KR101508316B1 - Nozzle assembly of portable flow meter - Google Patents

Abstract

The present invention relates to a nozzle assembly of a wind flow measuring apparatus. The present invention comprises: a cylindrical case having an inlet cover and a casing; a flexible duct connecting the cylindrical case and a vent; a rectifying apparatus which is installed in the inlet cover and rectifies air; and a measurement nozzle member which measures the air amount passing through the rectifying apparatus. The present invention includes: a front nozzle cover where the inlet cover is combined at the front while one side of the measurement nozzle member is fixed at the back, having a central air inlet hole which is made by penetrating in order to move air entered from the rectifying apparatus toward the measurement nozzle member, having the measurement air inlet hole which is penetrated back and forth on one side, and including a first static pressure measuring groove in an end portion of the rear side; a rear nozzle cover where a front side is fixed with the front nozzle cover, and including a second static measuring groove tightly coupled by corresponding to a central insertion hole where the measurement nozzle member is inserted, and the first static measuring groove; and an average pressure measuring element formed in the inner circumference of the rear nozzle cover in order to measure the air, entered from the inlet cover, and the static pressure and the average pressure of the entered air before and after.

Description

A NOZZLE ASSEMBLY OF PORTABLE FLOW METER

The present invention relates to a nozzle assembly of an air flow measuring apparatus. More particularly, it is possible to measure the static pressure of the air discharged from the air conditioner system, the small and medium sized fan and the blower of the automobile, the temperature, the humidity and the average pressure of the air contained in the air, prevent impurities from flowing into the inside, And more particularly, to a nozzle assembly of an air flow measuring apparatus capable of reducing the manufacturing cost by reducing the number of parts.

In general, the amount of air discharged from an air duct of an indoor air conditioning and ventilation system such as a small-sized blower, a building, and the like for cooling an air conditioner duct system of a car, a computer central processing unit, Is required.

For example, in an automotive air conditioner duct system, a plurality of vents, through which air is finally discharged, are formed on the front face of a vehicle cabin. The amount of air from each of these vents should be in accordance with the regulations. For this purpose, the air volume should be accurately measured using a measuring device that measures the amount of air discharged (air volume). Therefore, a device for precisely measuring the air volume is required.

1 is a view showing an apparatus for measuring air volume according to the prior art.

As shown in the drawing, the conventional apparatus for measuring air volume comprises a first case 112 having an air outlet formed on a side surface thereof, and a second case 114 detachably coupled to the first case 112, A flexible duct 120 connected between the cylindrical case 110 and the vent 10 through which the air is discharged; a rectifying device 120 installed in the inner side of the cylindrical case 110 to uniformly rectify the air introduced therein; A nozzle fixing plate 142 installed at the rear of the rectifier 130 and a nozzle 140 fixed between the nozzle cover 144 and automatically sized according to the ON or OFF signal of the push button, A pressure sensor 150 for measuring a constant pressure provided at the distal end of the flexible duct 120, a differential pressure measurement pressure sensor for measuring differential pressure across the nozzle 140, a temperature sensor 164 for measuring the temperature of the flowing air, A humidity sensor 166 for measuring the humidity of the flowing air, It is configured to include a blower 170 to the outlet.

The conventional apparatus for measuring air volume according to the related art measures the static pressure of the air introduced from the vent 10 through the pressure sensor 150 for measuring the static pressure, A plurality of fastening holes having threads formed along the circumferential surfaces of the fixing plate 142 and the nozzle lid 144 are formed and fastened by a screw fastening method through the fastening holes to fix the nozzle.

However, in the above-described conventional technique, it is possible to measure the static pressure of the air introduced from the vent 10, but it is impossible to measure the static pressure and the average pressure of the air introduced into the case 110, There is a problem that the error range is large and the precision is inferior, and it is difficult to disassemble and assemble, the structure is complicated, and the number of parts is large, which causes a problem of high manufacturing cost.

(Patent Document 1) Korean Patent No. 0475301 (Feb.

In order to solve such a problem, the present invention measures the temperature and humidity of the air included in the static air pressure and the air volume discharged from the air conditioner system of the automobile, the small and medium type fans and the blower, It is possible to perform precise measurement even if impurities are introduced into the inside of the device, and it is easy to disassemble and assemble, and the number of parts is reduced, thereby reducing manufacturing cost.

