KR20150002799U - Flowmeter - Google Patents

Abstract

The flow meter includes a lower valve body, a throttle valve assembly, a flow tube assembly, an upper valve body, and a pressure swing suppression assembly. An air inlet, an air outlet, and an air flow passage communicating with the air inlet and the air outlet are provided in the lower valve body. The lower valve body is also provided with a throttle valve assembly used to adjust the degree of opening of the air flow passage. The flow tube assembly includes a flow tube, an upper base, a lower base, and a richer body. A vent is provided axially at the center of each of the upper and lower bases. The lower base is provided at the air outlet of the lower valve body. A vertical air flow passage and a horizontal air flow passage are provided in the upper valve body. The upper base is provided at the air inlet of the vertical air flow passage. The flow pipe is disposed between the upper and lower bases and is provided in such a manner that both ends of the flow pipe are inserted into the protruding end of the upper base and the protruding end of the lower base, respectively. The rich are provided in the flow pipe. The pressure swing suppression assembly includes a sealing gasket provided at the air outlet of the vertical airflow passage. The sealing gasket is disposed at the air outlet of the vertical airflow passage.

Description

Flowmeter {FLOWMETER}

The present invention relates to a flow meter, and more particularly, to a flow meter used in an anesthesia machine.

The flowmeter is an integral part of the anesthesia machine, and the doctor can adjust the flowmeter to supply the patient with the proper oxygen. Existing flow meters used in anesthesia have the following problems: (1) the flow meter floats during the normal ventilation of the anesthesia; (2) air in the flow meter can not be effectively released in case of excessive air resistance at the flow meter outlet; (3) Its structure is complicated and manufacturing cost is high.

The object of the present invention is to provide a method and a device for controlling the flow of air in a flowmeter, in particular in the case of a conventional flowmeter, such as a complicated structure, a high manufacturing cost, a rich flow of the flowmeter during normal blowing operation, And an object of the present invention is to provide a flowmeter used in an anesthesia machine which overcomes the problems including the disadvantages of the above-

The object of the present invention is realized by the following technical constitution.

A flow meter according to one embodiment of the present invention includes: a lower valve body, a throttle valve assembly, a flow tube assembly, an upper valve body, and a pressure swing suppression assembly. The lower valve body includes an air inlet, an air outlet, and an air flow passage communicating with the air inlet and the air outlet. The lower valve body also includes a throttle valve assembly used to adjust the degree of opening of the air flow passage. Wherein the flow tube assembly includes a flow tube, an upper base, a lower base, and a richer, wherein a vent is provided axially at a center of each of the upper and lower bases, Wherein a vertical air flow passage and a horizontal air flow passage are provided in the upper valve body, the upper base is provided at an air inlet of the vertical air flow passage, and the flow pipe is provided between the upper base and the lower base The projecting end of the upper base and the projecting end of the lower base are inserted into both ends of the flow pipe respectively, the rich is provided in the flow pipe, and the pressure fluctuation restraining assembly is provided in the vertical air flow And a sealing gasket provided at an air outlet of the passage.

Preferably, the flow meter further comprises a safety valve provided on the upper valve body, the air inlet of the safety valve communicating with the horizontal air flow passage.

Preferably, the safety valve includes a safety valve body, a safety valve rod, a seal ring, a spring, a blocking block and a nut, a through-hole is axially provided at the center of the safety valve body, , Wherein the safety valve stem comprises a columnar rod and a conical valve head, one end of the columnar rod being connected to a smaller end of the conical valve head And the other end is provided with a screw thread, the conical surface of the conical valve head is provided with an annular groove, the sealing ring is provided in the annular groove, the safety valve rod is provided on the safety valve body, A mold rod extends through the spring, the rod rod passing through the blocking block and the nut And wherein the conical valve head is sealed while contacting the conical surface of the jumper step through the sealing ring provided in the annular groove of the valve head, and the conical valve head of the conical valve head And the conical surface of the blocking step communicates with the horizontal airflow passage.

Preferably, the throttle valve assembly includes a throttle valve body, a throttle ring, a throttle valve rod, and a handle. Wherein the throttle valve body includes a through hole formed along a central axis thereof, the throttle ring is located inside the through-hole at one end of the throttle valve body, and an air outlet is formed in a part of the throttle valve body Wherein an end of the throttle valve body having the throttle ring is screwed into a hole provided in the lower valve body, an air inlet port at the center of the throttle ring communicates with an air inlet port of the lower valve body, The air outlet port of the throttle valve body communicates with the air outlet port on the lower valve body and one end of the throttle valve rod is screwed into the through hole provided in the axial direction from the center of the throttle valve body to realize the throttle function The center of the throttle ring The needle-like ends of which cooperate with the throttle air intake, the throttle valve stem is fixed to the other end coupled to the handle.

