is used for splicing between the splicing blocks 004, when the fixing rod 508 slides into the side wall connecting cavity 401, the movable sliding cavity 501 is started to drive the sliding block 503 to move upwards, so as to drive the rotating shaft 506, the connecting rod 507 and the fixing rod 508 to move upwards, so as to drive the lower side to be used for splicing the side wall connecting cavity 401 to move upwards, so that the clamping block 407 mounted on the side wall connecting cavity 401 at the lower side slides into the bottom wall connecting cavity 402 arranged in the side wall connecting cavity 401 at the upper side, so as to realize each movable clamping between the splicing blocks 004, so that each section of the splicing blocks 004 can be spliced more firmly, and the safety is higher.

A spring cavity 604 is arranged in the splicing block 004 on the lower side of the side wall connecting cavity 401, the spring cavity 604 is communicated with the upper part and the lower part, a first electromagnet 602 is fixedly arranged on the upper side wall body of the spring cavity 604, a sliding rod 606 is arranged in the spring cavity 604 in a sliding manner, a second electromagnet 603 arranged in the spring cavity 604 in a sliding manner is fixedly arranged on the upper side of the sliding rod 606, a telescopic spring 605 is arranged between the first electromagnet 602 and the second electromagnet 603, the spring 605 is in an extension state, and the first electromagnet 602 and the second electromagnet 603 can be driven to move up and down after being electrified; after the first electromagnet 602 and the second electromagnet 603 are energized, the sliding rod 606 can be driven to slide downwards, so that the sliding rod 606 slides into the spring cavity 604 to be clamped, and the movement is limited, when the first electromagnet 602 and the second electromagnet 603 are powered off, the sliding rod 606 is positioned in the spring cavity 604 and is not limited to rotate, and only when the connecting rod 507 is vertically downward and the opening faces the spring cavity 604, the sliding rod 606 can slide into the spring cavity to be clamped.

A rotating motor 202 is fixedly arranged in a wall body on the lower side of the rotating cavity 201, a detection platform 002 is fixedly arranged on a power output shaft of the rotating motor 202, the detection platform 002 is rotatably arranged in the rotating cavity 201, the detection platform 002 can detect the detected feet, so that the safety of the feet is ensured, and a pressure sensor 203 for starting a trigger device is fixedly arranged in a wall body on one side of the detection platform 002, which is far away from the rotating motor 202; pressure sensors 203 in this equipment can stand through the inspector whether someone detects detection to the pressure effect of testing platform 002 upside, then can trigger and rotate motor 202 and start, thereby drive testing platform 002 through rotating motor 202 and rotate, thereby make the inspection carry out three hundred sixty degrees rotations, thereby make and pass through first detection mechanism 003 with the safety inspection that concatenation piece 004 concatenation was accomplished carries out the omnidirectional inspection of inspector's health, thereby realize carrying out comprehensive inspection to inspector's health and underfoot, this equipment generally can use in the higher special place of safety requirement, thereby guarantee the safety level in this place to the at utmost.

A driving spring 105 for pushing the splicing block 004 in the sliding cavity 100 to move towards the side far away from the rotating cavity 201 is slidably arranged in the driving spring cavity 103, and a sliding push plate 104 capable of sliding left and right is arranged between the side, close to the rotating cavity 201, of the driving spring 105 and the bottom wall of the driving spring cavity 103; when the splicing block 004 on the lower side of the ascending cavity 101 moves to the upper side, the driving spring 105 can move towards one side far away from the rotating cavity 201 under the action of the sliding push plate 104, so that the splicing block 004 is driven to move towards one side far away from the rotating cavity 201, and the splicing block 004 is convenient to move and splice.

