CN204189864U - battery automatic filling machine - Google Patents

Abstract

The utility model discloses a kind of battery automatic filling machine, comprise device for storing liquid and multiple fluid injection station, each fluid injection station comprises rotary feeding mechanism, mechanism for filling liquid and vacuum seal mechanism, artificial or automatically battery is put into rotary feeding mechanism, the aluminium film sealing strip that mechanism for filling liquid pulls open battery note electrolyte injects electrolyte to battery quantification, battery after fluid injection is sent in vacuum seal mechanism and is carried out vacuumizing sealing by rotary feeding mechanism again, carries out the material loading of battery while sealing again.The injection of the automatic charging of battery, electrolyte, the inside of battery vacuumize by the utility model, seal a few procedure couples together and automatically completes, avoid manually and electrolyte contacts direct when producing, improve fluid injection accuracy, fail safe and operating efficiency, simplify technique process, reduce manual work, reduce fraction defective, cost-saving, there is safety simultaneously and be guaranteed in minimizing accident.

Description

Battery automatic filling machine

Technical field

The utility model relates to battery liquid-filling apparatus field, especially relates to a kind of automatic filling machine to lithium ion battery automatic fluid injection.

Background technology

Along with the arrival in electronic intelligence epoch, the demand of people to electronic product is increasing, and for electronic product provides the battery of operation power then to become to attach most importance to, particularly lithium ion battery development, then become hot issue.

Electrolyte is the important component part of lithium ion battery, and fluid injection is the important procedure quantitative electrolyte being injected into inside lithium ion cell, is very important link in lithium ion battery production process.Reservoir quantity too much easily causes battery to play drum, causes cell thickness bad; Reservoir quantity crosses that I haven't seen you for ages makes battery capacity reduce; Reservoir quantity is uneven, causes the stable performance of battery.

Automatically do not complete this processing apparatus in the market, existing filling machine is operated separately by each station artificial, and to electrolyte the controlling of injecting quantity inaccuracy, efficiency is slow, and product quality can not effectively control, and manual operation has potential safety hazard.

Utility model content

The purpose of this utility model is the defect overcoming prior art, provides a kind of battery automatic filling machine, collects electrolyte device for storing liquid, material loading, fluid injection and is vacuum-sealed in one, to realize the full automation of battery note electrolyte process.

For achieving the above object, the utility model proposes following technical scheme: a kind of battery automatic filling machine, it comprises device for storing liquid and multiple fluid injection station, and each fluid injection station comprises rotary feeding mechanism, mechanism for filling liquid and vacuum seal mechanism:

Multiple material containing parts that described rotary feeding mechanism comprises rotary drive, the material containing part fixed head be connected with described rotary drive and is fixed on described material containing part fixed head, described rotary drive drives described material containing part to feeding in described vacuum seal mechanism;

Described mechanism for filling liquid is communicated with described device for storing liquid by fluid path, and described mechanism for filling liquid comprises the first driving mechanism, second driving mechanism, sealing strip pulls open mechanism and sealing strip spreading mechanism, described sealing strip pulls open mechanism and is connected with described first driving mechanism, described sealing strip spreading mechanism is connected with described second driving mechanism, described first driving mechanism drive described sealing strip pull open mechanism carry out level move forward and backward, pull open the sealing strip of battery, described second driving mechanism drives described sealing strip spreading mechanism vertically to move up and down, described sealing strip spreading mechanism struts the sealing strip of described battery and inject electrolyte in battery,

The heat driven part that described vacuum seal mechanism comprises seal chamber, is positioned at the heating component of described seal chamber and is connected with described heating component, described heat driven part is arranged on outside described seal chamber, and be connected with described heating component by guidance set, the battery that described heat driven part drives the clamping of described heating component to be positioned at described seal chamber carries out heated sealant.

Preferably, described device for storing liquid comprises base plate, reservoir and fluid injection tank, and described reservoir is fixed on described base plate, and described fluid injection tank is fixed in described reservoir, and is connected with described mechanism for filling liquid.

Preferably, described device for storing liquid also comprises the multiple measuring pumps communicated with described fluid injection tank, and described measuring pump is all fixed on a fixed head, and described fixed head lower end is fixed on described base plate by support column.

