CN110917632B

CN110917632B - Slide static monitoring devices

Info

Publication number: CN110917632B
Application number: CN201911288175.6A
Authority: CN
Inventors: 刘彬
Original assignee: Xiaoxian Huaheng Static Technology Co ltd
Current assignee: Xiaoxian Huaheng static Technology Co.,Ltd.
Priority date: 2019-12-15
Filing date: 2019-12-15
Publication date: 2021-06-29
Anticipated expiration: 2039-12-15
Also published as: CN110917632A

Abstract

The invention discloses a slide static monitoring device which comprises a stair structure and an anti-static structure, wherein the anti-static structure is positioned on one side of the stair structure, the stair structure comprises a plurality of groups of steps, the lower ends of the plurality of groups of steps are provided with a controller, one or more static sensors are arranged outside the steps, the input end of the controller is electrically connected with the output end of the static sensor, the anti-static structure comprises two groups of fixed plates, an arc plate is arranged between the two groups of fixed plates, a top plate is arranged inside the arc plate, one end of the top plate is provided with a spraying structure, the spraying structure comprises a softening structure and two groups of pressurizing structures, the softening structure comprises an air cylinder, the lower end of the air cylinder is provided with a telescopic rod, and the lower end of the telescopic rod is fixedly connected with a connecting. The slide static monitoring device provided by the invention can be used for monitoring the static on the surface of the slide, discharging in time, avoiding the damage of the static to the human body and having a better use prospect.

Description

Slide static monitoring devices

Technical Field

The invention relates to the field of child slide protection, in particular to a slide static monitoring device.

Background

As children are younger in age and have incomplete skeletal bodies, the slide is a favorite outdoor amusement tool for children, but static electricity on the slide has obvious damage to the bodies of children, a human body is easy to generate anxiety, headache and dyspnea under long-term static radiation, the static electricity can adsorb a large amount of dust in the air, the larger the charge electrification property is, the stronger the dust adsorption capacity is, pathogenic bacteria and substances in the dust can easily cause skin allergy, acne can be caused under serious conditions, and certain sensitive people can easily cause arrhythmia;

the static monitoring device is mainly used for a children slide static monitoring device and is used for monitoring static on a slide, firstly, static charges can be formed on the surface of the slide due to friction force, the static charges on the surface of the slide are accumulated continuously, serious hidden danger is generated, and the static harms the safety of children, so that the static monitoring device is required to be installed on the slide and is used for monitoring the static on the surface of the slide, discharging the static in time and avoiding the static from generating damage to human bodies.

Disclosure of Invention

The invention mainly aims to provide a slide static monitoring device which is mainly used for a children slide static monitoring device and is used for monitoring static on a slide, static charges can be formed on the surface of the slide due to friction force, the static charges on the surface of the slide are accumulated continuously to generate serious hidden dangers, and the safety of children is injured due to static interference, so that the slide is required to be provided with the static monitoring device for monitoring the surface of the slide and the static, and discharging in time to avoid the damage of the static to a human body.

In order to achieve the purpose, the invention adopts the technical scheme that:

a slide static monitoring device comprises a stair structure and an anti-static structure, wherein the anti-static structure is positioned on one side of the stair structure, the stair structure comprises a plurality of groups of steps, a controller is arranged at the lower end of the plurality of groups of steps, one or more static sensors are arranged outside the steps, the input end of the controller is electrically connected with the output end of the static sensor, the anti-static structure comprises two groups of fixed plates, an arc plate is arranged in the middle of the two groups of fixed plates, a top plate is arranged inside the arc plate, a spraying structure is arranged at one end of the top plate, the spraying structure comprises a softening structure and two groups of pressurizing structures, the softening structure comprises a softening cylinder, a telescopic rod is arranged at the lower end of the softening cylinder, a connecting plate is fixedly connected at the lower end of the telescopic rod, and a softening pressing head is fixedly connected at the lower, the lower end of the softening pressing head is provided with a pressing column, the outside of the pressing column is inserted with a limiter, two ends of the limiting stopper are respectively provided with two groups of first limiting blocks and two groups of second limiting blocks, the outside of the pressing column is provided with a limiting spring, the limiting spring is positioned between the two groups of first limiting blocks and the two groups of second limiting blocks, the lower end of the limiting device is provided with a softening agent storage cavity, the lower end of the softening agent storage cavity is provided with an outflow port, an elastic cavity is arranged inside the outflow port, the lower ends of the softening structure and the two groups of pressurizing structures are respectively provided with a water storage cavity, the lower ends of the water storage cavities are fixedly connected with a water storage pipe, a plurality of groups of nozzles are inserted in the water storage pipe, so that the anti-static spray can be conveniently sprayed, the harm of static electricity to human bodies can be prevented, the outer end of the nozzle is provided with a protective soft rubber cushion, so that the nozzle is convenient to protect and the safety of the nozzle is improved.

