CN205621808U - Large -scale laminate polymer battery seals positioning mechanism - Google Patents

Abstract

The utility model discloses a large -scale laminate polymer battery seals positioning mechanism, including to be covered with lower vacuum cavity by last vacuum cavity and closing the vacuum packaging chamber that forms, locate upper cover, low head and the bayonet of vacuum packaging intracavity, be equipped with the layer board mobile device of battery layer board and longitudinal movement battery layer board in the lower vacuum cavity, the bottom of lower vacuum cavity is equipped with the chamber, and low head and layer board mobile device are adorned in sinking the intracavity, and the lower bottom surface of battery layer board is located to the layer board mobile device, and battery layer board top surface is equipped with the location chi, down the vacuum cavity below still is equipped with the vacuum cavity mobile device of vacuum cavity under the lateral shifting. The battery closes the chamber and carries out the evacuation first time and seal behind chi and the layer board mobile device location of location, to descend the vacuum cavity transversely to shift out encapsulation position behind the pressure release, inspection bubble and flattening reset and close the chamber once more and carry out evacuation second time and seal, but after manifold cycles operates in the soft package of completely excluded air, the servo motor location of location chi and each mobile device, the encapsulation precision is high.

Description

Large-scale soft-package battery seals detent mechanism

Technical field

The utility model relates to soft-package battery sealed in unit technical field, specifically refers to a kind of large-scale soft-package battery fixed Position enclosed mechanism.

Background technology

With the progressively application of electrokinetic cell, for ensureing enough reserve of electricitys, there is volume relatively in actual application Big soft-package battery, such as length reach the Soft Roll electrokinetic cell of 45 centimetres even 65 centimetres.This kind of large-scale Soft-package battery encapsulation when, need also exist for vacuum-pumping and sealing, with guarantee encapsulation after battery in without gas；But, Owing to battery volume is excessive, for comparing small-sized soft-package battery, the air in large-scale soft-package battery is difficult to emptying, The cost of simultaneously this kind of large-sized battery is very high again, once encapsulate bad, whole battery cancels, and will result in bigger Economic loss；Owing to this kind of large-scale soft-package battery is also in the starting stage, also do not have on the market special, have Effect ground is for the vacuum seal equipment of this kind of large-scale soft-package battery.

Utility model content

The purpose of this utility model is to provide one and can effectively empty in Soft Roll air before sealing and accurately seal Large-scale soft-package battery positioning sealing mechanism.

For achieving the above object, the technical solution adopted in the utility model is as follows:

Large-scale soft-package battery seals detent mechanism, including the vacuum seal being covered by upper vacuum chamber and lower vacuum chamber It behave affectedly, be located at the upper cover in described vacuum seal is behave affectedly, low head and bayonet, in described lower vacuum chamber, be provided with electricity Pond supporting plate and the supporting plate moving device vertically moving described battery supporting plate, the bottom of described lower vacuum chamber is provided with sinking Chamber, described low head and described supporting plate moving device are loaded in described sinking chamber, and described supporting plate moving device sets In the bottom surface of described battery supporting plate, and described battery supporting plate end face is provided with positioning rule；Below described lower vacuum chamber It is additionally provided with the vacuum chamber mobile device of lower vacuum chamber described in transverse shifting.

Described supporting plate moving device includes that the first slide rail is secondary, to connect described slide rail secondary with described battery supporting plate first Contiguous block, be parallel to described first slide rail secondary and drive described first contiguous block to move the first displacement screw mandrel, with And drive the first servomotor of described first displacement screw mandrel, described first slide rail the first contiguous block secondary, described with And one end of described first displacement screw mandrel is located in described sinking chamber, the other end of described first displacement screw mandrel and Described first servomotor is positioned at outside described vacuum seal behave affectedly, described first displacement screw mandrel and described sinking chamber Junction is provided with O-ring seals.It is provided with longitudinal cunning between the base plate of described battery supporting plate and described lower vacuum chamber Rail and chute fit structure.Described vacuum chamber mobile device includes that the second horizontal slide rail is secondary, connects described second Second contiguous block of the secondary and described lower vacuum chamber bottom surface of slide rail, the second displacement silk being parallel to described second slide rail pair Bar and the second servomotor driving described second silk shifting rod.It is provided with and described electricity in described upper vacuum chamber The corresponding trim panel of pond supporting plate.

This programme provides the benefit that: after battery supporting plate put into by battery, and located chi and supporting plate moving device are fixed After Wei, vacuum seal is behave affectedly, and conjunction chamber carries out vacuumizing for the first time, airbag punctures, sealing operation；After pressure release again by Vacuum chamber mobile device is by laterally moved out for lower vacuum chamber encapsulation position, to check bubble and to carry out flattening operation, then Reset and again close chamber carry out second time vacuumize, airbag punctures, sealing operation, according to this repeatedly circulation operate, Until air thoroughly empties in Soft Roll；Each displacement of soft-package battery has positioning rule and the servo of each mobile device Motor positions, and encapsulation precision is high.

Brief description

Below in conjunction with the accompanying drawings the utility model is described further:

Fig. 1 is the part-structure schematic diagram of the utility model sealing detent mechanism；

Fig. 2 is the partial enlarged drawing of A in Fig. 1.

