DE10247292A1 - Pump with diaphragms, for e.g. sphygmomanometer has shaft inserted in chamfered fitting hole of rotator to connect pivot component attached to diaphragm and rotator - Google Patents

Abstract

A shaft (13) is inserted in a fitting hole (25) of the rotator (24) to connect the pivot component (6) attached to the diaphragm (4) and the rotator. The entrance edge of the fitting hole is chamfered.

Description

BACKGROUND OF THE INVENTION

The present invention relates to a pump which Partitions is provided, and in particular a compact Pump, which for a blood pressure monitor or the like is used.

A compact pump of this type according to the prior art (disclosed in Japanese Patent Publication No. 2002-106471A) is described below with reference to FIGS . 3 to 4B. In Fig. 3, a compact pump 1 is provided with two partitions 4 for defining pump chambers 3 in a housing 2 , which has a rectangular shape in plan view. Hollow connecting elements 5 are provided at respective middle sections on the underside of the intermediate walls 4 in such a way that they protrude downward from the intermediate walls 4 , and between the intermediate walls 4 a pivotable element 6 is arranged, which is suitable for the undersides of the intermediate walls 4 on and starting to move. The housing 2 is composed of three stages, namely an upper housing member 2a, an intermediate case member 2 b and a lower housing member 2 c in such a manner that flange portions 4 a of the partitions 4 between the upper housing member 2a and the intermediate case member 2 b are clamped.

Furthermore, shaft body 7 with inlet holes 7 a are provided on the pivotable element 6 in the vicinity of its outer circumferential ends and arranged under the respective central section of the intermediate walls 4 such that they protrude upwards. By tightly joining inner surfaces of the hollow connecting elements 5, which are provided on the intermediate walls 4, with outer surfaces of these elements shaft 7, the partition walls 4 may be mounted on the pivoting element. 6

The partitions 4 are partially cut in the respective middle portions of their bottoms to form air intake valve bodies 8 , and through holes 9 are formed through the cut. The through holes 9 can be opened or closed by the air intake valve bodies 8 , so that air intake valve portions V1 are formed.

Furthermore, a vent hole 10 is formed in a central portion of the upper housing member 2 a, and two annular concave grooves 11 , which are open at the bottom and are connected to the vent hole 10 , are on an underside of the upper housing member 2 a on an outer periphery of the vent hole 10 provided. Vent valve body 12 , which consist of upper end portions of the intermediate walls 4 , are connected by pressure to inner wall surfaces 11 a of the annular concave grooves 11 , so that vent valve sections V2 are formed.

An eccentric rotary shaft 13 bores through a central section of the pivotable element 6 . An extension section 14 , which extends from the intermediate housing element 2 b, is provided above the pivotable element 6 , and a V-shaped recess 15 , which is open at the bottom, is formed in a lower section of the extension section 14 . An upper end portion of the eccentric rotary shaft 13 is loosely inserted in the recess 15 so that it can swing freely therein. In contrast, a rotary body 17 at an upper end of a rotary shaft 16 which is supported in an upright manner in the center of a lower portion of the lower casing member 2 c is rotatably mounted, and it is, as shown in FIGS. 4A and 4B, a Hole 18 in a columnar shape with a fixed diameter and a fixed depth is formed on the upper surface of the rotating body 17 at a position which is eccentric from the central position thereof. A lower end portion of the eccentric rotating shaft 13 is loosely inserted into the hole 18 so that it can swing freely therein.

A motor housing 20 , which contains a motor 19 which is connected to the rotary drive shaft 16 , is directly connected to the lower housing element 2 c. The lower housing member 2 c is provided with a communication hole 21 which is connected to the motor housing 20 , and further air inlet holes 22 are formed in a lower portion of the motor housing 20 for introducing outside air into the motor housing 20 .

