阅读说明：本技术 液压隔膜式计量泵 (Hydraulic diaphragm metering pump ) 是由 杨文� 于 2020-11-30 设计创作，主要内容包括：本发明提供了液压隔膜式计量泵,属于液体计量技术领域,包括缸盖、隔膜、驱动壳、第一柔性囊体和第二柔性囊体。驱动壳内滑动设置有驱动板,驱动壳的内壁与驱动板之间围设为第一输油腔和第二输油腔。第一柔性囊体设于第一腔体内。第二柔性囊体设于第二腔体内,并与第二输油腔连通。第一柔性囊体借助第一输油腔压入的液压油向第二腔体推挤隔膜,使得第一进液阀吸入液体,使第二出液阀排出液体；第二柔性囊体借助第二输油腔压入的液压油向第一腔体推挤隔膜,使得第二进液阀吸入液体,使第一出液阀排出液体。本发明提供的液压隔膜式计量泵隔膜每次运动均能够使液体进入和排出,变形的次数减少,进而延长了隔膜以及整个计量泵的使用寿命。(The invention provides a hydraulic diaphragm type metering pump, which belongs to the technical field of liquid metering and comprises a cylinder cover, a diaphragm, a driving shell, a first flexible bag body and a second flexible bag body. A driving plate is arranged in the driving shell in a sliding mode, and a first oil conveying cavity and a second oil conveying cavity are formed between the inner wall of the driving shell and the driving plate in a surrounding mode. The first flexible bladder is disposed within the first cavity. The second flexible bag body is arranged in the second cavity and is communicated with the second oil delivery cavity. The first flexible bag body pushes the diaphragm to the second cavity by means of hydraulic oil pressed in by the first oil conveying cavity, so that the first liquid inlet valve sucks liquid, and the second liquid outlet valve discharges the liquid; the second flexible bag body pushes the diaphragm to the first cavity by means of hydraulic oil pressed in by the second oil conveying cavity, so that the second liquid inlet valve sucks liquid, and the first liquid outlet valve discharges the liquid. The hydraulic diaphragm type metering pump provided by the invention has the advantages that the diaphragm can be used for enabling liquid to enter and discharge every time the diaphragm moves, the deformation times are reduced, and the service lives of the diaphragm and the whole metering pump are further prolonged.)

1. Hydraulic diaphragm metering pump, characterized by comprising:

the cylinder cover is internally provided with a first liquid inlet valve, a first liquid outlet valve communicated with the first liquid inlet valve, a second liquid inlet valve and a second liquid outlet valve communicated with the second liquid inlet valve;

the outer edge of the diaphragm is clamped in the cylinder cover, the diaphragm and the inner wall of the cylinder cover are surrounded to form a first cavity and a second cavity, the first cavity is respectively communicated with the first liquid inlet valve and the first liquid outlet valve, and the second cavity is respectively communicated with the second liquid inlet valve and the second liquid outlet valve;

the driving device comprises a driving shell, a driving plate and a driving mechanism, wherein the driving shell is internally provided with the driving plate in a sliding manner, and a first oil conveying cavity and a second oil conveying cavity are formed between the inner wall of the driving shell and the driving plate in a surrounding manner; the first oil conveying cavity and the second oil conveying cavity are filled with hydraulic oil;

the first flexible bag body is arranged in the first cavity and is communicated with the first oil delivery cavity;

the second flexible bag body is arranged in the second cavity and is communicated with the second oil delivery cavity;

the first flexible bag body pushes the diaphragm to the second cavity by means of the hydraulic oil pressed in by the first oil conveying cavity, so that the first liquid inlet valve sucks liquid and the second liquid outlet valve discharges the liquid; the second flexible bag body pushes the diaphragm to the first cavity by means of the hydraulic oil pressed by the second oil conveying cavity, so that the second liquid inlet valve sucks liquid, and the first liquid outlet valve discharges the liquid.

2. The hydraulic diaphragm metering pump of claim 1, wherein a first positioning tube and a second positioning tube are mounted on the cylinder cover, the first positioning tube being in communication with the first oil delivery chamber and the first cavity, respectively, and the second positioning tube being in communication with the second oil delivery chamber and the second cavity, respectively; the first flexible bladder is positioned inside the first positioning tube and the second flexible bladder is positioned inside the second positioning tube.

