CN114713581B

CN114713581B - Test tube disinfection equipment for biotechnology research and development

Info

Publication number: CN114713581B
Application number: CN202210261229.5A
Authority: CN
Inventors: 郭亚福
Original assignee: Taixing Weiyi Media Advertising Co ltd
Current assignee: Taixing Weiyi Media Advertising Co ltd
Priority date: 2022-03-17
Filing date: 2022-03-17
Publication date: 2023-12-12
Anticipated expiration: 2042-03-17
Also published as: CN114713581A

Abstract

The invention relates to a disinfection device, in particular to a test tube disinfection device for biotechnology research and development. The technical problems to be solved are as follows: the test tube disinfection device for biotechnology development, which is capable of automatically spraying disinfection liquid, reducing the risk of corrosion of people by the disinfection liquid, improving safety and stability, optimizing cleaning and drying efficiency and improving utilization rate, is provided. The technical proposal is as follows: test tube disinfection equipment for biotechnology research and development, including: a housing; the collecting frame is arranged at the lower part in the shell in a sliding manner. According to the invention, the test tube is placed on the placement component, the placement component is started to drive the upward component and the spraying component to move backwards, when the upward component and the spraying component move backwards, the spraying component moves upwards to be in contact with the inner wall of the test tube, when the spraying component moves backwards, the water flow is led into the spraying component, and the spraying component sprays disinfectant to clean and disinfect the inner wall of the test tube, so that the effects of automatically spraying disinfectant and improving safety and efficiency are achieved.

Description

Test tube disinfection equipment for biotechnology research and development

Technical Field

The invention relates to a disinfection device, in particular to a test tube disinfection device for biotechnology research and development.

Background

The apparatus commonly used in biotechnology development is used as a reaction vessel for a small amount of reagents at room temperature or under heating. The test tube is divided into a plurality of common test tubes, branched test tubes, centrifugal test tubes and the like. The test tube is directly manually cleaned by an experimenter during cleaning, no corresponding tool is used for carrying out centralized cleaning on the test tube, the existing test tube cleaning device can achieve the purpose of quickly cleaning the test tube, but the test tube after being cleaned can have liquid residues, can be continuously used after being naturally air-dried, cannot realize the recycling of the test tube in time, reduces the utilization efficiency of the test tube, needs a large number of test tubes during the test, and increases the experiment cost; in order to achieve the aim of cleaning, the existing cleaning device adopts twice cleaning, firstly adopts cleaning agents for cleaning, and then adopts deionized water for cleaning, so that a large amount of cleaning agents are wasted, the cleaning time is prolonged, and the working efficiency is reduced.

Therefore, it is necessary to design an automatic spraying disinfectant, reduce the risk of corrosion of people by the disinfectant, improve safety and stability, optimize cleaning and drying efficiency, and thereby improve the biotechnology research and development test tube disinfection equipment of the utilization rate.

Disclosure of Invention

In order to overcome manual cleaning, can't concentrate the washing to the test tube, the air-dry process of liquid residue is longer, and the utilization ratio is lower, and the long work efficiency's of cleaning time shortcoming, the technical problem that solves: the test tube disinfection device for biotechnology development, which is capable of automatically spraying disinfection liquid, reducing the risk of corrosion of people by the disinfection liquid, improving safety and stability, optimizing cleaning and drying efficiency and improving utilization rate, is provided.

The technical proposal is as follows: test tube disinfection equipment for biotechnology research and development, including: a housing; the collecting frame is arranged at the lower part in the shell in a sliding manner; the placing component is arranged at the upper part in the shell; an upward component is arranged in the shell; the spray head is arranged on the upward component in a sliding manner; the spraying component is arranged in the shell.

Preferably, the placement component comprises: the first guide rod is symmetrically arranged at the upper part in the shell; the placing plates are arranged between the first guide rods in a sliding mode; the air cylinders are symmetrically arranged in the shell; push rods are connected to the telescopic rods of the cylinders, and the push rods are connected with the placing plates.

Preferably, the upward component comprises: the sliding rail is symmetrically arranged in the shell; the sliding rails are provided with second guide rods, and the spray heads are connected with the second guide rods in a sliding manner; the first springs are respectively sleeved on the second guide rods; the first connecting rod is symmetrically arranged at the bottom of the placing plate and matched with the spray head.