In this state, when the rotary drive shaft 16 is driven to rotate by the motor 19 and the rotary body 17 is rotated, the eccentric rotary shaft 13 is caused to swing in the hole 18 , resulting in an eccentric rotation. This causes the pivotable member 6 to pivot, thereby moving the lower end portions of the partition walls 4 up and down. When the lower end portion of one of the partition walls 4 is moved downward, for example, a negative pressure is generated inside the partition wall 4 , and the vent valve body 12 is tightly connected to the inner wall surface 11 a of the annular concave groove 11 . In other words, the vent valve portion V2 is closed and the air intake valve body 8 opens the through hole 9 . In this way, the air intake valve portion V1 is placed in an open state, and air is introduced from the intake hole 7 a into the intermediate wall 4 , as shown by an arrow C.

Then, when the lower end portion of the intermediate wall 4 is moved upward, a high pressure is generated inside the intermediate wall 4 , and the air intake valve body 8 closes the through hole 9 , whereby the air intake valve portion V1 is put in a closed state. At the same time, the diameter of the vent valve body 12 is increased to remove it from the inner wall surface 11 a, and the air is discharged through the vent valve portion V2, as shown by an arrow D. More specifically, the air that is discharged from the vent valve body 12 passes through the annular concave groove 11 and is discharged from the vent hole 10 to the outside of the housing 2 .

Further, in the upward movement of the intermediate wall is produced c a negative pressure in the lower casing member 2 4, and the presence in the motor housing 20, air flows through the communication hole 21 in the lower housing member, as shown by an arrow e. This creates a negative pressure in the motor housing 20 , and the outside air is introduced into the motor housing 20 through the air inlet hole 22 as shown by an arrow F.

In the compact pump, it is difficult to insert the lower end portion of the eccentric rotating shaft 13 when assembling the hole 18 of the rotating body 17 in a columnar shape with a relatively small diameter eccentrically in the rotating body 17 .

Furthermore, the lower housing element 2 c of the compact pump is formed from a transparent material to facilitate the insertion process, so that a worker can insert the eccentric rotary shaft 13 into the hole 18 and thereby the hole 18 from a position outside the lower housing element 2 c watched from. Therefore, not only is the work performance poor, but there are also high costs because different materials are used for the lower housing element 2 c and the upper housing element and the intermediate housing element 2 a and 2 b.

SUMMARY OF THE INVENTION

It is therefore an object of the invention to provide one with Partitioned pump to create which capable is to install the eccentric rotary shaft facilitate to improve work performance.

In order to achieve the above object, a pump is created according to the invention, comprising:
a plurality of partitions defining a plurality of pump chambers;
a pivotable element which is attached to the partition walls;
a rotating device provided with a communication hole formed in a surface eccentrically from the rotating center of the rotating device; and a shaft member which is inserted into the connection hole to connect the pivotable member and the rotating device,
an input edge of the communication hole is chamfered.
[New]

A groove section is preferably inclined Sections of the vicinity of the center of rotation of the Run the rotating device starting from the hole on one surface the rotating device is inclined downwards.

It is preferable that the width of the Groove section formed closer to the connection hole narrower is.

In the above-mentioned designs, if that Shaft element is installed, the one end portion of the shaft element due to the bevelled section and the guide groove guided to be inserted into the connection hole.

Therefore, the worker needs the end section of the do not insert eccentric rotary shaft in the connecting hole and while observing the connection hole, like a pump the prior art, and the insertion process can be completed automatically. In this way, the shaft element easy to install, and work performance can be increased.

BRIEF DESCRIPTION OF THE DRAWING

The above-mentioned tasks and advantages of the present Invention are more preferred by detailed description exemplary embodiments thereof with reference to FIG attached drawing can be seen more clearly, whereby:

Fig. 1 is a vertical sectional view of a compact pump which is an embodiment of the present invention;

Fig. 2A is a top view of the rotating body in Fig. 1;

Fig. 2B is a vertical sectional view of the rotating body in Fig. 1;

Fig. 3 is a vertical sectional view of a compact pump according to the prior art;

Fig. 4A is a top view of the rotating body in Fig. 3; and

FIG. 4B is a vertical sectional view of the rotating body in FIG. 3.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

An embodiment is described in detail with reference to FIGS. 1 and 2. It should be noted that, for convenience of explanation, the same components as those in the prior art compact pump are denoted by the same reference numerals in the drawing, and the explanation of the components is omitted. In Fig. 1, a compact pump 23 is provided with a rotating body 24 instead of a rotating body (17 in Fig. 3) which is provided in the compact pump of the prior art (1 in Fig. 3). The rotating body 24 is eccentrically provided with a hole 25 instead of the hole (18 in Fig. 3) in the compact pump of the prior art.

