CN203681854U - Underwater rescuing lifting platform - Google Patents

Abstract

The utility model relates to an underwater rescuing lifting platform. The underwater rescuing lifting platform comprises a platform and a platform lifting control system, and also comprises a hand-operated remote-control system which is connected with the platform lifting control system; the hand-operated remote-control system comprises a remote-control signal receiving device which is arranged on the platform and a movable remote-control signal transmitting device; the platform control system is also connected with an automatic induction system. By adopting the underwater rescuing lifting platform, the problems of self rescue and rescue of young people, old people and people who are sick and unable to move in deep water can be solved, the defects such as low automation degree, long rescuing time and low rescuing efficiency can be overcome, and the underwater rescuing lifting platform has the advantages of high automation intelligence degree, high rescuing efficiency and safety and reliability in rescuing, and the requirement on the underwater self-rescuing and rescuing work can be met.

Description

One is rescue elevator platform under water

Technical field

The utility model belongs to jacking system technical field, relates to a kind of bay-lift, relates in particular to one rescue elevator platform under water.

Background technology

At present, along with the raising of people's living standard, free life is also more and more abundanter, people are to self also more and more attention of health problem, more people likes selecting this exercising way of swimming, also have the more head of a family when child is little, just to start to cultivate the motion of its learn swim, thus, some are more and more subject to manager and customer's attention as safety and rescue problem in danger in the water of the occasions such as swimming pool.Existing as the safety precaution of the occasions such as swimming pool and rescue problem in danger, mainly still rely on lifeguard to observe by eyes, call out rescue by person in distress, or other simple electronic machine voting on new work item proposals, then throw in buoy quoit or in person descend the rescue modes such as water rescue by lifeguard, its degree of automation is low, the rescue time is long, rescue efficiency is low, be difficult to meet in danger saving oneself and the demand of salvage work in actual water, especially cannot adapt to abyssal zone, and more young or more old and in water, occur uncomfortable, saving oneself and rescue demand of distress personnel that cannot be movable, for this reason, need a kind of deliverance apparatus under water that can address the above problem, overcome the existing the problems referred to above of existing rescue mode in danger under water, improve efficiency and the safe reliability of rescue under water, meet the needs of actual conditions.

Utility model content

The purpose of this utility model is, one rescue elevator platform is under water provided, to solve abyssal zone, and more young or more old and saving oneself and rescue problem of uncomfortable, distress personnel cannot be movable occur in water, overcome that degree of automation is low, the rescue time is long and succours inefficient defect, meet that reality is saved oneself and the demand of salvage work under water.

For achieving the above object, the utility model provides one rescue elevator platform under water, comprises platform and platform lift control system, also comprises the remote manual control system being connected with lifting platform control system; Described remote manual control system comprises the remote control signal receiver and the portable remote control signal transmission device that are arranged on platform; Described lifting platform control system is connected with platform by motor; Described lifting platform control system is provided with self-locking device; Above platform, be provided with anti-skidding unit.

In above scheme, preferably, described platform control system is also connected with automatic induction system.

In above scheme, preferably, described automatic induction system adopts infrared distance sensor under water.

In above arbitrary scheme, preferably, platform is made as the box structure with hollow cavity, and its top is provided with the parallel-moving type contact induction plate that leads to hollow cavity that can fast-clasp.

In above scheme, preferably, its hollow cavity inside of the platform of described box structure is provided with apparatus of oxygen supply.

In above arbitrary scheme, preferably, its hollow cavity inside of the platform of described box structure is provided with handrail.

In above arbitrary scheme, preferably, its hollow cavity inside of the platform of described box structure is provided with ladder.

In above arbitrary scheme, preferably, the surface of described ladder is provided with anti-skidding raised grain.

In above arbitrary scheme, preferably, the bottom of its hollow cavity of platform of described box structure is provided with cushion rubber.

In above arbitrary scheme, preferably, described cushion rubber adopts spring chair.