According to an aspect of the present invention, there is provided an air conditioner comprising a cylindrical case having an inlet cover and a casing, a flexible duct connecting the cylindrical case and the vent, a rectifier installed in the inlet cover to rectify the air, Wherein the inlet cover is coupled to the front and the one side of the measuring nozzle member is fixed to the rear of the digital air flow meter, A front nozzle cover including a central air inflow hole formed at a central portion thereof so as to allow air to flow toward the measurement nozzle member side, a measurement air inflow hole passing through the measurement air inflow hole at one side thereof and a first static pressure measurement groove at a rear side end thereof; A rear nozzle cover including a central insertion hole into which the measurement nozzle member is inserted and a second static pressure measurement groove in tight contact with the first static pressure measurement groove, the front side being fixed to the front nozzle cover; And an average pressure measurement unit on the inner circumference of the rear nozzle cover so as to measure a static pressure and an average pressure of the air introduced from the inlet cover and the air introduced into the inlet cover.

Further, the second static pressure measurement groove may include a static pressure measurement hole for measuring the average pressure of air on one surface of the second static pressure measurement groove, and at least two static pressure measurement holes are formed radially through the static pressure measurement hole. .

The first static pressure measurement groove and the second static pressure measurement groove are tightly coupled to each other so as to prevent pressure loss of the introduced air so that the air is flown in a tunnel shape. to provide.

The average pressure measuring means is coupled to the inner circumference of the rear nozzle cover and includes at least two static pressure measuring holes at the rear end thereof for measuring the air quantity, the static pressure and the average pressure of the air passing through the measuring nozzle member, The nozzle assembly of the air flow measuring device is characterized by being formed radially.

The means for measuring the average pressure may include means for communicating the air introduced from the rectifying device through the front nozzle cover and the rear nozzle cover so as to easily move to the average pressure measuring means, And an air quantity and a static pressure of air flowing in from the front are measured in a second order.

According to the present invention, it is possible to measure the average pressure of the air introduced into the case, as well as the temperature and humidity of the air included in the static pressure and the air volume discharged from the air conditioner system of the automobile, the small and medium- It is possible not only to perform accurate measurement even if impurities are introduced into the inside, but also to simplify disassembly and assembly, and to reduce the number of parts, thereby reducing manufacturing cost.

1 is a view showing an apparatus for measuring air volume according to the prior art,
2 is an exploded perspective view showing a nozzle assembly of an airflow measuring apparatus according to a preferred embodiment of the present invention,
FIG. 3 is an assembled cross-sectional view illustrating a nozzle assembly of an airflow measuring apparatus according to a preferred embodiment of the present invention,
4 is an enlarged cross-sectional view showing a nozzle assembly of an airflow measuring apparatus according to a preferred embodiment of the present invention,
5 and 6 are plan views illustrating front and rear nozzle covers of a nozzle assembly of an air flow measuring apparatus according to a preferred embodiment of the present invention,
FIG. 7 is a plan view showing an average pressure measuring means of a nozzle assembly of an air flow measuring apparatus according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

As shown in the figure, the nozzle assembly of the air flow measuring apparatus of the present invention is provided with an average pressure measuring means and is connected to an air conditioner system, a small and medium-sized fan and an air duct (hereinafter referred to as "duct") of an automobile, (Not shown) of the measurement nozzle member 230 by measuring the air temperature, humidity, and the average pressure of the air included in the air volume, the static pressure, and the air volume to reduce the measurement error of the air volume, A front nozzle cover 210 and a rear nozzle cover 220 are mounted and fixed to the front and rear portions of the rear nozzle cover 230 and the rear nozzle cover 230, And an average pressure measuring means 240 for measuring an average pressure of air.

The measuring nozzle member 230 measures the amount of air passing through the rectifier 130 and is connected between the front nozzle cover 210 and the rear nozzle cover 220 and is sucked through the suction force of the blower 170 It is a component to measure air temperature, humidity, and static pressure when measuring air volume.