Preferably, the spraying assembly comprises: the storage frame is arranged on one side of the shell; the top of the storage frame is provided with a dust cover; the lower part of the material storage frame is symmetrically provided with a pipeline; the piston cylinder is connected with one end of the pipeline; the piston rods are arranged on the piston cylinders in a sliding mode; the second springs are respectively connected between the piston rod and the piston cylinder, and are sleeved on the piston rod; the upper part of one side of the piston cylinder is provided with a hose which is connected with the spray head; the third guide rods are symmetrically arranged on two sides in the shell; the wedge-shaped rods are arranged between the third guide rods on the same side in a sliding manner, and are matched with the first connecting rods; and the third springs are symmetrically connected between the wedge-shaped rod and the shell, and are respectively sleeved on the third guide rods.

Preferably, the fixing assembly comprises: the first clamping block is arranged on the shell in a sliding manner; the fourth springs are uniformly and alternately connected between the first clamping blocks and the shell; the sliding rod is symmetrically and slidably arranged on the shell, and the sliding rod is matched with the spray head; the fifth springs are connected between the sliding rod and the shell; the second clamping blocks are arranged between the tops of the sliding rods in a sliding mode, and are matched with the first clamping blocks; the sixth springs are connected between the second clamping blocks and the sliding rods; the second connecting rod is symmetrically arranged on the upper wall in the shell, and the second connecting rod is connected with the second clamping block in a sliding mode.

Preferably, the drying assembly is further included, and the drying assembly includes: the top of the shell is provided with a protective shell; the fan blades are rotatably arranged in the protective shell; the top of the protective shell is provided with a filter screen; the air inlet pipe is symmetrically arranged on the protective shell and connected with the shell; the air inlet pipes are provided with heating pipes; the top of the air inlet pipe is provided with a temperature controller which is connected with the heating pipe.

Preferably, the ultraviolet disinfection assembly comprises: the support seats are uniformly arranged on two sides of the upper wall of the shell at intervals; ultraviolet lamp tubes are arranged between the supporting seats on the same side; the upper wall is equipped with the lamp shade in the shell, and the lamp shade is located ultraviolet tube outside.

Preferably, the method further comprises the following steps: the hinge is symmetrically arranged on one side of the shell; the cover plate is arranged between the hinges, the cover plate is matched with the placing plate, and the cover plate is matched with the shell.

The invention has the beneficial effects that: 1. according to the invention, the test tube is placed on the placement component, the placement component is started to drive the upward component and the spraying component to move backwards, when the upward component and the spraying component move backwards, the spraying component moves upwards to be in contact with the inner wall of the test tube, when the spraying component moves backwards, the water flow is led into the spraying component, and the spraying component sprays disinfectant to clean and disinfect the inner wall of the test tube, so that the effects of automatically spraying disinfectant and improving safety and efficiency are achieved.

2. According to the invention, natural wind is pumped into the air inlet pipe through the rotation of the fan blades, and people adjust the heat energy of the heating pipe through the temperature controller, the natural wind is changed into hot wind after passing through the heating pipe, the hot wind dries water drops remained in the test tube after cleaning and disinfection, the filter screen prevents foreign matters from flying into, and the foreign matters are prevented from being pumped into the air inlet pipe to damage the test tube.

3. According to the invention, when the cover plate is closed, the hinge deforms, the cover plate contacts with the placing plate, the placing plate and the test tube are pushed into the shell backwards, when the test tube is cleaned and disinfected, people open the cover plate, the hinge resets, the test tube on the placing plate can be taken out, and meanwhile, the cover plate and the shell form a closed type, so that the cleaning and disinfection effects of the test tube are better.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic cross-sectional view of the present invention.

Fig. 3 is a schematic view of the installation of the placement module of the present invention.

FIG. 4 is a schematic view of the installation of the placement module, the upward module and the spray module of the present invention.

Fig. 5 is a schematic installation view of the fixing assembly of the present invention.

Fig. 6 is a schematic installation view of the drying module and the ultraviolet sterilizing module according to the present invention.

