CN106178007A - Equipment for quickly freezing plasma ultrahigh pressure to inactivate viruses - Google Patents

Abstract

The invention discloses a device for quickly freezing plasma ultrahigh pressure inactivated virus, which comprises: the blood bag pressurization device comprises a supercharger, a heat insulation shell and an ultrahigh pressure container positioned in the heat insulation shell, wherein the supercharger inputs ultrahigh pressure liquid into the ultrahigh pressure container through a pipeline and is used for pressurizing a blood bag positioned in the ultrahigh pressure container; the refrigerating device is arranged on the heat-insulating shell and used for refrigerating the blood bag, and the equipment for quickly freezing the plasma ultrahigh-pressure inactivated virus can improve the refrigerating speed of the blood and is beneficial to protecting effective components in the plasma, particularly blood coagulation factors; the equipment inactivates the virus by a physical method, thereby avoiding the negative influence of drug residues for inactivating the virus by a chemical method and improving the safety of blood plasma; compared with the normal temperature, the treatment effect of the inactivated virus is better; not only simplifies the method for inactivating virus and reduces the treatment cost of blood plasma, but also completes quick freezing and virus killing simultaneously, and has obvious economic effect.

Description

A kind of equipment of quick-freezing blood plasma supertension inactivation of viruses

Technical field

The invention belongs to the process blood plasma field of physical method, relate in particular to a kind of quick-freezing blood plasma supertension inactivation disease The equipment of poison.

Background technology

At present, there are some researches prove, quick-freezing blood bag needs 40 minutes blood bag centers to can be only achieved-30 DEG C, is freezing In journey, ice crystal is grown up, and has often damaged plasma fraction, and cooling time is the longest, and the degree of damage is the biggest.

Summary of the invention

For the deficiencies in the prior art, the invention provides the equipment of a kind of quick-freezing blood plasma supertension inactivation of viruses, this speed The equipment freezing blood plasma supertension inactivation of viruses is lowered the temperature during pressure simultaneously, can reach the effect of more preferable inactivation of viruses.

To this end, technical scheme is as follows:

A kind of equipment of quick-freezing blood plasma supertension inactivation of viruses, including: supercharger, insulation shell and be positioned at described insulation cladding The ultrahigh pressure vessel in internal portion, described supercharger inputs superhigh pressure liquid, for right by pipeline in described ultrahigh pressure vessel It is positioned at the blood bag within described ultrahigh pressure vessel to pressurize；Described insulation shell is provided with refrigerating plant, for institute State blood bag to freeze.

In technique scheme, described supercharger is positioned at described insulation shell outside or inside；Described ultrahigh pressure vessel For being formed with the cylindrical of hollow cavity, it is provided around framework at described ultrahigh pressure vessel.

In technique scheme, described ultrahigh pressure vessel is laterally disposed；The two ends of described ultrahigh pressure vessel are formed respectively There is an opening connected with described hollow cavity；The lower surface of one base plate is fixedly mounted with described framework, along longitudinally on described base plate A plurality of line slideway is installed, is used for making described ultrahigh pressure vessel slide anteroposterior on described line slideway；Near described super End bridging structure it is separately installed with, for sealing two openings of described ultrahigh pressure vessel, institute on the framework at the two ends of high-pressure bottle State end bridging structure to include: for inserting that the end of described opening is stifled, the first hydraulic cylinder and the straight optical axis of Duo Gen horizontally set, described The cylinder barrel of the first hydraulic cylinder is fixedly mounted with on said frame, and the piston rod of described first hydraulic cylinder is vertically fixed with a push pedal；Described One end of straight optical axis is vertical with described push pedal to be fixedly mounted with, and the periphery that the other end of described straight optical axis blocks up with end is fixedly mounted with, so that During described first hydraulic cylinder backhaul, end blocks up and stretches into the opening of the ultrahigh pressure vessel being positioned at relevant position and seal described supertension Container；

The lower end of described framework is connected with the upper surface of base, and described base and described insulation shell form a closed chamber Body；Described insulation shell is formed 2 swing doors, every when described ultrahigh pressure vessel slides into away from described end bridging structure Swing door described in individual described opening the most corresponding, for loading blood bag or from described superelevation pressure-volume in described ultrahigh pressure vessel Blood bag is taken out in device；

In described end is stifled, be formed with superhigh pressure liquid input channel, described superhigh pressure liquid input channel by pipeline with Described supercharger connects, so that inputting superelevation hydraulic fluid in described ultrahigh pressure vessel by described superhigh pressure liquid input channel Body.