Preferably, the throttle valve assembly further includes a lock handle for restricting a length of the throttle valve rod from being extended from the throttle valve body, the throttle valve rod extending through the lock handle, Is screwed to the end of the throttle valve body opposite the end with the throttle ring.

Preferably, the throttle valve assembly further includes a lock ring which is fixed to the throttle valve rod between the lock handle and the handle, and is used to limit a length of the throttle valve rod to be restricted to the throttle valve body.

Preferably, the flow meter includes a backlight plate provided on a rear side of the flow pipe, and the upper end and the lower end of the backlight plate are respectively connected to grooves provided in the lower valve body and stairs provided in the upper valve body, respectively And the upper end is fixed by a pressure plate fixed to the upper valve body with a screw.

Preferably, the sealing gasket is star-shaped.

The operation principle of the present invention is as follows. The rich fluctuation of the flowmeter during the normal ventilation operation of the anesthesia is prevented through the pressure fluctuation suppression assembly in the flowmeter, such as the sealing gasket, which functions and shares the air pressure; And the air in the flow meter is efficiently discharged and can be automatically reduced through the safety valve provided in the flow meter when the air resistance at the flow meter outlet is too high.

The present invention has the following advantages.

During the normal blowing operation of the anesthesia device, the flow meter richness is suppressed.

Air in the flow meter can be effectively released in case of excessive air resistance at the flow meter outlet.

The flow meter has a simple structure and low manufacturing cost.

The present invention will be described in more detail with reference to the accompanying drawings and examples.
1 is a schematic cross-sectional view of a flow meter according to one embodiment of the present invention.
Figure 2 is a schematic cross-sectional view of the upper valve body of the flow meter shown in Figure 1;
3 is a schematic perspective view of the sealing gasket of the flow meter shown in Fig.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the embodiments provided herein are merely intended to illustrate the present invention and are not intended to limit the present invention.

1 to 3, the flow meter according to an embodiment of the present invention includes a lower valve body 1, a throttle valve assembly, a flow tube assembly, an upper valve body 2, and a pressure fluctuation suppressing assembly do. The lower valve body (1) includes an air inlet, an air outlet, and an air flow passage communicating with the air inlet and the air outlet. The lower valve body 1 is also provided with a throttle valve assembly used to adjust the degree of opening of the air flow passage. The flow tube assembly includes a flow tube 3, an upper base 4, a lower base 5, and a float 6. A vent is provided axially in the center of the upper base 4 and the lower base 5, respectively. The lower base 5 is provided at the air outlet of the lower valve body 1. [ A vertical air flow passage and a horizontal air flow passage are provided in the upper valve body 2. The upper base 4 is provided at the air inlet of the vertical air flow passage. The flow pipe 3 is formed in such a manner that the protruding end of the upper base 4 and the protruding end of the lower base 5 are inserted between the upper base 4 and the lower base 5 at both ends of the flow pipe 3 . The rich portion (6) is provided in the flow pipe (3). The pressure swing suppression assembly includes a sealing gasket (7) provided at the air outlet of the vertical air flow passage.

The flow meter further comprises a safety valve provided on the upper valve body (2). The air inlet of the safety valve communicates with the horizontal air flow passage.

The safety valve includes a safety valve body 8, a safety valve stem 9, a sealing ring 10, a spring, a stop block 12 and a nut. A through hole is provided axially from the center of the safety valve body 8 and a stop step with one end surface being a conical surface is provided in the through hole along the central axis of the through hole . The safety valve rod 9 includes a columnar rod and a conical valve head. One end of the columnar rod is connected to the smaller end of the conical valve head and the other end is provided with a thread. An annular groove is provided on the conical surface of the conical valve head, and the sealing ring 10 is provided in the annular groove. A safety valve rod (9) is provided on the safety valve body (8). The columnar rod of the safety valve rod 9 extends through the spring, which extends through the blocking block 12 and the nut between the blocking block 12 and the blocking step . The conical valve head hermetically contacts the conical surface of the obstructed step through the sealing ring 10 provided in the annular groove of the valve head. A gap between the conical surface of the conical valve head and the conical surface of the obstructed step communicates with the horizontal airflow path.