Further, it is two sets of pressurization structure is the same with the structure of flexibilizing, and the variation in size, two sets of pressurization structures all include flexible cylinder, telescopic link, connecting plate, spray the press head, press the compression post, a stopper, No. two stoppers, spacing spring, stopper and pressure derivation chamber, and are two sets of pressurization structure includes the spray press head, the spray press head is greater than the flexibilization press head, and the interval is different, presses down the effect difference, convenient to use, the one end of stair structure is provided with the slide board.

Further, the inside of slide board includes a heating pad and No. two heating pads and No. three heating pads, a heating pad is located the one end of the highest point of slide board, No. two heating pads are located the centre of a heating pad and No. three heating pads, No. three heating pads are located the lower extreme of slide board.

Further, the input end of the controller is respectively electrically connected with the output ends of the first heating pad, the second heating pad and the third heating pad, the lower end of the slide plate is provided with a plurality of groups of heat dissipation holes, so that heat generated by the first heating pad, the second heating pad and the third heating pad can be effectively dissipated, the edges of the first heating pad, the second heating pad and the third heating pad are provided with wire leads, the wire leads are connected with the ground of the slide base, so that the electrostatic sensor can sense static electricity to rapidly remove the static electricity, the controller can rapidly heat the first heating pad, the second heating pad and the third heating pad when in use, and then keep constant temperature, the first heating pad and the third heating pad can be slightly adjusted to be higher than the second heating pad, the first heating pad and the third heating pad are positioned at the top end and the bottom end of the slide, and as children stay in the first heating pad and the third heating pad for a longer time, the children feel more comfortable and do not feel cold.

Further, press the post to be located the below that sprays the press head, No. one stopper is located the below that sprays the press head with No. two stoppers, and is two sets of the lower extreme of stopper all is provided with pressure and derives the chamber, and is a plurality of nozzle evenly distributed is on the inner wall of arc board, and the shape of nozzle is the arcuation, and child is curious touch to the nozzle, still can guarantee that the nozzle is not fragile, and child's finger and head are protected to the protection rubber cushion of nozzle outer end simultaneously, and child's snatching can't find the stress point, has protected the integrality of preventing static structure and child's the security of playing.

Furthermore, two groups of handrails are arranged at the upper ends of the steps, one ends of the two groups of handrails are fixed on the last step, a guardrail is arranged at the upper end of the slide plate, and the other ends of the two groups of handrails are fixed on the steps close to one end of the guardrail.

Furthermore, the lower extreme of slide board is provided with two sets of pillars, one side of stair structure is provided with the carpet, and is two sets of the pillar is located the top of carpet.

Further, the elasticity chamber struts downwards under the effort of softening cylinder, the discharge of the softener of being convenient for, and the elasticity chamber shrink is inwards simultaneously, because the inside atmospheric pressure and the outside of softener have the pressure differential, can protect the inside in softener savings chamber, avoids too much loss of quick-witted liquid, causes the waste.

