DE202005015146U1 - Stable pressure relief device for an electronic blood pressure measuring instrument has connecting element with a seal exhibiting a pump and an impulse sensor - Google Patents

Abstract

The stable pressure relief device has a connecting element, seal and a pump along with an impulse sensor. A plug (10), made of porous material, is provided at free end of connecting element whereby pump is used for inflating the cuff until the air pressure reaches a pre-determined value. The fatigue and/or aging of the plug can close it. After the air pressure has reached its highest predetermined value, the air is released. The air passes through the fine and evenly placed pores of the plug into outside air, by which impulse sensor can precisely determine the blood pressure, since the letting out of the air is slow and steady.

Description

technical area

The The invention relates to a stable pressure relief device of a electronic sphygmomanometer having a plug of porous material, the fine and even air pores possesses, through which the air is released slowly and stably can, so that the Accurate blood pressure pulse can be detected.

State of technology

1 shows a conventional electronic sphygmomanometer, which is a circuit board 110 which has in a housing 100 is arranged and on which the required electronic components are provided. The circuit board 110 is with an LCD display 120 connected to the case 100 is arranged and used to display the blood pressure values. The housing 10 has a reusable nozzle 130 up, over a sleeve 131 is connected to the cuff (not shown) that can be placed around the patient's arm or wrist. The reusable mares 130 continues with a low flow relief valve 132 , a pulse sensor 133 , a pump 134 and a high flow relief valve 135 connected. The pulse sensor 133 is on the circuit board 110 is arranged and used to detect the blood pressure pulse to determine the hearing and low blood pressure value. How out 2 can be seen has the low flow relief valve 132 a recording room 1321 in which a pipe 1322 made of silicone (or rubber) having a closed end and an open end. The pipe 1322 is with longitudinal slots 1323 provided by the receiving space 1321 with the interior of the pipe 1322 is in flow communication. The open end of the pipe 1322 is with a threaded sleeve 1324 connected, one passage 13241 forms with the open end of the pipe 1322 connected is. On the threaded sleeve 1324 becomes a mother 1325 screwed into the recording room 1321 is plugged. When used, the pump pumps 134 through the reusable pipe 130 Remove the cuff until the air pressure reaches a predetermined maximum. Thereafter, the threaded sleeve 1324 towards the mother 1325 rotated, causing the tube 1322 can be moved up or down. This can make the passage 1326 be released so that the air in the cuff through the reusable nozzle 130 , the passage 1326 and the longitudinal slots 1323 of the pipe 1322 in the pipe 1322 enter and then through the passage 13241 can flow out. The high-flow relief valve remains 135 closed. The pulse sensor 133 detected by the slow release of air, the blood pressure pulse and sends the measurement signal to the circuit board 110 , which processes the measurement signal and the measurement result on the LCD display 120 displays. Finally, the high-flow relief valve 135 opened so that the remaining air is released quickly through the high-throughput relief valve.

The low flow relief valve 132 is usually made of silicone (rubber) and thus can tire or age after a long period of operation, so that the throughput is affected and can not remain constant.

Through the interaction of the threaded sleeve 1324 and the mother 1325 can the distance a in 2 to be changed. Because of the pitch of the thread fine adjustment of the distance a is not possible here. In addition, the throughput of the longitudinal slots 1323 of the pipe 1322 , which were worked out by cutting, are not kept constant, so that the pulse sensor 133 can not accurately detect the blood pressure pulse, for example, if the throughput through the passage 1326 of the recording room 1321 2-5mmhg / second.

Task of invention

Out For this reason, in view of the disadvantages of the present inventor Solutions, based on longtime Experience in this area, after a long study, numerous experiments and unceasing improvements to the present invention.

The Invention has the task of a stable pressure relief device to provide an electronic sphygmomanometer having a housing, which has a reusable nozzle, with a cuff, a Pump, a pulse sensor and a low flow relief valve connected by a plug is formed and made of porous material. When used, the pump pumps through the reusable spout the cuff until the air pressure reaches a predetermined maximum, after which the Air through the fine and even air pores of the plug into the outside air is released, whereby the pulse sensor accurately detect the blood pressure pulse can, because the letting out of the air is slow and stable and fatigue or Aging of the plug can be completed.

The Invention has the further object of a stable pressure relief device to create an electronic sphygmomanometer, the reusable spout connected to a high-flow relief valve through which the air can be let out quickly.