The measuring nozzle member 230 is formed to penetrate in the axial direction of the air flow measuring device and is located on the same center line as the inlet cover 290 provided with the rectifying device 130 and passes through the center portion of the measuring nozzle member 230 As the air flow measuring hole 232 for measuring the air flow is formed, the temperature, humidity, and static pressure of the air included in the air flow rate and air flow rate from the rectifying device 130 can be measured.

The measuring nozzle member 230 is connected to the measuring hole 230 provided in the measuring flange 231 so as to measure the amount of air, the static pressure and the pressure of the air flowing from the rectifying device 130 through the front and rear of the flange 231 Not shown), so that accurate measurement data can be provided.

The front nozzle cover 210 is a component that is coupled to the rear nozzle cover 230 at the other end to precisely measure the static pressure of the air passing through the rectifier 130 and the average pressure of the air.

In the front nozzle cover 210, an inlet cover 280 connected to a duct through which air is discharged is fixed, and one side of the measuring nozzle member 230 is fixedly attached to a rear portion thereof. A central air inflow hole 211 and a measurement air inflow hole 213 are formed in a central portion so as to be easily moved toward the measurement nozzle member 230 and a first positive pressure measurement recess 212 is formed at a rear end portion .

The center air inlet hole 211 is formed in the front side of the front nozzle cover 210 so that the air passing through the rectifier 130 can be easily moved toward the measuring nozzle member 230. [ Respectively.

The measurement air inflow hole 213 is formed so that air passing through the rectifier 130 flows through the first positive pressure measurement groove 212 of the front nozzle cover 210 to the second positive pressure And is formed to penetrate into the first static pressure measurement groove 212 of the front nozzle cover 210 so as to be easily moved to the measurement groove 222.

The first static pressure measurement groove 212 is formed in the shape of a arc along the rim of the front nozzle cover 210 around the central air inflow hole 211 at the rear end of the front nozzle cover 210.

In the front nozzle cover 210, the cover engagement groove 219, into which the end portion of the inflow cover 290 provided with the rectifier 130 is inserted, is formed from the front side to the rear side, The close coupling of the front nozzle cover 210 is maintained and the loss of the air introduced into the inlet cover 290 and the pressure loss of the air are minimized, so that the air can be measured more precisely.

The outer nozzle flange 231 of the measuring nozzle member 230 is inserted into the front of the rear nozzle cover 220 to fix the measuring nozzle member 230 together with the front nozzle cover 210, Is a component that precisely measures the static pressure and the average pressure of the inflow air as well as the air introduced before and after the inflow port 240 is installed.

The rear nozzle cover 220 includes a center insertion hole 221 into which the measurement nozzle member 230 is inserted and seated, a second positive pressure measurement groove 212 of the front nozzle cover 210, And a static pressure measurement groove 222.

The center insertion hole 221 is formed so as to pass through the same center line as the center air inlet hole 211 of the rear nozzle cover 220 so that the rear portion of the outer peripheral flange 231 of the measurement nozzle member 230 is inserted and seated.

The second static pressure measurement groove 222 is formed at the rear end of the rear nozzle cover 220 and is tightly coupled to the first static pressure measurement groove 212. The air passing through the rectifying device 130 And flows through the measurement air inflow hole 213.

At this time, the second static pressure measurement groove 222 has a static pressure measurement hole 270 provided with a measurement sensor for measuring a static pressure and an average pressure of the air introduced from the measurement air inflow hole 213 into the second static pressure measurement groove 222 at least two or more radially inwardly and backwardly.

That is, when the front and rear nozzle covers 210 and 220 are coupled, the first positive pressure measurement groove 212 and the second positive pressure measurement groove 222 are tightly coupled tightly to each other so that there is no pressure loss of the introduced air, A plurality of static pressure measurement holes 270 are formed on one surface of the second static pressure measurement groove 222 and a static pressure and an average pressure of the air introduced from the rectifying device 130 are formed on the front side The static pressure and the average pressure of the air introduced from the rectifier device 130 can be accurately measured in a first order.

The rear nozzle cover 220 is formed with a casing insertion groove 229 through which the casing 290 is inserted and fixed so that the blower 170 can be installed inside the rear nozzle cover 220, By minimizing the pressure loss of one air, more precise measurements can be made.

The average pressure measuring means 240 is a component that is coupled to the inner periphery of the rear nozzle cover 220 and measures the air amount, the static pressure and the average pressure of the air passing through the measurement nozzle member 230 from the rear side.

