CN202803672U

CN202803672U - Glass bottle cleaner for laboratory

Info

Publication number: CN202803672U
Application number: CN201220465768.2U
Authority: CN
Inventors: 林位腾; 张永飞
Original assignee: BEIJING TIANXING KEYI TECHNOLOGY CO LTD
Current assignee: BEIJING TIANXING KEYI TECHNOLOGY CO LTD
Priority date: 2012-09-13
Filing date: 2012-09-13
Publication date: 2013-03-20
Anticipated expiration: 2022-09-13

Abstract

The utility model discloses a glass bottle cleaner, in particular a glass bottle cleaner for a laboratory. The glass bottle cleaner for the laboratory comprises a pure water preparation device, an ultrasonic wave rinsing tank, a magnetic-force rotation transmission device, a spray device and a utensil support. The utensil support is arranged in the ultrasonic wave rinsing tank, and the utensil support is changed so as to adapt to glass bottles of different specifications; and the magnetic-force rotation transmission mechanism makes the utensil support rotate through magnetic-force transmission, so that the transmission mechanism is simplified, the reliability is improved, and the problems of leakage and abrasion in the traditional transmission mechanism are solved. The pure water preparation device is connected to the spray device which comprises at least one spray head, each spray head is independently connected with one electromagnetic valve and can be controlled to spray water separately under the action of the corresponding electromagnetic valve, so that the use level of pure water is reduced greatly; and a pure water filling port is arranged above the ultrasonic wave rinsing tank, so that the glass bottle cleaner disclosed by the utility model achieves the function of supplying prepared pure water to the outside, and thus, the multipurpose cleaner is realized.

Description

A kind of use for laboratory glass bottle cleaner

Technical field

The utility model relates to a kind of glass bottle cleaner, specifically a kind of use for laboratory glass bottle cleaner.

Background technology

At the laboratory detection field, need to use circular glass bottle a large amount of, not of uniform size, the design feature of this type of vial is that the size of bottleneck is less than body, such as volumetric flask, triangular flask, sample injection bottle etc.The clean-up performance of vial, the measurement result accuracy that the laboratory is detected analytical instrument has important impact.If the cleannes of vial are not up to standard, will affect the accuracy of testing result.Traditional vial cleaning way normally uses first cleaning fluid or running water to carry out prerinse, and then be for further processing with supersonic wave cleaning machine, re-use pure water (or claiming deionized water) drip washing, relief vial natural air drying or put oven for drying into, the shortcoming of this cleaning way is that program is comparatively loaded down with trivial details, and whole cleaning process need to be used tank, supersonic wave cleaning machine, water purification machine, the equipment such as baking oven, and that these equipment takes up space is larger, general position separately comparatively disperses, cause in cleaning operation process comparatively time-consumingly and loaded down with trivial details, efficient is not high.

Although the equipment that aims at cleaning experiment chamber vial and design is also arranged in the market, has following deficiency:

1, because the vial specification is many and size difference is large, and prior art can only be cleaned the fixedly vial of specification usually, and the scope of application is too narrow, and is used for the structure complexity comparatively of the support of support glass bottle.

2, the common not drying device of prior art cleans and can not use immediately vial after finishing, and needs the user to put into voluntarily oven for drying or natural airing, has reduced efficient, has increased the user time cost and has taken limited lab space.

3, prior art can not have been wasted the higher pure water of great amount of cost according to the consumption of the quantity control pure water that is cleaned vial, has shortened the maintenance cycle of pure water equipment, and has increased user's cost burden.

4, prior art can not be added cleaning fluid in the trend rinse bath, needs manually to add, and has reduced cleaning efficiency.

5, the structure of the vessel rotary actuator of prior art is comparatively complicated, and reliability is relatively poor, and long-time running exists solution seepage and mechanical wear problem.

The utility model content

The utility model provides a kind of use for laboratory glass bottle cleaner for the deficiency of prior art and equipment, plurality of specifications vial capable of washing and simple in structure, and reliability is high, does not have solution seepage and mechanical wear problem; Can place the number of turns according to vial and automatically adjust the pure water consumption, save pure water consumption; Can automatically add cleaning fluid; But auto-drying after cleaning is finished; Can provide pure water to miscellaneous equipment.

