DE102010037662B4 - Actuator for a vacuum wound therapy system - Google Patents

Abstract

An actuator (1, 1A) for a negative pressure wound therapy system comprising: a housing (10, 10A) having a fluid port (11) with a dual discharge unit (111) mounted in the fluid port (11); a pump head (20, 20A) detachably connectable to an external motor and made of biocompatible material mounted in the housing (10, 10A) and having an outlet port (22), an inflow port (21) and a drive port (23, 23A); an inflow connection (30) respectively connected to the inflow port (21) of the pump head (20, 20A) and the fluid port (11) of the housing (10, 10A); a fluid restriction mounted in a portion of the inflow connection (30), the portion of the inflow connection (30) being connected to the fluid port (11) of the housing (10, 10A); and an outlet tube (40) connected to the outlet port (22) of the pump head (20, 20A), wherein the liquid boundary is a spiral tube (33) having a spiral inner wall.

Description

1. Field of the invention

The present invention relates to an actuator, and more particularly, to an actuator for a vacuum wound therapy system that creates a negative pressure environment in the wound and extracts pus.

2. Description of the Related Art

A negative pressure wound therapy uses wound wipes, soft absorbent pads or biocompatible pore materials to apply to the wounds and connect them to a vacuum pump. The vacuum pump creates negative pressure in the wound to extract the pus and infectious items and to soak up the healthy tissue fluid to maintain a moist therapeutic environment. Therefore, the circulation around the wound is improved to accelerate wound healing.

One of the conventional vacuum wound therapy systems has a rigid collector connected to a front end of the vacuum pump to extract the pus and infectious articles into the rigid collector. A vacuum sensor detects the vacuum in the collector to see if the traditional system is working normally. However, when the vacuum pump is connected to the rear end of the rigid collector, the pump is further away from the wound, so the pump requires more power to create a vacuum in the wound and to extract pus and infectious items from the wound. An example of such a system can be found in the document WO 2007/133618 A2 ,

Another conventional negative pressure wound therapy system solves the above problem. The collector is connected to the rear end of the vacuum pump. The vacuum pump is directly connected to the wound wipe attached to the wound so that the vacuum pump needs less power. Therefore, the pus and the infectious articles inevitably flow through the vacuum pump into the actuator. In accordance with health care regulations and with regard to human health, all equipment that directly contacts the human body or tissue fluid must be made of biocompatible material. However, the pump made of biocompatible material costs a lot. Once the pump is damaged, the pump must also be treated as a medical waste. Medical waste must be specially treated so that the pump made of biocompatible material increases disposal costs. An example of such a system can be found in the document WO 2009/124100 A1 ,

To overcome the deficiencies, the present invention provides an actuator for a vacuum wound therapy system to alleviate or avoid the above problems.

The main object of the present invention is to provide an actuator for a vacuum wound therapy system. The actuator has a pump head that is detachably connected to an external motor. When the actuator extracts the pus and infectious objects, the fluid only flows through the pumphead, so only the pumphead must be made of biocompatible material. Therefore, the manufacturing cost is reduced. In addition, because the motor is not made of biocompatible material, only the pump head must be treated as a medical waste, so that the disposal costs are reduced. Further, to reduce disposal costs, the pump head is independently replaced because the pump head is removable from the engine.

Other objects, advantages and novel features of the invention will become apparent from the following detailed description when taken in conjunction with the accompanying drawings.

Drawings:

1 Figure 11 is a perspective view of an actuator for a vacuum wound therapy system according to the present invention;

2 is a partial perspective view of the actuator 1 ;

3 is an exploded perspective view of a vacuum wound therapy system with the actuator 1 ;

4 is an exploded perspective view of the actuator 1 with a sensor assembly;

5 Figure 11 is a partial perspective view of another embodiment of an actuator for a vacuum wound therapy system according to the present invention;

6 is an exploded perspective view of the actuator 5 with a sensor assembly; and

7 is an exploded perspective view of a pump and a pump head of the actuator 5 ,

With reference to 1 and 2 includes an actuator 1 for a negative pressure wound therapy system according to the present invention, a housing 10 , a pump head 20 , an inflow connection 30 and an outlet pipe 40 ,

The housing 10 is hollow and has a fluid connection 11 which is formed on one side thereof. The fluid connection 11 has a double-segregating device mounted therein 111 to keep the infectious items from passing through the fluid port 11 flow.

With reference to 2 is the pump head 20 in the case 10 attached and made of biocompatible material. The pump head 20 has two sides. An inflow connection 21 and an outlet port 22 are on one side of the pump head 20 educated. A drive connection 23 is on the other side of the pump head 20 appropriate.

The inflow connection 30 connects between the fluid port 11 and the pump head 20 and sticks out of the case 10 out. The inflow connection 30 may be a manifold with multiple passes. In a preferred embodiment, the influent connection 30 a first pass 31 and a second pass 32 that communicate with each other. The first passage connects to the inflow port 21 the pump head 20 , The second passage 32 connects to the fluid port 11 ,

The outlet pipe 40 is with the outlet port 22 the pump head 20 connected and protrudes from the housing 10 out.