Preferably, described material containing part fixed head lower end is also provided with bearing pedestal, and described rotary feeding mechanism also comprises guide vane end stop, and described guide vane end stop is fixed on guide vane end stop fixed head, described guide vane end stop fixed head one end is fixed on described material containing part fixed head, and the other end is fixed on described bearing pedestal.

Preferably, first driving mechanism of described mechanism for filling liquid comprises the first actuator, slide block and the second actuator, described skid is connected on described first actuator, described second actuator and described first actuator be arranged in parallel, and be connected by vertical rack between the two, described vertical rack one end and described slide block are fixedly linked, and the other end and described second actuator are fixedly linked, and described sealing strip pulls open mechanism and is connected with described second actuator.

Preferably, what described sealing strip spreading mechanism comprised liquid injection pipe, finger cylinder and was fixed on described finger cylinder lower end struts part, and strut the sealing strip that part struts described battery described in described finger cylinder drives, described liquid injection pipe is to fluid injection in described battery.

Preferably, described guidance set comprises linear bearing and the axis of guide, and described linear bearing is arranged on described seal chamber, and the described axis of guide is through described linear bearing, and one end is fixed on described heat driven part, and the other end is connected with described heating component.

Preferably, the thermal insulation board that described heating component comprises heat block and is stacked with described heat block, described thermal insulation board and the described axis of guide are fixedly linked.

Preferably, relative with installing described heat driven part on described seal chamber one end is also provided with material containing chamber actuator.

Preferably, described battery automatic filling machine also comprises frame, described frame comprises upper bracket and lower bearing bracket, one side of described upper bracket is provided with emergency exit, and described emergency exit comprises safe door-plate, the Rodless cylinder be connected with described safe door-plate and is arranged on the sealing knocker on described emergency exit edges of boards edge.

The beneficial effects of the utility model are:

1, the injection of the automatic charging of battery, electrolyte, the inside of battery vacuumize, seal a few procedure and couple together and automatically complete by the utility model, avoid manually and electrolyte contacts direct when producing, improve fluid injection accuracy, fail safe and operating efficiency.

2, the utility model simplifies technique process, reduces manual work, reduces fraction defective, cost-saving, and minimizing accident safety simultaneously occurs and is guaranteed.

Accompanying drawing explanation

Fig. 1 is the perspective view of the utility model battery automatic filling machine;

Fig. 2 is the plan structure schematic diagram of Fig. 1;

Fig. 3 is the perspective view of the utility model device for storing liquid;

Fig. 4 is the perspective view of the rotary feeding mechanism of the utility model liquid-filling machine for battery;

Fig. 5 is the side-looking structural representation of Fig. 4;

Fig. 6 is the perspective view of the utility model mechanism for filling liquid;

Fig. 7 is the side-looking structural representation of Fig. 6;

Fig. 8 is the perspective view of the vacuum seal mechanism of the utility model liquid-filling machine for battery;

Fig. 9 is the plan structure schematic diagram of Fig. 8;

Figure 10 is the perspective view of the utility model emergency exit.

Reference numeral:

100, device for storing liquid:

101, base plate, 102, reservoir, 103, fluid injection tank, 104, pillar, 105, measuring pump, 106, fixed head, 107, support column, 108, liquid level tube, 109, liquid level sensor, 110, clip;

200, rotary feeding mechanism:

201, base, 202, rotary drive, 203, material containing part, 204, guide vane end stop, 205, reinforcement, 206, hydraulic bjuffer, 207, buffer fixed head, 208, material containing part fixed head, 209, shaft coupling, 210, material containing chamber, 211, fix plate, the 212, first Compress Spring, 213, the second Compress Spring, 214, bearing pedestal, 215, guide vane end stop fixed head, 216, floating junction;

300, mechanism for filling liquid:

301, fixed support, the 302, first driving mechanism, the 303, second driving mechanism, 304, sealing strip pulls open mechanism, 305, sealing strip spreading mechanism, 306, vertically pedestal, 307, the first actuator fixed head, the 308, second driving mechanism holder, the 309, first actuator, 310, slide block, the 311, second actuator, 312, vertical rack, 313, vacuum inlet, 314, sucker, 315, liquid injection pipe, 316, finger cylinder, 317, strut part;

400, vacuum seal mechanism:

401, seal chamber, 402, heating component, 403, heat driven part, 404, O RunddichtringO, 405, heat block, 406, thermal insulation board, 407, guidance set, 408, battery clamping plate, 409, the clamping space of battery, 410, linear bearing, 411, the axis of guide, 412, material containing chamber actuator, 413, Fibre Optical Sensor, 414, mesh plate, 415, pressure vacuum gauge, 416, aviation plug, 417, handle;

501, upper bracket, 502, lower bearing bracket, 503, emergency exit, 504, safe door-plate, 505, Rodless cylinder, 506, sealing knocker.