The average pressure measuring means 240 is installed at the rim portion of the rear nozzle cover 220 in the shape of a circular means and the air introduced from the rectifying device 130 at the front end side is supplied to the front nozzle cover 210 and the rear An inflow hole 260 communicating with the nozzle cover 220 so as to easily pass through the nozzle cover 220 to the average pressure measuring unit 240 is formed to pass through the nozzle cover 220 so that the air amount of the air flowing in front of the mean pressure measuring unit 240, It is possible to measure more precisely by measuring by the second order.

That is, the inflow holes 260 are formed so as to pass through the front nozzle cover 210, the rear nozzle cover 220, and the inflow hole 260, respectively, so that the air introduced from the rectifier 130 is subjected to average pressure measurement It is possible to easily measure the air amount and the static pressure of the secondarily introduced air to minimize the measurement error and to perform accurate air measurement even if impurities are introduced into the measurement nozzle member 230 There is a number.

In addition, since at least two static pressure measuring holes 270 are radially formed at the rear end of the mean pressure measuring means 240, the average pressure of the air passing through the measuring nozzle member 230, So that the measurement error can be minimized.

The front nozzle cover 210, the rear nozzle cover 220, and the measurement nozzle member 230 are each sealed so that the pressure loss of the introduced air is further minimized to provide more precise measurement data Lt; / RTI >

According to the present invention, the movable air flow meter includes a front nozzle cover 210, a rear nozzle cover 220 fixed to the front nozzle cover 210 and coupled to fix the measurement nozzle member 230, The average pressure measuring means 240 is installed on the inner circumference of the rear nozzle cover 220. The air temperature of the air discharged from the air conditioner system, the small and medium sized fans and the blower, the temperature and the humidity of the air, Of course, it is possible to measure the average pressure of the air introduced into the case, to precisely measure even if the impurities flow into the inside of the case, to easily make the disassembly and assembly, to reduce the number of parts, to be.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

210. Front nozzle cover 211. Central air inflow hole
212. First static pressure measuring groove 213. Measuring air inlet hole
220. Rear nozzle cover 221. Center insertion hole
222 2nd measuring pressure groove 229. Casing insertion groove
230. Measurement nozzle member 231. Outer flange
232. Air volume measuring hole 240. Average pressure measuring means
260. Inlet hole

Claims (5)

A flexible duct connecting the cylindrical case and the vent, a rectifying device provided on the inlet cover for rectifying the air, and a measuring nozzle member for measuring an amount of air passing through the rectifying device, A nozzle assembly of a measuring device,
A central air inflow hole is formed at the center so that the air introduced from the rectifying device moves toward the measuring nozzle member, and a measuring air member A front nozzle cover including a first positive pressure measurement groove formed at the rear side end thereof so as to penetrate the inflow hole back and forth;
A rear nozzle cover including a central insertion hole into which the measurement nozzle member is inserted and a second static pressure measurement groove in tight contact with the first static pressure measurement groove, the front side being fixed to the front nozzle cover; And
And an average pressure measurement means is provided on an inner circumference of the rear nozzle cover so as to measure a static pressure and an average pressure of air introduced from the inflow cover and air introduced into the inflow cover.
The method according to claim 1,
Wherein the second static pressure measurement groove has a static pressure measurement hole radially formed on at least one side thereof for measuring the average pressure of the air in a primary direction.
The method according to claim 1,
Wherein the first static pressure measurement groove and the second static pressure measurement groove are tightly coupled tightly to each other so that there is no pressure loss of the inflow air and are formed in a tunnel shape so that air can flow.
The method according to claim 1,
The average pressure measuring means is coupled to the inner circumference of the rear nozzle cover, and at least two static pressure measurement holes are radially formed on the rear end so as to measure the air amount, the static pressure and the average pressure of the air passing through the measuring nozzle member, And the nozzle assembly is mounted on the nozzle assembly.
The method according to claim 1,
The inlet hole is formed at the front side end portion of the mean pressure measuring means so that the air introduced from the rectifying device passes through the front nozzle cover and the rear nozzle cover to the average pressure measuring means side, Wherein the air quantity and the static pressure are measured in a second order.

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