Compared with the prior art, the static sensor adopted by the invention can monitor static electricity, monitor and eliminate the static electricity in time and avoid the harm of the static electricity to human bodies, the static sensor is positioned on the pedal and two sides of the handrail, the controller receives the feedback of the static sensor and starts the pneumatic control accessory, then the softening cylinder drives the telescopic rod, the telescopic rod drives the softening press head, the softening press head drives the press column to press the inner part of the softening agent storage cavity, the elastic cavity in the outflow port at the lower end is propped open under the downward acting force, the softening liquid enters the water storage cavity and is mixed with water, meanwhile, the elastic cavity leaves the acting force and recovers the original contraction state, the pressure difference between the softening agent storage cavity and the water storage cavity is different, the elastic cavity is used, the water and the softening liquid are conveniently isolated, the waste is avoided, and the mixed liquid is pressed by two groups of pressurizing structures, the pressure guiding cavity is used for pressurizing the inside of the water storage cavity, so that the nozzle at one end of the water storage pipe is used for spraying the children passing through the anti-static structure, the anti-static reaction can be avoided for a long time, the arc plate of the anti-static structure has a certain width, the whole body can be sprayed at one time, the spraying water quantity is small, the children can be prevented from being invaded by static for a long time, the body is prevented from being injured, the time interval is short, the spraying surface is wide, the spraying is fine and smooth, the water spraying quantity is small, the long-time anti-static treatment is realized, the static sensor is contacted with the next child containing charges, the next anti-static treatment is carried out through the static monitoring device, and the children can fully;

compared with the prior art, the wire adopted by the invention can remove the charges accumulated on the surface of the slide, the wire is positioned around the first heating pad, the second heating pad and the third heating pad, the wire is contacted with the inside of the slide, one end of the wire is connected with the ground through the bottom end of the slide, when the slide accumulates the charges, the charges are removed through the wire contacted with the slide, the first heating pad, the second heating pad and the third heating pad positioned at the center of the wire are rapidly heated by the controller, the temperature is kept constant after being increased, children are positioned at the upper end of the third heating pad when the first heating pad is ready to start and reach the bottom end of the slide, so that the controller enables the temperature of the first heating pad, the second heating pad and the third heating pad to be higher than that of the second heating pad, and the third heating pad is positioned at the bottom end, the first heating pad and the third heating pad are more ice-cold-prone to avoid the children from getting cold, the first heating pad, the second heating pad and the third heating pad improve the use feeling of the slide, are beneficial to playing of children, promote bone development and grow healthily;

according to the invention, the static sensor on the stair structure is adopted to monitor a human body with charges, and then the sensor is fed back to the controller, so that the controller starts the anti-static structure to spray for children, the invasion of the static electricity is protected, meanwhile, the metal wire can conduct and release the charges gathered by the slide, and the different temperature regulation of the first heating mat, the second heating mat and the third heating mat can enhance the experience of the slide for children, and the stair structure is simple, saves the cost and has higher practicability.

Drawings

Fig. 1 is a schematic view of the overall structure of a static electricity monitoring device for a slide according to the present invention.

Fig. 2 is a cross-sectional view of an anti-static structure of a static electricity monitoring device of a slide according to the present invention.

Fig. 3 is an enlarged view of a nozzle of a slide static electricity monitoring apparatus according to the present invention.

Fig. 4 is a front view of a pressurizing structure of a static electricity monitoring apparatus for a slide according to the present invention.

FIG. 5 is a top view of an outflow port of a slide static monitoring device of the present invention.

Fig. 6 is a top view of a wire at the outflow port of a slide static electricity monitoring device according to the present invention.

In the figure: 1. a stair structure; 2. a handrail; 3. a step; 4. an anti-static structure; 5. a guardrail; 6. a pillar; 7. a carpet; 8. a first heating pad; 9. a second heating pad; 10. a third heating pad; 11. a fixing plate; 12. an arc plate; 13. softening the structure; 14. a top plate; 15. A pressurizing structure; 16. a spraying structure; 17. a water storage cavity; 18. a water storage pipe; 19. a protective soft rubber cushion; 20. a nozzle; 21. softening the telescopic rod; 22. a connecting plate; 23. a pressing head; 24. Pressing the column; 25. a first limiting block; 26. a limiting spring; 27. a second limiting block; 28. A softener reservoir chamber; 29. an outflow port; 30. an elastic cavity; 31. a spray pressing head; 32. A pressure delivery chamber; 33. a wire guide; 34. a softening cylinder; 35. a slide board.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example 1