Embodiment

Below in conjunction with accompanying drawing of the present utility model, clear, complete description is carried out to the technical scheme of the utility model embodiment.

A kind of battery automatic filling machine that the utility model discloses, for being automatically injected electrolyte to battery.Shown in composition graphs 1 and Fig. 2, battery automatic filling machine of the present utility model comprises device for storing liquid 100 and multiple fluid injection station, each fluid injection station comprises rotary feeding mechanism 200, mechanism for filling liquid 300 and vacuum seal mechanism 400, artificial or automatically battery is put into rotary feeding mechanism 200, the aluminium film sealing strip that mechanism for filling liquid 300 pulls open battery note electrolyte injects electrolyte to battery quantification, battery after fluid injection is sent in vacuum seal mechanism 400 and is carried out vacuumizing sealing by rotary feeding mechanism 200 again, carries out the material loading of battery while sealing again.

Walk abreast in the utility model embodiment and be provided with three fluid injection stations, three fluid injection stations can be produced simultaneously or select independent production.

Device for storing liquid 100 is for storing electrolyte and providing electrolyte to mechanism for filling liquid.Particularly, as shown in Figure 3, device for storing liquid 100 comprises base plate 101, reservoir 102 and fluid injection tank 103, and four angles of base plate 101 bottom respectively arrange a pillar 104, and reservoir 102 is fixed on base plate 101, for storing electrolyte.Fluid injection tank 103 is fixed in reservoir 102, and is connected with mechanism for filling liquid 300, for electrolyte is flowed to mechanism for filling liquid 300 by liquid injection pipe.

Quantitatively provide electrolyte to mechanism for filling liquid 300 to realize device for storing liquid 100, the utility model is preferably provided with the multiple measuring pumps 105 communicated with fluid injection tank 103 on device for storing liquid 100, namely, when the electrolyte in fluid injection tank 103 passes through the measuring pump 105 connected corresponding to liquid injection pipe by liquid injection pipe, carry quantitative electrolyte to mechanism for filling liquid 300 by measuring pump 105.The utility model embodiment arranges 3 measuring pumps 105, and the magnitude setting of measuring pump 105 can increase and decrease according to actual conditions.3 measuring pumps 105 are all fixed on a fixed head 106, and fixed head 106 lower end is fixed on base plate 101 by support column 107.

Fluid injection tank 103 is also provided with liquid level tube 108, and liquid level tube 108 is vertically arranged, and its upper and lower side is all communicated with in fluid injection tank 103 by pipeline.

Preferably, liquid level tube 108 is also provided with liquid level sensor 109 in the position near its lower end, for monitoring the liquid level in fluid injection tank 103, when liquid level in fluid injection tank 103 is on the low side, electrolyte can be supplemented to fluid injection tank 103 in time from reservoir 102, or when the liquid level in fluid injection tank 103 is higher, electrolyte can be discharged in time in reservoir 102.

Fluid injection tank 103 upper end has liquid injection port, and liquid injection port is undertaken opening, closing by clip 110.

Rotary feeding mechanism 200 for realizing the automatic charging of battery in the operation to battery note electrolyte.Shown in composition graphs 4 and Fig. 5, the utility model rotary feeding mechanism 200 comprises base 201, rotary drive 202, multiple material containing part 203 and guide vane end stop 204, base 201 is for supporting whole batch charging mechanism, base 201 is fixedly installed reinforcement 205, for strengthening the support strength of base 201.Rotary drive 202 is fixedly mounted on base 201, and for driving material containing part 203 to carry out rising, decline and rotating, rotary drive 202 can be rotary cylinder.

Rotary drive 202 being provided with hydraulic bjuffer 206, for carrying out buffer deceleration to cylinder, cylinder being shielded.Hydraulic bjuffer 2067 is fixed by buffer fixed head 207.