In above arbitrary scheme, preferably, described cushion rubber adopts foam-rubber cushion.

In above arbitrary scheme, preferably, its hollow cavity inside of the platform of described box structure is provided with calling for help communication device.

In above arbitrary scheme, preferably, its hollow cavity inside of the platform of described box structure is provided with monitor video device.

In above arbitrary scheme, preferably, its hollow cavity inside of the platform of described box structure is provided with illuminating lamp.

In above arbitrary scheme, preferably, described illuminating lamp adopts infrared-sensing type.

In above arbitrary scheme, preferably, described illuminating lamp adopts voice-control.

In above arbitrary scheme, preferably, above platform, be provided with escalator.

In above scheme, preferably, the surface of described automatic elevating ladder is provided with anti-skidding raised grain.

In above arbitrary scheme, preferably, described automatic elevating ladder is provided with elevating control button.

In above arbitrary scheme, preferably, described automatic elevating ladder is provided with remote-receiver.

In above arbitrary scheme, preferably, described automatic elevating ladder is provided with fence.

In above arbitrary scheme, preferably, described automatic elevating ladder is provided with handrail.

In above arbitrary scheme, preferably, described lifting platform control system comprises lifting hydraulic cylinder and is arranged on the telescopic lifting post of platform bottom.

In above scheme, preferably, the quantity of described lifting column is more than two.

In above arbitrary scheme, preferably, described lifting column distributes at platform bottom even.

In above arbitrary scheme, preferably, described lifting column is at the boundary position place of platform bottom.

In above arbitrary scheme, preferably, platform is arranged on platform support, and platform support is provided with guide rail slide block, and described lifting platform control system comprises lifting hydraulic cylinder and riser guide, and described guide rail slide block is arranged in riser guide.

In above arbitrary scheme, preferably, described portable remote control signal transmission device is provided with portable wrist rope.

In above arbitrary scheme, preferably, above platform, be provided with fence.

In above arbitrary scheme, preferably, above platform, be provided with handrail.

In above arbitrary scheme, preferably, platform is provided with illuminating lamp.

In above scheme, preferably, the illuminating lamp on described platform adopts infrared-sensing type.

In above arbitrary scheme, preferably, described remote control signal receiver adopts ulf remote underwater manipulation signal receiver.

In above arbitrary scheme, preferably, described portable remote control signal transmission device adopts ulf remote underwater manipulation signal projector.

In above arbitrary scheme, preferably, the frequency of described ulf remote underwater manipulation signal projector is below 35Mhz.

In above arbitrary scheme, preferably, described anti-skidding unit is the raised grain that is arranged on platform upper surface.

In above arbitrary scheme, preferably, described anti-skidding unit adopts slipmat.

In above arbitrary scheme, preferably, described slipmat adopts rubber pad.

In above arbitrary scheme, preferably, described rubber pad upper surface is provided with raised grain.

Compared with prior art, the utlity model has following advantage:

The platform of rescue elevator under water of the present utility model, it is by adopting the remote manual control system being connected with lifting platform control system, make the rescue elevator platform can be according to the needs of rescue group's needs or distress personnel, mode control by remote control is risen, to rescue in time, avoid dangerous generation; In addition, it,, by being provided with the portable remote control signal transmission device of portable wrist rope, makes related personnel can carry remote control signal transmission device, succours to can use timely and conveniently it to control bay-lift time in danger;

The platform of rescue elevator under water of the present utility model, it is also by the automatic induction system being connected with platform control system, in the time having sensed that distress personnel approaches bay-lift position, platform control system can automatically start bay-lift and rise, realize automatic monitoring and rescue to distress personnel, improve safe reliability;

The platform of rescue elevator under water of the present utility model, it is by will being provided with anti-skidding unit at bay-lift with distress personnels such as relevant ladders in the plane contacting, as slipmat or raised grain is set in the plane, while walking in the time touching bay-lift or on bay-lift to prevent distress personnel, slide into and cause danger;