As shown in fig. 1-6, a static electricity monitoring device for a slide, comprises a stair structure 1 and an anti-static structure 4, wherein the anti-static structure 4 is located at one side of the stair structure 1, the stair structure 1 comprises a plurality of sets of steps 3, a controller 36 is arranged at the lower end of the plurality of sets of steps 3, one or more static sensors are arranged outside the steps 3, the input end of the controller 36 is electrically connected with the output end of the static sensor, the anti-static structure 4 comprises two sets of fixing plates 11, an arc plate 12 is arranged in the middle of the two sets of fixing plates 11, a top plate 14 is arranged inside the arc plate 12, one end of the top plate 14 is provided with a spraying structure 16, the spraying structure 16 comprises a softening structure 13 and two sets of pressurizing structures 15, the softening structure 13 comprises a softening cylinder 34, the lower end of the softening cylinder 34 is provided with a telescopic rod 21, the lower end of the telescopic rod 21 is fixedly connected, the lower end of the softening pressing head 23 is provided with a pressing column 24, the outer part of the pressing column 24 is inserted with a limiting device 37, two ends of the limiting device 37 are respectively provided with two groups of first limiting blocks 25 and two groups of second limiting blocks 27, the outer part of the pressing column 24 is provided with a limiting spring 26, the limiting spring 26 is positioned between the two groups of first limiting blocks 25 and the two groups of second limiting blocks 27, the lower end of the limiting device 37 is provided with a softening agent storage cavity 28, the lower end of the softening agent storage cavity 28 is provided with an outflow port 29, the inner part of the outflow port 29 is provided with an elastic cavity 30, the lower ends of the softening structure 13 and the two groups of pressurizing structures 15 are both provided with water storage cavities 17, the lower end of the water storage cavity 17 is fixedly connected with a water storage pipe 18, the inner part of the water storage pipe 18 is inserted with a plurality of groups of nozzles 20 for spraying anti-static spraying and preventing the, the safety of the nozzle 20 is increased.

Elasticity chamber 30 struts downwards under the effort of softening cylinder 34, the discharge of the softener of being convenient for, and elasticity chamber 30 shrink simultaneously is inside, because the inside atmospheric pressure and the outside of softener have the pressure differential, can protect the inside of softener savings chamber 28, avoids too much loss of quick-witted liquid, causes the waste.

According to the below that the compression leg 24 is located spray press head 31, No. one stopper 25 is located spray press head 31 with No. two stoppers 27 below, the lower extreme of two sets of stoppers 37 all is provided with pressure and derives the chamber 32, a plurality of nozzle 20 evenly distributed is on the inner wall of arc board 12, nozzle 20's shape is the arcuation, child is to the curious touch of nozzle 20, still can guarantee that nozzle 20 is not fragile, the protection rubber cushion of nozzle 20 outer end protects child's finger and head simultaneously, child's snatching can't find the stress point, the integrality of antistatic structure 4 and child's security of playing have been protected.

The upper end of step 3 is provided with two sets of handrail 2, and the one end of two sets of handrail 2 is fixed in on last section step 3, and the upper end of slide board 35 is provided with guardrail 5, and the other end of two sets of handrail 2 is fixed in on the step 3 that is close to 5 one ends of guardrail.