In technique scheme, the quantity of described line slideway is 2, and every line slideway is provided with 2 slide blocks, Described slide block all lower ends with described ultrahigh pressure vessel are fixedly mounted with.

In technique scheme, multiple framework bracing frame is installed between described framework and described base, for propping up Support described framework.

In technique scheme, one second hydraulic cylinder is installed under the framework that each described end blocks up superstructure, its In, the cylinder barrel of described second hydraulic cylinder is fixedly mounted with described framework, and piston rod and a parallels of described second hydraulic cylinder are fixedly mounted with, so that Second hydraulic cylinder action described in during described first hydraulic cylinder backhaul, parallels drops to the stifled side away from ultrahigh pressure vessel of end, uses In the axial force bearing described end bridging structure.

In technique scheme, being provided with two vertical gripper shoes in described framework, two described gripper shoes are divided Not being positioned at the arranged on left and right sides of described ultrahigh pressure vessel, many straight optical axis of each described end bridging structure are each passed through corresponding Described gripper shoe, be used for supporting described end bridging structure and be laterally moved.

In technique scheme, described hollow cavity is cylindrical.

In technique scheme, described ultrahigh pressure vessel is vertically to place, and the upper end of described ultrahigh pressure vessel is formed One opening connected with described hollow cavity；Between described ultrahigh pressure vessel and described framework, pressurized cylinder is installed, so that institute State ultrahigh pressure vessel to move at vertical direction；Under the framework of side, plunger moving guide rail, described plunger are installed over said opening Slide block is installed under moving guide rail, under described slide block, is fixed with plunger, so that described plunger is along described plunger moving guide rail level When sliding into the surface of described opening, described ultrahigh pressure vessel moves upward and by described plunger seal；

In described plunger, be formed with superhigh pressure liquid input channel, described superhigh pressure liquid input channel by pipeline with Described supercharger connects, so that inputting superelevation hydraulic fluid in described ultrahigh pressure vessel by described superhigh pressure liquid input channel Body；

Described insulation shell is provided with a sliding door, for loading blood bag in described ultrahigh pressure vessel or from described Blood bag is taken out in ultrahigh pressure vessel.

In technique scheme, described sliding door is provided with handle.

Compared to prior art, the equipment of the quick-freezing blood plasma supertension inactivation of viruses of the present invention can improve the speed of blood refrigeration Degree, is conducive to the effective ingredient in protection blood plasma, particularly thrombin；The quick-freezing blood plasma supertension inactivation of viruses of the present invention Equipment is physical method inactivation of viruses, avoids the negative effect of the drug residue of chemical method inactivation of viruses, improves blood plasma Safety；Compared with room temperature, the treatment effect of inactivation of viruses is more preferable；Use the quick-freezing blood plasma supertension inactivation disease of the present invention The method that the equipment of poison not only simplify inactivation of viruses, reduces the processing cost of blood plasma, and quick-freezing and virus of going out is the completeest Become, have obvious economic effect.

Accompanying drawing explanation

Fig. 1 is the front view of the equipment of the quick-freezing blood plasma supertension inactivation of viruses of the present invention；

Fig. 2 is the top view of the equipment of the quick-freezing blood plasma supertension inactivation of viruses of the present invention；

Fig. 3 is the top view of the equipment of the quick-freezing blood plasma supertension inactivation of viruses of the present invention；

Fig. 4 is the sectional view of the equipment of the quick-freezing blood plasma supertension inactivation of viruses of the present invention.

Wherein, 1: framework bracing frame 2: superhigh pressure liquid input channel 3: base

4: line slideway 5: base plate 6: straight optical axis

7: the first hydraulic cylinders 8: parallels 9: framework

10: ultrahigh pressure vessel 11: stifled 12: the second hydraulic cylinders of end

13: gripper shoe 14: insulation shell 15: swing door

16: push pedal 17: plunger 18: plunger moving guide rail

19: pressurized cylinder.

Detailed description of the invention

With embodiment, the equipment of the quick-freezing blood plasma supertension inactivation of viruses of the present invention is carried out specifically below in conjunction with the accompanying drawings Bright.

