CN112150904B - Safety experience system - Google Patents

Abstract

The application provides a safety experience system, wherein a smashing safety experience device comprises an electric cabinet, a smashing device body, a fifth cylinder, a knocking part, a first transmission piece, a seventh fixed seat, a fixed assembly and a second transmission piece; the fifth cylinder, the second transmission piece, the first transmission piece and the knocking part are sequentially connected; the fifth cylinder is arranged on a seventh fixed seat, the seventh fixed seat and the fixed assembly are arranged on the smashing device body, and the knocking part is higher than the surface of the smashing device body; the fifth cylinder is controlled by an electric control box; the piston rod of the fifth cylinder is connected with the second transmission piece, the fifth cylinder provides power for the knocking portion through the second transmission piece and the first transmission piece, the knocking portion repeatedly knocks in the direction of the surface of the equipment body, and injury caused by smashing is simulated. Therefore, injury by crashing is simulated, and real experience of injury by crashing is brought to human testers.

Description

Safety experience system

The application is a divisional application of Chinese applications with the application numbers of CN201910935590.X, the application dates of 2019, 9 and 29 and the invented name of eye safety experience equipment and safety experience system.

Technical Field

The invention relates to the technical field of safety protection, in particular to a crushing injury safety experience device, a foot safety experience device and a safety experience system.

Background

Safety is of great importance to enterprises and staff, safety accidents in related fields such as head injury, hand and foot injury, scrap entering through eyes and the like frequently occur in factory production, construction of construction sites and the like, and the enterprises and the staff pay high cost for the safety accidents.

In the process, part of injuries are caused by the fact that the staff do not take preventive measures according to the regulations, so that the staff do not have awareness of possible dangers and do not wear any protective measures such as helmets, gloves, safety shoes, protective glasses and the like; the other part is that enterprises do not carry out corresponding safety training on employees, and the employees do not know how to protect and need to protect, so that injuries are caused.

Disclosure of Invention

The invention aims to provide a smashing injury safety experience device, a foot safety experience device and a safety experience system, which are used for simulating smashing injury and bringing real experience of smashing injury to a human examiner.

The purpose of the invention is realized by adopting the following technical scheme:

in a first aspect, the application provides a smashing safety experience device which comprises an electric cabinet, a smashing device body, a fifth cylinder, a knocking part, a first transmission piece, a seventh fixed seat, a fixed assembly and a second transmission piece; the fifth cylinder, the second transmission piece, the first transmission piece and the knocking part are sequentially connected; the fifth cylinder is arranged on the seventh fixed seat, the seventh fixed seat and the fixed assembly are arranged on the smashing equipment body, and the knocking part is higher than the surface of the smashing equipment body; the fifth cylinder is controlled by an electric control box; the piston rod of the fifth cylinder is connected with the second transmission piece, the fifth cylinder provides power for the knocking part through the second transmission piece and the first transmission piece, the knocking part repeatedly performs knocking actions in the direction of the surface of the smashing equipment body, and the smashing injury is simulated. The beneficial effects of this technical scheme lie in, experience people will wear the hand of protective gloves and place on the equipment body of injures by a crashing object on the surface or wear safe shoes and stand on the equipment body of injures by a crashing object on the surface, open on the electric cabinet and injure by a crashing object safe experience function, and the fifth cylinder begins work, drives the repeated action of knocking of portion of knocking, brings the real experience of injures by a crashing object for the person of testing. Therefore, the hand and/or foot injury action possibly occurring in a work site is simulated, real experience is provided for experience of an experience person under hand and/or foot injury, and through directly enabling all parts of the body of the experience person to have crisis nociception, the prevention consciousness of various injuries and the protection consciousness of wearing protective gloves and/or safety shoes can be enhanced, so that the purpose of protecting various injuries in such work scenes in future is achieved.

In some optional embodiments, the first transmission member is provided with a positioning hole and a transmission groove, and the first transmission member is movably connected with the fixing assembly through the positioning hole.

In some alternative embodiments, the drive slot is arcuate in shape.

In some optional embodiments, the second transmission piece includes a left side portion, a right side portion, a connecting portion, and a bottom portion, the left side portion and the right side portion are disposed on the bottom portion, and the left side portion and the right side portion are further connected by the connecting portion.

In some optional embodiments, the left side portion is provided with a left hole, the right side portion is provided with a right hole, and the connecting portion is a rivet detachably connected with the left side portion and the right side portion respectively.

In some alternative embodiments, a fifth foam is provided on the surface of the crushing device body. The technical scheme has the beneficial effects that a buffer area is provided for the hand or foot of the experiential person to bear the crush injury pressure, and the safety of the crush injury safety experience is improved.

In some alternative embodiments, the crush safety experience device is provided with a plurality of knocks. The technical scheme has the beneficial effect that the safe experience with higher knocking density is provided for the user.

In some alternative embodiments, the pounding security experience device comprises a hand pounding security experience device and/or a foot pounding security experience device. The technical scheme has the advantages that the hand and/or foot injury action possibly occurring in a work site is simulated, and real experience is provided for experiencing people in hand and/or foot injury.