Use for laboratory glass bottle cleaner described in the utility model, comprise pure water making machine, ultrasonic cleaner, magnetic force rotary actuator, spray equipment, vessel support, the vessel support is connected with the magnetic force rotary actuator, and be installed on the interior fixed axis of ultrasonic cleaner, and can under the effect of magnetic force rotary actuator, move in a circle; Pure water making machine is connected with spray equipment by pipeline.

Use for laboratory glass bottle cleaner described in the utility model, described vessel support comprises that at least two diameters are identical, circle central axis coincides, the disk that stacked on top of one another is installed, disk is provided with a plurality of along the evenly distributed circular hole of disk circumference direction, circular hole can be established circle or a multi-turn, and the quantity of the circular hole that each sheet disk is set is all identical with the position, be positioned at the circular hole on the disk of below, its slightly larger in diameter is in the diameter of specific standard use for laboratory vial bottleneck and less than the body diameter, be positioned at the circular hole on the disk of the top, its slightly larger in diameter is in the body diameter of specific standard use for laboratory vial; Perhaps, described vessel support is a disc-shaped structure, which is provided with a plurality of along the evenly distributed shoulder hole of vessel support circumferencial direction, shoulder hole can be established circle or a multi-turn, shoulder hole comprises two circular holes, the slightly larger in diameter of one of them circular hole is in the body diameter of specific standard use for laboratory vial, and the slightly larger in diameter of another circular hole is in the bottleneck diameter of specific standard use for laboratory vial and less than the body diameter.

Use for laboratory glass bottle cleaner described in the utility model, described vessel support top is equipped with the circular cover identical with the vessel stent size, and circular cover offseted with the bottle end that is placed on the vial to be cleaned in the vessel support.

Use for laboratory glass bottle cleaner described in the utility model, described magnetic force rotary actuator comprises the roundlet rotating disk that two axis of rotation coincide, the roundlet rotating disk is equipped with at least one block permanent magnet, wherein a slice roundlet rotating disk is installed near the bottom center position in the ultrasonic cleaner, and be connected with described vessel support, another sheet is installed near the outer bottom center position of ultrasonic cleaner, and is connected with motor.

Use for laboratory glass bottle cleaner described in the utility model, described spray equipment, comprise shower nozzle, magnetic valve, pipeline, wherein shower nozzle is installed in the Ultrasonic Cleaning trench bottom, and has a shower nozzle at least, be connected to pure water making machine by pipeline and magnetic valve, magnetic valve is connected to microcomputer controller.

Use for laboratory glass bottle cleaner described in the utility model, described ultrasonic cleaner top is equipped with a pure water filler, and described pure water filler is connected to magnetic valve by pipeline, and magnetic valve is connected to pure water making machine.

Use for laboratory glass bottle cleaner described in the utility model, described ultrasonic cleaner top is equipped with the cleaning fluid liquid outlet, described cleaning fluid liquid outlet, the aperture that covers by pipeline and liquid storage bottle is communicated in the liquid storage bottle, and the position near bottleneck in the liquid storage bottle connects a pipeline to air pump.

Use for laboratory glass bottle cleaner described in the utility model, described ultrasonic cleaner outer wall is wound with thermo electric material, and a temperature sensor is installed, and temperature sensor and thermo electric material are connected to microcomputer controller.

Use for laboratory glass bottle cleaner described in the utility model can add cleaning fluid automatically, but auto-drying after cleaning is finished can provide pure water to miscellaneous equipment; The vessel supporting structure that is used for the placing glass bottle is simple, and can conveniently change according to the specification of vial; By the magnetic force rotary actuator, cleaning part and dynamical system is separated, solved the in the past problem of power transmission arrangment complexity, solution seepage and mechanical wear; The structure of spray equipment can be placed the number of turns according to vial to be cleaned, adjusts the pure water consumption by the control magnetic valve, saves pure water consumption.