The throttle valve assembly includes a throttle valve body 13, a throttle ring 14, a throttle valve rod 15, and a handle 16. The throttle valve body (13) includes a through hole formed along its central axis. The throttle ring (14) is located inside the through-hole at one end of the throttle valve body (13). An air outlet is provided radially in a portion of the throttle valve body 13 following the throttle ring 14. An end of the throttle valve body (13) having a throttle ring (14) is screwed into a hole provided in the lower valve body (1). Communicates with the air inlet of the air inlet bottom valve body (1) at the center of the throttle ring (14). One end of the throttle valve rod 5 is screwed into a through hole provided in the axial direction at the center of the throttle valve body 13 and is screwed into the through hole at the center of the throttle ring 14 to realize the throttle function. Shaped throttle end. The other end of the throttle valve rod 15 is fixedly connected to the handle 16.

The throttle valve assembly further includes a locking knob (17) for limiting the length of the throttle valve rod (15) from the throttle valve body (13). The throttle valve rod 15 extends through the lock knob 17, which is screwed to the end of the throttle valve body 13 opposite the end with the throttle ring.

The throttle valve assembly is also fixed to the throttle valve rod 15 between the lock knob 17 and the handle 16 and is used to limit the length of the throttle valve rod 15 to be restricted to the throttle valve body 13. [ And further includes a ring 18.

The flow meter further includes a backlight plate 19 provided on the rear side of the flow pipe 3. The upper end and the lower end of the backlight plate 19 are respectively provided at the steps provided in the groove and the upper valve body 2 of the lower valve body 1 and the upper end of the backlight plate 19 is screwed Is fixed by a pressing plate (20) fixed to the valve body (2).

The sealing gasket 7 is star shaped and the peripheral protrusions of the star shape are disposed in corresponding depressions of the upper valve body 2 for positional restraint.

The operation principle of the present invention according to the embodiment of the present invention is as follows. Air can flow from the air inlet of the lower valve body (1) into the air flow passage in the lower valve body (1) and then to the throttle ring (14) of the throttle valve assembly. At this point the air inlet at the center of the throttle ring 14 can be opened by adjusting the handle 16 and the air reaches the lower base 5 through the air inlet at the center of the throttle ring 14, The air is guided to the air outlet provided in a portion of the throttle valve body 13 following the throttle ring 14 and to the air flow passage in the lower valve body 1 and into the vent provided axially in the center of the lower base 5 I go in. In this case, the air pushes the rich 6 upward to open the vent provided axially in the center of the lower base 5, and then through the vent provided axially in the center of the lower base 5 Flows into the flow pipe 3 and also flows into the upper base 4 through the gap between the rich pipe 6 and the flow pipe 3. Then, the air enters the air flow passage provided in the upper valve body 2 through the vent hole provided axially in the center of the lower base 4, and the sealing gasket 7 provided at the air outlet of the vertical air flow passage And then flows into the horizontal air flow passage provided in the upper valve body 2 and finally flows from the air outlet of the upper valve body 2 to the equipment connected to the flow meter.

The pressure of the horizontal airflow passage of the upper valve body 2 of the flowmeter increases as the air resistance of the equipment connected to the flowmeter increases. The air is drawn out of the safety valve body 8 by pushing the safety valve rod 9 off when the pressure of the horizontal air flow passage reaches a predetermined value and so that partial air is discharged from the air outlet of the safety valve body 8 The pressure in the horizontal air flow passage of the upper valve body 2 drops accordingly and the safety valve rod 9 returns to its original position by the action of the spring 11 and the pressure of the horizontal air flow passage is lowered to a predetermined value And comes into contact while sealing the safety valve body 8 again.

When the flowmeter according to the present embodiment is used in an anesthesia machine and the ventilation operation of the anesthesia machine is normally operated, there is a clinical pressure fluctuation in the horizontal flow passage and the vertical flow passage of the upper valve body 2 due to the clinical resistance fluctuation after the flowmeter do. In this case, the sealing gasket 7 functions to share and float the pressure during the pressure fluctuation, so that the influence of the pressure fluctuation on the rich 6 is reduced, so that the rich 6 swings during normal blowing operation Is prevented.

The present design has the following advantages: (1) during the normal ventilation of the anesthesia the flow meter richness is suppressed; (2) air in the flow meter can be effectively released in case of excessive air resistance at the flow meter outlet; (3) The flow meter has a simple structure and low manufacturing cost.

