CN205061546U - Liquid injection mechanism - Google Patents

Abstract

The utility model discloses a liquid injection mechanism relates to liquid conveying equipment technical field, including stock solution container, infusion hose, base member, switch module and actuating mechanism, the stock solution container is equipped with the liquid outlet, the switch module install in the base member includes first briquetting and second briquetting, the gap has between first briquetting and the second briquetting, the infusion hose passes the gap, the actuating mechanism drive switch module action so that first briquetting and second briquetting can be in opposite directions / and extrude / loosen from removing mutually the infusion hose to the route of liquid circulation in the controlling infusion hose. Replace the effect that the valve played the outflow of the liquid in the control stock solution container, simple structure, easily realization and with low costs through the switch module of constituteing by two briquettings.

Description

Mechanism for filling liquid

Technical field

The utility model relates to equipment for liquid transportation technical field, is specifically related to a kind of mechanism for filling liquid.

Background technology

In commercial production, usually need to use some liquid, such as hydrochloric acid etc., these liquid are stored in a liquid storage container usually, liquid storage container arranges liquid outlet, then by infusion tube connection liquid outlet thus by the Liquid transfer in liquid storage container to needing the place of using these liquid.In order to control the outflow of liquid in liquid storage container, the liquid outlet of liquid storage container is provided with valve usually, and these valves can be electromagnetic valve or ball valve etc.The liquid outlet of liquid storage container arranges valve, by the impact of the corrosive liquid in liquid storage container, valve is easily impaired and service life is shorter, need often to change, as this increased cost, in addition, valve also can cause the cleaning of liquid storage container more difficult, having liquid is unavoidably retained on valve, installs to the liquid in liquid storage container after these liquid left over may pollute.

Summary of the invention

The purpose of this utility model is to provide a kind of mechanism for filling liquid, and its cost is lower, and the cleaning of liquid storage container is more convenient.

For achieving the above object, the utility model provides following technical scheme.

Mechanism for filling liquid, comprise liquid storage container, infusion tube, matrix, control group and driver train, described liquid storage container is provided with liquid outlet, described control group is installed on described matrix and comprises the first briquetting and the second briquetting, between described first briquetting and the second briquetting, there is gap, described infusion tube is through described gap, described driver train drive described control group action with make described first briquetting and the second briquetting can in opposite directions/from mobile and extrude/unclamp described infusion tube, thus control the path of liquid communication in infusion tube.This is technical scheme 1.

Compared with prior art, the utility model by two briquettings to the extruding of infusion tube/unclamp the path controlling liquid communication in infusion tube, the effect of the outflow of the liquid controlled in liquid storage container is played with this alternative valve, control group forms primarily of two briquettings, structure is simple, is easy to realize and cost is low.The liquid outlet of liquid storage container, without the need to arranging valve, therefore facilitates the cleaning of liquid storage container, and the liquid filled before this has been not easy residual, thus installs to the contaminated possibility of liquid in liquid storage container after reducing.

Mechanism for filling liquid according to technical scheme 1, described first briquetting is fixedly installed in described matrix, described second briquetting is movably installed in described matrix and is oppositely arranged with described first briquetting, described driver train be connected with described second briquetting and drive described second briquetting shift to/away from described first briquetting.This is technical scheme 2.

Mechanism for filling liquid according to technical scheme 2, described driver train is installed on described matrix, and described second briquetting is installed on the flexible output shaft of described driver train.This is technical scheme 3.Certainly, be different from the program, described second briquetting also can be rotationally connected with on described first briquetting or matrix, described driver train be connected with described second briquetting and drive described second briquetting rotate with make the end of described second briquetting shift to/away from described first briquetting.In addition, described second briquetting also can be slidably connected on described first briquetting or matrix, described driver train be connected with described second briquetting and drive described second briquetting relative to described first briquetting slide with make described second briquetting shift to/away from described first briquetting.

