JPH11132148A - Liquid filling diaphragm pump device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To wholly eliminate the occurrence of unstable leakage of pumping air in a sealed space by performing pumping operation while bringing a diaphragm superposed on a compressively moving directional front part of a piston into close contact with an outside surface of the piston by air suction. SOLUTION: A piston 11 is covered by superposing a rubber first diaphragm 31 on a compressively moving directional front part, and has a rubber second diaphragm 41 in its rear part. The piston 11 also has an air suction hole 14 and an air passage 16 to communicate with this suction hole 14 in its compressively moving directional front part. Air is sucked by sucking air in the suction pipe 6 direction by an air suction mechanism 5 installed so as to communicate with the air suction hole 4 partially arranged on the side of a piston cylinder 1. As a result, the inside of a sealed space between the first diaphragm 31 and the second diaphragm 41 is put under negative pressure, and at least the first diaphragm 31 is brought into close contact with the compressively moving directional front part.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid filling diaphragm pump device used for filling liquid contents into a liquid packaging container.

[0002]

2. Description of the Related Art As shown in a side sectional view of FIG. 4, a diaphragm pump device for filling mounted on a conventional liquid filling machine includes a piston cylinder 1, a piston 51 reciprocating inside thereof, and a piston 51 thereof. The first diaphragm 61 made of a rubber molded sheet attached and fixed to the piston body 52 at the front part in the compression movement direction by a screw body 53
And a second diaphragm 71 made of a rubber molded sheet which is fixed at its rear part by covering a fixing plate 73 and fixing it with screws or the like.

At the front of the first diaphragm 61, a suction pipe 8 and a discharge pipe 9 each having a check valve 8a, 9a communicating with the internal space of the piston cylinder 1 are provided.
It has.

An air suction mechanism 5 is provided on the side of the piston cylinder 1. The outer surface of the piston 51 sandwiched between the first diaphragm 61 and the second diaphragm 71, and the two diaphragms 61 , 71 are formed as closed spaces.

[0005] The air suction mechanism 5 constantly sucks air from an air suction hole 4 partially formed in a side portion of the piston cylinder 1 at a position communicating with the closed space, and moves the inside of the closed space. By applying a negative pressure, the first diaphragm 61 and the second diaphragm 71 are always
1 is in close contact with the outer surface.

The piston 11 is provided with a first diaphragm 6
While the first and second diaphragms 71 are always kept in close contact with the outer surface of the piston 51, the reciprocating operation is repeatedly performed by the reciprocatingly driven piston shaft 17 integral with the first and second diaphragms 71, and the fluid material for filling from the suction pipe 8 to the discharge pipe 9 is filled. Can be sent.

The reciprocating linear drive mechanism of the piston shaft 17 includes a slide bearing 2 a of the piston cylinder 1.
An arm 18 is attached and fixed to the distal end of a piston shaft 17 extending outward.
The rotation shaft 19 is rotatably supported by supporting the end portion 23 thereof by a rotation bearing portion 22 in parallel with the rotation shaft 19. The rotation shaft 19 is a screw shaft, and has a screw portion 19b on the outer peripheral surface thereof. The first pulley 82 (or sprocket) attached to the main shaft 81 is driven and rotated by an electric motor 80 (pulse motor, servomotor), and the second pulley 84 (or sprocket) attached to the shaft 19 via a timing belt or chain 83. ), The shaft 19 is rotated.

The rotary shaft 19 has a thread 19
The arm 18 and the movable body 20 are integrally attached and fixed to each other by a fixed connecting portion 18a, and the rotating shaft 19 is electrically driven. By repeatedly driving and rotating the motor 80 alternately in the normal rotation direction and the reverse rotation direction, the movable body 20 reciprocates linearly with the arm 18 so that the piston shaft 17 and the piston 11 reciprocate linearly.

[0009]

In the conventional diaphragm pump device having the above-mentioned structure, the first diaphragm pump made of rubber is used.
The diaphragm 61 is attached and fixed to a piston main body 52 at the front part in the compression movement direction of the piston 51 by a screw body 53 having a flange-like pressing plate 54. As shown in FIG. It is formed into a shape (or a flat sheet shape), and is provided with a hole portion 63 for inserting the screw body 53 at a substantially central portion thereof.