3. The hydraulic diaphragm metering pump of claim 2, wherein the ends of the first and second positioning tubes within the cylinder head are each flared.

4. The hydraulic diaphragm metering pump of claim 2, wherein a retaining member is threadedly attached to each of the first positioning tube and the second positioning tube, and wherein the first positioning tube and the second positioning tube are each positioned on the cylinder head by the retaining member.

5. The hydraulic diaphragm metering pump of claim 4, wherein a stop tube is disposed through each of the first and second positioning tubes, the first flexible bladder being positioned between the first positioning tube and the respective stop tube, and the second flexible bladder being positioned between the second positioning tube and the respective stop tube.

6. The hydraulic diaphragm metering pump of claim 5, wherein the limiting tube is positioned by a fastening sleeve at an end of the first positioning tube and the second positioning tube outside the cylinder head.

7. The hydraulic diaphragm metering pump of claim 6, wherein the end portions of the locking members, which are far away from the diaphragm, are provided with clamping grooves, the limiting pipe is slidably sleeved with a pressing sleeve, and the fastening sleeve limits the first flexible bag body and the second flexible bag body in the corresponding clamping grooves by pressing the pressing sleeve.

8. The hydraulic diaphragm metering pump of claim 1, wherein the first flexible bladder and the second flexible bladder are each provided with a telescopic rib, and an end of the telescopic rib is fixed at a center of the first flexible bladder and the second flexible bladder for defining a direction in which the first flexible bladder and the second flexible bladder are stretched.

9. The hydraulic diaphragm metering pump of claim 5, wherein a blocking net for limiting the first flexible bladder and the second flexible bladder is fixed to an end of the limiting pipe, and a through hole for flowing the hydraulic oil is formed in the blocking net.

Technical Field

The invention belongs to the technical field of liquid metering, and particularly relates to a hydraulic diaphragm type metering pump.

Background

The metering pumps used at present are various, and among them, a hydraulic diaphragm type metering pump is a diaphragm type reciprocating pump widely used. The working principle of the hydraulic diaphragm reciprocating pump is as follows: the motor drives the worm wheel, the rotating motion of the motor is converted into the reciprocating motion of the plunger through the deflection mechanism, the reciprocating motion of the plunger pushes hydraulic oil, and the hydraulic oil pushes the diaphragm to reciprocate to suck and discharge media. However, the diaphragm of the conventional metering pump deforms once under the action of hydraulic oil and then corresponds to the suction or discharge of a medium, and the diaphragm deforms twice to realize a cycle, so that the service life of the diaphragm is influenced due to more times of deformation of the diaphragm.

Disclosure of Invention

The invention aims to provide a hydraulic diaphragm type metering pump, and aims to solve the problems that one cycle can be realized only when a diaphragm deforms twice, and the service life of the diaphragm is influenced due to more times of diaphragm deformation.

In order to achieve the purpose, the invention adopts the technical scheme that: providing a hydraulic diaphragm metering pump comprising:

the cylinder cover is internally provided with a first liquid inlet valve, a first liquid outlet valve communicated with the first liquid inlet valve, a second liquid inlet valve and a second liquid outlet valve communicated with the second liquid inlet valve;

the outer edge of the diaphragm is clamped in the cylinder cover, the diaphragm and the inner wall of the cylinder cover are surrounded to form a first cavity and a second cavity, the first cavity is respectively communicated with the first liquid inlet valve and the first liquid outlet valve, and the second cavity is respectively communicated with the second liquid inlet valve and the second liquid outlet valve;

the driving device comprises a driving shell, a driving plate and a driving mechanism, wherein the driving shell is internally provided with the driving plate in a sliding manner, and a first oil conveying cavity and a second oil conveying cavity are formed between the inner wall of the driving shell and the driving plate in a surrounding manner; the first oil conveying cavity and the second oil conveying cavity are filled with hydraulic oil;

the first flexible bag body is arranged in the first cavity and is communicated with the first oil delivery cavity;

the second flexible bag body is arranged in the second cavity and is communicated with the second oil delivery cavity;

the first flexible bag body pushes the diaphragm to the second cavity by means of the hydraulic oil pressed in by the first oil conveying cavity, so that the first liquid inlet valve sucks liquid and the second liquid outlet valve discharges the liquid; the second flexible bag body pushes the diaphragm to the first cavity by means of the hydraulic oil pressed by the second oil conveying cavity, so that the second liquid inlet valve sucks liquid, and the first liquid outlet valve discharges the liquid.