The platform of rescue elevator under water of the present utility model, it is by being made as platform the box structure with hollow cavity, and be provided with at the top of this hollow cavity can fast-clasp the parallel-moving type contact induction plate that leads to hollow cavity, make distress personnel in the time touching the upper end face of bay-lift, can make parallel-moving type contact induction plate that translation gliding occurs automatically, open the box structure of this hollow cavity, distress personnel when not rising in time, bay-lift can be dropped in this box body, this contact induction plate is automatically closed simultaneously, make distress personnel can reduce the drowned time, prevent dangerous generation, in the box body of this hollow cavity, be also provided with apparatus of oxygen supply etc. for subsequent use simultaneously, in addition handrail and the ladder etc. in the box body of this hollow cavity can both help distress personnel safety moving therein, or in box body, can climb up ladder when water and keep away water, cushion rubber in this hollow cavity box body can also avoid person in distress injured in the time falling into, make falling into of its safety and stability, calling for help communication device and monitor video device wherein can make distress personnel, especially when lifting device for lifting table breaks down, require assistance with extraneous contact in time, greatly increase the reliability of rescue,

The platform of rescue elevator under water of the present utility model, it is by arranging fence and handrail being set on platform around platform, facilitate distress personnel to grip, avoid its landing to cause danger, simultaneously by liftable ladder is set, making distress personnel also can rise to as early as possible the water surface by the ladder of lifting escape danger, it drives the lifting of platform by motor, and in the generation of avoiding accident by self-locking device is set, its lifting unit is by adopting lifting hydraulic cylinder and telescopic lifting post, or by adopting the mode of platform support and guide rail, make the dipping and heaving of whole elevating table device steadily smooth, safe and reliable, to realize efficient rescue,

The platform of rescue elevator under water of the present utility model, can solve abyssal zone, especially more young or more old and saving oneself and rescue problem of uncomfortable, distress personnel cannot be movable occur in water, overcome that degree of automation is low, the rescue time is long and succours inefficient defect, have advantages of that intelligent automation degree is high, rescue efficiency is high and it is safe and reliable to succour, can meet that reality is saved oneself and the demand of salvage work under water.

Accompanying drawing explanation

Below in conjunction with drawings and embodiments, the utility model is described in further detail:

Fig. 1 is the platform of rescue elevator under water front view of the present utility model;

Fig. 2 is the platform of rescue elevator under water birds-eye view of the present utility model.

In figure, 1 is platform, and 2 is escalator, and 3 is fence, and 4 is handrail, and 5 is lifting column, and 6 is contact induction plate.

The specific embodiment

In order to understand better the utility model, below in conjunction with specific embodiment, the utility model is explained in detail.But, obviously can carry out different modification and remodeling and not exceed the wider spirit and scope of the utility model that appended claim limits the utility model.Therefore, following examples have exemplary and hard-core implication.

Embodiment 1:

One is rescue elevator platform under water, comprises platform 1 and platform lift control system, also comprises the remote manual control system being connected with lifting platform control system; Described remote manual control system comprises the remote control signal receiver and the portable remote control signal transmission device that are arranged on platform 1; Lifting platform control system is connected with platform 1 by motor; Lifting platform control system is provided with self-locking device; Platform 1 is provided with anti-skidding unit above.

Embodiment 2:

One is rescue elevator platform under water, similar to embodiment 1, and difference is that described platform 1 control system is also connected with automatic induction system.

Embodiment 3:

One is rescue elevator platform under water, similar to embodiment 2, and difference is that described automatic induction system adopts infrared distance sensor under water.

Embodiment 4:

One is rescue elevator platform under water, similar to embodiment 3, and difference is, platform 1 is made as the box structure with hollow cavity, and its top is provided with the parallel-moving type contact induction plate 6 that leads to hollow cavity that can fast-clasp.