1: Lower valve body 2: Upper valve body
3: Flow tube 4: Upper base
5: lower base 6: rich
7: Sealing casket 8: Safety valve body
9: Safety valve rod 10: Sealing ring
11: spring 12: jersey block
13: Throttle valve body 14: Throttle ring
15: throttle valve rod 16: handle
17: Lock handle 18: Lock ring
19: backlight plate 20: pressure plate

Claims (8)

A flow meter comprising a lower valve body, a throttle valve assembly, a flow tube assembly, an upper valve body and a pressure fluctuation suppression assembly,
Wherein the lower valve body is provided with an air inlet, an air outlet, and an air flow passage communicating with the air inlet and the air outlet,
The lower valve body is also provided with a throttle valve assembly used to adjust the degree of opening of the air flow passage,
The flow tube assembly includes a flow tube, an upper base, a lower base, and a richer,
The vent hole is axially provided at the center of each of the upper base and the lower base, the lower base is provided at the air outlet of the lower valve body,
A vertical air flow passage and a horizontal air flow passage are provided in the upper valve body,
Wherein the upper base is provided at an air inlet of the vertical air flow passage,
Wherein the flow pipe is provided in such a manner that the protruding end of the upper base and the protruding end of the lower base are inserted into both ends of the flow pipe between the upper base and the lower base,
The rich is provided in the flow pipe,
Wherein the pressure fluctuation restraining assembly includes a sealing gasket provided at an air outlet of the vertical air flow passage
Flow meter. The method according to claim 1,
Wherein the flow meter further comprises a safety valve provided on the upper valve body, the air inlet of the safety valve communicating with the horizontal air flow passage. The method according to claim 1,
The safety valve includes a safety valve body, a safety valve rod, a seal ring, a spring, a blocking block and a nut,
A through-hole is provided axially from the center of the safety valve body,
Wherein a stop step whose one end surface is a conical surface is provided in the through hole along the central axis of the through hole,
The safety valve rod includes a columnar rod and a conical valve head,
One end of the columnar rod is connected to the smaller end of the conical valve head and the other end is provided with a thread,
Wherein the conical surface of the conical valve head is provided with an annular groove, the seal ring is provided in the annular groove,
Wherein the safety valve rod is provided on the safety valve body,
The columnar rod of the safety valve rod extends through the spring, the columnar rod passing through the blocking block and the nut and extending between the blocking block and the blocking step,
The conical valve head sealingly contacts the conical surface of the blocking step through the sealing ring provided in the annular groove of the valve head,
Wherein the gap between the conical surface of the conical valve head and the conical surface of the obstructed step communicates with the horizontal air flow passage. The method according to claim 1,
Wherein the throttle valve assembly includes a throttle valve body, a throttle ring, a throttle valve rod, and a handle,
Wherein the throttle valve body includes a through hole formed along the central axis thereof,
Wherein the throttle ring is located inside the through-hole at one end of the throttle valve body,
Wherein an air outlet is provided radially at a portion of the throttle valve body leading to the throttle ring,
Wherein an end of the throttle valve body having the throttle ring is screwed into a hole provided in the lower valve body,
The air inlet port at the center of the throttle ring communicates with the air inlet port of the lower valve body,
The air outlet port of the throttle valve body communicates with the air outlet port on the lower valve body,
Wherein one end of the throttle valve rod is a needle-like throttle end that cooperates with the air intake port at the center of the throttle ring to realize a throttle function by screwing into a through hole provided axially from the center of the throttle valve body,
And the other end of the throttle valve rod is fixedly connected to the handle. The method of claim 4,
Wherein the throttle valve assembly further comprises a lock handle for limiting the length of the throttle valve stem from the throttle valve body,
Wherein the throttle valve rod extends through the locking knob, wherein the locking knob is screwed to an end of the throttle valve body opposite the end with the throttle ring. The method of claim 5,
Wherein the throttle valve assembly further comprises a lock ring which is fixed to the throttle valve rod between the lock knob and the handle and is used to limit the length of the throttle valve rod to be restricted to the throttle valve body. The method according to claim 1,
Wherein the flow meter includes a backlight plate provided on a rear side of the flow pipe,
The upper end and the lower end of the backlight plate are respectively provided in the groove provided in the lower valve body and the step provided in the upper valve body, and the upper end is fixed by a pressure plate fixed to the upper valve body with screws Flow meter. The method according to claim 1,
Wherein the sealing gasket is a star-shaped flowmeter.

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