By adopting the technical scheme: the static sensor is arranged on the pedal and on two sides of the handrail 2, the controller 36 receives the feedback of the static sensor to start the pneumatic control accessory, the softening cylinder 34 drives the telescopic rod 21, the telescopic rod 21 drives the softening press head 23, the softening press head 23 drives the press column 24 to press the inside of the softening agent storage cavity 28, the elastic cavity 30 in the outflow port 29 at the lower end is opened under the downward acting force, the softening liquid enters the inside of the water storage cavity 17 to be mixed with water, the elastic cavity 30 leaves the acting force and restores the original contraction state, the pressure difference between the softening agent storage cavity 28 and the inside of the water storage cavity 17 is different, the use of the elastic cavity 30 is convenient for isolating the mixed liquid and the softening liquid, the waste is avoided, and the spray head 31 is pressed through the two groups of pressurizing structures 15, derive chamber 32 through the pressure and carry out the inside pressurization to retaining chamber 17, make the nozzle 20 of the one end of retaining pipe 18 to the children's spraying of preventing static structure 4 through the process, guarantee the electrostatic reaction of exempting of longer time, because the arc 12 of preventing static structure 4 has certain width, once spray is whole, it is small to spray the water yield, avoid the injury on the health, the time interval that has realized is short, the spraying face is wide, the spraying is fine and smooth, the water spray volume can be for a long time prevent the static and handle a little, the electrostatic transducer contacts next friend who contains electric charge, carry out next antistatic treatment, and the operation is simple, surveyability, the monitoring is accurate reliable, prevent that the static charge accumulation from causing danger.

Example 2

As shown in fig. 1-6, a static electricity monitoring device for a slide comprises a stair structure 1 and an anti-static structure 4, wherein the anti-static structure 4 is located on one side of the stair structure 1, and a slide plate 35 is arranged at one end of the stair structure 1.

The inside of slide board 35 includes heating pad 8 and No. two heating pads 9 and No. three heating pads 10, and heating pad 8 is located the one end of the highest point of slide board 35, and No. two heating pads 9 are located the centre of heating pad 8 and No. three heating pads 10, and No. three heating pads 10 are located the lower extreme of slide board 35.

The input end of the controller 36 is electrically connected with the output ends of the first heating pad 8, the second heating pad 9 and the third heating pad 10, the lower end of the slide plate 35 is provided with a plurality of groups of heat dissipation holes, which is convenient for the heat generated by the first heating pad 8, the second heating pad 9 and the third heating pad 10 to be effectively dissipated, the edges of the first heating pad 8, the second heating pad 9 and the third heating pad 10 are provided with the conducting wire 33, the conducting wire 33 is connected with the ground through the slide base, which is convenient for the electrostatic sensor to sense the static electricity to rapidly remove the static electricity, the controller 36 can rapidly heat the first heating pad 8, the second heating pad 9 and the third heating pad 10 when in use, and then keep the temperature constant, the first heating pad 8 and the third heating pad 10 can be slightly adjusted to be higher than the second heating pad 9, the first heating pad 8 and the third heating pad 10 are positioned at the top end and the bottom end of the slide, because the children stay at the first heating pad 8 and the third heating pad 10 for a long time, the children feel more comfortable and do not feel cold.

By adopting the technical scheme: the arranged conducting wire 33 can remove electric charges accumulated on the surface of the slide, the conducting wire 33 is positioned on one circle of the first heating pad 8, the second heating pad 9 and the third heating pad 10, the conducting wire 33 is contacted with the inside of the slide, one end of the conducting wire 33 is connected with the ground through the bottom end of the slide, when the slide accumulates electric charges, the electric charges can be removed through the conducting wire 33 contacted with the slide, meanwhile, the first heating pad 8, the second heating pad 9 and the third heating pad 10 positioned in the center of the conducting wire 33 are rapidly heated under the control of the controller 36, the temperature is kept constant after being increased, the first heating pad 8 and the third heating pad 10 are positioned at the top end and the top end of the slide, so that the controller 36 enables the constant temperature of the first heating pad 8 and the third heating pad 9 to be higher than that of the second heating pad 9, and the third heating pad 10 is positioned at the bottom end, so that the children are more likely to be cooled, and the children are cooled, and heated at constant temperature and locally, the slide is convenient for guarantee children's healthy growth and avoid catching a cold, and the below of slide is provided with the thermovent, is convenient for dispel the heat with the temperature of inside gathering, guarantees the security of using, and No. one heating pad 8, No. two heating pads 9 and No. three heating pads 10 have improved the use of slide and have felt, and equipment manufacturing and operation maintenance cost are low, simple structure, convenient to use, low cost, design benefit extensively are applicable to playground and other places of entertainment, and the product quality is good.