In a second aspect, the application provides a foot safety experiencing device, which comprises any one of the injury-breaking safety experiencing device and the foot-supporting safety experiencing device;

the footstep safety experience equipment comprises a footstep equipment body, a jacking block, a sixth air cylinder and an eighth fixed seat;

the eighth fixed seat is fixed below the foot equipment body; the sixth air cylinder is arranged below the foot equipment body and is fixed on the eighth fixed seat; the foot equipment body is provided with a through hole, and the top block is positioned in the through hole; the sixth cylinder is controlled by an electric control box;

a piston rod of the sixth cylinder is connected with the jacking block; the ejector block reciprocates in the vertical direction under the action of the sixth cylinder, and can simulate the injury of an ejector pin when extending out of the through hole.

In some alternative embodiments, one or more protrusions are provided on the top block.

In a third aspect, the present application provides a safety experience system comprising any of the above-described wounding safety experience devices, or any of the above-described foot safety experience devices.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural diagram illustrating a security experience system according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of an eye safety experience device provided by an embodiment of the invention;

FIG. 3 is a schematic structural diagram of a head security experience device provided by an embodiment of the present invention;

FIG. 4 is a schematic diagram illustrating an internal structure of a head security experience device according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram illustrating a first fixing seat according to an embodiment of the present invention;

FIG. 6 is a schematic structural view of a lock pin provided by an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a pull pin according to an embodiment of the present invention;

FIG. 8 is a schematic structural diagram illustrating a safe experience device for cutting hands provided by an embodiment of the present invention;

fig. 9 is a schematic structural diagram of a second fixing seat according to an embodiment of the present invention;

FIG. 10 is a schematic structural diagram illustrating a hand-squeezing safety experience device provided by an embodiment of the present invention;

fig. 11 is a schematic structural diagram illustrating a crushing injury safety experiencing device according to an embodiment of the present invention;

fig. 12 is a schematic structural diagram illustrating a foot-smashing safety experiencing device and a foot-propping safety experiencing device which are integrated together according to an embodiment of the present invention;

fig. 13 is a schematic structural view illustrating a first transmission member according to an embodiment of the present invention;

FIG. 14 is a schematic diagram of a second transmission member according to an embodiment of the present invention;

fig. 15 shows a schematic structural diagram of a footing safety experiencing device provided by the embodiment of the present invention.

In the figure: 20. an eye safety experience device; 21. a container; 211. a front side plate; 212. a lower side plate; 213. a rear side plate; 214. a first baffle plate; 215. a second baffle; 216. a sloping plate; 217. an upper side plate; 218. an illuminating lamp; 22. gas outlet block; 221. an air outlet; 23. an air tube; 24. flying blocks; 10. a head security experience device; 11. a head apparatus body; 111. a fifth aperture; 12. a first fixed seat; 121. a first hole; 122. a second hole; 123. a third aperture; 13. a spring; 14. a lock pin; 141. a fourth aperture; 142. a first inclined plane; 15. pulling a pin; 151. a second inclined plane; 152. a sixth hole; 16. a first pull cord; 17. a second pull cord; 18. a material block; 19. erecting a rod; 30. a cut hand safety experience device; 31. cutting the hand equipment body; 32. a first cylinder; 33. a slider; 34. a transmission rod; 35. a second fixed seat; 36. a third fixed seat; 37. a fourth fixed seat; 38. first foam; 40. a hand squeezing safety experience device; 41. a hand squeezing device body; 42. a third cylinder; 43. a fourth cylinder; 44. a first slider; 45. a second slider; 46. a fifth fixed seat; 47. a sixth fixed seat; 48. second foam; 491. third foam; 492. fourth foam; 50. smashing a hand safety experience device; 51. smashing an equipment body; 52. a fifth cylinder; 53. a knocking portion; 54. a first transmission member; 541. positioning holes; 542. a transmission groove; 55. a seventh fixed seat; 56. a fixing assembly; 57. a second transmission member; 571. a left side portion; 5711. a left hole; 5721. a right hole; 572. a right side portion; 573. a bottom; 58. fifth, soaking cotton; 60. a foot-pounding safety experience device; 70. a foot-jacking security experience device; 71. a foot apparatus body; 72. a top block; 73. a sixth cylinder; 74. an eighth fixed seat; 75. a through hole; 80. an electric cabinet.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

Referring to fig. 1, an embodiment of the present invention provides a safety experience system, which includes an electric cabinet 80, a head safety experience device 10, a hand safety experience device, a crush injury safety experience device, a foot-supporting safety experience device 70, and an above eye safety experience device 20. The electric cabinet 80 is respectively connected with the eye safety experience equipment 20, the hand safety experience equipment, the smashing safety experience equipment and the jack-up safety experience equipment 70, and the safety experience functions of the eye safety experience equipment 20, the hand safety experience equipment, the smashing safety experience equipment and the jack-up safety experience equipment 70 and the safety experience process of an experience person are controlled. The hand safety experience device includes a cuter safety experience device 30 and/or a crowder safety experience device 40. The crush security experience device includes a crush hand security experience device 50 and/or a crush foot security experience device 60.