[0010] As shown in FIG. 6, the first diaphragm 61 has a screw body 53 inserted into the hole 63 and screwed to the piston main body 52, and the first diaphragm 61 is pressed by the pressing plate 54 of the screw body 53. Because of the structure in which the edge of the hole 63 is fastened and fixed, the fastening portion 6
If 4 is loose, air leaks from the hole 63 and the sealed space cannot be stably held, or the material of the first diaphragm 61 is easily damaged by the tightening of the tightening portion 64 by the screw body 53, and the piston 51 reciprocates repeatedly. In some cases, the stress of the diaphragm due to exercise may be added to cause a decrease in durability.

SUMMARY OF THE INVENTION An object of the present invention is to improve a method of attaching a diaphragm attached to a front part in a piston compression movement direction to a method different from a conventional attachment method using a screw body. It is an object of the present invention to improve the durability of the diaphragm material while eliminating the maintenance of a tightly sealed space.

[0012]

SUMMARY OF THE INVENTION The present invention is directed to a piston cylinder, a piston reciprocating in the interior thereof, a first diaphragm superimposed and coated on a front portion in a compression movement direction of the piston, and a second diaphragm coated on a rear portion thereof. A diaphragm pump device for liquid filling, comprising: a diaphragm; and an air suction mechanism for performing a pumping operation while bringing the first diaphragm into close contact with the outer surface of the piston by air suction.

The present invention also provides a liquid filling diaphragm pump device according to the above invention, wherein the piston cylinder 1 and the piston 11 reciprocating in the interior thereof and the piston 1
The first diaphragm 31 includes a first diaphragm 31 that is overlapped and coated on the front part in the direction of compression movement and a second diaphragm 41 that is coated on the rear part thereof. The front part of the first diaphragm 31 communicates with the internal space of the piston cylinder 1. A piston valve pump device for liquid filling which includes a suction pipe 8 and a discharge pipe 9 each having a check valve, and sends a fluid from the suction pipe 8 to the discharge pipe 9 by the reciprocating operation of the piston 11. The piston 11 is provided with an air suction hole 14 formed at one or several places at a front part in a compression movement direction thereof and an air flow path 16 communicating with the suction hole 14. Air is sucked from the flow path 16 to make the inside of the sealed space between the first diaphragm 31 and the second diaphragm 41 a negative pressure, and at least the first diaphragm 31 is fixed. Further comprising an air suction mechanism 5 that closely fixed to 11 compressed moving direction front portion of a diaphragm pump apparatus for a liquid-filled, characterized in.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A diaphragm pump device for filling a liquid according to the present invention will be described below in detail according to an embodiment.

FIG. 1 is a sectional side view of a diaphragm pump device for filling liquid according to the present invention.
A piston 11 reciprocating in the interior thereof, a first rubber diaphragm 31 covered and covered on the front in the compression movement direction of the piston 11, and a second rubber diaphragm 41 covered on the rear. It has.

The piston cylinder 1 is a slide bearing 2 that supports a piston shaft 17 in a movable state in the front-rear direction.
a rear cylinder part 2 provided with a and an intermediate cylinder part 3
And the front cylinder 7 at the front in the compression movement direction,
The cylinders 1 are connected and fixed to each other by screws or the like so that the inside of the cylinder 1 is sealed.

The piston 11 is composed of a piston body 12 and a front plate 13 connected and fixed to a front part of the piston body 12, and an air passage (between the front part of the piston body 12 and the front plate 13). Or an internal space portion 15 as an air reservoir). And piston 1
1 has a piston shaft 17 in a hole 12a formed in the rear surface of the piston body 12 shown in FIG. 1 or FIG. 2 (b).
The piston 17 is attached by screwing a screw portion 17a at the tip of the piston shaft 17 into a screw hole 12b of the piston body 12.

FIG. 2 is an overall sectional side view of the pump device of FIG. 1 and FIG.
As shown in the front view of (a) of the piston 11, air suction holes 14 are formed in the front plate 13 at one or more positions.
As shown in the cross-sectional side view of the piston 11 main body in (b), an air passage 16 is formed inside the piston main body 12 from the front part to the side part.

