GB2502342A - Disposable diaphragm pump - Google Patents

Abstract

A disposable pump has a pump unit 4 engaging with a drive unit 6. The pump unit 4 is manufactured out of three mouldings, one being the flexible wall which forms in part the membrane or diaphragm of the pump, sandwiched between upper and lower units 50,70. The upper unit includes detent extensions 10 in the form of legs which extend around the lower unit for engagement with the drive unit. The drive unit drives a piston 18 which engages with a gripping part 20 which is integrally formed on the flexible wall of the pump unit to form a snap fit connection such as a ball and socket arrangement or by one part having a magnet and the other part having a magnetic material.

Description

Diaphragm Pump The invention relates to a diaphragm pump, in particular to a diaphragm pump having a removable or disposable pump unit cooperating with a drive unit.

A diaphragm pump is a type of pump in which a driven diaphragm, sometimes known as a membrane, is moved to increase and decrease the volume of a chamber. The chamber is connected to an inlet one-way valve and an outlet one-way valve.

US 2009/0035152 describes a fluid pump with a disposable element, the disposable element including the chamber. In one embodiment, the disposable element includes a flexible membrane that forms not just the membrane adjacent to the chamber but farms the valves on the inlet and outlet. The valves are not automatic one-way valves but are driven by solenoids to be open and closed.

Where disposable pumps are used, the cost of the disposable element is critical. There is therefore a need for a pump element that is simple and easy to manufacture.

According to a first aspect of the invention, there is provided a disposable pump unit according to claim 1.

By arranging for the snap fit of disposable unit on the drive part to automatically align and mate the piston with the gripping part mounting of the disposable unit is made easy and quick.

In a preferred arrangement, the disposable pump unit is formed of an outer unit, an inner unit and a diaphragm unit between the outer unit and the inner unit. The internal chamber may be defined in the outer unit and the flexible wall and gripping part may be integral parts of the diaphragm unit. By making the disposable pump unit out of only three components manufacture is simplified.

Each of the inlet and outlet one-way valves may have a tongue integrally formed in the diaphragm unit. This integrally forms the moving part of the valves without requiring an additional component.

The detent extensions may be legs extending from the outer unit past the inner unit for engagement with the drive unit. Such extended legs provide a convenient attachment mechanism.

In another aspect, the invention relates to a two-part pump with a disposable pump unit and a drive unit with a motor for driving the disposable pump unit.

The drive unit may include holes for engagement with the detent extensions of the disposable pump unit.

For accurate mating, the drive unit may include a recess and the disposable pump unit may include a boss having an opening, the boss being in engagement with the recess when the detent extensions grip the disposable pump unit to locate the disposable pump unit on the drive unit. In this position, the piston unit may pass through the opening.

In a further aspect, the invention relates to a disposable pump unit for engagement with a drive unit, the drive unit including a piston driven by a drive unit, the disposable pump unit comprising: an internal chamber having a flexible wall, a pump inlet in communication with the internal chamber through an inlet one-way valve; a pump outlet in communication with the internal chamber through an outlet one-way valve; wherein the disposable pump unit is formed of an outer unit, an inner unit and a diaphragm unit between the outer unit and the inner unit, wherein the internal chamber is defined in the outer unit and the flexible wall is an integral part of the diaphragm unit.

For a better understanding of the invention, an embodiment will be described, purely by way of example, with reference to the accompanying drawings, in which: Figure 1 shows a perspective view of a first embodiment of the two part pump with the parts separated; Figure 2 shows an end view of the two part pump with the two parts separated; Figure 3 shows a section with the two parts mated; Figure 4 shows a longitudinal section with the two parts mated; Figure 5 shows one piece of the disposable pump unit of the above embodiment; Figure 6 shows another piece of the disposable pump unit; Figure 7 shows the third piece of the disposable pump unit; and Figure 8 shows a detail of an alternative embodiment.

The drawings are schematic and the exact sizes and shapes of various components may vary. The description of the components is not necessarily repeated for different figures.