The rotating body 24 has a hole 25 in a columnar shape as shown in Fig. 2 instead of the hole (18 in Fig. 3) in the prior art pump, and an input edge of the hole 25 is chamfered around a guide inlet 26 form. Further, a guide groove 27 is formed which is inclined downward from the vicinity of the center of the rotating body 24 toward the hole 25 while the width thereof becomes narrower.

Accordingly, when the eccentric rotating shaft 13 is connected to the rotating body 24 , there is a state in which the eccentric rotating shaft 13 is held by the upper housing member 2 a and the intermediate housing member 2 b together with the pivotable member 6 and the partition walls 4 and the rotary drive shaft 16 is pivotally held by the lower housing element 2 c. The lower housing member 2a and the intermediate case member 2 are moved c b in the vicinity of the lower casing member 2, in order to bring them into engagement with each other. Then, the lower end portion of the eccentric rotating shaft 13 is brought near the center of the rotating body 24 and appropriately guided through the guide groove 27 and the guide inlet 26 to be inserted and inserted into the hole 25 .

Therefore, a worker need not insert the lower end portion of the eccentric rotating shaft 13 into the hole 25 while observing the hole 25 as in the prior art pump, and the eccentric rotating shaft 13 can be inserted automatically. This enables the eccentric rotating shaft to be easily installed, and the work output can be increased.

In this state, when the rotating body 24 is rotated with the rotation of the motor 19 , the lower end portion of the eccentric rotating shaft 13 is pivoted in the hole 25 , resulting in an eccentric rotation. This causes the pivotal movement of the pivotable member 6 to move the lower end portions of the partition walls 4 up and down. When the lower end portion of one of the partition walls 4 is moved downward, for example, a negative pressure is generated inside the partition wall 4 , and the vent valve body 12 is tightly connected to the inner wall surface 11 a of the annular concave groove 11 . In this way, the vent valve portion V2 is closed and the air intake valve body 8 opens the through hole 9 . In other words, the air intake valve portion is set in an open state V1, and air is introduced from the inlet hole 7a in the partition 4, as shown by the arrow C.

Then, when the lower end portion of the intermediate wall 4 is moved upward, a high pressure is generated inside the intermediate wall 4 , and the air intake valve body 8 closes the through hole 9 , whereby the air intake valve portion V1 is put in a closed state. At the same time, the diameter of the valve body 12 is increased to remove it from the inner wall surface 11 a, and the air is discharged through the vent valve portion V2, as shown by the arrow D. More specifically, the air that is discharged from the vent valve body 12 passes through the annular concave groove 11 and is discharged from the vent hole 10 to the outside of the housing 2 .

Further, in the upward movement of the intermediate wall is produced c a negative pressure in the lower casing member 2 4, and the presence in the motor housing 20, air flows through the communication hole 21 in the lower housing member 2 c, as shown by the arrow E. This creates a negative pressure in the motor housing 20 and the outside air is introduced into the motor housing 20 through the air inlet hole 22 , as shown by the arrow F.

Although the present invention is described with reference to FIG special preferred embodiments shown and Various changes and modifications have been described for experts from the present statements. Such obvious changes and modifications correspond to the principle, scope and reasoning of the invention, as in the appended claims.

Claims (3)

1. Pump comprising:
a plurality of partitions defining a plurality of pump chambers;
a pivotable element which is attached to the partition walls;
a rotating device having a communication hole formed in a surface eccentrically from the rotating center of the rotating device; and
a shaft member which is inserted into the connection hole to connect the pivotable member and the rotating device,
an input edge of the communication hole is chamfered. 2. Pump according to claim 1, wherein a groove portion with inclined sections, which are from the vicinity of the center of rotation starting from the connection hole at which one Surface of the rotating device is formed inclined downwards. 3. Pump according to claim 2, wherein the width of the groove portion closer to the connection hole is formed narrower.