Example 3

As shown in fig. 1-6, a static electricity monitoring device for a slide, comprises a stair structure 1 and an anti-static structure 4, wherein the anti-static structure 4 is located at one side of the stair structure 1, the stair structure 1 comprises a plurality of sets of steps 3, a controller 36 is arranged at the lower end of the plurality of sets of steps 3, one or more static sensors are arranged outside the steps 3, the input end of the controller 36 is electrically connected with the output end of the static sensor, the anti-static structure 4 comprises two sets of fixing plates 11, an arc plate 12 is arranged in the middle of the two sets of fixing plates 11, a top plate 14 is arranged inside the arc plate 12, one end of the top plate 14 is provided with a spraying structure 16, the spraying structure 16 comprises a softening structure 13 and two sets of pressurizing structures 15, the softening structure 13 comprises a softening cylinder 34, the lower end of the softening cylinder 34 is provided with a telescopic rod 21, the lower end of the telescopic rod 21 is fixedly connected, the lower end of the softening pressing head 23 is provided with a pressing column 24, the outer part of the pressing column 24 is inserted with a limiting device 37, two ends of the limiting device 37 are respectively provided with two groups of first limiting blocks 25 and two groups of second limiting blocks 27, the outer part of the pressing column 24 is provided with a limiting spring 26, the limiting spring 26 is positioned between the two groups of first limiting blocks 25 and the two groups of second limiting blocks 27, the lower end of the limiting device 37 is provided with a softening agent storage cavity 28, the lower end of the softening agent storage cavity 28 is provided with an outflow port 29, the inner part of the outflow port 29 is provided with an elastic cavity 30, the lower ends of the softening structure 13 and the two groups of pressurizing structures 15 are both provided with water storage cavities 17, the lower end of the water storage cavity 17 is fixedly connected with a water storage pipe 18, the inner part of the water storage pipe 18 is inserted with a plurality of groups of nozzles 20 for spraying anti-static spraying and preventing the, the safety of the nozzle 20 is increased and,

two sets of pressurization structures 15 are the same with gentle structure 13, the size is different, two sets of pressurization structures 15 all include gentle cylinder 34, telescopic link 21, connecting plate 22, spray press head 31, press post 24, a stopper 25, No. two stopper 27, spacing spring 26, stopper 37 and pressure derive chamber 32, two sets of pressurization structures 15 include spray press head 31, spray press head 31 is greater than gentle press head 23, the interval is different, press the effect different, and convenient to use, stair structure 1's one end is provided with slide board 35

By adopting the technical scheme: the electrostatic sensor on the stair structure 1 of setting monitors the child who has electric charge, the sensor feedback is in controller 36, controller 36 starts antistatic structure 4 and sprays children, the invasion and attack to static is protected, the wire can conduct the electric charge of slide gathering and release simultaneously, heating pad 8, No. two heating pads 9 and No. three heating pad 10 different temperature regulation can be for children's slide experience sense enhancement, moreover, the steam generator is simple in structure, the cost is saved, and the practicality is higher.

It should be noted that the invention is a slide static monitoring device, when in use, the slide is placed on a horizontal ground, the input end of a controller 36 is respectively electrically connected with a static inductor, a softening cylinder 34, a first heating pad 8, a second heating pad 9 and the input end of a third heating belt, a water storage cavity 17 is connected with an external water inlet, the water inlet is higher than the water outlet, water cannot flow backwards to pollute water, a child passes through a handrail 2 of a stair structure 1, the handrail 2 is iron, one end of the handrail 2 penetrates through a step 3 to be grounded, static electricity of the handrail 2 is in a release state, the child grabs the handrail 2, passes through the step 3 and is controlled by the static inductor signals at multiple positions, when the child holds a guardrail 5 to step towards the slide plate 35, the lower part of the slide plate 35 is supported by two groups of pillars 6, a carpet 7 is laid on the ground for an anti-slip and anti-static structure 4, the antiskid and antistatic structure 4 is arranged inside the arc plate 12, the arc plate 12 is fixed on two sides of the guardrail 5 through the fixing plate 11, the antiskid and antistatic structure 4 comprises a spraying structure 16, the spraying structure 16 comprises a softening structure 13 and two groups of pressurizing structures 15, the top plate 14 is arranged on the top of the arc plate 12 and is used for fixing the softening structure 13 and the two groups of pressurizing structures 15, the softening structure 13 is used for adding a softening agent to avoid the invasion of static electricity, a softening cylinder 34 is driven to start a pneumatic control accessory, the softening cylinder 34 drives a telescopic rod 21, the telescopic rod 21 drives a connecting plate 22, the connecting plate 22 drives a softening pressing head 23, the softening pressing head 23 drives a pressing column 24 to press the inside of a softening agent storage cavity 28, a limiting spring 26 wound on the surface of the pressing column 24 is pressed through a limiting block 25 and a limiting block 27 to limit the softening pressing head 23, the limiting block 25 and the limiting block 27 are fixed inside the limiting block 37, the acting force is transmitted to the interior of the softening agent storage cavity 28, the interior of the softening agent storage cavity 28 is pressurized, so that the elastic cavity 30 in the outflow port 29 at the lower end is opened under the downward acting force, the softening liquid enters the interior of the water storage cavity 17 and is mixed with water, the softening cylinder 34 drives the telescopic rod 21 to contract upwards, the elastic cavity 30 leaves the acting force state, and the original contraction state is recovered;