Embodiment 1

As shown in accompanying drawing 1～3, including: supercharger (not shown), insulation shell 14 and to be positioned at insulation shell 14 internal Ultrahigh pressure vessel 10, wherein, ultrahigh pressure vessel 10 be formed hollow cavity cylindrical (hollow cavity can also for circle Cylinder shape), it is placed with blood bag in hollow cavity, is provided around framework 9 at ultrahigh pressure vessel 10 and (Fig. 2 and Fig. 3 does not shows that Framework 9).Insulation shell 14 is provided with refrigerating plant (not shown), is used for the blood bag in insulation shell 14 (in figure Not shown) freeze.

Ultrahigh pressure vessel 10 is laterally disposed, the two ends of ultrahigh pressure vessel 10 be respectively formed with one connect with hollow cavity open Mouthful, ultrahigh pressure vessel 10 can be by ultrahigh pressure vessel inner cylinder tube and being sleeved on outside the ultrahigh pressure vessel outside ultrahigh pressure vessel inner cylinder tube Cylinder barrel forms.The lower surface of one base plate 5 is fixedly mounted with framework 9, and along being longitudinally provided with 2 line slideways 4 on base plate 5, every straight Being provided with 2 slide blocks on line guide rail 4,4 slide blocks all lower ends with ultrahigh pressure vessel 10 are fixedly mounted with, and are used for making ultrahigh pressure vessel 10 exist Slide anteroposterior on line slideway 4；Framework 9 near the two ends of ultrahigh pressure vessel 10 is separately installed with end bridging structure, is used for Seal two openings of ultrahigh pressure vessel 10.End bridging structure includes: block up the 11, first hydraulic cylinder 7 and four for inserting the end of opening The straight optical axis 6 of root horizontally set, the cylinder barrel of the first hydraulic cylinder 7 is fixedly mounted with on the frame 9, and the piston rod of the first hydraulic cylinder 7 is vertical It is fixed with a push pedal 16；One end of straight optical axis 6 is vertical with push pedal 16 to be fixedly mounted with, and the other end of straight optical axis 6 blocks up the circle of 11 with end Side face is fixedly mounted with, so that end blocks up 11 and stretches into the opening of the ultrahigh pressure vessel 10 being positioned at relevant position also during the first hydraulic cylinder 7 backhaul Seal ultrahigh pressure vessel 10, as shown in figure 1 and 2.

The lower end of framework 9 is connected with the upper surface of base 3, and framework 9 and base 3 can be integrated composition, base 3 and insulation Housing 14 forms an airtight cavity；Insulation shell 14 is formed 2 swing doors 15, when ultrahigh pressure vessel 10 slide into away from Each opening corresponding swing door 15 respectively during end bridging structure, for loading blood bag or from superelevation pressure-volume in ultrahigh pressure vessel 10 Blood bag is taken out in device 10.The ultra high pressure treatment of blood plasma is carried out, in extra-high tension unit pressure process under-10 to-20 DEG C of environment Must be in full closeding state, only when dress takes blood bag, equipment automatically turns on 2 swing doors 15.

Being formed with superhigh pressure liquid input channel 2 in end stifled 11, superhigh pressure liquid input channel 2 passes through pipeline and is positioned at Supercharger connection outside insulation shell 14, so that input super in ultrahigh pressure vessel 10 by superhigh pressure liquid input channel 2 Highly pressurised liquid, pressurizes for the blood bag being pointed in ultrahigh pressure vessel 10.

When needs dress takes blood bag, ultrahigh pressure vessel 10 can move to outside framework 9；When carrying out HIGH PRESSURE TREATMENT, return to frame In frame 9, framework 9 bear the axial force of ultrahigh pressure vessel.

Further, multiple framework bracing frame 1 is installed between framework 9 and base 3, for support frame 9.

Further, block up the framework of superstructure at each end and one second hydraulic cylinder 12, wherein, can be installed for 9 times The cylinder barrel of two hydraulic cylinders 12 is fixedly mounted with framework 9, and piston rod and a parallels 8 of the second hydraulic cylinder 12 are fixedly mounted with, so that the first hydraulic cylinder 7 Second hydraulic cylinder 12 action during backhaul, parallels 8 drops to the end stifled 11 side away from ultrahigh pressure vessel 10, is used for bearing end bridging The axial force of structure.