Description of drawings

Fig. 1 is the structural representation of use for laboratory glass bottle cleaner described in the utility model;

Fig. 2 is the vessel supporting structure schematic diagram of use for laboratory glass bottle cleaner described in the utility model;

Fig. 3 is the magnet scheme of installation on the roundlet rotating disk in the magnetic force rotary actuator of use for laboratory glass bottle cleaner described in the utility model.

The specific embodiment

Describe the specific embodiment of the present utility model in detail below in conjunction with accompanying drawing.

Such as Fig. 1, Fig. 2, shown in Figure 3, the use for laboratory glass bottle cleaner of present embodiment has comprised pure water making machine 1, ultrasonic cleaner 2, magnetic force rotary actuator 3, spray equipment 4, vessel support 5.Vessel support 5 is connected with magnetic force rotary actuator 3 by back shaft 7, and be installed on the fixed axis 11 in the ultrasonic cleaner 2, and can move in a circle under the effect of magnetic force rotary actuator 3, pure water making machine 1 is connected with spray equipment 4 by pipeline 6.Pure water making machine 1 is now widely used reverse osmose pure-water preparation facilities, and its inside is with a pressure pot that is used for storing pure water and enough hydraulic pressure is provided.

Described vessel support 5 comprises that two diameters are identical, circle central axis coincides, the disk that stacked on top of one another is installed, disk is provided with a plurality of along the evenly distributed circular hole 15 of disk circumference direction, circular hole 15 can be established circle or a multi-turn, and the quantity of the circular hole that each sheet disk is set is all identical with the position, be positioned at the slightly larger in diameter of the circular hole 15 on the disk of below in the diameter of vial 13 bottlenecks and less than the body diameter, be positioned at the circular hole 15 on the disk of the top, its slightly larger in diameter is in the body diameter of vial 13, vial 13 bottlenecks to be cleaned down, vertically tip upside down in the circular hole 15, the bottleneck of vial 13 is blocked in case under the falling stop by the circular hole on the disk of below.Perhaps, when vial 13 is highly low, also above-mentioned two upper lower discs can be integrated into a slice collar plate shape structure, which is provided with a plurality of along the evenly distributed shoulder hole of vessel support circumferencial direction, this shoulder hole is namely formed by the circular hole on the disk of above-mentioned two stacked installations, shoulder hole can be established circle or a multi-turn, shoulder hole comprises two circular holes, the slightly larger in diameter of one of them circular hole is in the body diameter of specific standard use for laboratory vial, the slightly larger in diameter of another circular hole is in the bottleneck diameter of specific standard use for laboratory vial and less than the body diameter, and this structure can realize vial to be cleaned is blocked in case under the falling stop equally.Should be noted that for the vial of different size, diameter and the quantity of the circular hole 15 on the vessel support 5 are decided according to the vial of different size, to adapt to the vial of different size.

Described vessel support 5 tops are equipped with the circular cover 16 measure-alike with vessel support 5, circular cover 16 offseted with the bottle end that is placed on the vial to be cleaned 13 in the vessel support 5, be used for preventing the water jack-up that vial 13 is sprayed by shower nozzle 12, circular cover 16 is installed on back shaft 7 by dish-shaped nut and is on the vessel support 5.

Described magnetic force rotary actuator 3 comprises roundlet rotating disk 9, the roundlet rotating disk 10 that two axis of rotation coincide, at least one block permanent magnet 26 is installed on roundlet rotating disk 9, the roundlet rotating disk 10, roundlet rotating disk 10 is installed in the bottom center position near ultrasonic cleaner 2 inboards, and be connected by back shaft 7 with vessel support 5, roundlet rotating disk 9 is installed in the bottom center position near ultrasonic cleaner 2 outsides, and is connected with motor 8.Magnetic force rotary actuator 3 also comprises motor 8, fixed axis 11, back shaft 7.At least one block permanent magnet 26 is installed on roundlet rotating disk 9, the roundlet rotating disk 10, use the polylith permanent magnet, and along roundlet rotating disk circumferencial direction evenly and magnetic pole be staggered, can obtain suitable driving torque, the structure of roundlet rotating disk 9 is identical with the structure of roundlet rotating disk 10.Back shaft 7 is connected with vessel support 5, the lower end of back shaft 7 is connected to the fixed axis 11 that is positioned at ultrasonic cleaner 2 inboard middle positions, and can rotate freely around the center of fixed axis 11, motor 8 drives 5 rotations of vessel support by the magneticaction of roundlet rotating disk 9 and roundlet rotating disk 10.