Referring to Figures 1 and 2, a perspective view and an end view respectively, a pump 2 is made up of a disposable pump unit 4 and a drive unit 6. The two pads are arranged to be able to be fitted together in a push fit, as illustrated in Figure 3 which is a section through the pump 2 with the disposable pump unit 4 fitted into drive unit 6. The drive unit 6 contains a motor 28 (Fig. 4) which drives drive piston 18. The disposable pump unit includes a pump chamber 22 (Fig. 3) which will be described later, as well as pump inlet 24 and pump outlet 26 (Figs. 1 and 2).

Figure 4 shows the assembled pump 2 in longitudinal section through pump inlet 24. In the drive unit 6 may be seen a drive unit, here an electric motor 28 connected to drive shaft 30 which drives the drive piston 18 through a cam 32.

In use, the motor is driven to rotate which rotates drive shaft 30 and which causes reciprocating motion of the drive piston 18 by virtue of cam 32.

The disposable pump unit 4 is manufactured from only three plastics mouldings, namely a outer unit 50, a inner unit 70, and a diaphragm sheet 60 which is sandwiched between the outer unit 50 and inner unit 70 in the disposable pump unit. These units are illustrated separately in Figures 5, 6 and 7 showing the outer unit 50, diaphragm sheet 60 and inner unit 70 -respectively. Please note that in order to show the internal workings Figures 6 and 7 show inverted views compared to Figure 5 -the diaphragm sheet 60 and inner unit 70 are inverted to make up the assembled pump 2. Thus, the inlet is to the outer left in Figure 5 but in Figures 6 and 7 it is the outlet that is in outer left.

Legs 10 depend from the disposable pump unit 4 and have a detent lug 12 on the ends. The legs 10 are flexible and are formed in the outer unit 50 and extend part the inner unit 70 towards the drive unit 6. Holes 16 are provided through fixing plate 14 on the drive unit 6 for engagement with the legs 10. In use, when the disposable pump unit 4 is fitted onto the drive unit 6, the detent lug 12 passes through the hole 16 in the fixing plate 14 and the detent lug 12 engages with the fixing plate 14. This forms a secure fit. To remove the disposable pump unit 4, the user compresses the legs 10 to disengage the detent lug 12 from plate 14 and removes the disposable pump unit 4.

The drive unit 6 also contains a drive piston 18 which engages with a gripping part 20 in the disposable pump unit as will be described later.

Referring to Figure 6, the disposable pump unit forms a diaphragm pump, also referred to as a membrane pump. The diaphragm sheet 60 forms the diaphragm 62 of the pump as well as inlet tongue 64 and outlet tongue 66 which form the moving parts of inlet valve 34 and outlet valve 36. Note that the gripping part 20 is integrally formed with diaphragm 62 and contains a recess in its centre for gripping the drive piston. The disposable pump unit 60 is formed of a sheet of flexible plastics.

Referring to Figures 5 and 7, the inlet and outlet valves 34, 36 are formed by inlet valve chamber 52 and outlet valve chamber 72. Note that the outlet valve chamber 72 is formed in inner unit 70 and the inlet valve chamber 52 in the outer unit 50. The inlet valve chamber 52 is in communication with inlet channel 54 which communicates between the inlet valve chamber 52 and the pump chamber 22. The outlet valve chamber 72 is in communication with outlet channel 56. Note that both the inlet and outlet channels 54, 56 are formed in outer unit 50 -the shape of the outlet valve chamber 72 is arranged to have an extended recess 74 which faces the end 58 of the outlet channel 56.

The outer unit 50 and inner unit 70 are made of less-flexible resilient plastics so as to retain their shape when mated with the inner unit.

The pump inlet 24 is connected to inlet opening 78 in the inner unit 70 which faces the inlet valve chamber 52 and inlet tongue 64.