Further, being provided with two vertical gripper shoes 13 in framework 9, two gripper shoes 13 lay respectively at supertension The arranged on left and right sides of container 10, four straight optical axis 6 of each end bridging structure are each passed through corresponding gripper shoe 13, for propping up Support end bridging structure is laterally moved.

Described in a kind of embodiment 1, the equipment of quick-freezing blood plasma supertension inactivation of viruses carries out low-temperature quick-freezing and superelevation to blood plasma The method of pressure inactivation of virus, comprises the following steps:

1) blood plasma is loaded in blood bag, and discharges the air in blood bag, blood bag is put into instant freezer (not shown), Utilize instant freezer that blood bag carries out pre-cooling: to make blood bag be cooled to-15～-25 DEG C and keep 10～20 minutes；

2) blood bag being taken out in instant freezer, slip ultrahigh pressure vessel 10 to its opening and two swing doors 15 are relatively, logical Cross swing door 15 and put into blood bag in ultrahigh pressure vessel 10；Slip ultrahigh pressure vessel 10 to opening is stifled with end relative, the first hydraulic pressure Cylinder 7 backhaul makes that end is stifled stretch into opening in and ultrahigh pressure vessel 10 is sealed.By superhigh pressure liquid input channel 2 to superelevation It is passed through superhigh pressure liquid in pressure vessel 10, so that blood bag is in the environment of 200～400MPA, forms an airtight high pressure chest, Meanwhile, utilize refrigerating plant that blood bag carries out quick-freezing: to make blood bag be cooled to-35～-40 DEG C and keep 20～40 minutes；To superelevation Pressure vessel 10 carries out pressure release (extracting superhigh pressure liquid in ultrahigh pressure vessel 10 out by superhigh pressure liquid input channel 2).First Hydraulic cylinder 7 action makes end block up 11 to remove in opening, and slip ultrahigh pressure vessel 10 makes the opening of ultrahigh pressure vessel 10 and two pendulum The position of dynamic door 15 is relative, takes out blood bag.

The structure of the equipment of the quick-freezing blood plasma supertension inactivation of viruses of the present invention also can be as follows:

Embodiment 2

As shown in Figure 4, including: supercharger, insulation shell 14 and be positioned at the ultrahigh pressure vessel 10 within insulation shell 14, Insulation shell 14 is provided with refrigerating plant (not shown), for the ultrahigh pressure vessel 10 within insulation shell 14 is entered Row refrigeration；Ultrahigh pressure vessel 10 is the cylindrical (hollow cavity can also be for cylindrical) being formed with hollow cavity.Hollow It is placed with blood bag in cavity, is provided around framework 9 at ultrahigh pressure vessel 10.Ultrahigh pressure vessel 10 is vertically to place, supertension The upper end of container 10 is formed with an opening connected with hollow cavity；Between ultrahigh pressure vessel 10 and framework 9, supercharging is installed Cylinder 19, so that ultrahigh pressure vessel 10 moves at vertical direction；Framework at overthe openings is provided with plunger moving guide rail 18 9 times, Plunger moving guide rail is provided with for 18 times under slide block, slide block and is fixed with plunger 17, so that plunger 17 is along plunger moving guide rail 18 level When sliding into the surface of opening, ultrahigh pressure vessel 10 moves upward and by plunger seal.

Being formed with superhigh pressure liquid input channel 2 in plunger 17, superhigh pressure liquid input channel 2 passes through pipeline and is positioned at Supercharger connection outside insulation shell 14, so that input super in ultrahigh pressure vessel 10 by superhigh pressure liquid input channel 2 Highly pressurised liquid, pressurizes for the blood bag being pointed within ultrahigh pressure vessel 10.

Insulation shell 14 is provided with a sliding door (not shown), sliding door is provided with handle, for super Load blood bag in high-pressure bottle 10 or in ultrahigh pressure vessel 10, take out blood bag.