A driving spring cavity 103 is fixedly arranged in the lower side wall body of the sliding cavity 100 on the lower side of the ascending cavity 101, a first hydraulic push plate 107 is fixedly arranged on a hydraulic push rod on the upper side of the first hydraulic cylinder 106, and an auxiliary baffle plate 112 for auxiliary pushing is fixedly arranged on the lower side wall body of the first hydraulic push plate 107 close to one side of the rotating cavity 201; when the first detection mechanism 003 and the splicing block 004 in the ascending cavity 101 are spliced, the first hydraulic cylinder 106 is started, the first hydraulic push plate 107 is driven to slide upwards when the first hydraulic cylinder 106 is started, so that the auxiliary baffle 112 is driven to slide upwards, the splicing block 004 is driven to slide upwards when the first hydraulic push plate 107 slides upwards, so that the splicing block 004 in the sliding cavity 100 is driven to move into the ascending cavity 101 for splicing the splicing blocks 004 one by one, and the auxiliary baffle 112 is used for preventing the splicing block 004 from moving upwards, so that the splicing block 004 in the sliding cavity 100 is far away from one side of the rotating cavity 201 to move under the action of the driving spring 105, and the process that the splicing block 004 moves from the sliding cavity 100 to the ascending cavity 101 is prevented from being blocked.

A third hydraulic cylinder 110 is fixedly arranged in a wall body on one side of the ascending cavity 101, which is far away from the rotating cavity 201, a third hydraulic push plate 111 is fixedly arranged on a liquid push rod on one side of the third hydraulic cylinder 110, which is close to the rotating cavity 201, the third hydraulic push plate 111 is used for fixing the splicing block 004 in the ascending cavity 101, a sensor 102 is fixedly arranged on a wall between the ascending cavity 101 and the sliding cavity 100, and the sensor 102 is used for detecting whether the bottom wall of the splicing block 004 in the ascending cavity 101 is positioned on the same plane with the top wall of the sliding cavity 100, so that the effective control on the starting of the third hydraulic cylinder 110 is realized; when the equipment is spliced and unfolded, when the sensor 102 detects that the splicing block 004 is completely sent into the ascending cavity 101 by the first hydraulic push plate 107, the third hydraulic cylinder 110 is started, and when the third hydraulic cylinder 110 is started, the third hydraulic push plate 111 is driven to clamp the splicing block 004 in the ascending cavity 101, so that the splicing block 004 in the ascending cavity 101 and the splicing block 004 in the sliding cavity 100 can be conveniently spliced and installed; when the device is retracted, the start sensor 102 detects that the wall body of the splicing block 004 retracted into the ascending cavity 101 and the top wall of the sliding cavity 100 are in the same plane, and controls the third hydraulic cylinder 110 to start, so that the third hydraulic push plate 111 clamps the splicing block 004 retracted into the ascending cavity 101, the splicing block 004 retracted into the ascending cavity 101 and the sliding cavity 100 can be conveniently moved and separated, and the device can be effectively retracted.

A second hydraulic cylinder 108 is fixedly arranged in a wall body of one side of the sliding cavity 100, which is far away from the rotating cavity 201, a second hydraulic push plate 109 is fixedly arranged on a liquid push rod of one side of the second hydraulic cylinder 108, which is close to the sliding cavity 100, and the second hydraulic push plate 109 is used for pushing and resetting the spliced block 004 after splicing; the second hydraulic cylinder 108 is started, the second hydraulic cylinder 108 starts the splicing block 004 which can detach the clamping block 407 and the bottom wall connecting cavity 402 from the installation and slides towards the side close to the rotating cavity 201, so that the fixing rod 508 and the side wall connecting cavity 401 between the splicing blocks 004 detach from the installation, the splicing block 004 moves and resets along the sliding cavity 100, and at the moment, the driving spring 105 synchronously moves under the action of the sliding push plate 104.

The above-described embodiments are merely illustrative of the preferred embodiments of the present invention and do not limit the spirit and scope of the present invention. Various modifications and improvements of the technical solutions of the present invention may be made by those skilled in the art without departing from the design concept of the present invention, and the technical contents of the present invention are all described in the claims.