KR101173240B1 - Apparatus for testing leakage performance of a door using pressure control system - Google Patents

Abstract

The present invention relates to a pressure control system for testing the airtight performance of curtain walls, windows, doors and window performance testing apparatus using the same.
The present invention is provided with a blower, an airflow converting body, and an adjusting unit to operate in a constant pressure mode for supplying air to the airtight space, or to switch to a negative pressure mode for discharging air from the airtight space to form a negative pressure. Through the pressure control system and the window performance tester equipped with this, the test specimens such as curtain walls, doors and windows can be mounted in the airtight box, and static pressure and negative pressure can be easily applied to the internal airtight space. By switching the internal flow path through the straight diaphragm rotation of the control unit, the pressure inside the airtight box can be adjusted within a short time at a positive and negative pressure of up to ± 5000 Pa. In addition, the present invention is freely fixed to a variety of test specimens of different sizes, for example, in the size of 1000 X 1000 to 2000 X 2000 through one hermetic box, the positive pressure and negative pressure inside the hermetic box. (負壓) can be easily given, and various performance tests can be carried out. Similar to the situation in which a typhoon is being driven, excellent effects can be obtained at the same time that airtight and watertight tests can be easily performed.

Description

Window performance tester {APPARATUS FOR TESTING LEAKAGE PERFORMANCE OF A DOOR USING PRESSURE CONTROL SYSTEM}

The present invention relates to a window performance test apparatus for testing the performance of curtain walls, windows, doors, and more specifically, it is possible to easily generate pressure and vacuum pressure in the airtight box through an airflow converter with a single high-pressure blower, The fine control of pressure can be obtained by finely adjusting the rotation angle of the airflow converter, and the pressure inside the airtight box can be quickly and quickly changed to positive pressure and negative pressure, thereby easily testing airtightness performance and durability against typhoons. The present invention relates to a window performance testing apparatus to improve the product quality.

In general, energy waste is increased when heating or cooling a house or building depending on the amount of wind leaking from or entering doors or windows. To prevent this, the airtight performance of curtain walls, doors and windows is tested in advance. According to the results, it is necessary to develop technology to improve the confidentiality performance.

Conventionally, a door test apparatus for testing the airtight performance, order performance, and explosion proof performance of a door has been developed. For example, there is a "heavy door test apparatus" described in Patent No. 10-0886344, such a conventional heavy door test apparatus is formed in the form of a box, the five sides are sealed, the door frame is formed on the other side The door frame may be equipped with a heavy weight to be tested, reinforced by a reinforcement beam structure installed around the gas inlet for injecting gas for gastight test into the door frame, and measuring the pressure of the injected gas. A first mounting hole to which a gas pressure measuring device can be connected is formed, and a second mounting hole to which a hydraulic pressure measuring device that can measure water pressure is connected.

And the upper panel is equipped with a flange pipe for connecting the connection pipe for the hydraulic test, the explosion gas injection hole and the viewing window formed on one side wall.

Such conventional door tightness tester is complicated in structure and is expensive test equipment mainly used in test institute, and it is financial burden to research and develop door and window products by purchasing such expensive test equipment from general manufacturer. This enormous problem is that it is not possible to perform a smooth airtight performance test.

In order to solve such a problem, the present applicant has a hollow structure having a rectangular box shape, and an inside is formed with an airtight space with an open front surface, and a body part having a device mounting space is formed at the rear of the airtight space. A plurality of pneumatic cylinders are arranged at predetermined intervals along the front airtight space of the main body portion, and a door or window having a rotatable fixed lever connected to the rod of the pneumatic cylinder in a "도어" shape and disposed in front of the airtight space. It has been proposed a door airtight test apparatus having a clamp unit for fixing to close to the edge of the airtight space.

Therefore, such a conventional technology can easily test the confidentiality of curtain walls, doors, windows and doors, and it is convenient because it can be easily purchased at a small manufacturer to test the confidentiality performance of its products.

In addition, such a conventional technique is to be able to mount curtain walls, doors, windows and windows of a certain predetermined standard, and for various kinds of test specimens of different sizes, each requires a different airtight box, and accordingly various There was a problem in that the specimens could not be tested freely, and there was a problem in that a large number of airtight boxes were prepared for each specimen specification.

In addition, since the conventional technology had only a function of giving air at a constant pressure, there was a problem in that not only a sudden change in air pressure, such as a typhoon drove, but also a test of watertight performance such as water penetration was impossible.