This safe experience system can simulate the injury head that the job site probably takes place, the action of eye, hand, foot, especially increased the eye safety that prior art did not possess and experienced equipment 20, for experience people's experience under head, eye, hand, foot injury provides real experience, through directly letting experience people's each position of health have crisis nociception, can strengthen its prevention consciousness and the protection consciousness of wearing safety helmet, protective glasses, protective gloves, safety shoes to reach the purpose of protecting various injuries under this kind of work scene from now on.

Referring to fig. 2, an embodiment of the present invention provides an eye-safety experience apparatus 20 comprising a container 21, a power device and at least one flyweight 24; the container 21 is provided with a front side plate 211, and the front side plate 211 is made of transparent material; the power device is used to provide power to fly the flyweights 24 toward the front side plate 211. The power device provides power and makes flyweight 24 move in container 21, and the injury of simulation eye experiences the people and can wear safety glasses and stand or sit before preceding curb plate 211, towards preceding curb plate 211, when flyweight 24 flies preceding curb plate 211 and bumps preceding curb plate 211, experiences people's eyes and has strong impact, brings the true experience of the injury of eye for experiencing the people.

Flyweight 24 may be a hollow structure or a solid structure. The material of the flyweight 24 directly affects the effect of the flyweight 24 impacting the front plate 211 in the container 21, and a material with a low density, such as plastic or foam, is required to easily blow the flyweight 24 by the high-pressure gas. Preferably, the flyweight 24 is made of PP plastic or PE plastic, which have mature processes, are widely used, and have low cost. The shape of the flyweight 24 may be a sphere, a prism, a pyramid, a cylinder, a cone, a truncated cone, a parallelepiped, or other irregular shape, and the surface of the flyweight 24 may be provided with one or more protrusions or recesses. To focus the attention of the experiencer on the flyweights 24, the flyweights 24 may be set to a vivid hue, such as red, yellow, or green.

The container 21 may be a cuboid, cube or other prism, and may also be a cylinder or other shape. The container 21 may be provided with opposing upper and lower side panels 217, 212 and a rear side panel 213 positioned opposite the front side panel 211.

The power plant may include at least one outlet hole 221; the flyweights 24 and the gas outlet holes 221 are provided in the container 21, and the gas outlet holes 221 are used to eject gas to blow the flyweights 24 toward the front side plate 211. The gas ejected from the gas outlet 221 impacts the flyweight 24 to provide power for the flyweight.

The power plant may also comprise an air outlet block 22 and an air pipe 23. The air outlet hole 221 is arranged on the air outlet block 22, and the air outlet block 22 is also provided with an air inlet hole (not shown) communicated with the air outlet hole 221 and an electromagnetic valve (not shown) for controlling air inlet; one end of the air pipe 23 is communicated with the air inlet hole, and the other end of the air pipe 23 is communicated with high-pressure air. The solenoid valve may be disposed within the inlet bore. The solenoid valve can be controlled by the electronic control box 80, and the air injection of the air outlet 221 is controlled by controlling the air inlet of the air inlet.

The air outlet block 22 may be provided inside the container 21, or may be partially provided inside the container 21 or partially provided outside the container 21.

The air outlet block 22 may be disposed at the middle portion of the inside of the container 21, the air outlet hole 221 may face the lower side plate 212 of the container 21, the air impacts the flyweight 24 from top to bottom to move the flyweight 24 in the container 21, or the air impacts the lower side plate 212 to blow the flyweight 24 in a transverse direction.

The air outlet block 22 may be provided at the joint of the lower side plate 212 and the rear side plate 213. At this time, there is no gap between the air outlet block 22 and the lower side plate 212 and the rear side plate 213, the flyweight 24 does not enter below the air outlet block 22, the air outlet hole 221 may face the front side plate 211, and the ejected air blows the flyweight 24 to impact the front side plate 211.

Because preceding curb plate 211 is transparent material, if posterior lateral plate 213 also adopts transparent material, then experience the people when carrying out eye safety experience, can see the thing that container 21 kept away from one side of experiencing the people through preceding curb plate 211, posterior lateral plate 213, influence experience effect, consequently, the material of posterior lateral plate 213 can be for non-transparent material.

Eye safety experience device 20 may further comprise a first baffle 214 disposed inside container 21; the first barrier 214 is positioned between the front side plate 211 and the rear side plate 213 and is placed in parallel with the front side plate 211, the upper end of the first barrier 214 is connected to the upper side plate 217, and the lower end of the first barrier 214 is positioned above the lower side plate 212. In the actual experience process, the best experience effect is the process that the flyweights 24 impact the front side plate 211, and people do not need to move the flyweights 24 in the whole space of the container 21. The first baffle 214 limits the flight and drop track of the flyweight 24, so that the flyweight 24 can freely roll to the vicinity of the air outlet 221 along the first baffle 214 when the air injection is stopped, the frequency of impacting the front side plate 211 by the flyweight 24 in unit time is increased, and the experience effect is optimized.