As shown in FIG. 1 or 3, the first diaphragm 31 has a thick ring-shaped seal portion 32 (O
Ring-shaped) and a rubber cap-like or sheet-like shape with an intermediate cylinder part 3 and a front cylinder part 7
By tightening and fixing the ring-shaped seal portion 32 inside the groove at the connection portion between the front plate 13 and the front half of the piston body 12, the front portion of the front plate 13 at the front in the compression movement direction of the piston 11 is inside the cylinder 1. It is mounted over the outer surface in an overlapping manner.

The second diaphragm 41 has a rubber cap-like or sheet-like shape provided with a thick ring-shaped seal portion 42 (O-ring portion) at the outer peripheral end, and has a bearing cylinder portion 2 and an intermediate cylinder portion. By tightening and fixing the ring-shaped seal portion 42 inside the groove at the connection portion with the piston 3, the piston shaft 17 is passed through the inside of the cylinder 1, and the piston body 12 is moved from the rear surface in the compression movement direction of the piston 11. Is mounted so as to cover the outer surface of the rear half of the. As shown in FIG. 1, the second diaphragm 41 has a hole 43 through which the piston shaft 17 is inserted, and a screw hole 44. The second diaphragm 41 is brought into close contact with the rear surface of the piston main body 12, and the pressing plate is pressed from above. As shown in the rear view of the piston main body 12 in FIG. 2C, the piston 47 is screwed into a screw hole 46 on the rear surface of the piston main body 12 with a screw 45 and attached.

At the front of the first diaphragm 31, which is overlapped and covered on the front plate 13 of the piston 11, a suction pipe 8 for the filling material which communicates with the internal space of the piston cylinder 1 having check valves 8a and 9a, respectively. And a discharge pipe 9. The reciprocating linear drive mechanism of the piston shaft 17 that performs the reciprocating motion of the piston 11 is a drive mechanism that converts a rotational motion into a reciprocal linear motion, such as a cam follower system, a spline system, or a screw shaft system that rotates normally and reversely. The present invention is not particularly limited.

In the reciprocating linear drive mechanism of the piston shaft 17, for example, as shown in FIG. 1, an arm 18 is attached and fixed to the distal end of the piston shaft 17 extending outside the slide bearing 2a of the piston cylinder 1.

On the other hand, the rotating shaft 19 is rotatably supported in parallel with the piston shaft 17 by rotatably supporting the rotating shaft 19 at its end 23 by means of a rotating bearing 22. A cam 19a is provided, and the shaft 19 is driven and rotated by an electric motor or the like.

The rotating shaft 19 includes the shaft 19
A cam follower 20 is rotatably mounted on the cam follower 20, and a spiral returning (circulating) groove 21 is provided on the inner peripheral surface of the cam follower 20 on which the shaft 19 is mounted.
The cam 19a of the rotary shaft 19 is fitted into the groove 21.

The arm 18 and the cam follower 2
The cam follower 20 is integrally attached and fixed by a fixed connecting portion 18a, and the cam follower 20 rotates together with the arm 18 following the cam 19a which rotates in the circumferential direction by drivingly rotating the rotary shaft 19. The piston shaft 17 and the piston 11 reciprocate linearly along the shaft 19 to reciprocate linearly.

The piston 11 has one or several air suction holes 14 at the front of the piston 11 in the compression movement direction.
And an air passage 16 communicating with an air suction mechanism 5 attached to communicate with an air suction hole 4 partially provided on the side of the piston cylinder 1 (side of the intermediate cylinder 3). The air is sucked from the air flow path 16 by sucking the air in the direction of the suction pipe 6.

A closed space is provided between the first diaphragm 31 and the second diaphragm 41, and a negative pressure is applied to the closed space, and at least the first diaphragm 31 is moved forward (in front of the piston 11) in the compression movement direction of the piston 11. It is made to adhere (or adhere and fix) to the face plate 13).

The piston 11 is provided with a first diaphragm 3
While the first and second diaphragms 41 are always kept in close contact with the outer surface of the piston 51,
Reciprocating operation, the suction operation (retreat operation) of the piston 11 causes a negative pressure in the space between the front surface of the first diaphragm 31 and the inner surface of the cylinder 1 (the inner surface of the front cylinder 7), and the suction pipe The check valve 8a on the side 8 is opened, the check valve 9a on the side of the discharge pipe 9 is closed, and liquid filling is sucked into the space from the suction pipe 8 side.