Embodiment 5:

One is rescue elevator platform under water, similar to embodiment 4, and difference is that platform 1 its hollow cavity inside of described box structure is provided with apparatus of oxygen supply.

Embodiment 6:

One is rescue elevator platform under water, similar to embodiment 5, and difference is that platform 1 its hollow cavity inside of described box structure is provided with handrail 4.

Embodiment 7:

One is rescue elevator platform under water, similar to embodiment 6, and difference is that platform 1 its hollow cavity inside of described box structure is provided with ladder.

Embodiment 8:

One is rescue elevator platform under water, similar to embodiment 7, and difference is that the surface of described ladder is provided with anti-skidding raised grain.

Embodiment 9:

One is rescue elevator platform under water, similar to embodiment 8, and difference is that the bottom of platform 1 its hollow cavity of described box structure is provided with cushion rubber.

Embodiment 10:

One is rescue elevator platform under water, similar to embodiment 9, and difference is that described cushion rubber adopts spring chair.

Embodiment 11:

One is rescue elevator platform under water, similar to embodiment 9, and difference is that described cushion rubber adopts foam-rubber cushion.

Embodiment 12:

One is rescue elevator platform under water, similar to embodiment 9, and difference is that platform 1 its hollow cavity inside of described box structure is provided with calling for help communication device.

Embodiment 13:

One is rescue elevator platform under water, similar to embodiment 12, and difference is that platform 1 its hollow cavity inside of described box structure is provided with monitor video device.

Embodiment 14:

One is rescue elevator platform under water, similar to embodiment 13, and difference is that platform 1 its hollow cavity inside of described box structure is provided with illuminating lamp.

Embodiment 15:

One is rescue elevator platform under water, similar to embodiment 14, and difference is that described illuminating lamp adopts infrared-sensing type.

Embodiment 16:

One is rescue elevator platform under water, similar to embodiment 14, and difference is that described illuminating lamp adopts voice-control.

Embodiment 17:

One is rescue elevator platform under water, similar to embodiment 14, and difference is that platform 1 is provided with escalator 2 above.

Embodiment 18:

One is rescue elevator platform under water, similar to embodiment 17, and difference is,, the surface of described automatic elevating ladder 2 is provided with anti-skidding raised grain.

Embodiment 19:

One is rescue elevator platform under water, similar to embodiment 18, and difference is that described automatic elevating ladder 2 is provided with elevating control button.

Embodiment 20:

One is rescue elevator platform under water, similar to embodiment 18, and difference is that described automatic elevating ladder 2 is provided with remote-receiver.

Embodiment 21:

One is rescue elevator platform under water, similar to embodiment 20, and difference is that described automatic elevating ladder 2 is provided with fence 3.

Embodiment 22:

One is rescue elevator platform under water, similar to embodiment 21, and difference is that described automatic elevating ladder 2 is provided with handrail 4.

Embodiment 23:

One is rescue elevator platform under water, similar to embodiment 22, and difference is that lifting platform control system comprises lifting hydraulic cylinder and is arranged on the telescopic lifting post 5 of platform 1 bottom.

Embodiment 24:

One is rescue elevator platform under water, similar to embodiment 23, and difference is that the quantity of described lifting column 5 is four.

Embodiment 25:

One is rescue elevator platform under water, similar to embodiment 24, and difference is that described lifting column 5 distributes at platform 1 bottom even.

Embodiment 26:

One is rescue elevator platform under water, similar to embodiment 25, and difference is that described lifting column 5 is at the boundary position place of platform 1 bottom.

Embodiment 27:

One is rescue elevator platform under water, and similar to embodiment 22, difference is, platform 1 is arranged on platform 1 support, platform 1 support is provided with guide rail slide block, and lifting platform control system comprises lifting hydraulic cylinder and riser guide, and described guide rail slide block is arranged in riser guide.

Embodiment 28:

One is rescue elevator platform under water, similar to embodiment 26, and difference is that described portable remote control signal transmission device is provided with portable wrist rope.