In the manufacturing process of the container 21, if the front plate 211 and the rear plate 213 are made of different materials, respectively, the process is complicated, and it may be desirable that each surface of the container 21 is made of the same material, and since the front plate 211 must be made of a transparent material, each surface of the container 21 may be made of a transparent material. In this case, the first barrier 214 may be made of a non-transparent material. Adopt first baffle 214 to provide non-transparent effect for experience people, avoid container 21 to keep away from experience people's one side thing influence experience effect.

In order to further reduce the movement area of the flyweight 24 and make it move only in the area with good experience, the eye safety experience device 20 may further include a second barrier 215 disposed inside the container 21, a front end of the second barrier 215 is connected to a lower end of the first barrier 214, and a rear end of the second barrier 215 is connected to the rear side plate 213. The second shutter 215 prevents the flyweight 24 from being ejected between the first shutter 214 and the rear side plate 213. The front end of the second baffle 215 may be higher than the rear end so that the flyweight 24 may fly down the slope of the second baffle 215. The rear end of the second baffle 215 may also be connected to the top of the air outlet block 22 to further limit the flight and drop trajectory of the flyweight 24.

Eye safety experience device 20 may further comprise a sloping plate 216 disposed inside container 21; the front end of the swash plate 216 is connected to the front plate 211, the rear end of the swash plate 216 is connected to the lower plate 212, and the front end of the swash plate 216 is higher than the rear end. With the addition of the sloping plate 216 inside the vessel 21, the flyweights 24 will freely roll along the slope of the sloping plate 216 to the vicinity of the outlet aperture 221 under the influence of gravity. Without the swash plate 216, the flyweights 24 may remain anywhere on the lower plate 212. The connection mode between the inclined plate 216 and the front side plate 211 and the lower side plate 212 can be clamping connection, threaded connection or magnetic adsorption.

In addition to the manner of increasing the inclined plate 216, the structure of the inclined plate 216 may be incorporated into the design of the container 21, and the lower plate 212 may include a first lower plate and a second lower plate when the container 21 is designed. The front end of the first lower side plate is connected with the front side plate 211, the rear end of the first lower side plate is connected with the second lower side plate, the front end of the first lower side plate is higher than the rear end, and the second lower side plate is opposite to the upper side plate 217. The container 21 having the inclined structure at the bottom surface has a more design feeling than a conventional rectangular parallelepiped container 21 or a cylindrical container 21.

Insufficient illumination can influence eye safety experience effect, in order to guarantee to have sufficient illumination luminance in the container 21, can be provided with light 218 in the container 21. Whether the eye safety experience device 20 is installed indoors or outdoors, the illumination brightness of the container 21 is guaranteed, so that an experiencer can fully feel the simulated injury of the flyweight 24. The illumination lamp 218 may be provided on the upper side plate 217.

In some embodiments, the solenoid valves may be controlled by the electronic control box 80. When the experience person opens the eye safety experience function through the electric cabinet 80, the electromagnetic valve is opened, and the air ejected from the air outlet 221 impacts the flyweight 24 to simulate the eye injury; when the eye safety experience function is closed on the electric cabinet 80, the electromagnetic valve is closed, and the air outlet 221 stops injecting air.

The power plant may include a ball shooting module having flyweights 24 housed therein for shooting flyweights 24 toward the front side plate 211. The shooting module can be similar to a novel continuously-shooting electric toy gun disclosed in patent CN203928875U, and can continuously shoot the flyweight 24 towards the front side plate 211 to simulate eye injury. The materials of the first baffle 214, the second baffle 215, the inclined plate 216, the illuminating lamp 218, the rear side plate 213 and the flyweight 24 can also be applied to the eye safety experience device 20.

In some embodiments, the shooting module may be controlled by the electronic control box 80. When the experience person starts the eye safety experience function through the electric cabinet 80, the ball shooting module continuously launches the flyweight 24 to simulate eye injury; the eye safety experience function is turned off on the electric cabinet 80 and the ball shooting module stops launching the flyweight 24.

The embodiment of the invention provides another safety experience system, which comprises an electric cabinet 80 and the eye safety experience equipment 20 in any embodiment, wherein the electric cabinet 80 is used for controlling a power device so as to enable the flyweight 24 to fly to the front side plate 211.

Referring to fig. 3 and 4, an embodiment of the present invention provides a head safety experience device 10, which includes a head device body 11, a first fixing seat 12, a spring 13, a locking pin 14, a pulling pin 15, a first pulling rope 16, a second pulling rope 17, and an object block 18.

Referring to fig. 5, the first fixing base 12 is connected to the head unit body 11, the first fixing base 12 is a hollow structure, the top and the bottom of the first fixing base 12 are respectively provided with a first hole 121 and a second hole 122, and the extending portion of the first fixing base 12 is provided with a third hole 123. A first end of the spring 13 is abutted against the first fixed seat 12, and a second end of the spring 13 is abutted against the lock pin 14; the elastic force of the spring 13 may extend the locking pin 14 into the inside of the third hole 123.