Detailed description of the invention

With reference to shown in Fig. 1 and Fig. 2 large-scale soft-package battery sealing detent mechanism, including by upper vacuum chamber and lower very The vacuum seal that cavity 1 covers is behave affectedly, and is located at the upper cover in described vacuum seal is behave affectedly, low head 2 and thorn Cutter, upper cover and bayonet are located on vacuum chamber side by side, and the corresponding upper cover of low head 2 is located at lower vacuum chamber 1 In；The supporting plate being additionally provided with battery supporting plate 3 in described lower vacuum chamber 1 and vertically moving described battery supporting plate 3 moves Device, the bottom of described lower vacuum chamber 1 is provided with sinking chamber, and this sinking chamber includes two cavitys, described low head 2 are located in one cavity 11, and described supporting plate moving device is loaded in its another cavity 12, and described supporting plate moves Device is located at the bottom surface of described battery supporting plate 3, and described battery supporting plate 3 end face is provided with positioning rule 31, positioning Chi 31 includes in 90 degree of located lateral chis arranging and longitudinal register chi；It is additionally provided with below described lower vacuum chamber 1 The vacuum chamber mobile device of lower vacuum chamber 1 described in transverse shifting.

Described supporting plate moving device includes longitudinally being located at the first slide rail pair of sinking chamber 12 inner bottom surface and the 41st, connects institute State slide rail secondary 41 the 42nd, to be parallel to described first slide rail pair 41 with the first contiguous block of described battery supporting plate 3 and drive Move the first displacement screw mandrel 43 of moving of described first contiguous block 42 and drive described first displacement screw mandrel 43 The first servomotor 44, described first slide rail pair the 41st, described first contiguous block 42 and described first displacement One end of screw mandrel 43 is located in described sinking chamber 12, the other end of described first displacement screw mandrel 43 and described First servomotor 44 is positioned at outside described vacuum seal behave affectedly, described first displacement screw mandrel 43 and described sinking chamber The junction of 12 is provided with O-ring seals.Set between the base plate of described battery supporting plate 3 and described lower vacuum chamber 1 Have longitudinal slide rail and chute fit structure.Described vacuum chamber mobile device includes second being laterally located in frame The 51st, slide rail pair connects described second slide rail secondary 51 and the second contiguous block of described lower vacuum chamber 1 bottom surface, parallel In the second silk shifting rod 52 of described second slide rail pair 51 and drive described second silk shifting rod 52 second Servomotor.It is provided with described battery supporting plate 3 corresponding trim panel in described upper vacuum chamber.

After battery supporting plate 3 put into by battery, after located chi 31 and supporting plate moving device positioning, upper vacuum chamber Close with lower vacuum chamber 1 that chamber carries out vacuumizing for the first time, airbag punctures, sealing operation；Again by vacuum after pressure release Chamber mobile device is by laterally moved out for lower vacuum chamber 1 encapsulation position, to check bubble and to carry out flattening operation, then multiple Position and again close chamber carry out second time vacuumize, airbag punctures, sealing operation, according to this repeatedly circulation operate, directly To Soft Roll, air thoroughly empties；Each displacement of soft-package battery has watching of positioning rule 31 and each mobile device Taking motor positioning, encapsulation precision is high.

Above embodiment simply indicates that rather than limits the utility model, therefore all according to the utility model patent The equivalence that method described in application range is done changes or modifies, and is all included in the utility model patent claim In.

Claims (5)

1. large-scale soft-package battery sealing detent mechanism, including the Vacuum Package being covered by upper vacuum chamber and lower vacuum chamber Chamber, is located at the upper cover in described vacuum seal is behave affectedly, low head and bayonet, it is characterised in that: described lower vacuum It is provided with battery supporting plate in chamber and vertically move the supporting plate moving device of described battery supporting plate, the end of described lower vacuum chamber Portion is provided with sinking chamber, and described low head and described supporting plate moving device are loaded in described sinking chamber, described supporting plate Mobile device is located at the bottom surface of described battery supporting plate, and described battery supporting plate end face is provided with positioning rule；Under described It is additionally provided with the vacuum chamber mobile device of lower vacuum chamber described in transverse shifting below vacuum chamber.

2. large-scale soft-package battery according to claim 1 sealing detent mechanism, it is characterised in that: described supporting plate Mobile device includes that the first slide rail is secondary, connects the first contiguous block of the secondary and described battery supporting plate of described slide rail, parallel And the first displacement screw mandrel that drive described first contiguous block move secondary in described first slide rail and drive described the First servomotor of one displacement screw mandrel, described first slide rail the first contiguous block secondary, described and described first One end of silk shifting rod is located in described sinking chamber, the other end of described first displacement screw mandrel and described first servo Motor is positioned at outside described vacuum seal behave affectedly, and described first displacement screw mandrel is provided with O with the junction in described sinking chamber Shape sealing ring.

3. large-scale soft-package battery according to claim 1 and 2 sealing detent mechanism, it is characterised in that: described It is provided with longitudinal slide rail and chute fit structure between the base plate of battery supporting plate and described lower vacuum chamber.

4. large-scale soft-package battery according to claim 1 sealing detent mechanism, it is characterised in that: described vacuum Chamber mobile device includes that the second horizontal slide rail is secondary, connects the secondary and described lower vacuum chamber bottom surface of described second slide rail It second contiguous block, is parallel to the secondary second silk shifting rod of described second slide rail and drives described second displacement silk Second servomotor of bar.

5. large-scale soft-package battery according to claim 1 sealing detent mechanism, it is characterised in that: described upper very It is provided with the corresponding trim panel with described battery supporting plate in cavity.