The outlet valve 36 operates as follows. Fluid in the pump can flow outwards along outlet channel 54 to end 58 where it forces the outlet tongue 66 to bend away from the end 58 of the outlet channel 56 into extended recess 74 to open the outlet valve 36. The fluid can then pass to pump outlet 26. This allows fluid to exit the pump chamber 22. However, fluid cannot return since in the event of flow in the other direction the outlet tongue 66 is urged against the end 58 of the outlet channel to seal the outlet channel 56.

The inlet valve 34 operates in a similar way but in the reverse direction. Fluid flows in from inlet 24 through inlet opening 78. The inlet tongue 64 is urged away from the inlet opening into inlet valve chamber 52 and from there the fluid flows along inlet channel 54 into chamber 22. In reverse, however, fluid cannot flow out along inlet channel 54 since the fluid urges the inlet tongue 64 against inlet opening 78.

Thus, in use, the motor 28 causes reciprocating motion of piston 18 which urges the diaphragm 62 to reduce the size of the chamber and then increase it. As the chamber size increases, fluid is drawn in through the pump inlet 24 and inlet valve 34 and then as the chamber size decreased the fluid is expelled through outlet valve 36 and pump outlet 36.

Some further design features improve operation of the unit and render it easier to manufacture.

The shape of the end of the piston unit 18 contains a chamfered edge lip 38 around its circumference. This makes it easy for the gripping part 20 to be mated with the end of the piston unit.

The formation of the disposable pump unit 4 using only three pieces, each of which can be separately moulded, allows for the disposable pump unit to be manufactured relatively cheaply.

Moreover, the location of the channels and their design has been designed to allow the pieces to be moulded as simply as possible. Only the pump inlet 24 and pump outlet 26 require internal channels, i.e. channels not open at outer or bottom -the rest of the unit simply is a single shape with recesses. This minimises the need for side arms in the injection moulding apparatus which greatly increases the density of mouldings that can be moulded in a single moulding operation.

Further aspects of the design allow the two pads to be joined together with minimal rattles in the assembled pump. In particular, a recess 80 surrounds the piston unit 18 at the outer of the drive unit 6 and a boss 82 is provided on the underside of the inner unit 70 to engage with this recess. The boss 82 is on rim 84 which defines an internal mounting chamber 86 which holds the gripping part 20. The boss 82 accordingly has opening 88 through which the piston unit 18 can pass to reach the gripping part 20. The recess 80 is slightly less deep than the height of the boss 82, for example 0.1mm to 1 mm. This means that the boss 82 is urged slightly inwards when the two parts are mated, since the plastics used in the inner unit are slightly flexible as well as resilient which allows rim 84 to bend slightly. This resilience urges the boss 82 and recess 80 together which reduces rattling when the pump is operated in use.

Further, the design allows the piston unit 18 to automatically engage the gripping part 20 when the legs 10 are passed through holes 16 in the plate 14 without requiring additional alignment. Full mating of piston unit 18 and gripping part 20 may occur after the motor has been switched on to fully insert piston unit 18 inside gripping part 20.

Thus, the complete design uses only three plastics mouldings for the disposable pump unit and yet fully implements the chamber 22, and the inlet and outlet valves 34, 36 of a diaphragm pump. The disposable pump unit of the pump is therefore relatively inexpensive.

The pump is suitable for any application where a disposable pump may be used. In particular, the pump may be used for medical applications.

Referring to Figure 8, an alternative embodiment of the pump unit has a different snap fit connector. In this case, the end of the piston unit 18 is a ball 90 which is gripped by the gripping part, in this case moulded spherical socket 92.

In an alternative embodiment, not shown, a steel shim disc is bonded to the bottom of the pump diaphragm as the gripping part, and a magnet provided on the end of piston unit 18 for magnetic coupling to the gripping part.

Those skilled in the art will realise that the exact design as described above may be varied as required. For example, the pump inlet 24 and pump outlet 26 are both provided on the inner part 70 of the disposable pump unit 4, which requires the inlet and outlet valves 34,36 to operate in different directions.