The Invention has yet another object, a stable pressure relief device to create an electronic sphygmomanometer, with the stopper from more precise Ceramic is made.

Further Details, features and advantages of the invention will become apparent the following detailed description of the preferred embodiments in conjunction with the attached drawings.

Short description the drawings

1 a schematic representation of the conventional solution,

2 a sectional view of the low-flow relief valve of the conventional solution,

3 an exploded view of the low-flow relief valve of the invention,

4 a sectional view of the low-flow relief valve of the invention,

5 an exploded view of another embodiment of the low-flow relief valve of the invention,

6 a sectional view of the further embodiment of the low-flow relief valve of the invention,

7 a schematic representation of the invention.

Ways to execute the invention

Like from the 3 . 4 and 7 it can be seen, the invention consists of a housing 100 in which a circuit board 110 is provided with an LCD display 120 connected to the housing 100 is arranged and used to display the blood pressure values. The housing 10 has a reusable nozzle 130 up, over a sleeve 131 connected to the cuff (not shown). The reusable mares 130 is still with a pulse sensor 133 , a pump 134 and a high flow relief valve 135 connected. The pulse sensor 133 is on the circuit board 110 is arranged and used to detect the blood pressure pulse to determine the hearing and low blood pressure value. The reusable pipe 130 is also at a free end with a plug 10 provided, which is made of porous material. In the present embodiment, the plug is 10 made of precise ceramic. The stopper 10 but can also be made of foam or Nm material or the like. The stopper 10 is from a shell 20 enclosed with the free end of the reusable nozzle 130 connected, or directly in the free end of the reusable pipe 130 arranged. The number of plugs 10 can be one or two ( 5 and 6 ).

When using, as in the 4 and 7 is shown pumps the pump 134 through the reusable pipe 130 the cuff, which is placed around the patient's arm or wrist. When the air pressure reaches a predetermined maximum, the air passes through the fine and even air pores of the plug 10 let out into the outside air. The high-flow relief valve 135 stays closed. Since the venting of the air is slow and stable and fatigue or aging of the plug 10 can be completed, the pulse sensor 133 accurately capture the blood pressure pulse. The pulse sensor 133 sends the measuring signal to the circuit board 110 , which processes the measurement signal and the measurement result on the LCD display 120 displays. Thereafter, the high-flow relief valve 135 open, allowing the remaining air quickly through the high-flow relief valve 135 is let out.

by virtue of the above facts, the invention corresponds in its availability, Progressiveness and novelty fully on the requirements for a utility model.

The invention relates to a stable pressure relief device of an electronic sphygmomanometer comprising a housing ( 100 ) having a reusable nozzle ( 130 ) equipped with a cuff, a pump ( 134 ), a pulse sensor ( 133 ) and a low-flow relief valve connected by a plug ( 10 ) is formed and made of porous material. During use, the pump pumps ( 134 ) through the reusable nozzle ( 130 ) the cuff until the air pressure reaches a predetermined maximum, after which the air through the fine and uniform air pores of the plug ( 10 ) is discharged into the outside air, whereby the pulse sensor ( 133 ) can accurately detect the blood pressure pulse, since the letting out of the air is slow and stable and fatigue or aging of the plug ( 10 ) can be completed.

Claims (5)

Stable pressure relief device of an electronic sphygmomanometer, which has a reusable spout ( 130 ) provided with a collar, a pump ( 134 ) and a pulse sensor ( 133 ), characterized in that the reusable spout ( 130 ) at a free end with a plug ( 10 ) made of porous material, the pump ( 134 ) at Ein through the reusable nozzle ( 130 ) inflates the cuff until the air pressure reaches a predetermined maximum, after which the air through the fine and uniform air pores of the plug ( 10 ) is discharged into the outside air, whereby the pulse sensor ( 133 ) can accurately detect the blood pressure pulse, since the venting of the air is slow and stable, and fatigue or aging of the plug 10 can be completed. Stable pressure relief device according to claim 1, characterized in that the plug ( 10 ) is made of precise ceramic. Stable pressure relief device according to claim 1, characterized in that the plug ( 10 ) from a shell ( 20 ) is enclosed. Stable pressure relief device according to claim 1, characterized in that the number of plugs ( 10 ) is one. Stable pressure relief device according to claim 1, characterized in that the number of plugs ( 10 ) is two.