CN202083196U - Rapid blow drying device for laboratory glass containers - Google Patents

Abstract

The utility model relates to a rapid blow drying device for laboratory glass containers. The blow drying device can rapidly dry cleaned glass containers, is not limited by space, and is convenient to use. The blow drying device comprises a main body; the main body is provided with an electric fan; the electric fan is provided with a switch which can adjust the air quantity; at least one blow drying unit is arranged at the top of the main body; a spray tube hole and a liquid collecting bottle hole are arranged on each blow drying unit, which are respectively connected with a spray tube and a liquid collecting bottle; the blow drying unit has a slope shape; and the position of the liquid collecting bottle hole is lower than that of the spray tube hole.

Description

The quick blow-dry device of laboratory glass container

Technical field:

The utility model relates to the field of using the laboratory glass container, relates in particular to the quick blow-dry device of a kind of laboratory glass container.

Background technology:

At present, use glass containers such as volumetric flask, graduated cylinder in the lab analysis, the glass container that volumetric flask etc. are used for constant volume can not be dried after cleaning and finishing, and can only make its drying by the mode of drying, and dries consuming time longlyer naturally, makes troubles to experiment.

Utility model patent (patent No.: 200820215848.6, the laboratory glass container cleans blow-dry device) is mentioned drying up of laboratory glass container, and this patent in the defective that glass container exists aspect drying up is:

1) needs to connect independent source of the gas.This patent has independent air inlet pipe, needs to connect independent source of the gas ability operate as normal, laboratory operation inconvenience.

2) place to use is restricted.This patent is when drying up, and the liquid of glass container does not have gathering-device when blowing out in the container, and therefore, this patent can only be used at the experimental bench that have sink, otherwise the liquid that glass container flows out can pollute experimental bench.

3) there is not the switch of each jet pipe of control separately.At this patent of each glass container independent jet pipe is arranged, but each jet pipe does not have independent gauge tap,, independent jet pipe can't be closed, cause the waste of source of the gas if on the jet pipe during no glass container.

The utility model content:

In order effectively to address the above problem, the purpose of this utility model is to provide a kind of laboratory glass container quick blow-dry device.This blow-dry device can blow out flow velocity air at room temperature faster, thereby can dry up glass container fast, and not limited by the place, and is easy to use.

For achieving the above object, the utility model adopts following technical scheme:

The quick blow-dry device of a kind of laboratory glass container, it comprises and dries up parent, is provided with electric fan drying up parent, electric fan has the switch of quantity-adjustable size; Be provided with at least one at the top that dries up parent and dry up the unit, respectively dry up the unit and be provided with jet pipe hole and fluid collection vials hole, flexibly connect with jet pipe and fluid collection vials respectively; The described unit that dries up is a slope shape, and the fluid collection vials hole site is lower than the jet pipe hole site.

Described jet pipe hole is provided with jet pipe hole screw thread and matches with the spout threads that jet pipe is provided with; Be provided with between jet pipe and jet pipe hole and place pad; Jet pipe top and have equally distributed jet pipe hole on every side.

Described placement pad is a hollow cube, which is provided with a hole, and this hole guarantees that jet pipe can pass through, but the opening of glass container to be dried up can not pass through.

Described fluid collection vials hole is provided with the fluid collection vials threaded engagement of fluid collection vials hole screw thread and fluid collection vials.

Described jet pipe hole and fluid collection vials hole are respectively equipped with screwed port lid.

Described parent one side that dries up is provided with some jet pipe buckles, and two buckles are one group, and every group is matched with a jet pipe.

Described parent one side that dries up has chamber door, and chamber door is connected by connecting portion with drying up between the parent, and sealing gasket is arranged therebetween, and buckle is arranged on the chamber door.