Mechanism for filling liquid according to technical scheme 1, described control group also comprises infusion tube locations, and the part through described gap of described infusion tube is positioned described gap by described infusion tube locations.So can prevent infusion tube from shifting out described gap and causing control group to lose efficacy.This is technical scheme 4.

Mechanism for filling liquid according to technical scheme 4, described first briquetting is positioned at below the second briquetting, and described first briquetting one end relative with the second briquetting is provided with the location shallow slot as described infusion tube locations, described infusion tube be partially submerged into described location shallow slot through described gap.Location shallow slot is shallow slot, thus can play the effect of location infusion tube, cannot block the path of liquid communication in infusion tube after briquetting can not be caused again to extrude infusion tube completely.In addition, offering in the direct briquetting wherein of location shallow slot, without the need to separately establishing parts to be used as infusion tube locations, simplifying the structure.This is technical scheme 5.

Mechanism for filling liquid according to technical scheme 1, the one side that described second briquetting is relative with described first briquetting is convex globoidal, and described infusion tube is across described convex globoidal, and described convex globoidal lateral cross section is arc, and longitudinal cross-section is straight line.So, when the mobile in opposite directions extruding infusion tube of two briquettings, convex globoidal extruding infusion tube can obtain the effect of the path of liquid communication in better blocking-up infusion tube.This is technical scheme 6.

Mechanism for filling liquid according to technical scheme 1, described driver train comprises cylinder or motor.This is technical scheme 7.

Mechanism for filling liquid according to technical scheme 1, described liquid storage container is positioned at above described control group, and described liquid outlet is positioned at bottom described liquid storage container.This is technical scheme 8.

Accompanying drawing explanation

Fig. 1 is the perspective view of mechanism for filling liquid of the present utility model;

Fig. 2 is the enlarged diagram at the A place of Fig. 1.

Reference numeral comprises: matrix 1, liquid storage container 2, liquid outlet 21, infusion tube 3, the first briquetting 41, location shallow slot 411, second briquetting 42, cylinder 43.

Detailed description of the invention

Below in conjunction with specific embodiment, the utility model is elaborated.

As shown in Figure 1, the mechanism for filling liquid of the present embodiment comprises matrix 1, liquid storage container 2, infusion tube 3 and control group, wherein control group comprises the first briquetting 41 and the second briquetting 42, liquid storage container 2 is fixedly mounted on matrix 1, liquid storage container 2 is provided with liquid outlet 21, infusion tube 3 input end connects liquid outlet 21, mouth connects the place needing transfusion, as shown in Figure 2, between first briquetting 41 and the second briquetting 42, there is gap b, infusion tube 3 is through gap b, first briquetting 41 and the second briquetting 42 can move in opposite directions, thus the path of liquid communication in infusion tube 3 is controlled by extruding infusion tube 3, infusion tube 3 conducting is realized with this, the controls such as cut-off and flow regulating.In the present embodiment, first briquetting 41 is level pressure block, it is fixedly mounted on matrix 1, second briquetting 42 is dynamic pressure block, it is installed on the flexible output shaft of the cylinder 43 as driver train, and cylinder 43 is fixedly mounted on matrix 1, and the first briquetting 41 maintains static, second briquetting 42 drives by cylinder 43 and can shift to/away from the first briquetting 41, thus extrude/unclamp infusion tube 3.In other embodiments, the first briquetting 41 and the second briquetting 42 all can be arranged to movably, or the second briquetting 42 maintains static, and the first briquetting 41 is removable.Certainly, described second briquetting 42 also can be installed relative to the first briquetting 41 (or matrix 1) activity by other means, such as the second briquetting 42 rotates and is installed on described matrix 1 or the first briquetting 41, or the second briquetting 42 is slidably mounted on described matrix 1 or on the first briquetting 41.