because the pressure difference between the softening agent storage cavity 28 and the water storage cavity 17 is different, water and softening liquid can be conveniently isolated, the mixed liquid passes through the two groups of pressurizing structures 15 and the pressing spray pressing head 31, the pressure in the water storage cavity 17 is pressurized through the pressure leading-out cavity 32, the nozzle 20 at one end of the water storage pipe 18 sprays the children passing through the lower end of the anti-static structure 4, the whole body is sprayed at one time, the sprayed water quantity is small, the time interval is short, the spraying surface is wide, the spraying is fine and smooth, the sprayed water quantity can be subjected to long-time anti-static treatment, the static sensor is contacted with the next friend containing electric charges for next anti-static treatment, the protective soft rubber cushion 19 around the nozzle 20 avoids the damage of the children, the wire 33 in the slide plate 35 is contacted with the inside of the slide, the electric charges can be discharged through the wire 33 contacted with the slide when the slide collects the electric charges, and the first heating cushion 8 at the center of, No. two heating pad 9 and No. three heating pad 10 are controlled by controller 36 and carry out the rapid heating, the temperature keeps constant temperature after rising, children prepare for starting at heating pad 8, and the upper end that is located heating pad 10 No. three when arriving the slide bottom, the time of contact is longer in these two positions, controller 36 makes heating pad 8, with No. three heating constant temperature be higher than heating pad 9 No. two, No. three heating pad 10 is located the bottom, cause children to catch a cold, the below of slide is provided with the thermovent, be convenient for dispel the heat with the temperature of inside gathering, heating pad 8, No. two heating pad 9 and No. three heating pad 10 have improved the use sense of slide, factor of safety is high, and control is convenient, and is comparatively practical.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a slide static monitoring devices, includes stair structure (1) and prevents static structure (4), prevent that static structure (4) are located one side of stair structure (1), its characterized in that: the stair structure (1) comprises a plurality of groups of steps (3), the lower ends of the plurality of groups of steps (3) are provided with controllers (36), one or more electrostatic sensors are arranged outside the steps (3), and the input ends of the controllers (36) are electrically connected with the output ends of the electrostatic sensors; the anti-static structure (4) comprises two groups of fixing plates (11), an arc plate (12) is arranged between the two groups of fixing plates (11), a top plate (14) is arranged inside the arc plate (12), and a spraying structure (16) is arranged at one end of the top plate (14); the spraying structure (16) comprises a softening structure (13) and two groups of pressurizing structures (15), the softening structure (13) comprises a cylinder (34), a telescopic rod (21) is arranged at the lower end of the cylinder (34), a connecting plate (22) is fixedly connected at the lower end of the telescopic rod (21), a softening pressing head (23) is fixedly connected at the lower end of the connecting plate (22), a pressing column (24) is arranged at the lower end of the softening pressing head (23), a limiting device (37) is inserted in the outer part of the pressing column (24), two groups of first limiting blocks (25) and two groups of second limiting blocks (27) are respectively arranged at the two ends of the limiting device (37), a limiting spring (26) is arranged at the outer part of the pressing column (24), the limiting spring (26) is positioned between the two groups of first limiting blocks (25) and the two groups of second limiting blocks (27), a softening agent storage cavity (28) is arranged at the lower end of the limiting device (37), the lower extreme of softening agent storage chamber (28) is provided with egress opening (29), the inside of egress opening (29) is provided with elasticity chamber (30), the lower extreme of softening structure (13) and two sets of pressurization structure (15) all is provided with water storage chamber (17), the lower extreme fixedly connected with water storage pipe (18) of water storage chamber (17), the inside interlude of water storage pipe (18) has a plurality of nozzle (20) of group, the outer end of nozzle (20) is provided with protection soft cushion (19), and the protection of being convenient for has increased the security of nozzle (20).