Referring to fig. 6 and 7, the lock pin 14 is provided with a fourth hole 141, and the pull pin 15 slidably passes through the first hole 121, the fourth hole 141 and the second hole 122 in sequence; a first inclined surface 142 protruding in a direction away from the spring 13 is disposed on one side of the fourth hole 141 close to the spring 13, a second inclined surface 151 corresponding to the first inclined surface 142 is disposed on the pull pin 15, and the lock pin 14 and the pull pin 15 are movably connected through the first inclined surface 142 and the second inclined surface 151. The pull pin 15 is further provided with a sixth hole 152, and the pull pin 15 is connected to the first pull cord 16 through the sixth hole 152. The mass 18 is connected to the second rope 17, the second rope 17 slidably passes through the fifth hole 111 of the headpiece body 11, and the mass 18 slidably passes through the third hole 123 under the control of the second rope 17. In the initial state, the lock pin 14 protrudes to the inside of the third hole 123, and the mass 18 is caught by the lock pin 14 and the third hole 123.

The first head security experience device 10 operates on the principle of:

the first pull rope 16 is pulled downwards, the pull pin 15 pushes the lock pin 14 to move towards the compression direction of the spring 13, the lock pin 14 retracts from the third hole 123, the object block 18 falls under the action of gravity, and head impact injury is simulated;

stopping pulling the first pull rope 16, the restoring force of the spring 13 enables the lock pin 14 to push the pull pin 15 to move upwards, and the lock pin 14 extends into the third hole 123;

the second pull rope 17 is pulled downwards to lift the object block 18 to the third hole 123;

the first pull rope 16 is pulled downwards, the pull pin 15 pushes the lock pin 14 to move towards the compression direction of the spring 13, the lock pin 14 retracts from the third hole 123, and the object block 18 passes through the third hole 123 under the pulling of the second pull rope 17;

stopping pulling the first pull rope 16, the restoring force of the spring 13 enables the lock pin 14 to push the pull pin 15 to move upwards, and the lock pin 14 extends into the third hole 123;

the pulling of the second pulling rope 17 is stopped and the block 18 is caught by the locking pin 14 and the third hole 123.

The mass 18 may be hollow or solid. The shape of the mass 18 may be a sphere, prism, pyramid, cylinder, cone, truncated cone, parallelepiped, or other irregular shape.

In order to prevent the pull pin 15 from being pulled out of the first fixing seat 12 integrally, the size of the top of the pull pin 15 is larger than that of the first hole 121, so that the top cannot pass through the first hole 121 when the pull pin 15 is pulled downwards; the size of the bottom of the pull pin 15 is larger than the size of the second hole 122, so that the bottom cannot pass through the second hole 122 when the pull pin 15 moves upwards. The top of the pull pin 15 may be larger than the first hole 121 by providing a first protrusion, or by providing a seventh hole through which the first locking portion passes, where the first locking portion is sized such that the first locking portion cannot pass through the first hole 121. Similarly, the bottom of the pull pin 15 may be larger than the second hole 122 by providing a second protrusion, or by providing an eighth hole and then passing the second locking portion through the eighth hole, where the second locking portion is sized such that the second locking portion cannot pass through the second hole 122.

Referring to fig. 1, in order to adapt the head safety experiencing device 10 to experiences of different heights, the head device body 11 may include a vertical rod 19 connected to the head device body 11, and the vertical rod 19 may be of a telescopic structure with adjustable length. Before the use, the height of the upright rod 19 is adjusted according to the height of an experiencer. The height of the upright 19 determines the height of the object block 18 in an initial state, and in order to ensure the safety of an experience person, the height of the upright 19 can be adjusted to ensure that the distance between the object block 18 and the safety helmet of the experience person is not more than a safety distance. The safety distance may be set to 500 mm.

The first and second pulling ropes 16 and 17 may be two separate pulling ropes or may be integrated.

The embodiment of the invention provides another head safety experience device 10, which comprises a head device body 11, a first fixed seat 12, a spring 13, a lock pin 14, a pull pin 15, a first pull rope 16, a second pull rope 17 and an object block 18; the first fixed seat 12 is connected with the head device body 11, the first fixed seat 12 is of a hollow structure, the top and the bottom of the first fixed seat 12 are respectively provided with a first hole 121 and a second hole 122, and the extending part of the first fixed seat 12 is provided with a third hole 123; a first end of the spring 13 abuts against the first fixed seat 12, and a second end of the spring 13 abuts against the lock pin 14; the elastic force of the spring 13 can extend the lock pin 14 into the third hole 123; the end of the locking pin 14 protruding into the third bore 123 is provided with a recess corresponding to the mass 18.