As another embodiment of the present application, a first positioning pipe and a second positioning pipe are installed on the cylinder cover, the first positioning pipe is respectively communicated with the first oil conveying cavity and the first cavity, and the second positioning pipe is respectively communicated with the second oil conveying cavity and the second cavity; the first flexible bladder is positioned inside the first positioning tube and the second flexible bladder is positioned inside the second positioning tube.

As another embodiment of the application, the ends of the first positioning pipe and the second positioning pipe in the cylinder cover are both trumpet-shaped.

As another embodiment of this application, threaded connection has a retaining member on first registration arm with the second registration arm, first registration arm with the second registration arm all with the help of the retaining member location is in on the cylinder head.

As another embodiment of the present application, a limiting tube is disposed through each of the first positioning tube and the second positioning tube, the first flexible bladder is positioned between the first positioning tube and the corresponding limiting tube, and the second flexible bladder is positioned between the second positioning tube and the corresponding limiting tube.

As another embodiment of the application, the limiting pipe is positioned at the end parts, located on the outer side of the cylinder cover, of the first positioning pipe and the second positioning pipe through fastening sleeves.

As another embodiment of this application, the retaining member is kept away from the draw-in groove has all been seted up to the tip of diaphragm, sliding sleeve is equipped with the pressure cover on the spacing pipe, the adapter sleeve is through the extrusion the pressure cover will first flexible utricule with the flexible utricule of second is spacing corresponding in the draw-in groove.

As another embodiment of the present application, a flexible rib is disposed through each of the first flexible bladder and the second flexible bladder, and an end of the flexible rib is fixed at a center of each of the first flexible bladder and the second flexible bladder, so as to limit a direction in which the first flexible bladder and the second flexible bladder stretch.

As another embodiment of this application, the end fixing of spacing pipe is used for spacingly first flexible utricule with the separation of the flexible utricule of second is netted, seted up on the separation net and be used for the through-hole of hydraulic oil circulation.

The hydraulic diaphragm metering pump provided by the invention has the beneficial effects that: compared with the prior art, the first liquid inlet valve, the first liquid outlet valve, the second liquid inlet valve and the second liquid outlet valve in the hydraulic diaphragm type metering pump are all arranged on the cylinder cover. Enclose between cylinder cap and the diaphragm and establish to first cavity and second cavity, first cavity communicates with first feed liquor valve and first liquid valve respectively, and the second cavity communicates with second feed liquor valve and second liquid valve respectively. A first oil conveying cavity and a second oil conveying cavity are enclosed between the driving shell and the driving plate which is arranged in the driving shell in a sliding mode, and hydraulic oil is filled in the first oil conveying cavity and the second oil conveying cavity. The first flexible bag body is communicated with the first oil delivery cavity, and the second flexible bag body is communicated with the second oil delivery cavity.

When the flexible bag type hydraulic pump is in actual use, the first oil conveying cavity is extruded by the driving plate, hydraulic oil in the first oil conveying cavity is input into the first flexible bag body, the first flexible bag body deforms to further push the diaphragm, the pressure of the first cavity is reduced at the moment, the first liquid inlet valve is opened, liquid enters the first cavity, meanwhile, the pressure in the second cavity rises, the second liquid outlet valve is opened, and the liquid is discharged from the second liquid outlet valve. Similarly, when the driving plate extrudes the second oil conveying cavity, hydraulic oil in the second oil conveying cavity is input into the second flexible bag body, the second flexible bag body deforms to further push the diaphragm, the pressure of the second cavity is reduced, the second liquid inlet valve is opened, liquid enters the second cavity, meanwhile, the pressure in the first cavity is increased, the first liquid outlet valve is opened, and the liquid is discharged from the first liquid outlet valve. In this application, the diaphragm all can make liquid get into and discharge at every turn, compares in current diaphragm, and the number of times of deformation reduces, and then has prolonged the life of diaphragm and whole measuring pump.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic diagram of a hydraulic diaphragm metering pump according to an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is a schematic diagram of the connection between the driving shell and the driving plate according to the embodiment of the present invention.