Material containing part 203 treats the battery of fluid injection for loading, can arrange multiple material containing part 203 according to actual conditions, the utility model embodiment has been arranged side by side two material containing parts 203.Material containing part 203 is all fixed on and is positioned on the material containing part fixed head 208 of its lower end, material containing part fixed head 208 lower end is connected with rotary drive 202 by shaft coupling 209, so just, realizing a rotary drive 202 can drive multiple material containing part 203 to carry out action simultaneously, as rotated.Namely rotary drive 202 drives shaft coupling 209 to drive material containing part 203 to rotate.

The material containing chamber 210 of loading battery is formed in material containing part 203, material containing chamber 210 internal fixtion has the fixing plate 211 of battery clamping in material containing chamber 210, fix the spatial accommodation being formed with battery between plate 211 and material containing part 210 inwall, namely battery is placed in this spatial accommodation.Fix the top of plate 211 and stretch out material containing chamber 210, and the side of the relative spatial accommodation of extension is fixed with the first Compress Spring 212, first Compress Spring 212 and is against on the surface of battery, battery is pressed in material containing chamber 210.Material containing part 203 in the utility model embodiment adopts U groove workpiece.

The second Compress Spring 213 is provided with, for providing buffer damping between the bottom of material containing part 203 and material containing part fixed head 208.

Material containing part fixed head 208 lower end is also fixed with bearing pedestal 214.

Guide vane end stop 204 is fixed on guide vane end stop fixed head 215, and guide vane end stop fixed head 215 one end is fixed on material containing part fixed head 208, and the other end is fixed on bearing pedestal 214.

Rotary feeding mechanism 200 also comprises floating junction 216.

Mechanism for filling liquid 300 is for being automatically injected electrolyte to battery.Shown in composition graphs 6 and Fig. 7, mechanism for filling liquid 300 comprises fixed support 301, first driving mechanism 302, second driving mechanism 303, sealing strip pulls open mechanism 304 and sealing strip spreading mechanism 305, the first actuator fixed head 307, second driving mechanism holder 308, second driving mechanism holder 308 that fixed support 301 comprises on vertical pedestal 306, pedestal is connected with the first actuator fixed head 307 by vertical rack 306.

First driving mechanism 302 and sealing strip pull open mechanism 304 and are connected, and pulling open mechanism 304 and carrying out level and move forward and backward, being namely advanced to battery place for driving sealing strip, after move to give up the throne and return.First driving mechanism 302 comprises the first actuator 309, slide block 310 and the second actuator 311, first actuator 309 is fixed on the first actuator fixed head 307, slide block 310 is slidably connected on the first actuator 309, second actuator 311 and the first actuator 309 be arranged in parallel, and be connected by vertical rack 312 between the two, vertical rack 312 one end and slide block 310 are fixedly linked, and the other end and the second actuator 311 are fixedly linked, and sealing strip pulls open mechanism 304 and is connected with the second actuator 311.First actuator 309 and the cooperation of the second actuator 311 drive sealing strip to pull open mechanism 304 and move horizontally.

Sealing strip pulls open mechanism 304 for being pulled open by the aluminium film sealing strip of battery, arranges two relative sealing strips and pulls open mechanism 304, strutted by sealing strip from the both sides of battery in the utility model embodiment.Sealing strip pulls open the sucker 314 that mechanism 304 comprises vacuum inlet 313 and communicates with vacuum inlet 313, passes into vacuum driving sucker 314 hold and the sealing strip pulling open battery from vacuum inlet 313.

Second driving mechanism 303 is fixed on the second driving mechanism holder 308 of fixed support 301, and is connected with sealing strip spreading mechanism 305, vertically moves for driving sealing strip spreading mechanism about 305.First actuator 309, second actuator 311 and the second driving mechanism 303 all can adopt slide unit cylinder.

Sealing strip spreading mechanism 305 for strut battery aluminium film sealing strip and to fluid injection in battery.What sealing strip spreading mechanism 305 comprised liquid injection pipe 315, finger cylinder 316 and was fixed on finger cylinder 316 lower end struts part 317, and liquid injection pipe 315 communicates with device for storing liquid 100, injects electrolyte by liquid injection pipe 315 in battery.The utility model embodiment arranges two and vertical struts part 317 in finger cylinder 316 lower end, finger cylinder 316 drives and struts the sealing strip that part 317 struts battery, and liquid injection pipe 315 is to fluid injection in battery.