The lock pin 14 is provided with a fourth hole 141, and the pull pin 15 can pass through the first hole 121, the fourth hole 141 and the second hole 122 in a sliding manner; one side of the fourth hole 141 close to the spring 13 is provided with a first inclined surface 142 protruding inwards, the pull pin 15 is provided with a second inclined surface 151 corresponding to the first inclined surface 142, and the lock pin 14 and the pull pin 15 are movably connected through the first inclined surface 142 and the second inclined surface 151; the pull pin 15 is connected with a first pull rope 16; the object block 18 is connected with the second pull rope 17, the second pull rope 17 slidably passes through the fifth hole 111 on the head equipment body 11, and the object block 18 slidably passes through the third hole 123 under the control of the second pull rope 17; in the initial state, the lock pin 14 is extended to the inside of the third hole 123, and the mass 18 is placed on the recess of the lock pin 14.

The second head security experience device 10 operates on the principle of:

the first pull rope 16 is pulled downwards, the pull pin 15 pushes the lock pin 14 to move towards the compression direction of the spring 13, the lock pin 14 retracts from the third hole 123, the object block 18 falls under the action of gravity, and head impact injury is simulated;

stopping pulling the first pull rope 16, the restoring force of the spring 13 enables the lock pin 14 to push the pull pin 15 to move upwards, and the lock pin 14 extends into the third hole 123;

the second pull rope 17 is pulled downwards to lift the object block 18 to the third hole 123;

the first pull rope 16 is pulled downwards, the pull pin 15 pushes the lock pin 14 to move towards the compression direction of the spring 13, the lock pin 14 retracts from the third hole 123, and the object block 18 passes through the third hole 123 under the pulling of the second pull rope 17;

stopping pulling the first pull rope 16, the restoring force of the spring 13 enables the lock pin 14 to push the pull pin 15 to move upwards, and the lock pin 14 extends into the third hole 123;

the second pull cord 17 is stopped and the block 18 is placed in the groove of the lock pin 14.

Referring to fig. 8 and 9, the safe experience equipment 30 for cutting hands comprises an electric cabinet 80, a cutting hand equipment body 31, a first cylinder 32, a sliding block 33, a transmission rod 34, a second fixed seat 35, a third fixed seat 36 and a fourth fixed seat 37; the first air cylinder 32, the sliding block 33, the third fixed seat 36 and the fourth fixed seat 37 are sequentially arranged on the surface of the cutting hand equipment body 31; the second fixed seat 35, the third fixed seat 36 and the fourth fixed seat 37 are arranged on the cutting hand equipment body 31; the first air cylinder 32 is arranged on the second fixed seat 35, a piston rod of the first air cylinder 32 is connected with the sliding block 33, and the sliding block 33 is connected with the transmission rod 34; the first cylinder 32 is controlled by the electronic control box 80; the second fixed seat 35 is provided with a first guide rail; the sliding block 33 can reciprocate between the first cylinder 32 and the third fixed seat 36 along the first guide rail under the action of the first cylinder 32; the fourth fixing seat 37 is provided with a ninth hole, and the third fixing seat 36 is provided with a tenth hole; the transmission rod 34 can movably pass through the ninth hole and the tenth hole in sequence, and the transmission rod 34 is driven by the sliding block 33 to reciprocate to simulate the injury of a cutting hand.

The working principle of the safe experience of cutting hand equipment 30 is: experience people will wear the hand of protective gloves and place on cutting hand equipment body 31 on the surface, under transfer line 34, open cutting hand safety on electric cabinet 80 and experience the function, first cylinder 32 begins work, and first cylinder 32 drives slider 33, and slider 33 drives transfer line 34 and is reciprocating motion, brings the true experience of cutting hand for experience people. When the cutting hand safety experience function is turned off in the electric cabinet 80, the first cylinder 32 stops working, and the transmission rod 34 stops the cutting hand action.

The distance between the transmission rod 34 and the surface of the cutting hand device body 31 cannot be too large, and if the distance is too large, the transmission rod 34 cannot be contacted when an experiencer puts a hand on the surface of the cutting hand device body 31. However, the distance cannot be too small, and if the distance is too small, the protective gloves may be cut, so that hands of the experience person are injured.

This equipment 30 is experienced to safe hand of cutting can set up first bubble cotton 38 on the surface of cutting equipment body 31, bears the hand of cutting pressure for experiencing people and provides the buffers, increases the security that the hand of cutting was experienced safely.

Referring to fig. 10, the hand squeezing safety experience equipment 40 includes an electric cabinet 80, a hand squeezing equipment body 41, a third air cylinder 42, a fourth air cylinder 43, a first slider 44, a second slider 45, a fifth fixing seat 46, and a sixth fixing seat 47, wherein the third air cylinder 42, the first slider 44, the second slider 45, and the fourth air cylinder 43 are sequentially disposed on the surface of the hand squeezing equipment body 41; the fifth fixing seat 46 and the sixth fixing seat 47 are arranged on the hand squeezing equipment body 41; the third air cylinder 42 is arranged on the fifth fixed seat 46, and the fourth air cylinder 43 is arranged on the sixth fixed seat 47; a piston rod of the third air cylinder 42 is connected with the first sliding block 44, and a piston rod of the fourth air cylinder 43 is connected with the second sliding block 45; the third cylinder 42 and the fourth cylinder 43 are controlled by the electric control box 80; a third guide rail is arranged on the fifth fixed seat 46, and the first sliding block 44 can reciprocate along the third guide rail under the action of the third air cylinder 42; the sixth fixing seat 47 is provided with a fourth guide rail, and the second slider 45 can reciprocate along the fourth guide rail under the action of the fourth cylinder 43.