In the figure: 1. a cylinder cover; 2. a first liquid inlet valve; 3. a first liquid outlet valve; 4. a second liquid inlet valve; 5. a second liquid outlet valve; 6. a second positioning tube; 7. a barrier net; 8. a through hole; 9. a second flexible bladder; 10. a sealing gasket; 11. a telescopic rib; 12. fastening sleeves; 13. pressing the sleeve; 14. a locking member; 15. a reciprocating lever; 16. a drive case; 17. a first oil conveying cavity; 18. a second oil conveying cavity; 19. a drive plate; 20. a diaphragm; 21. and a limiting pipe.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, 2 and 3, the hydraulic diaphragm metering pump according to the present invention will now be described. The hydraulic diaphragm type metering pump comprises a cylinder cover 1, a diaphragm 20, a driving shell 16, a first flexible capsule body and a second flexible capsule body 9. Install first feed liquor valve 2 in the cylinder cap 1, go out liquid valve 3 with the first of first feed liquor valve 2 intercommunication, second feed liquor valve 4 and go out liquid valve 5 with the second of second feed liquor valve 4 intercommunication. The outer edge of diaphragm 20 is in cylinder cap 1, and diaphragm 20 encloses with the inner wall of cylinder cap 1 and establishes to first cavity and second cavity, and first cavity communicates with first feed liquor valve 2 and first liquid valve 3 respectively, and the second cavity has second feed liquor valve 4 and second liquid valve 5 intercommunication respectively. A driving plate 19 is arranged in the driving shell 16 in a sliding mode, and a first oil conveying cavity 17 and a second oil conveying cavity 18 are formed between the inner wall of the driving shell 16 and the driving plate 19 in an enclosing mode; the first oil delivery chamber 17 and the second oil delivery chamber 18 are filled with hydraulic oil. The first flexible bladder is disposed in the first cavity and is in communication with the first oil delivery chamber 17. The second flexible bladder 9 is disposed in the second chamber and is in communication with the second oil delivery chamber 18. The first flexible bag body pushes the diaphragm 20 to the second cavity by means of hydraulic oil pressed in by the first oil delivery cavity 17, so that the first liquid inlet valve 2 sucks liquid and the second liquid outlet valve 5 discharges the liquid; the second flexible bag 9 pushes the diaphragm 20 to the first cavity by means of the hydraulic oil pressed in by the second oil delivery cavity 18, so that the second liquid inlet valve 4 sucks liquid and the first liquid outlet valve 3 discharges the liquid.

The hydraulic diaphragm metering pump provided by the invention has the beneficial effects that: compared with the prior art, the first liquid inlet valve 2, the first liquid outlet valve 3, the second liquid inlet valve 4 and the second liquid outlet valve 5 in the hydraulic diaphragm type metering pump are all arranged on the cylinder cover 1. Enclose between cylinder cap 1 and the diaphragm 20 and establish to first cavity and second cavity, first cavity communicates with first feed liquor valve 2 and first play liquid valve 3 respectively, and the second cavity communicates with second feed liquor valve 4 and second play liquid valve 5 respectively. A first oil conveying cavity 17 and a second oil conveying cavity 18 are enclosed between the driving shell 16 and a driving plate 19 which is arranged in a sliding mode, and hydraulic oil is filled in the first oil conveying cavity 17 and the second oil conveying cavity 18. The first flexible bladder is in communication with a first oil delivery chamber 17 and the second flexible bladder 9 is in communication with a second oil delivery chamber 18.

In practical use, when the driving plate 19 extrudes the first oil delivery cavity 17, hydraulic oil in the first oil delivery cavity 17 is input into the first flexible bag body, the first flexible bag body deforms to further push the diaphragm 20, at the moment, the pressure of the first cavity is reduced, the first liquid inlet valve 2 is opened, liquid enters the first cavity, meanwhile, the pressure in the second cavity is increased, the second liquid outlet valve 5 is opened, and the liquid is discharged from the second liquid outlet valve 5. Similarly, when the driving plate 19 presses the second oil delivery cavity 18, so that the hydraulic oil in the second oil delivery cavity 18 is delivered into the second flexible bag-shaped body 9, the second flexible bag-shaped body 9 is deformed to push the diaphragm 20, the pressure in the second cavity is reduced, the second liquid inlet valve 4 is opened, the liquid enters the second cavity, and meanwhile, the pressure in the first cavity is increased, the first liquid outlet valve 3 is opened, and the liquid is discharged from the first liquid outlet valve 3. In this application, diaphragm 20 moves at every turn and all can make liquid get into and discharge, compares in current diaphragm 20, and the number of times of deformation reduces, and then has prolonged the life of diaphragm 20 and whole measuring pump.