As depicted in figs. 1 and 2, in the present embodiment, second briquetting 42 and the first briquetting 41 setting up and down, wherein the first briquetting 41 under, second briquetting 42 is upper, the top of the first briquetting 41 is provided with location shallow slot 411, and location shallow slot 411 is position to the part of infusion tube 3 through gap b as the effect of infusion tube locations, prevents infusion tube 3 from skidding off gap b and causing control group to lose efficacy.As shown in Figure 2, being partially submerged in the shallow slot 411 of location through gap b of infusion tube 3, thus located.In other embodiments, infusion tube locations also can be the parts that the snap ring etc. arranged at the first briquetting 41 side can limit the position of infusion tube 3.

As shown in Figure 2, the lower surface of the second briquetting 42 is the face of cylinder of protruding downwards, and the lower surface of the second briquetting 42 also can be convex globoidal in other embodiments, and it is arc that described convex globoidal should meet lateral cross section, and longitudinal cross-section is the condition of straight line.Certainly, second briquetting 42 is convex globoidal with at least one face towards the other side's protrusion relative with the other side in both the first briquettings 41, so can when the first briquetting 41 and the second briquetting 42 extrude infusion tube 3, the effect that in infusion tube 3, the path of liquid communication is blocked is better.And convex globoidal is more mellow and fuller, be not easy to weigh infusion tube 3 wounded.

As shown in Figure 1, liquid storage container 2 is positioned at the top of the control group be made up of the first briquetting 41 and the second briquetting 42, liquid outlet 21 is positioned at bottom liquid storage container 2, thus the liquid in liquid storage container 2 can be flowed out from liquid outlet 21 by the gravity of self, and do not need to extract out by power plant or extrude.

Certainly, driver train 43 also can be lifting drive motor or other engine installations.Described driver train can also comprise the control lever be connected with control group, during work, move to cut-off station by staff or other Power Component direct control operation bars be blocked from opening station to make the path of liquid communication in described infusion tube 3, or inverse operations is opened to make the path of liquid communication in infusion tube 3.

Above disclosedly be only preferred embodiment of the present utility model, certainly can not limit the interest field of the utility model with this, therefore according to the equivalent variations that the utility model claim is done, still belong to the scope that the utility model is contained.

Claims (8)

1. mechanism for filling liquid, comprise liquid storage container and infusion tube, described liquid storage container is provided with liquid outlet, the input end of described infusion tube connects described liquid outlet, it is characterized in that, also comprise matrix, control group and driver train, described control group is installed on described matrix and comprises the first briquetting and the second briquetting, between described first briquetting and the second briquetting, there is gap, described infusion tube is through described gap, described driver train drive described control group action with make described first briquetting and the second briquetting can in opposite directions/from mobile and extrude/unclamp described infusion tube, thus the path of liquid communication in control infusion tube.

2. mechanism for filling liquid according to claim 1, it is characterized in that, described first briquetting is fixedly installed in described matrix, described second briquetting is movably installed in described matrix and is oppositely arranged with described first briquetting, described driver train be connected with described second briquetting and drive described second briquetting shift to/away from described first briquetting.

3. mechanism for filling liquid according to claim 2, is characterized in that, described driver train is installed on described matrix, and described second briquetting is installed on the flexible output shaft of described driver train.

4. mechanism for filling liquid according to claim 1, is characterized in that, described control group also comprises infusion tube locations, and the part through described gap of described infusion tube is positioned described gap by described infusion tube locations.

5. mechanism for filling liquid according to claim 4, it is characterized in that, described first briquetting is positioned at below the second briquetting, and described first briquetting one end relative with the second briquetting is provided with the location shallow slot as described infusion tube locations, described infusion tube be partially submerged into described location shallow slot through described gap.

6. mechanism for filling liquid according to claim 1 and 2, is characterized in that, the one side that described second briquetting is relative with described first briquetting is convex globoidal, and described infusion tube is across described convex globoidal, and described convex globoidal lateral cross section is arc, and longitudinal cross-section is straight line.

7. mechanism for filling liquid according to claim 1, is characterized in that, described driver train comprises cylinder or motor.

8. mechanism for filling liquid according to claim 1, is characterized in that, described liquid storage container is positioned at above described control group, and described liquid outlet is positioned at bottom described liquid storage container.