The working principle of the squeezing hand safety experience device 40 is as follows: experience people will wear the hand of protective gloves and place on crowded hand equipment body 41 on the surface, between first slider 44 and the second slider 45, open crowded hand safety experience function on electric cabinet 80, third cylinder 42, fourth cylinder 43 begins work, third cylinder 42 drives first slider 44, fourth cylinder 43 drives second slider 45, first slider 44, second slider 45 reciprocating motion, make to the extruded action in the middle of the two, the injury of crowded hand of simulation, bring crowded real experience of hand for the person of testing. When the hand squeezing safety experience function is turned off on the electric cabinet 80, the third air cylinder 42 and the fourth air cylinder 43 stop working, and the first sliding block 44 and the second sliding block 45 stop squeezing.

This crowded hand safety experience equipment 40 can set up the cotton 48 of second bubble on crowded hand equipment body 41's surface, for experiencing that people's hand bears crowded hand pressure and provide the buffer, increases the security of crowded hand safety experience. The crowding hand safety experiencing device 40 may further be provided with a third foam 491 on a side of the first slider 44 facing the second slider 45, and a fourth foam 492 on a side of the second slider 45 facing the first slider 44.

Referring to fig. 11 and 12, the injury safety experience device includes an electric cabinet 80, an injury device body 51, a fifth cylinder 52, a knocking portion 53, a first transmission member 54, a seventh fixing seat 55, a fixing assembly 56, and a second transmission member 57; the fifth cylinder 52, the second transmission piece 57, the first transmission piece 54 and the knocking part 53 are connected in sequence; the fifth cylinder 52 is arranged on the seventh fixed seat 55, the seventh fixed seat 55 and the fixing component 56 are arranged on the injury device body 51, and the knocking part 53 is higher than the surface of the injury device body 51; the fifth cylinder 52 is controlled by the electronic control box 80.

Referring to fig. 13, the first transmission member 54 is provided with a positioning hole 541 and a transmission groove 542, the first transmission member 54 is movably connected with the fixing assembly 56 through the positioning hole 541, and the transmission groove 542 is arc-shaped. Referring to fig. 14, the second transmission member 57 includes a left side portion 571, a right side portion 572, a connecting portion (not shown), and a bottom portion 573, the left side portion 571 and the right side portion 572 being provided on the bottom portion 573, and the left side portion 571 and the right side portion 572 being further connected by the connecting portion. The left side portion 571 may be provided with a left hole 5711, the right side portion 572 may be provided with a right hole 5721, and the connecting portion may be a rivet detachably connected to the left side portion 571 and the right side portion 572, respectively. The first transmission member 54 and the second transmission member 57 are movably connected to each other through the transmission groove 542 and the connecting portion. The piston rod of the fifth cylinder 52 is connected with the second transmission piece 57, the fifth cylinder 52 provides power for the knocking portion 53 through the second transmission piece 57 and the first transmission piece 54, and the knocking portion 53 repeatedly knocks in the direction of damaging the surface of the equipment body 51 to simulate damage caused by smashing.

The working principle of the smashing safety experience equipment is as follows: the experience people will wear the hand of protective gloves and place on the equipment body 51 of pounding on the surface or wear safe shoes to stand on the equipment body 51 of pounding on the surface, open on electric cabinet 80 and pound and hinder safe experience function, and fifth cylinder 52 begins work, drives the repeated action of knocking of portion 53, brings the real experience of pounding for the person of testing. When the safety experience function of the injury is closed on the electric cabinet 80, the fifth cylinder 52 stops working, and the knocking part 53 stops knocking.

This injure safe experience equipment can set up the fifth bubble cotton 58 on the surface of injure equipment body 51 by a crashing object, bears the pressure of injure by a crashing object for experience people's hand or foot and provides the buffer, increases the security of injure safe experience by a crashing object.

In a bruising security experience device, one or more taps 53 may be provided to provide a more densely tapped security experience for the user.

Referring to fig. 12 and 15, the footstock safety experiencing device 70 includes an electric cabinet 80, a foot device body 71, a top block 72, a sixth air cylinder 73, and an eighth fixed seat 74; the eighth fixed seat 74 is fixed below the foot device body 71; the sixth cylinder 73 is provided below the foot device body 71, and the sixth cylinder 73 is fixed to the eighth fixing seat 74. The foot equipment body 71 is provided with a through hole 75, and the top block 72 is positioned in the through hole 75; the sixth cylinder 73 is controlled by the electronic control box 80; the piston rod of the sixth cylinder 73 is connected to the top block 72. The ejector block 72 reciprocates in the vertical direction under the action of the sixth cylinder 73, and can simulate footstand injury when extending out of the through hole 75.