The driving plate 19 is driven to move by the reciprocating rod 15, and the reciprocating rod 15 is in transmission connection with the motor through a worm wheel, a worm and a rotor.

As a specific embodiment of the hydraulic diaphragm metering pump provided by the present invention, please refer to fig. 1 and fig. 2, a first positioning pipe and a second positioning pipe 6 are installed on a cylinder head 1, the first positioning pipe is respectively communicated with a first oil delivery cavity 17 and a first cavity, and the second positioning pipe 6 is respectively communicated with a second oil delivery cavity 18 and a second cavity; the first flexible bladder is positioned inside the first positioning tube and the second flexible bladder 9 is positioned inside the second positioning tube 6. An opening has only been seted up to first flexible utricule and the flexible utricule 9 of second, be provided with the open end on first flexible utricule and the flexible utricule 9 of second respectively and push the end, the open end with push the both ends that the end distributes at first flexible utricule and the flexible utricule 9 of second, the open end is located 1 outsides of cylinder cap, push the end and be located 1 outsides of cylinder cap, hydraulic oil gets into by the open end of flexible utricule and pushes the end, makes the flexible utricule warp.

The metering pump is used as a precision measuring instrument, and in order to ensure accurate measurement of liquid, the deformation degree of the diaphragm 20 needs to be similar every time, namely the deformation error needs to be reduced as much as possible. The interiors of the first flexible bag body and the second flexible bag body 9 are deformed after being filled with hydraulic oil, and the first flexible bag body and the second flexible bag body 9 are shrunk and deformed after the hydraulic oil flows back. In order to enable the first flexible bag body and the second flexible bag body 9 to deform along a specific direction, a first positioning pipe and a second positioning pipe 6 are respectively connected to the cylinder cover 1.

Taking the first positioning tube as an example, the first flexible capsule is positioned at the inner side of the first positioning tube, so that after the first flexible capsule is filled with hydraulic oil, the first flexible capsule can only stretch and deform along the axial direction of the first positioning tube through the limitation of the first positioning tube, thereby avoiding the problem of inaccurate metering caused by the fact that the first flexible capsule deforms differently after being filled with hydraulic oil, and finally the diaphragm 20 deforms inconsistently.

Simultaneously first registration arm and second registration arm 6 all can be dismantled and connect on cylinder cap 1 to for make diaphragm 20 the same to the degree of deformation when first cavity and the second cavity direction motion, first registration arm and second registration arm 6 symmetric distribution are at the both sides of diaphragm 20 and coaxial setting, and the axis of first registration arm and second registration arm 6 is in same straight line with the axis of diaphragm 20.

Referring to fig. 1 and 2, as an embodiment of the hydraulic diaphragm metering pump provided by the present invention, the ends of the first positioning pipe and the second positioning pipe 6 located in the cylinder head 1 are both in a trumpet shape. The first and second positioning tubes 6 are intended to define the direction in which the first and second flexible bladders 9 are deformed, respectively, which requires that the first and second flexible bladders 9, after being filled with hydraulic oil, extend over a sufficiently large area from the ends of the first and second positioning tubes 6, respectively, due to the large surface area of the membrane 20 itself. By arranging the ends of the first and second positioning tubes 6 to be horn-shaped and attaching the first and second flexible capsules 9 to the inner walls of the horn-shaped ends of the respective first and second positioning tubes 6, it is ensured that there is a sufficiently large contact area between the first and second flexible capsules 9 and the membrane 20.