Vacuum seal mechanism 400 is for carrying out vacuum seal to the battery after fluid injection.Shown in composition graphs 8 and Fig. 9, the utility model vacuum seal mechanism 400 comprises seal chamber 401, heating component 402 and heat driven part 403, artificial or automatically battery is sent in seal chamber 401, seal chamber 401 is vacuumized, carry out vacuum seal to battery, heat driven part 403 drives heating component 402 pairs of battery liquid-filling limits to carry out heated sealant, after vacuum reaches set point simultaneously, seal chamber 401 is opened automatically, and vacuum sealing procedure terminates.

Seal chamber 401 for loading the battery after fluid injection, and vacuumizes sealing to battery.Seal chamber 401 is provided with vacuum orifice (not shown), by vacuum pump (not shown), sealing is vacuumized to seal chamber 401.Seal chamber 401 upper end is opening shape, by lid (not shown) to seal chamber 401 upper end closed.In order to increase the sealing of seal chamber 401 upper end, the utility model is provided with O RunddichtringO 404 at the edge, upper end of seal chamber 401.

Heating component 402 is for carrying out heated sealant to the battery under vacuum state, heating component 402 is positioned at seal chamber 401, heating component 402 comprises heat block 405 and thermal insulation board 406, heat block 405 pairs of batteries carry out heated sealant, thermal insulation board 406 and heat block 405 are stacked, carry out heat insulation to the heat of heat block 405, avoid that heat block 405 heat is too high causes damage to battery.Heat block 405 can be heating copper billet.

Heat driven part 403 is positioned at outside seal chamber 401, and is connected with heating component 402 by guidance set 407, moves for driving heating component 402.Seal chamber 401 inwall is also fixedly installed the battery clamping plate relative with heat block 405, the clamping space 409 of battery is formed between battery clamping plate 408 and heat block 405, namely, when battery is positioned at this clamping space, heat driven part 403 drives heat block 405 to clamp battery to carry out heated sealant.

Guidance set 407 comprises linear bearing 410 and the axis of guide 411, and linear bearing 410 is arranged on seal chamber 401, and the axis of guide 411 is through linear bearing 410, and one end is fixed on heat driven part 403, and the other end is connected with thermal insulation board 406.

One end relative with installing heat driven part 403 on seal chamber 401 is also provided with material containing chamber actuator 412.Heat driven part 403 and material containing chamber actuator 412 all can adopt cylinder.

Preferably, material containing chamber actuator 412 is provided with Fibre Optical Sensor 413, detects battery rotary in the past whether inside material containing chamber, detect and perform subsequent processing.

In addition, the bottom surface of seal chamber 401 is provided with mesh plate 414, for filtering the impurity in vacuum.Pressure vacuum gauge 415 is also provided with, for showing the force value in seal chamber 401 in seal chamber 401.After vacuum reaches set point, seal chamber 401 is opened automatically.Seal chamber 401 is also provided with aviation plug 416 and handle 417, aviation plug mainly can air inside seal chamber 401, and the heating rod (not shown) in the heat block 405 inside seal chamber 401 and thermocouple (not shown) can be able to be picked out.Handle is easy to open the upper cover above seal chamber 401.

Shown in composition graphs 1 and Fig. 2, the utility model also comprises frame, and frame comprises upper bracket 501 and lower bearing bracket 502, and a side of upper bracket 501 is provided with emergency exit 503.As shown in Figure 10, emergency exit 503 comprises safe door-plate 504, the Rodless cylinder 505 be connected with safe door-plate 504 and is arranged on the sealing knocker 506 at safe door-plate 504 edge, and Rodless cylinder 505 drives safe door-plate 504 automatically to close.

The course of work of the present utility model is: artificial or automatically put in rotary feeding mechanism 200 by battery, start button, emergency exit 503 is closed automatically, electrolyte is injected into inside battery by mechanism for filling liquid 300 automatically accurately, and then mechanism for filling liquid 300 is return, and rotary feeding mechanism 200 declines, rotates, rises, vacuum seal mechanism 400 starts to seal action simultaneously, after completing, emergency exit 503 is opened, and manually takes out battery, completes the fluid injection operation of the utility model filling machine.