Reference numerals: the device comprises a 1-shell, a 2-collecting frame, a 3-spray head, a 4-placing component, a 41-first rod, a 42-placing plate, a 43-cylinder, a 44-push rod, a 5-upward component, a 51-slide rail, a 52-second rod, a 53-first spring, a 54-first rod, a 6-spraying component, a 61-material-controlling component, a 62-dust cover, a 63-material-controlling component, a 64-piston cylinder, a 65-piston rod, a 66-second spring, a 67-hose, a 68-third rod, a 69-wedge rod, a 610-third spring, a 7-fixing component, a 71-first clamp block, a 72-fourth spring, a 73-slide rail, a 74-fifth spring, a 75-second clamp block, a 76-sixth spring, a 77-second rod, a 8-drying component, a 81-protecting shell, a 82-fan, a 83-filter screen, a 84-inlet pipe, a 85-heater, a 86-controller, a 9-ultraviolet disinfection component, a 91-support seat, a 92-ultraviolet lamp, a 93-lamp housing, a 10-hinge, a 11-cover plate.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Example 1

The utility model provides a test tube disinfection equipment for biotechnology research and development, as shown in fig. 1-4, including shell 1, collection frame 2, shower nozzle 3, place subassembly 4, upward subassembly 5 and spray the subassembly 6, the lower part is slidingtype in shell 1 is equipped with collects frame 2, and upper portion is equipped with places subassembly 4 in the shell 1, is equipped with upward subassembly 5 in the shell 1, upward subassembly 5 go up slidingtype be equipped with shower nozzle 3, is equipped with spray the subassembly 6 in the shell 1.

Firstly people place the test tube that needs cleaning and disinfecting on placing the subassembly 4, start placing the subassembly 4, place the subassembly 4 and drive upward subassembly 5 and spray subassembly 6 backward movement, when upward subassembly 5 and shower nozzle 3 backward movement, shower nozzle 3 upwards moves and test tube inner wall contact, spray subassembly 6 with rivers leading-in shower nozzle 3 when backward movement, shower nozzle 3 sprays out the antiseptic solution and carries out cleaning and disinfecting to test tube inner wall, reach the automation and spray the antiseptic solution, reduce people by the risk of antiseptic solution corruption, promote the effect of security and efficiency, used antiseptic solution is collected through collecting frame 2, the test tube cleaning and disinfecting work is accomplished the back and is unified the clearance by people, close and place the above-mentioned work of subassembly 4 and stop.

The placing component 4 comprises a first guide rod 41, placing plates 42, air cylinders 43 and push rods 44, wherein the first guide rod 41 is symmetrically arranged at the upper part in the shell 1, the placing plates 42 are slidably arranged between the first guide rods 41, the air cylinders 43 are symmetrically arranged in the shell 1 left and right, the push rods 44 are connected to telescopic rods of the air cylinders 43, and the push rods 44 are connected with the placing plates 42.

The upward component 5 comprises a sliding rail 51, a second guide rod 52, a first spring 53 and a first connecting rod 54, wherein the sliding rail 51 is symmetrically arranged in the shell 1 in a left-right mode, the second guide rod 52 is arranged on the sliding rail 51, the spray head 3 is connected with the second guide rod 52 in a sliding mode, the first spring 53 is connected between the spray head 3 and the sliding rail 51, the first spring 53 is respectively sleeved on the second guide rod 52, the first connecting rod 54 is symmetrically arranged at the bottom of the placing plate 42, and the first connecting rod 54 is matched with the spray head 3.

The spraying assembly 6 comprises a storage frame 61, a dust cover 62, a pipeline 63, a piston cylinder 64, a piston rod 65, a second spring 66, a hose 67, a third guide rod 68, a wedge rod 69 and a third spring 610, wherein the storage frame 61 is arranged at the rear side of the shell 1, the dust cover 62 is installed at the top of the storage frame 61, the pipeline 63 is symmetrically arranged at the left and right sides of the lower part of the storage frame 61, the front end of the pipeline 63 is connected with the piston cylinder 64, the piston cylinder 64 is provided with the piston rod 65 in a sliding manner, the second spring 66 is respectively sleeved on the piston rod 65, the upper part of the rear side of the piston cylinder 64 is provided with the hose 67, the hose 67 is connected with the spray head 3, the third guide rod 68 is symmetrically arranged at the front and rear sides in the shell 1, the wedge rod 69 is matched with the first guide rod 54, the third spring 610 is symmetrically connected between the wedge rod 69 and the shell 1, and the third spring 610 is respectively sleeved on the third guide rod 68.