The quick drying method of a kind of laboratory glass container, its step is:

1) opens by the chamber door buckle and dry up the parent door, from the buckle that dries up parent one side, jet pipe is taken off, screw thread by the jet pipe lower end is fixed in jet pipe on the jet pipe hole that dries up the unit, fluid collection vials is daily to be fixed on the fluid collection vials hole, to place pad passes jet pipe and is positioned over and dries up on the unit, to dry up the parent door and close, the badge button will be tightened; Glass container is placed on the jet pipe, is positioned over and places on the pad;

2) the obsolete unit that dries up, the jet pipe hole and the fluid collection vials port lid that will dry up on the unit by port lid are tight;

3) open hair drier, at this moment, the wind of jet pipe ejection blows out the residual liquid in the glass container fast, and by having the unit that dries up of the gradient, liquid flow in the fluid collection vials; Amount of liquid in fluid collection vials is closed blow-dry device for a long time, opens to dry up the parent door, screws off fluid collection vials, liquid in the bottle is poured out, and then fluid collection vials is fixed in original position.

The beneficial effects of the utility model are:

Can dry up glass container fast, use and be not subjected to the restriction in place, prevent of the pollution of the residual liquid of glass container outflow, and do not need to use independent source of the gas experimental bench.

Each glass container that need dry up is subjected to dry up separately the control of unit, opens as required to dry up the unit, can effectively save resource in ground.

Description of drawings:

Fig. 1 is the quick blow-dry device perspective view of laboratory described in the utility model glass container;

Fig. 2 dries up the unit perspective view for the laboratory described in the utility model quick blow-dry device of glass container;

Fig. 3 dries up the unit sectional schematic diagram for the laboratory described in the utility model quick blow-dry device of glass container;

Fig. 4 is the quick blow-dry device fluid collection vials of a laboratory described in the utility model glass container sectional schematic diagram;

Fig. 5 is the quick blow-dry device front view of laboratory described in the utility model glass container;

Fig. 6 is the quick blow-dry device port lid of a laboratory described in the utility model glass container sectional drawing;

Among the figure: 1-dries up parent; 2-dries up the unit; 3-jet pipe hole; 4-fluid collection vials hole; 5-chamber door buckle; 6-jet pipe buckle; The 7-electric fan; The 8-fan switch; The 9-power line; 10-places pad; The 11-jet pipe; The 12-jet pipe portals; The 13-spout threads; 14-jet pipe hole screw thread; The 15-volumetric flask; The 16-fluid collection vials; 17-fluid collection vials screw thread; 18-fluid collection vials hole screw thread; The 19-port lid; The 20-sealing gasket; The 21-connecting portion; The 22-chamber door.

Specific implementation method:

As Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, shown in Figure 6, the quick blow-dry device of laboratory glass container, it comprises jet pipe 11 and the fluid collection vials 16 that dries up parent 1 and flexibly connect with it; Be provided with electric fan 7 drying up parent 1, electric fan 7 is connected with power line 9, and electric fan 7 has the fan switch 8 of quantity-adjustable size; Be provided with at least one at the top that dries up parent 1 and dry up unit 2.

Dry up unit 2 and have certain gradient, have two holes on it---jet pipe hole 3 and jet pipe hole 4, respectively have jet pipe hole screw thread 14 and fluid collection vials hole screw thread 18 on each hole, fluid collection vials hole 4 is positioned at and dries up the lower side in unit 2, jet pipe hole 3 is positioned at and dries up the higher side in unit, spout threads 13 by jet pipe hole screw thread 14 on the jet pipe hole 3 and jet pipe lower end is fixed in jet pipe 11 and dries up on the unit 2, by fluid collection vials hole screw thread 18 on the fluid collection vials hole 4 and the fluid collection vials screw thread 17 on the fluid collection vials 16 fluid collection vials 16 is fixed in to dry up on the unit 2.

Jet pipe 11 is the pipe of a hollow, and its top and have equally distributed jet pipe on every side and portal 12, dries up gas in the parent 1 by 12 ejections of portalling of the jet pipe on the jet pipe 11, and jet pipe 11 can have different length, can adapt to the glass container of different length.

Drying up parent 1 one sides has chamber door 22, can open drying up parent 1, and chamber door 22 is connected by connecting portion 21 with drying up between the parent 1, and sealing gasket 20 is arranged therebetween, and chamber door buckle 5 is arranged on the chamber door 22.