The actuator 1 is used in a negative pressure wound therapy system. One of the negative pressure wound therapy systems is in 3 and 4 shown. The actuator 1 is with a sensor assembly 50 via a fluid connection 51 connected. The sensor assembly 50 has a motor 52 to the pump head 20 drive. A drive shaft 521 of the motor 52 is removable in the drive connection 23 used. The sensor assembly 50 is with the controller 60 connected. The first passage 31 the inlet connection 30 stands with the wound over the wound dressing unit 70 in connection. The outlet pipe 30 is with the collector 80 connected.

With reference to 2 and 4 is the wound dressing unit 70 attached to the wound of the user. Once the vacuum wound therapy system is started, the pump drives 52 the pump head 20 to create a negative pressure environment in the wound to extract pus and infectious items. The pus and the infectious objects pass through the first passage 31 and run into the pump head 20 and then run out of the pump head 20 out through the outlet pipe 40 and run into the collector 80 , Therefore, the pus and the infectious objects run only through the actuator 1 but not by the engine 52 , Because the engine 52 from the actuator 1 is removable, only the pump head need 20 , the inlet connection 30 and the outlet pipe 40 made of biocompatible material. Therefore, the manufacturing cost is reduced. In addition, the engine 52 continues to be used while the infected actuator 1 is exchanged, so that the replacement costs are reduced. If the engine 52 must be replaced, the damaged engine 52 treated as normal waste, since the engine 52 does not touch the human tissue fluid. Therefore, the disposal costs are also reduced.

Furthermore, the sensor module is detected 50 the negative pressure in the wound via the fluid connections 51 . 11 and the second passage 32 , When the pus and the infectious objects in the first pass 31 flow, inevitably flow a little pus and infectious objects in the second passage 32 because the first and the second passage 31 . 32 communicate with each other. However, the sensor assembly becomes 50 damaged by the liquid, leaving a liquid boundary in the second pass 32 is attached to prevent the liquid from being in the sensor assembly 50 penetrates. In a preferred embodiment, the liquid restriction is a spiral tube 33 with a spiral inner wall. When the liquid in the second passage 32 flows, the liquid flows along the spiral wall of the spiral tube 33 , so that the flow path is extended, although the spiral tube 33 is short. Therefore, the liquid passes through the spiral tube 33 blocks and damages the sensor assembly 50 Not. The spiral tube 33 effectively extends the flow path without increasing the length or volume.

In another preferred embodiment, the engine is 52A in the case 10A of the actuator 1A appropriate. The drive shaft 521A of the motor 52A is removable with the drive connection 23A the pump head 20A connected. The motor 52A has an electrical connection 522A that with the electrical connection 501A the sensor assembly 50A is connected. The motor 52A is also removable from the pump head 20A so that the manufacturing costs and replacement costs are reduced.

Although numerous features and advantages of the present invention have been set forth in the foregoing description, the disclosure, together with the details of the structure and features of the invention, are only illustrative. Variations may be made in detail, particularly in matters of shape, size, and arrangement of components, fully within the principles of the invention, which are characterized by the broad, general meaning of the terms with which the appended claims are to be expressed.

Claims (2)

Actuator ( 1 . 1A ) for a negative pressure wound therapy system comprising: a housing ( 10 . 10A ) with a fluid connection ( 11 ) with a double-secretion unit ( 111 ), which in the fluid connection ( 11 ) is attached; a pump head ( 20 . 20A ), which can be detachably connected to an external motor and which is made of biocompatible material, wherein this in the housing ( 10 . 10A ) and an outlet port ( 22 ), an inflow connection ( 21 ) and a drive connection ( 23 . 23A ) having; an inflow connection ( 30 ), each with the inflow port ( 21 ) of the pump head ( 20 . 20A ) and the fluid connection ( 11 ) of the housing ( 10 . 10A ) connected is; a liquid restriction, which in a part of the inflow ( 30 ), the part of the inflow ( 30 ) with the fluid connection ( 11 ) of the housing ( 10 . 10A ) connected is; and an outlet tube ( 40 ) connected to the outlet port ( 22 ) of the pump head ( 20 . 20A ), wherein the liquid boundary is a spiral tube ( 33 ) with a spiral inner wall. Actuator according to claim 1, wherein the inflow connection ( 30 ) a distributor tube with a first passage ( 31 ) and a second pass ( 32 ), which communicate with each other; whereby the inflow connection ( 21 ) of the pump head ( 20 . 20A ) with the first pass ( 31 ) connected is; the fluid connection ( 11 ) of the housing ( 10 . 10A ) with the second passage ( 32 ) connected is; and wherein the liquid boundary in the second passage ( 32 ) is attached.

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