Described in a kind of embodiment 2, the equipment of quick-freezing blood plasma supertension inactivation of viruses carries out low-temperature quick-freezing and superelevation to blood plasma The method of pressure inactivation of virus, comprises the following steps:

1) blood plasma is loaded in blood bag, and discharges the air in blood bag, blood bag is put into instant freezer (not shown), Utilize instant freezer that blood bag carries out pre-cooling: to make blood bag be cooled to-15～-25 DEG C and keep 10～20 minutes；

2) blood bag is taken out in instant freezer, open sliding door, in ultrahigh pressure vessel 10, put into blood bag；Close push-and-pull Door.Sliding spool 17, so that plunger is positioned at the surface of the opening of ultrahigh pressure vessel 10, starts pressurized cylinder 19, so that supertension Container 10 moves upward and plunger seal ultrahigh pressure vessel 10.By superhigh pressure liquid input channel 2 in ultrahigh pressure vessel 10 It is passed through superhigh pressure liquid, so that blood bag is in the environment of 200～400MPA, forms an airtight high pressure chest, meanwhile, utilize system Device for cooling carries out quick-freezing to blood bag: make blood bag be cooled to-35～-40 DEG C and keep 20～40 minutes；Ultrahigh pressure vessel 10 is entered Row pressure release (extracts superhigh pressure liquid out by superhigh pressure liquid input channel 2) in ultrahigh pressure vessel 10, moves down supertension Container 10, makes plunger 17 remove from overthe openings by slip.Open sliding door, take out blood bag.Under-10 to-20 DEG C of environment Carry out the ultra high pressure treatment of blood plasma, equipment pressure process must be in full closeding state, the only equipment when dress takes blood bag Opening sliding door, sliding door can be that automatic or manual is opened.

The equipment utilizing embodiment 1 and the quick-freezing blood plasma supertension inactivation of viruses described in embodiment 2 is tested, and can obtain Go out: under the pressure of supertension 200～400MPa, also will not freeze even if blood plasma reaches-30 DEG C, but at the moment blood of pressure release Slurry can complete freezing process and become solid-state, and the crystal grain formed is the finest, can effectively protect the composition of blood plasma not broken Bad, it is improved the effect of plasma purity.Under-30～-40 DEG C of temperature conditionss, apply the pressure of 200～400MPa, can inactivate Virus in blood plasma, it is ensured that the safety of blood transfusion；After pressure discharges, blood plasma flash frozen, improve blood plasma freezes matter Amount.

Above the present invention is done exemplary description, it should explanation, in the situation of the core without departing from the present invention Under, any simple deformation, amendment or other those skilled in the art can not spend the equivalent of creative work equal Fall into protection scope of the present invention.

Claims (10)

1. the equipment of a quick-freezing blood plasma supertension inactivation of viruses, it is characterised in that including: supercharger, insulation shell (14) and Being positioned at the ultrahigh pressure vessel (10) that described insulation shell (14) is internal, described supercharger passes through pipeline to described ultrahigh pressure vessel (10) input superhigh pressure liquid in, the blood bag being used for being pointed to described ultrahigh pressure vessel (10) internal is pressurizeed；Described guarantor In temperature housing (14), refrigerating plant is installed, for described blood bag is freezed.

The equipment of quick-freezing blood plasma supertension inactivation of viruses the most according to claim 1, it is characterised in that described supercharger position In described insulation shell (14) outside or inside；Described ultrahigh pressure vessel (10) is the cylindrical being formed with hollow cavity, Described ultrahigh pressure vessel (10) is provided around framework (9).

The equipment of quick-freezing blood plasma supertension inactivation of viruses the most according to claim 2, it is characterised in that described hollow cavity For cylindrical.

4. according to the equipment of the quick-freezing blood plasma supertension inactivation of viruses described in Claims 2 or 3, it is characterised in that described superelevation Pressure vessel (10) is laterally disposed；The two ends of described ultrahigh pressure vessel (10) be respectively formed with one with opening that described hollow cavity connects Mouthful；The lower surface of one base plate (5) is fixedly mounted with described framework (9), upper along being longitudinally provided with a plurality of line slideway at described base plate (5) (4), it is used for making described ultrahigh pressure vessel (10) at the upper slide anteroposterior of described line slideway (4)；Near described ultrahigh pressure vessel (10) it is separately installed with end bridging structure on the framework (9) at two ends, is used for sealing two openings of described ultrahigh pressure vessel (10)； Described end bridging structure includes: for inserting end stifled (11), the first hydraulic cylinder (7) and the straight line of many horizontally sets of described opening Optical axis (6), the cylinder barrel of described first hydraulic cylinder (7) is packed on described framework (9), the piston rod of described first hydraulic cylinder (7) Vertically it is fixed with a push pedal (16)；One end of described straight optical axis (6) is vertical with described push pedal (16) to be fixedly mounted with, described straight optical axis (6) periphery of the other end stifled with end (11) is fixedly mounted with, so that end stifled (11) stretches into and is positioned at during described first hydraulic cylinder (7) backhaul The opening of the ultrahigh pressure vessel (10) of relevant position is interior and seals described ultrahigh pressure vessel (10)；