Alternative embodiments can provide one of the pump inlet 24 and pump outlet 26 on the outer part 50 and the other on the bottom part 70, or indeed both on the outer part 50, with different arrangements of channels and valves.

Claims (12)

1. CLAIMS1. A disposable pump unit (4) for engagement with a drive unit (6), the drive unit (6) including a piston driven by a drive unit, the disposable pump unit comprising: an internal chamber (22) having a flexible wall (62), a pump inlet (24) in communication with the internal chamber (22) through an inlet one-way valve (34); a pump outlet (26) in communication with the internal chamber (22) through an outlet one-way valve (36); wherein: the disposable pump unit further comprises detent extensions (10) for engaging in a snap fit with the drive unit to form a snap fit unit; and a gripping part (20,92) is integrally formed on the flexible wall arranged to mate with the piston (18) when the disposable pump unit is engaged in a snap fit with the drive unit.
2. 2. A disposable pump unit according to claim 1 wherein the disposable pump unit is formed of an outer unit (50), an inner unit (70) and a diaphragm unit (60) between the outer unit (50) and the inner unit, wherein the internal chamber (22) is defined in the outer unit (50) and the flexible wall (62) and gripping part (20) is an integral part of the diaphragm unit (60).
3. 3. A disposable pump unit according to claim 2, wherein the inlet one-way valve (34) comprises an inlet tongue (64) integrally formed in the diaphragm unit (60); and the outlet one-way valve (36) comprises an outlet tongue (66) integrally formed in the diaphragm unit (60).
4. 4. A disposable pump unit according to claim 3, wherein the outer part (50) comprises an inlet channel (54) between the internal chamber (22) and the inlet valve (34), the outlet channel communicating with an inlet valve chamber (52) in the outer part (50) facing an inlet channel (78) in the inner part (70) in communication with the pump inlet (24), the inlet tongue (64) in flexible engagement against the inlet channel (78) to provide a one-way valve action; and the outer part (50) comprises an outlet channel (56) between the internal chamber (22) and the inlet valve (36), the outlet channel communicating with an outlet channel end (58) in the outer part (50) facing an outlet valve chamber (72) in the inner part (70) in communication with the pump outlet (26), the outlet tongue (66) in flexible engagement against the end (58) of the outlet channel (54) to provide a one-way valve action.
5. 5. A disposable pump unit according to claim 2, 3 or 4 wherein the detent extensions are legs (10) extending from the outer unit (50) past the inner unit (70) for engagement with the drive unit (6).
6. 6. A two-part pump (2) comprising a disposable pump unit (4) according to any preceding claim; and the drive unit (6), the drive unit (6) comprising a motor (28) for driving the piston (18) in the drive unit in reciprocating action.
7. 7. A two-part pump according to claim 6, wherein the drive unit (6) includes holes (16) for engagement with the detent extensions (10) of the disposable pump unit (4).
8. 8. A two-part pump according to claim 6 or 7 wherein the drive unit includes a recess (80) and the disposable pump unit (4) includes a boss (82) having an opening (88), the boss (82) being in engagement with the recess (80) when the detent extensions (10) grip the disposable pump unit 4) to locate the disposable pump unit (4) on the drive unit (6).
9. 9. A two-part pump according to claim 8 wherein the piston (18) passes through the opening (88) into a mounting chamber (86) holding the gripping unit (20) when the detent extensions (10) grip the disposable pump unit (4).
10. 10. A two-part pump according to any of claims 6 to 9, wherein the gripping pad (20,92) is in the farm of a socket and the piston (18) has an end shaped to releasably mate with the socket.
11. 11. A two-part pump according to claim 10 wherein the end of the piston (18) has a ball (90) arranged to mate with a spherically socket (92) as the gripping part.
12. 12. A two-part pump according to any of claims 6 to 9 wherein the one of the gripping pad (20) and the end of the piston (18) includes a magnet and the other of the gripping part (20) and the end of the piston (18) includes a magnetic material so that the gripping part (20) and the end of the piston (18) form a magnetic coupling.