2. The slide static electricity monitoring device according to claim 1, wherein: two sets of pressurization structure (15) are the same with gentle ization structure (13), and the variation in size, two sets of pressurization structure (15) all include cylinder (34), telescopic link (21), connecting plate (22), spray press head (31), press post (24), stopper (25), No. two stopper (27), spacing spring (26), stopper (37) and pressure derive chamber (32), and are two sets of pressurization structure (15) are including spraying press head (31), spray press head (31) are greater than gentle ization press head (23), and the interval is different, and the pressing effect is different, the one end of stair structure (1) is provided with slide chair (35).

3. The slide static electricity monitoring device according to claim 2, wherein: the inside of slide board (35) includes heating pad (8) and No. two heating pads (9) and No. three heating pads (10), heating pad (8) are located the one end of the highest point of slide board (35), No. two heating pads (9) are located the centre of heating pad (8) and No. three heating pads (10), No. three heating pads (10) are located the lower extreme of slide board (35).

4. A slide static electricity monitoring apparatus according to claim 2 or 3, wherein: the input end of the controller (36) is respectively electrically connected with the output ends of the first heating pad (8), the second heating pad (9) and the third heating pad (10), the lower end of the slide plate (35) is provided with a plurality of groups of radiating holes, so that heat generated by the first heating pad (8), the second heating pad (9) and the third heating pad (10) can be effectively radiated, wire leads (33) are arranged at the edges of the first heating pad (8), the second heating pad (9) and the third heating pad (10), the wire leads (33) are connected with the ground through a slide base, so that the static sensor can sense static electricity to quickly remove the static electricity, the controller can quickly heat the first heating pad (8), the second heating pad (9) and the third heating pad (10) when in use, then the temperature is kept constant, the first heating pad (8) and the third heating pad (10) are slightly higher than the second heating pad (9), the first heating pad (8) and the third heating pad (10) are positioned at the top end and the bottom end of the slide.

5. The slide static electricity monitoring device according to claim 1, wherein: the pressing column (24) is located below the spraying pressing head (31), the first limiting block (25) and the second limiting block (27) are located below the spraying pressing head (31), the lower ends of the two groups of limiting blocks (37) are provided with pressure leading-out cavities (32), the nozzles (20) are uniformly distributed on the inner wall of the arc plate (12), and the nozzles (20) are arc-shaped.

6. A slide static electricity monitoring device according to claim 3, characterized in that: the upper end of step (3) is provided with two sets of handrail (2), and the one end of two sets of handrail (2) is fixed in on last section step (3), the upper end of slide board (35) is provided with guardrail (5), and the other end of two sets of handrail (2) is fixed in on step (3) near guardrail (5) one end.

7. The slide static electricity monitoring device according to claim 2, wherein: the lower extreme of slide board (35) is provided with two sets of pillars (6), one side of stair structure (1) is provided with carpet (7), and is two sets of pillars (6) are located the top of carpet (7).

8. The slide static electricity monitoring device according to claim 1, wherein: the elastic cavity (30) is downwards expanded under the action force of the softening cylinder (34), and meanwhile, the elastic cavity (30) is contracted inwards to protect the interior of the softening agent storage cavity (28).