Firstly, the dust cover 62 is opened, the disinfectant is poured into the storage frame 61, the disinfectant is stored in the piston cylinder 64 through the pipeline 63, people place the test tube to be cleaned and disinfected on the placing plate 42, the cylinder 43 is started after the bottle mouth of the test tube is placed downwards, the push rod 44 on the telescopic rod of the cylinder 43 drives the placing plate 42, the first connecting rod 54 and the test tube to move backwards, the first connecting rod 54 is separated from the piston rod 65, then the first connecting rod 54 is contacted with the spray head 3 and drives the spray head 3 to move backwards, the spray head 3 moves upwards under the guiding action of the sliding rail 51, the first spring 53 is compressed, the spray head 3 stretches into the test tube, at the moment, the first connecting rod 54 is contacted with the rear side of the wedge-shaped rod 69, the wedge-shaped rod 69 is extruded downwards to be separated from the piston rod 65, the third spring 610 is compressed, the piston rod 65 moves backwards under the resetting action of the second spring 66 which is in the initial state, the disinfectant stored in the piston cylinder 64 is led into the spray head 3 through the hose 67, the spray head 3 sprays the disinfectant to clean and disinfect the inner wall of the test tube, thus saving manpower, improving cleaning efficiency and improving safety, under the action of the forward movement of the telescopic rod of the air cylinder 43, the placing plate 42, the first connecting rod 54 and the test tube move forward, the first connecting rod 54 is separated from the spray head 3, under the action of the first spring 53, the spray head 3 moves downward and separates from the interior of the test tube, meanwhile, the first connecting rod 54 moves forward and separates from the wedge-shaped rod 69, the wedge-shaped rod 69 moves upward under the action of the third spring 610, the first connecting rod 54 contacts with the piston rod 65 to drive the piston rod 65 to move forward, the second spring 66 is stretched, when the piston rod 65 moves forward, the disinfectant in the storage frame 61 is pumped into the piston cylinder 64 through the pipeline 63 to store, when the piston rod 65 moves forward and contacts with the wedge-shaped rod 69, the wedge-shaped rod 69 is pressed to move downwards, the third spring 610 is compressed, after the piston rod 65 passes through the wedge-shaped rod 69, under the action of the third spring 610, the wedge-shaped rod 69 moves upwards to clamp and fix the piston rod 65, the placing plate 42 and the test tube move forwards to discharge, people can take out the test tube conveniently, and the operation is stopped when the air cylinder 43 is closed.

Example 2

On the basis of embodiment 1, as shown in fig. 5 and 6, the fixing assembly 7 is further included, the fixing assembly 7 includes a first clamping block 71, a fourth spring 72, a sliding rod 73, a fifth spring 74, a second clamping block 75, a sixth spring 76 and a second connecting rod 77, the first clamping block 71 is slidably arranged on the housing 1, fourth springs 72 are uniformly and alternately connected between the first clamping block 71 and the housing 1, the sliding rod 73 is slidably arranged on the housing 1 in a bilateral symmetry manner, the sliding rod 73 is matched with the spray head 3, the fifth spring 74 is respectively connected between the sliding rod 73 and the housing 1, the second clamping block 75 is slidably arranged between the top of the sliding rod 73, the second clamping block 75 is matched with the first clamping block 71, the sixth spring 76 is respectively connected between the second clamping block 75 and the sliding rod 73, the second connecting rod 77 is symmetrically arranged on the left and right sides of the inner wall of the housing 1, and the second connecting rod 77 is slidably connected with the second clamping block 75.

When the spray head 3 moves upwards and backwards, the spray head 3 contacts with the slide rod 73, the slide rod 73 and the second clamping block 75 are driven to move backwards, the fifth spring 74 is compressed, the second clamping block 75 moves downwards under the guiding action of the second connecting rod 77, the sixth spring 76 is compressed, the second clamping block 75 moves downwards and backwards to contact with the first clamping block 71, the first clamping block 71 and the second clamping block 75 are matched to clamp and fix a test tube, so that the stability and safety of the spray head 3 on cleaning of the inner wall of the test tube are facilitated, when the spray head 3 moves downwards and forwards and breaks away from the slide rod 73, the slide rod 73 and the second clamping block 75 move forwards under the action of the fifth spring 74, the second clamping block 75 moves upwards and resets under the resetting action of the sixth spring 76, the second clamping block 75 breaks away from the test tube, and the test tube is conveniently taken out and discharged.