Embodiment 29:

One is rescue elevator platform under water, similar to embodiment 28, and difference is that platform 1 is provided with fence 3 above.

Embodiment 30:

One is rescue elevator platform under water, similar to embodiment 29, and difference is that platform 1 is provided with handrail 4 above.

Embodiment 31:

One is rescue elevator platform under water, similar to embodiment 30, and difference is that platform 1 is provided with illuminating lamp.

Embodiment 32:

One is rescue elevator platform under water, similar to embodiment 31, and difference is that the illuminating lamp on described platform 1 adopts infrared-sensing type.

Embodiment 33:

One is rescue elevator platform under water, similar to embodiment 32, and difference is that described remote control signal receiver adopts ulf remote underwater manipulation signal receiver.

Embodiment 34:

One is rescue elevator platform under water, similar to embodiment 33, and difference is that described portable remote control signal transmission device adopts ulf remote underwater manipulation signal projector.

Embodiment 35:

One is rescue elevator platform under water, similar to embodiment 34, and difference is that the frequency of described ulf remote underwater manipulation signal projector is below 35Mhz.

Embodiment 36:

One is rescue elevator platform under water, similar to embodiment 35, and difference is that described anti-skidding unit is the raised grain that is arranged on platform 1 upper surface.

Embodiment 37:

One is rescue elevator platform under water, similar to embodiment 35, and difference is that described anti-skidding unit adopts slipmat.

Embodiment 38:

One is rescue elevator platform under water, similar to embodiment 37, and difference is that described slipmat adopts rubber pad.

Embodiment 39:

One is rescue elevator platform under water, similar to embodiment 38, and difference is that described rubber pad upper surface is provided with raised grain.

Like this, the platform of rescue elevator under water of the present utility model, it is by adopting the remote manual control system and the automatic induction system that are connected with lifting platform control system, make rescue elevator platform to be controlled rise according to the needs of rescue group's needs or distress personnel, to rescue in time, avoid dangerous generation.

Claims (10)

1. a rescue elevator platform under water, comprises platform (1) and platform lift control system, it is characterized in that: also comprise the remote manual control system being connected with lifting platform control system; Described remote manual control system comprises the remote control signal receiver and the portable remote control signal transmission device that are arranged on platform (1); Described lifting platform control system is connected with platform (1) by motor; Lifting platform control system is provided with self-locking device; Platform (1) is provided with anti-skidding unit above.

2. the platform of rescue elevator under water as claimed in claim 1, is characterized in that: described platform control system is also connected with automatic induction system.

3. the platform of rescue elevator under water as claimed in claim 1, is characterized in that: platform (1) is made as the box structure with hollow cavity, and its top is provided with the parallel-moving type contact induction plate (6) that leads to hollow cavity that can fast-clasp.

4. the platform of rescue elevator under water as claimed in claim 1, is characterized in that: platform (1) is provided with escalator (2) above.

5. the platform of rescue elevator under water as described in any one in claim 1-4, is characterized in that: described lifting platform control system comprises lifting hydraulic cylinder and is arranged on the telescopic lifting post (5) of platform (1) bottom.

6. the platform of rescue elevator under water as described in any one in claim 1-4, it is characterized in that: platform (1) is arranged on platform (1) support, platform (1) support is provided with guide rail slide block, described lifting platform control system comprises lifting hydraulic cylinder and riser guide, and described guide rail slide block is arranged in riser guide.

7. the platform of rescue elevator under water as described in any one in claim 1-4, is characterized in that: described portable remote control signal transmission device is provided with portable wrist rope.

8. the platform of rescue elevator under water as described in any one in claim 1-4, is characterized in that: platform (1) is provided with fence above.

9. the platform of rescue elevator under water as described in any one in claim 1-4, is characterized in that: platform (1) is provided with handrail above.

10. the platform of rescue elevator under water as described in any one in claim 1-4, is characterized in that: platform (1) is provided with illuminating lamp.

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