Subsequently, the compression operation (forward operation) of the piston 11 is performed.
As a result, the check valve 8a on the suction pipe 8 side is closed, the check valve 9a on the discharge pipe 9 side is opened, and the liquid filler sucked into the space is pushed out toward the discharge pipe 9 and sent. To fill a predetermined packaging container.

[0030]

According to the diaphragm pump device for liquid filling of the present invention, the first diaphragm used by covering the front part in the compression operation direction of the piston is smooth without irregular wrinkles or deformation during the reciprocating movement of the piston. And to work properly,
As a mounting method for mounting while always in close contact with the piston side, the piston is reciprocated while the first diaphragm is in close contact with the front and side of the piston by an air suction method different from the conventional mounting method using a screw body. Therefore, there is no need to provide a screw hole or the like for attachment in the first diaphragm main body, and it is possible to eliminate the occurrence of unstable leakage of pumping air in a sealed space due to the strength of tightening by screwing as in the conventional case. Can,
This has the effect of ensuring the stability of pumping.

Also, the first tightening is performed by the conventional tightening.
Damage to the material of the diaphragm is also eliminated, and the effect of improving the durability of the first diaphragm against repeated reciprocation of the piston is obtained.

[Brief description of the drawings]

FIG. 1 is an overall sectional side view of a liquid-filled diaphragm pump device of the present invention.

2A is a front view of a piston of the liquid-filled diaphragm pump device of the present invention, FIG. 2B is a sectional side view thereof, and FIG.
Is a rear view.

FIG. 3 is an overall perspective view of a first diaphragm used in the liquid filling diaphragm pump device of the present invention.

FIG. 4 is an overall side sectional view of a conventional liquid-filled diaphragm pump device.

FIG. 5 is an overall perspective view of a first diaphragm used in a conventional liquid filling diaphragm pump device.

FIG. 6 is a partial sectional side view illustrating a mounting structure of a first diaphragm used in a conventional liquid filling diaphragm pump device.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Piston cylinder 2 ... Rear cylinder 3 ... Intermediate cylinder 4 ... Air suction hole 5 ... Air suction mechanism 6 ... Air suction pipe
7 front cylinder 8 suction pipe 9 discharge pipe 11 piston 12 piston body 13 front plate 14 air suction hole 15 internal space 16 air passage 17 piston shaft 18 arm 19 rotary shaft 19a ... cam 20 ... cam follower 21 ... cam groove part 22 ... rotary bearing 31 ... first diaphragm 32 ... air seal part 41 ... second diaphragm 42 ... air seal part 51 ... piston 52 ... piston body 53 ... screw body 61 ... first diaphragm 62 ... Air seal part 63…
Drilling part

 ──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Takahisa Hirayama 1-5-1, Taito, Taito-ku, Tokyo Letterpress Printing Co., Ltd.

Claims (2)

[Claims] A first diaphragm which is reciprocated in the piston cylinder, a first diaphragm which is overlapped and coated on a front portion in a compression movement direction of the piston, and a second diaphragm which is coated on a rear portion thereof. A liquid filling diaphragm pump device comprising an air suction mechanism for performing a pumping operation while bringing a diaphragm into close contact with an outer surface of a piston by air suction. 2. The liquid-filled diaphragm pump device according to claim 1, wherein said first diaphragm 3 is overlapped and covered with a piston cylinder 1, a piston 11 reciprocating in said piston cylinder, and a front portion of said piston 11 in the compression movement direction.
1 and a second diaphragm 41 coated on the rear part thereof, and a suction pipe 8 and a discharge pipe 9 each having a check valve communicating with the internal space of the piston cylinder 1 at the front of the first diaphragm 31. A piston valve pump device of a liquid filling machine for sending a fluid from the suction pipe 8 to the discharge pipe 9 by the reciprocating operation of the piston 11; An air suction hole 14 is provided in several places, and an air flow path 16 communicating with the suction hole 14 is provided. Air is sucked from the air flow path 16 to the side of the piston cylinder 1 and the first diaphragm 31 The inside of the closed space between the second diaphragms 41 is set to a negative pressure, and at least the first diaphragm 31
A liquid suction diaphragm pump device provided with an air suction mechanism 5 for closely contacting the front end of the piston 11 in the compression movement direction of the piston 11.