Described spray equipment 4 comprises shower nozzle 12, magnetic valve 14, pipeline 6, wherein shower nozzle 12 is installed in the bottom of ultrasonic cleaner 2, and quantity has one at least, and shower nozzle 12 is connected to pure water making machine 1 by pipeline 6 and magnetic valve 14, and magnetic valve 14 is connected to microcomputer controller.Shower nozzle 12 is radially evenly distributed along vessel support 5, quantity is between 1 to 10, each shower nozzle all is connected to pure water making machine 1 by a magnetic valve separately, the bottleneck center that is placed on the vial to be cleaned 13 on the vessel support 5 is aimed in the center of shower nozzle 12, when vessel support 5 rotates under the effect of magnetic force rotary actuator 3, microcomputer controller is according to the vial to be cleaned placement number of turns on support 5, whether determine shower nozzle 12 water outlets by control magnetic valve 14, if the shower nozzle top does not have the placing glass bottle then closes shower nozzle, otherwise then opens.Because vessel support 5 innermost circles are placed a vial (supposing to begin the placing glass bottle from innermost circle) to I haven't seen you for ages usually, therefore, shower nozzle corresponding to innermost circle below can not be connected directly to pure water making machine 1 by magnetic valve.

Described ultrasonic cleaner 2 tops are equipped with a pure water filler 19, pure water filler 19 is connected to magnetic valve 21 by pipeline 20, magnetic valve 21 is connected to pure water making machine 1, when the user need to use pure water, magnetic valve 21 is opened under the control of microcomputer controller, pure water flows out from pure water filler 19, and the pure water preparation function externally is provided.

Described ultrasonic cleaner 2 tops are equipped with cleaning fluid liquid outlet 22, cleaning fluid liquid outlet 22 is communicated in the liquid storage bottle by the aperture on pipeline 23 and liquid storage bottle 24 bottle caps, liquid storage bottle 24 interior positions near bottleneck connect a pipeline to air pump 25, air pump 25 is under the control of microcomputer controller, air is input in the liquid storage bottle 24, make its internal pressure become large, thereby the cleaning fluids in the liquid storage bottle 24 are extruded and be transported to cleaning fluid liquid outlet 22 by pipeline 23, realize the cleaning fluid automatic filling.

The outer wall of described ultrasonic cleaner 2 is wound with thermo electric material 18, and a temperature sensor 17 is installed, and temperature sensor 17 and thermo electric material 18 are connected to microcomputer controller.Thermo electric material 18 can be heating wire or heating tape.Microcomputer controller obtains Current Temperatures from temperature sensor 17, according to the target temperature of setting, heating power by control thermo electric material 18, and then the cleaning temperature of control ultrasonic cleaner 2 is between 40 to 55 degrees centigrade, to obtain better cleaning performance, after cleaning end, after solution in ultrasonic cleaner 2 drains only, the operator overturns vessel support 5 together with circular cover 16, make vial 13 bottlenecks up, be conducive to hot-air and upwards discharge, circular cover 16 can prevent that vial 13 from dropping, the temperature of microcomputer controller control ultrasonic cleaner 2 can be dried vial between 60 to 75 degrees centigrade.