Technology contents of the present utility model and technical characteristic have disclosed as above; but those of ordinary skill in the art still may do all replacement and the modification that do not deviate from the utility model spirit based on teaching of the present utility model and announcement; therefore; the utility model protection range should be not limited to the content that embodiment discloses; and various do not deviate from replacement of the present utility model and modification should be comprised, and contained by present patent application claim.

Claims (10)

1. a battery automatic filling machine, is characterized in that, it comprises device for storing liquid and multiple fluid injection station, and each fluid injection station comprises rotary feeding mechanism, mechanism for filling liquid and vacuum seal mechanism:

Multiple material containing parts that described rotary feeding mechanism comprises rotary drive, the material containing part fixed head be connected with described rotary drive and is fixed on described material containing part fixed head, described rotary drive drives described material containing part to feeding in described vacuum seal mechanism;

Described mechanism for filling liquid is communicated with described device for storing liquid by fluid path, and described mechanism for filling liquid comprises the first driving mechanism, second driving mechanism, sealing strip pulls open mechanism and sealing strip spreading mechanism, described sealing strip pulls open mechanism and is connected with described first driving mechanism, described sealing strip spreading mechanism is connected with described second driving mechanism, described first driving mechanism drive described sealing strip pull open mechanism carry out level move forward and backward, pull open the sealing strip of battery, described second driving mechanism drives described sealing strip spreading mechanism vertically to move up and down, described sealing strip spreading mechanism struts the sealing strip of described battery and inject electrolyte in battery,

The heat driven part that described vacuum seal mechanism comprises seal chamber, is positioned at the heating component of described seal chamber and is connected with described heating component, described heat driven part is arranged on outside described seal chamber, and be connected with described heating component by guidance set, the battery that described heat driven part drives the clamping of described heating component to be positioned at described seal chamber carries out heated sealant.

2. battery automatic filling machine according to claim 1, it is characterized in that, described device for storing liquid comprises base plate, reservoir and fluid injection tank, and described reservoir is fixed on described base plate, described fluid injection tank is fixed in described reservoir, and is connected with described mechanism for filling liquid.

3. battery automatic filling machine according to claim 2, it is characterized in that, described device for storing liquid also comprises the multiple measuring pumps communicated with described fluid injection tank, and described measuring pump is all fixed on a fixed head, and described fixed head lower end is fixed on described base plate by support column.

4. battery automatic filling machine according to claim 1, it is characterized in that, described material containing part fixed head lower end is also provided with bearing pedestal, described rotary feeding mechanism also comprises guide vane end stop, described guide vane end stop is fixed on guide vane end stop fixed head, described guide vane end stop fixed head one end is fixed on described material containing part fixed head, and the other end is fixed on described bearing pedestal.

5. battery automatic filling machine according to claim 1, it is characterized in that, first driving mechanism of described mechanism for filling liquid comprises the first actuator, slide block and the second actuator, described skid is connected on described first actuator, described second actuator and described first actuator be arranged in parallel, and be connected by vertical rack between the two, described vertical rack one end and described slide block are fixedly linked, the other end and described second actuator are fixedly linked, and described sealing strip pulls open mechanism and is connected with described second actuator.

6. battery automatic filling machine according to claim 1, it is characterized in that, what described sealing strip spreading mechanism comprised liquid injection pipe, finger cylinder and was fixed on described finger cylinder lower end struts part, described finger cylinder struts the sealing strip that part struts described battery described in driving, and described liquid injection pipe is to fluid injection in described battery.

7. battery automatic filling machine according to claim 1, it is characterized in that, described guidance set comprises linear bearing and the axis of guide, described linear bearing is arranged on described seal chamber, the described axis of guide is through described linear bearing, and one end is fixed on described heat driven part, the other end is connected with described heating component.

8. battery automatic filling machine according to claim 7, is characterized in that, the thermal insulation board that described heating component comprises heat block and is stacked with described heat block, and described thermal insulation board and the described axis of guide are fixedly linked.

9. battery automatic filling machine according to claim 1, is characterized in that, one end relative with installing described heat driven part on described seal chamber is also provided with material containing chamber actuator.

10. battery automatic filling machine according to claim 1, it is characterized in that, described battery automatic filling machine also comprises frame, described frame comprises upper bracket and lower bearing bracket, one side of described upper bracket is provided with emergency exit, and described emergency exit comprises safe door-plate, the Rodless cylinder be connected with described safe door-plate and is arranged on the sealing knocker on described emergency exit edges of boards edge.