The lower end of described framework (9) is connected with the upper surface of base (3), and described base (3) is formed with described insulation shell (14) One airtight cavity；Described insulation shell (14) is formed with 2 swing doors (15), when described ultrahigh pressure vessel (10) slides into Away from swing door (15) described in each described opening during described end bridging structure the most corresponding, for described ultrahigh pressure vessel (10) load blood bag in or in described ultrahigh pressure vessel (10), take out blood bag；

Being formed with superhigh pressure liquid input channel (2) in described end stifled (11), described superhigh pressure liquid input channel (2) is passed through Pipeline connects with described supercharger, so that by described superhigh pressure liquid input channel (2) in described ultrahigh pressure vessel (10) Input superhigh pressure liquid.

The equipment of quick-freezing blood plasma supertension inactivation of viruses the most according to claim 4, it is characterised in that described line slideway (4) quantity is 2, and every line slideway (4) is provided with 2 slide blocks, described slide block all with described ultrahigh pressure vessel (10) Lower end be fixedly mounted with.

The equipment of quick-freezing blood plasma supertension inactivation of viruses the most according to claim 4, it is characterised in that at described framework (9) and multiple framework bracing frame (1) is installed between described base (3), it is used for supporting described framework (9).

The equipment of quick-freezing blood plasma supertension inactivation of viruses the most according to claim 4, it is characterised in that at each described end Under the framework (9) of stifled superstructure, one second hydraulic cylinder (12), wherein, the cylinder barrel of described second hydraulic cylinder (12) and institute are installed Stating framework (9) to be fixedly mounted with, piston rod and a parallels (8) of described second hydraulic cylinder (12) are fixedly mounted with, so that described first hydraulic cylinder (7) Second hydraulic cylinder (12) action described in during backhaul, parallels (8) drops to the end stifled (11) side away from ultrahigh pressure vessel (10), uses In the axial force bearing described end bridging structure.

The equipment of quick-freezing blood plasma supertension inactivation of viruses the most according to claim 4, it is characterised in that at described framework (9) being provided with two vertical gripper shoes (13) in, two described gripper shoes (13) lay respectively at described ultrahigh pressure vessel (10) Arranged on left and right sides, many straight optical axis (6) of each described end bridging structure are each passed through corresponding described gripper shoe (13), It is laterally moved for supporting described end bridging structure.

9. according to the equipment of the quick-freezing blood plasma supertension inactivation of viruses described in Claims 2 or 3, it is characterised in that described superelevation Pressure vessel (10) is vertically to place, the upper end of described ultrahigh pressure vessel (10) be formed one with opening that described hollow cavity connects Mouthful；Pressurized cylinder (19) is installed between described ultrahigh pressure vessel (10) and described framework (9), so that described ultrahigh pressure vessel (10) move at vertical direction；Being provided with plunger moving guide rail (18) under the framework (9) of side over said opening, described plunger moves Under dynamic guide rail (18), slide block is installed, is fixed with plunger (17) under described slide block, so that described plunger (17) moves along described plunger When dynamic guide rail (18) level slides into the surface of described opening, described ultrahigh pressure vessel (10) moves upward and by described plunger (17) seal；

Being formed with superhigh pressure liquid input channel (2) in described plunger (17), described superhigh pressure liquid input channel (2) is passed through Pipeline connects with described supercharger, so that by described superhigh pressure liquid input channel (2) in described ultrahigh pressure vessel (10) Input superhigh pressure liquid；

Described insulation shell (14) is provided with a sliding door, for described ultrahigh pressure vessel (10) in filling blood bag or from Blood bag is taken out in described ultrahigh pressure vessel (10).

The equipment of quick-freezing blood plasma supertension inactivation of viruses the most according to claim 9, it is characterised in that described sliding door On handle is installed.