Still including stoving subassembly 8, stoving subassembly 8 is equipped with protective housing 81 including protective housing 81, flabellum 82, filter screen 83, intake pipe 84, heating pipe 85 and temperature controller 86 at shell 1 top, and the protective housing 81 internal rotation is equipped with flabellum 82, and the protective housing 81 top is equipped with filter screen 83, and bilateral symmetry is equipped with intake pipe 84 on the protective housing 81, and intake pipe 84 is connected with shell 1, all is equipped with heating pipe 85 on the intake pipe 84, and intake pipe 84 top all is equipped with temperature controller 86, and temperature controller 86 is connected with heating pipe 85.

Because there is the drop of water left in the test tube after cleaning to influence unable direct use when people's urgent need use, so rotate through flabellum 82 and draw into intake pipe 84 with natural wind, people through temperature controller 86 adjustment heating pipe 85 heat energy height, natural wind becomes hot-blast after passing through heating pipe 85, and remaining drop of water is dried after the hot-blast cleaning and disinfecting in the test tube, and filter screen 83 stops the foreign matter to fly into, prevents that the foreign matter from being drawn into in intake pipe 84 and causing the destruction to the test tube, and when flabellum 82 and temperature controller 86 close the back above-mentioned work stops.

The ultraviolet disinfection device is characterized by further comprising an ultraviolet disinfection assembly 9, wherein the ultraviolet disinfection assembly 9 comprises a supporting seat 91, ultraviolet lamp tubes 92 and a lampshade 93, a plurality of supporting seats 91 are uniformly arranged on the left side and the right side of the upper wall of the shell 1 at intervals, the ultraviolet lamp tubes 92 are arranged between the supporting seats 91 on the same side, the lampshade 93 is arranged on the upper wall of the shell 1, and the lampshade 93 is positioned on the outer side of the ultraviolet lamp tubes 92.

The ultraviolet lamp 92 is turned on to improve the test tube sterilizing effect, and the ultraviolet lamp 92 is turned off to stop sterilizing the test tube.

The novel portable electric power box further comprises hinges 10 and cover plates 11, wherein the hinges 10 are symmetrically arranged on the front side of the shell 1 in a left-right mode, the cover plates 11 are arranged between the hinges 10, the cover plates 11 are matched with the placing plates 42, and the cover plates 11 are matched with the shell 1.

When people close the cover plate 11, the hinge 10 deforms, the cover plate 11 contacts with the placing plate 42, the placing plate 42 and the test tube are pushed into the shell 1 backwards, after the test tube cleaning and disinfection are finished, the cover plate 11 is opened, the hinge 10 resets, the test tube on the placing plate 42 can be taken out, and meanwhile the cover plate 11 and the shell 1 form a closed type, so that the test tube cleaning and disinfection effect is better.

The above embodiments are provided to illustrate the technical concept and features of the present invention and are intended to enable those skilled in the art to understand the content of the present invention and implement the same, and are not intended to limit the scope of the present invention. All equivalent changes or modifications made in accordance with the spirit of the present invention should be construed to be included in the scope of the present invention.

Claims

1. A test tube sterilization apparatus for biotechnology development, comprising:

a housing (1);

the collecting frame (2) is arranged at the lower part in the shell (1) in a sliding manner;

the placing component (4) is arranged at the upper part in the shell (1);

an upward component (5), wherein the upward component (5) is arranged in the shell (1);

the spray head (3) is arranged on the upward component (5) in a sliding manner, and the spray head (3) is arranged on the upward component in a sliding manner;

the spraying component (6) is arranged in the shell (1);

the upward component (5) comprises:

the sliding rail (51) is symmetrically arranged in the shell (1);

the second guide rods (52) are arranged on the sliding rails (51), and the spray heads (3) are connected with the second guide rods (52) in a sliding mode;

the first springs (53) are connected between the spray heads (3) and the sliding rails (51), and the first springs (53) are sleeved on the second guide rods (52) respectively;

the first connecting rods (54) are symmetrically arranged at the bottoms of the placing plates (42), and the first connecting rods (54) are matched with the spray heads (3);