Whole cleaning process is: the operator is according to the specification of the vial that is cleaned, select suitable vessel support 5, be placed in the ultrasonic cleaner 2, put into vial, build circular cover 16, thereby 8 rotations of microcomputer controller control motor drive vessel support 5 and rotate, microcomputer controller control air pump 25 is finished the cleaning fluid automatic filling, microcomputer controller control ultrasonic cleaner 2 is to suitable cleaning temperature, after finishing ultrasonic wave prerinse, according to the placement number of turns (by operator input) of vial on vessel support 5, whether shower nozzle 12 corresponding to control is opened, the shower nozzle that is opened, be communicated to pure water making machine 1 by magnetic valve 14, under the pressure-acting of the pressure pot that pure water making machine 1 is put within it, pure water is passed through pipeline 6, magnetic valve 14, shower nozzle 12 injects in the vial to be cleaned, finish lessivation, at last, after water in ultrasonic cleaner drains, the operator overturns vessel support 5 together with circular cover 16, make vial 13 bottlenecks up, the temperature of microcomputer controller control ultrasonic cleaner 2 is with vial 13 oven dry.

Claims

1. use for laboratory glass bottle cleaner, comprise pure water making machine, ultrasonic cleaner, magnetic force rotary actuator, spray equipment, vessel support, it is characterized in that the vessel support is connected with the magnetic force rotary actuator, and be installed on the interior fixed axis of ultrasonic cleaner, and can under the effect of magnetic force rotary actuator, move in a circle; Pure water making machine is connected with spray equipment by pipeline.

2. use for laboratory glass bottle cleaner as claimed in claim 1, it is characterized in that, described vessel support comprises that at least two diameters are identical, circle central axis coincides, the disk that stacked on top of one another is installed, disk is provided with a plurality of along the evenly distributed circular hole of disk circumference direction, circular hole can be established circle or a multi-turn, and the quantity of the circular hole that each sheet disk is set is all identical with the position, be positioned at the circular hole on the disk of below, its slightly larger in diameter is in the diameter of specific standard use for laboratory vial bottleneck and less than the body diameter, be positioned at the circular hole on the disk of the top, its slightly larger in diameter is in the body diameter of specific standard use for laboratory vial; Perhaps, described vessel support is a disc-shaped structure, which is provided with a plurality of along the evenly distributed shoulder hole of vessel support circumferencial direction, shoulder hole can be established circle or a multi-turn, shoulder hole comprises two circular holes, the slightly larger in diameter of one of them circular hole is in the body diameter of specific standard use for laboratory vial, and the slightly larger in diameter of another circular hole is in the bottleneck diameter of specific standard use for laboratory vial and less than the body diameter.

3. use for laboratory glass bottle cleaner as claimed in claim 2 is characterized in that, described vessel support top is equipped with the circular cover identical with the vessel stent size, and circular cover offseted with the bottle end that is placed on the vial to be cleaned in the vessel support.

4. use for laboratory glass bottle cleaner as claimed in claim 1, it is characterized in that, described magnetic force rotary actuator comprises the roundlet rotating disk that two axis of rotation coincide, the roundlet rotating disk is equipped with at least one block permanent magnet, wherein a slice roundlet rotating disk is installed near the bottom center position in the ultrasonic cleaner, and be connected with described vessel support, another sheet is installed near the outer bottom center position of ultrasonic cleaner, and is connected with motor.

5. use for laboratory glass bottle cleaner as claimed in claim 1, it is characterized in that, described spray equipment, comprise shower nozzle, magnetic valve, pipeline, wherein shower nozzle is installed in the Ultrasonic Cleaning trench bottom, and have a shower nozzle at least, be connected to pure water making machine by pipeline and magnetic valve, magnetic valve is connected to microcomputer controller.

6. use for laboratory glass bottle cleaner as claimed in claim 1 is characterized in that, described ultrasonic cleaner top is equipped with a pure water filler, and described pure water filler is connected to magnetic valve by pipeline, and magnetic valve is connected to pure water making machine.

7. use for laboratory glass bottle cleaner as claimed in claim 1, it is characterized in that, described ultrasonic cleaner top is equipped with the cleaning fluid liquid outlet, described cleaning fluid liquid outlet, the aperture that covers by pipeline and liquid storage bottle is communicated in the liquid storage bottle, and the position near bottleneck in the liquid storage bottle connects a pipeline to air pump.

8. use for laboratory glass bottle cleaner as claimed in claim 1 is characterized in that, described ultrasonic cleaner outer wall is wound with thermo electric material, and a temperature sensor is installed, and temperature sensor and thermo electric material are connected to microcomputer controller.