The operation principle of the footstock safety experience device 70 is: the experiential person wears safe shoes and stands on the surface of foot equipment body 71, opens the safe experience function of footstep on electric cabinet 80, and sixth cylinder 73 begins work, drives kicking block 72 and repeats the action of going up the top, brings the true experience of footstep for the experiential person. When the safety experience function of the jacking leg is closed on the electric cabinet 80, the sixth air cylinder 73 stops working, and the jacking block 72 stops jacking.

A single top piece 72 may have a large area and a large contact area with the foot, resulting in a slight tingling sensation, and thus, one or more protrusions may be provided on the top piece 72. The contact area of the bulge and the foot is small, the pricking degree is increased, and better foot propping experience is brought to a human tester.

The present invention has been described in terms of its practical and advantageous aspects, such as its performance, efficiency, progress, and novelty, which are determined by the requirements of the patent laws, functional improvements and operational requirements, and it is understood that the above description and drawings are merely exemplary embodiments of the invention and are not intended to limit the invention thereto.

Claims (8)

1. A safety experience system is characterized by comprising a smashing safety experience device and an eye safety experience device, or comprising a foot safety experience device and an eye safety experience device, wherein the foot safety experience device comprises the smashing safety experience device and a foot supporting safety experience device;

the smashing safety experience equipment comprises an electric cabinet, a smashing equipment body, a fifth cylinder, a knocking part, a first transmission piece, a seventh fixed seat, a fixed assembly and a second transmission piece;

the fifth cylinder, the second transmission piece, the first transmission piece and the knocking part are sequentially connected; the fifth cylinder is arranged on the seventh fixed seat, the seventh fixed seat and the fixed assembly are arranged on the smashing equipment body, and the knocking part is higher than the surface of the smashing equipment body; the fifth cylinder is controlled by an electric control box;

a piston rod of the fifth cylinder is connected with the second transmission piece, the fifth cylinder provides power for the knocking part through the second transmission piece and the first transmission piece, and the knocking part repeatedly performs knocking actions in the direction of damaging the surface of the equipment body to simulate damage caused by smashing;

the jack-foot safety experience equipment comprises a foot equipment body, a jack-up block, a sixth air cylinder and an eighth fixed seat;

the eighth fixed seat is fixed below the foot equipment body; the sixth air cylinder is arranged below the foot equipment body and is fixed on the eighth fixed seat; the foot equipment body is provided with a through hole, and the top block is positioned in the through hole; the sixth cylinder is controlled by an electric control box;

a piston rod of the sixth cylinder is connected with the jacking block; the jacking block reciprocates in the vertical direction under the action of the sixth cylinder, and can simulate the damage of a jacking leg when extending out of the through hole;

the eye safety experience equipment comprises a container, a power device and at least one flying block;

the container is provided with a front side plate, a rear side plate, an upper side plate, a lower side plate and an inclined plate, wherein the upper side plate and the lower side plate are opposite, the inclined plate is arranged in the container, the front end of the inclined plate is connected with the front side plate, the rear end of the inclined plate is connected with the lower side plate, the front end of the inclined plate is higher than the rear end of the inclined plate, the front side plate is made of transparent materials, and the power device is used for providing power so that the flyweight flies to the front side plate;

the power device comprises at least one air outlet hole; the flyweights and the air outlet are arranged in the container, and the air outlet is used for ejecting gas to blow the flyweights to the front side plate;

the power device also comprises an air outlet block and an air pipe; the air outlet is arranged on the air outlet block, and the air outlet block is also provided with an air inlet communicated with the air outlet and an electromagnetic valve for controlling air inlet;

one end of the air pipe is communicated with the air inlet, and the other end of the air pipe is communicated with high-pressure gas; the air outlet block is arranged at the joint of the lower side plate and the rear side plate; the air outlet hole faces the front side plate.

2. The security experience system of claim 1, wherein the first transmission member is provided with a positioning hole and a transmission groove, and the first transmission member is movably connected with the fixing component through the positioning hole.

3. The security experience system of claim 1, wherein the second transmission member comprises a left side portion, a right side portion, a connecting portion, and a bottom portion, the left side portion and the right side portion are disposed on the bottom portion, and the left side portion and the right side portion are further connected by the connecting portion.

4. The safety experience system of claim 3, wherein the left side portion is provided with a left hole, the right side portion is provided with a right hole, and the connecting portion is a rivet detachably connected with the left side portion and the right side portion respectively.

5. The safety experience system of claim 1, wherein a fifth foam is provided on the surface of the crushing device body.

6. The security experience system of claim 1, wherein the tamperproof security experience device is provided with a plurality of strikes.

7. The safety experience system of claim 1, wherein the injury safety experience device comprises a hand injury safety experience device and/or a foot injury safety experience device.

8. The secure experience system of claim 1, wherein the top block is provided with one or more protrusions.

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