the spraying assembly (6) comprises:

a storage frame (61), wherein one side of the shell (1) is provided with the storage frame (61);

a dust cover (62), wherein the dust cover (62) is arranged at the top of the storage frame (61);

the pipeline (63) is symmetrically arranged at the lower part of the storage frame (61);

the piston cylinder (64), one end of the pipeline (63) is connected with the piston cylinder (64);

the piston rods (65) are arranged on the piston cylinders (64) in a sliding mode, and the piston rods (65) are arranged on the piston cylinders (64);

the second springs (66) are connected between the piston rods (65) and the piston cylinders (64), and the second springs (66) are respectively sleeved on the piston rods (65);

the upper part of one side of the piston cylinder (64) is provided with a hose (67), and the hose (67) is connected with the spray head (3);

the third guide rods (68) are symmetrically arranged on the two sides in the shell (1);

the wedge-shaped rods (69) are arranged between the third guide rods (68) on the same side in a sliding manner, and the wedge-shaped rods (69) are matched with the first connecting rods (54);

and third springs (610), wherein the third springs (610) are symmetrically connected between the wedge-shaped rod (69) and the shell (1), and the third springs (610) are respectively sleeved on the third guide rods (68).

2. A test tube sterilization apparatus for the development of biotechnology according to claim 1, wherein the placement assembly (4) comprises:

the first guide rod (41) is symmetrically arranged at the upper part in the shell (1);

a placement plate (42), wherein the placement plate (42) is arranged between the first guide rods (41) in a sliding manner;

the air cylinders (43) are symmetrically arranged in the shell (1);

push rods (44), telescopic rods of the air cylinders (43) are connected with push rods (44), and the push rods (44) are connected with the placing plates (42).

3. A test tube sterilization apparatus for biotechnology development according to claim 2 further comprising a fixing assembly (7), the fixing assembly (7) comprising:

the first clamping block (71), the first clamping block (71) is arranged on the shell (1) in a sliding manner;

the fourth springs (72) are uniformly and alternately connected between the first clamping blocks (71) and the shell (1);

the sliding rod (73) is symmetrically and slidably arranged on the shell (1), and the sliding rod (73) is matched with the spray head (3);

a fifth spring (74), wherein the fifth spring (74) is connected between the slide bar (73) and the shell (1);

the second clamping blocks (75) are arranged between the tops of the sliding rods (73) in a sliding mode, and the second clamping blocks (75) are matched with the first clamping blocks (71);

a sixth spring (76), wherein the sixth spring (76) is connected between the second clamping block (75) and the sliding rod (73);

the second connecting rod (77) is symmetrically arranged on the upper wall in the shell (1), and the second connecting rod (77) is connected with the second clamping block (75) in a sliding mode.

4. A test tube sterilization apparatus for biotechnology development according to claim 3 further comprising a drying assembly (8), the drying assembly (8) comprising:

a protective shell (81), wherein the top of the shell (1) is provided with the protective shell (81);

the fan blades (82) are rotatably arranged in the protective shell (81);

the filter screen (83), the top of the protective shell (81) is provided with the filter screen (83);

the air inlet pipe (84) is symmetrically arranged on the protective shell (81), and the air inlet pipe (84) is connected with the shell (1);

the heating pipes (85) are arranged on the air inlet pipes (84);

the temperature controller (86), the air inlet pipe (84) top all is equipped with temperature controller (86), and temperature controller (86) are connected with heating pipe (85).

5. The test tube sterilization apparatus for biotechnology development according to claim 4 further comprising an ultraviolet sterilization assembly (9), the ultraviolet sterilization assembly (9) comprising:

the two sides of the upper wall in the shell (1) are uniformly provided with a plurality of supporting seats (91) at intervals;

ultraviolet lamp tubes (92) are arranged between the same side supporting seats (91);

the lamp shade (93), the upper wall is equipped with lamp shade (93) in shell (1), and lamp shade (93) are located ultraviolet tube (92) outside.

6. The apparatus for sterilizing test tubes for biotechnology development according to claim 5, further comprising:

the hinge (10) is symmetrically arranged on one side of the shell (1);

the cover plate (11), be equipped with between hinge (10) and cover plate (11), cooperation between cover plate (11) and the board (42) of placing, cooperation between cover plate (11) and shell (1).