When the driving plate 19 extrudes the first oil delivery cavity 17, hydraulic oil is filled in the first flexible bag body, so that the first flexible bag body pushes the diaphragm 20, the diaphragm 20 extrudes the second cavity, the distance between the diaphragm 20 and the second flexible bag body 9 is reduced, and when the hydraulic oil in the second flexible bag body 9 flows back to the second oil delivery cavity 18, the second flexible bag body 9 contracts towards the interior of the horn end of the second positioning tube 6. Since the end portion is formed in a horn shape, a part of the diaphragm 20 can be accommodated, and interference in the contraction deformation of the diaphragm 20 is avoided.

Referring to fig. 1 and 2, as an embodiment of the hydraulic diaphragm metering pump provided by the present invention, a locking member 14 is threadedly connected to the first positioning pipe and the second positioning pipe 6, and both the first positioning pipe and the second positioning pipe 6 are positioned on the cylinder head 1 by the locking member 14. The first cavity and the second cavity are used for conveying liquid, the liquid flowing in the first cavity and the second cavity has certain flammability or corrosiveness under normal conditions, and the first positioning pipe and the second positioning pipe 6 are required to be hermetically connected to the cylinder cover 1 for safety. Sealing gaskets 10 are arranged between the first positioning pipe and the cylinder cover 1 and between the second positioning pipe and the cylinder cover 1. Taking the first positioning pipe as an example, sealing washer 10 suit is on first positioning pipe, because the tip of first positioning pipe is loudspeaker form, can be located the tip threaded connection retaining member 14 in the cylinder cap 1 outside at first positioning pipe, makes the loudspeaker end extrusion sealing washer 10 of first positioning pipe through rotating retaining member 14 for sealing washer 10 can seal the clearance between first positioning pipe and the cylinder cap 1.

If the loudspeaker end of first registration arm is far away from 1 inner wall of cylinder cap, in order to realize sealed, can fix the position sleeve on first registration arm, seal ring 10 sets up between position sleeve and cylinder cap 1 to seal ring 10 turns over to the outside, makes the position sleeve extrude seal ring 10 through rotating retaining member 14, can accomplish sealed equally.

Because the flexible bag body is required to push the diaphragm 20 to move, in order to enable the flexible bag body to be capable of uniformly deforming along the horn-shaped end part of the positioning pipe, the corresponding flexible bag body also needs to be matched with the horn mouth of the positioning pipe, namely the end part of the cylinder cover 1 extends to the radial direction, so that the deformation reliability is ensured.

Referring to fig. 1 and 2, as a specific embodiment of the hydraulic diaphragm metering pump provided by the present invention, a limiting tube 21 is respectively inserted into each of the first positioning tube and the second positioning tube 6, the first flexible bladder is positioned between the first positioning tube and the corresponding limiting tube 21, and the second flexible bladder 9 is positioned between the second positioning tube 6 and the corresponding limiting tube 21. Because first flexible utricule and second flexible utricule 9 are the flexible material finished piece, the open end of first flexible utricule and second flexible utricule 9 is all fixed on first registration arm and second registration arm 6 simultaneously, use first flexible utricule as an example, first flexible utricule open end location is in first registration arm, when hydraulic oil fills first flexible utricule internally, flexible deformation all can take place for the inner wall of first flexible utricule, because preparation and installation error, or there is the bubble in the hydraulic oil, all can make first flexible utricule along the inhomogeneous of axial deformation, it has the error finally to make diaphragm 20 warp. In order to reduce the production of error, be equipped with spacing pipe 21 in first flexible utricule, the inner wall of first flexible utricule is injectd between spacing pipe 21 and the first locating tube, makes hydraulic oil only can act on the end of pushing of first flexible utricule through spacing pipe 21 to make its deformation inflation, guaranteed the precision.

Referring to fig. 1 and 2, as an embodiment of the hydraulic diaphragm metering pump provided by the present invention, a limiting pipe 21 is positioned at the end portions of the first positioning pipe and the second positioning pipe 6, which are located outside the cylinder head 1, by a fastening sleeve 12. The limiting pipe 21 is used for expanding the first flexible bag body and the second flexible bag body 9 to ensure the stability of the structure of the first flexible bag body and the second flexible bag body, and is communicated with the first oil conveying cavity 17 and the second oil conveying cavity 18 through a pipeline, and hydraulic oil pressed into the first oil conveying cavity 17 and the second oil conveying cavity 18 is drained to the end parts of the first flexible bag body and the second flexible bag body 9 through the limiting pipe 21.