Drying up parent 1 one sides, to be provided with 6, two jet pipe buckles of some jet pipe buckles 6 be one group, is used to place jet pipe 11.

Blow-dry device has one and places pad 10, and placing pad 10 is a cube, and the porose jet pipe 11 that can guarantee can pass through it on, but the opening part of glass container can not pass through, thereby guaranteeing that glass container is positioned over to place fills up on 10.

The jet pipe hole 3, the fluid collection vials hole 4 that dry up unit 2 have threaded port lid 19 respectively, when device does not use, port lid 19 are tightened in the hole.

The quick drying method of laboratory glass container is:

Open chamber door 22 by chamber door buckle 5, from the jet pipe buckle 6 that dries up parent 1 one sides, jet pipe 11 is taken off, spout threads 13 by jet pipe 11 lower ends is fixed in jet pipe 11 on the jet pipe hole 3 that dries up unit 2, fluid collection vials 16 daily being fixed on the fluid collection vials hole 4, to place pad 10 passes jet pipe 11 and is positioned over and dries up on the unit 2, chamber door 22 is closed, with chamber door buckle 5 chuckings.Glass container (for example volumetric flask 15) is placed on the jet pipe 11, is positioned over and places on the pad 10.

The untapped unit 2 that dries up, the jet pipe hole 3 and fluid collection vials hole 4 lids that will dry up on the unit 2 by port lid 19 are tight.

Use number after a little while if dry up unit 2, fan delivery is transferred to less shelves, use number for a long time, fan delivery is transferred to bigger shelves if dry up unit 2.At this moment, the wind of jet pipe 11 ejection blows out the residual liquid in the glass container fast, dries up unit 2 by what have a certain slope, and liquid flow in the fluid collection vials 16.

Amount of liquid in fluid collection vials 16 is closed blow-dry device for a long time, opens chamber door 22, screws off fluid collection vials 16, liquid in the bottle is poured out, and then fluid collection vials 16 is fixed in original position.

Claims (7)

1. the quick blow-dry device of laboratory glass container is characterized in that, it comprises and dry up parent, is provided with electric fan drying up parent, and electric fan has the switch of quantity-adjustable size; Be provided with at least one at the top that dries up parent and dry up the unit, respectively dry up the unit and be provided with jet pipe hole and fluid collection vials hole, flexibly connect with jet pipe and fluid collection vials respectively; The described unit that dries up is a slope shape, and the fluid collection vials hole site is lower than the jet pipe hole site.

2. glass container quick blow-dry device in laboratory as claimed in claim 1 is characterized in that described jet pipe hole is provided with jet pipe hole screw thread and matches with the spout threads that jet pipe is provided with; Be provided with between jet pipe and jet pipe hole and place pad; Jet pipe top and have equally distributed jet pipe hole on every side.

3. glass container quick blow-dry device in laboratory as claimed in claim 2 is characterized in that described placement pad is a hollow cube, which is provided with a hole, and this hole guarantees that jet pipe can pass through, but the opening of glass container to be dried up can not pass through.

4. glass container quick blow-dry device in laboratory as claimed in claim 1 is characterized in that described fluid collection vials hole is provided with the fluid collection vials threaded engagement of fluid collection vials hole screw thread and fluid collection vials.

5. glass container quick blow-dry device in laboratory as claimed in claim 1 is characterized in that described jet pipe hole and fluid collection vials hole are respectively equipped with screwed port lid.

6. glass container quick blow-dry device in laboratory as claimed in claim 1 is characterized in that, described parent one side that dries up is provided with some jet pipe buckles, and two buckles are one group, and every group is matched with a jet pipe.

7. glass container quick blow-dry device in laboratory as claimed in claim 1 is characterized in that, described parent one side that dries up has chamber door, and chamber door is connected by connecting portion with drying up between the parent, and sealing gasket is arranged therebetween, and buckle is arranged on the chamber door.

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