In order to stably position the limiting tube 21 on the first positioning tube and the second positioning tube 6, firstly, the end of the limiting tube 21 is also trumpet-shaped, that is, the end of the limiting tube 21 and the end of the corresponding first positioning tube and the end of the corresponding second positioning tube 6 are both trumpet-shaped, and the first flexible bag body and the second flexible bag body 9 are respectively clamped by the corresponding limiting tube 21 and the corresponding positioning tube. Spacing pipe 21 is kept away from one side threaded connection of loudspeaker end has adapter sleeve 12, makes the loudspeaker end of spacing pipe 21 can stabilize the location on first registration arm and second registration arm 6 through first flexible utricule and the flexible utricule 9 of second through rotating adapter sleeve 12.

Referring to fig. 1 and 2, a clamping groove is formed at an end of the locking member 14 away from the diaphragm 20, a pressing sleeve 13 is slidably sleeved on the limiting tube 21, and the fastening sleeve 12 limits the first flexible bag body and the second flexible bag body 9 in the corresponding clamping grooves by pressing the pressing sleeve 13. First flexible utricule and the flexible utricule 9 of second all are provided with the open end and push the end, in order to make first flexible utricule and the flexible utricule 9 of second all can be stabilized on first registration arm and the 6 basis of second registration arm, convenient to detach simultaneously, use first registration arm as an example, offer the draw-in groove that is used for spacing first flexible utricule at retaining member 14's terminal surface, in the in-service use process, at first wear to establish spacing pipe 21 in first flexible utricule, turn over the open end of first flexible utricule to the outside and the joint is in the draw-in groove, the open end salient outside in the draw-in groove of first flexible utricule needs to be guaranteed this moment, rotate the adapter sleeve 12 on the spacing pipe 21, make adapter sleeve 12 drive press the cover 13 motion, finally by pressing the cover 13 with first flexible utricule spacing in the draw.

As one embodiment of the hydraulic diaphragm metering pump provided by the present invention, please refer to fig. 1 and fig. 2, the first flexible bladder and the second flexible bladder 9 are both provided with a flexible rib 11, and an end of the flexible rib 11 is fixed at a center of the first flexible bladder and the second flexible bladder 9 for defining a direction in which the first flexible bladder and the second flexible bladder 9 are stretched.

In order to make first flexible utricule and second flexible utricule 9 homoenergetic follow first registration arm and spacing pipe 21's axial contraction, guarantee that first flexible utricule can evenly follow diaphragm 20's circumference and diaphragm 20 contact, all be connected with flexible muscle 11 at the middle part of first flexible utricule and second flexible utricule 9 for this reason, the tip at spacing pipe 21 can be fixed to flexible muscle 11 one end, the other end and first flexible utricule and second flexible utricule 9 push the center department fixed connection of end, and the middle part that first flexible utricule and second flexible utricule 9 pushed the end is under the effect of flexible muscle 11, along spacing pipe 21's axial deformation, because flexible muscle 11 has certain hardness, guarantee the unanimity of first flexible utricule circumferential deformation.

Referring to fig. 1 and 2, as a specific embodiment of the hydraulic diaphragm metering pump provided by the present invention, a blocking net 7 for limiting a first flexible bag body and a second flexible bag body 9 is fixed at an end of a limiting tube 21, and a through hole 8 for flowing hydraulic oil is formed in the blocking net 7. When the driving plate 19 moves and presses the first oil delivery cavity 17, the first flexible capsule is pressurized and expanded, and contacts and pushes the diaphragm 20 to compress the second cavity, and at the moment, the pressure in the second oil delivery cavity 18 is reduced, so that the hydraulic oil in the second flexible capsule 9 can flow back into the second oil delivery cavity 18 through the pipeline.

It is to be noted that the first and second flexible bladders 9 are located at a relatively short distance from the diaphragm 20, while both the first and second flexible bladders 9 act on the middle of the diaphragm 20 to drive the movement of the diaphragm 20. And when the first flexible bag body and the second flexible bag body 9 abut against the blocking net 7, the first flexible bag body and the second flexible bag body cannot be continuously contracted and deformed, and then the corresponding liquid inlet valve and the corresponding liquid outlet valve are driven to be opened.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.