The present invention is to solve the conventional problems as described above, the object is to freely fixed through a hermetic box even for various kinds of test specimens of different sizes, the positive pressure and the negative pressure ( It is to provide a window performance test apparatus that can be easily assigned and performs various performance tests.

In addition, another object of the present invention is to more accurately simulate the situation that the typhoon is driven on the test specimens such as curtain walls, doors, windows and doors as well as the airtight test of the test specimens can be easily performed at the same time airtight test and watertight test In this regard, the present invention provides an improved window performance testing apparatus to perform various kinds of performance quality of test specimens.

In order to achieve the above object, the present invention has a hollow box-shaped structure having a rectangular box shape, an airtight space having an open front surface is formed therein, and a body portion having a device mounting space formed on a rear surface of the airtight space; A plurality of pneumatic cylinders are arranged at predetermined intervals along the front airtight space of the main body, and a rotatable fixed lever is connected to the rod of the pneumatic cylinder, and the test body placed on the front of the airtight space has a rim of the airtight space. A clamp unit fixed in close contact with the frame; A blower providing air to the airtight space, a first port connected to an outlet of the blower through a first pipe, a second port through which inflow and outflow of outside air is made, and a third pipe at an inlet of the blower An airflow converting body having a third port connected thereto and a fourth port connected to the external hermetic space through a fourth pipe externally;

A straight diaphragm rotatably mounted within the airflow conversion body, wherein the straight diaphragm is rotated to connect a first port and a fourth port, a second port and a third port, or a first port and Connecting the second port, and adjusting the internal flow path to connect the third port and the fourth port, through the second port and the third port inlet air from the outside to the blower, and the first port and the first port The air is supplied to the airtight space at a constant pressure through the four ports, or air is introduced into the air blower through the fourth and third ports from the airtight space, and the air is discharged to the outside through the first and second ports. A pressure control system for forming an airtight space at a negative pressure; And

A differential pressure sensor mounted on the rear wall of the hermetic space and detecting a differential pressure of the hermetic space to output the pressure value to the differential pressure display window of the instrument panel provided in the main body portion, and a flow rate mounted on the fourth tube of the pressure control system. It detects the air flow rate through the sensor outputs the flow rate value in the flow rate display window of the instrument panel, and the controller for controlling the air flow rate and the differential pressure in the airtight space with a volume type blowing pressure control switch for adjusting the air flow rate of the blower; By providing a window performance test device configured to test the airtight performance of the test body mounted in the airtight space.

And the present invention is preferably a plurality of intermediate pneumatic cylinders are detachably disposed at the position corresponding to the standard of the test body from the lower right corner of the main body on the rear wall of the airtight space, the four sides of the main body according to the specification of the test body It provides a window performance test apparatus configured to fix and test the test specimens of various specifications by using the pneumatic cylinder formed on the rim and the intermediate pneumatic cylinder.

In addition, the present invention preferably the intermediate pneumatic cylinder is formed to protrude a hook to one side to the rear end of the cylinder body, the hook is fixed to the hook protruding from the rear wall of the airtight space, the diameter of the end of the protrusion An enlarged head is provided to provide a window performance test apparatus in which the intermediate pneumatic cylinder is fixed to the projection of the rear wall and supported to protrude vertically.

And the present invention preferably comprises a pump connected to the hermetic space through a water supply pipe, and having a water sensor connected to the water supply pipe further comprises a water supply unit for supplying a fixed amount of water to the hermetic space Provide the device.

In addition, the present invention preferably is the airtight space is an inner space of the airtight test box for testing the airtight performance of the curtain wall, window, door, the pressure control system is a pressure of ± 5000Pa inside the airtight space through the blower The present invention provides a window performance test apparatus for forming a watertight and watertight test by spraying a predetermined amount of water through the water supply unit while varying the pressure in the hermetic space at a periodic interval of 2 seconds.

According to the present invention, the positive pressure and the negative pressure can be easily applied to the inside of an airtight box in which test objects such as curtain walls, doors, windows and the like are mounted, and the internal flow path is opened through the rotation of the diaphragm of the adjusting part. By switching, an excellent effect can be obtained in which the pressure inside the hermetic box can be adjusted within a short time at a positive and negative pressure of up to ± 5000 Pa.

According to the present invention, a plurality of intermediate pneumatic cylinders can be detachably mounted on the rear wall of the airtight space, so that even one of various types of test bodies having different sizes can be, for example, in the range of 1000 X 1000 to 2000 X 2000. It can be fixed freely through the box, it is easy to give static pressure and negative pressure to the inside of the airtight box, and the excellent effect of performing various performance tests can be obtained.

In addition, according to the present invention, as well as the airtight test for the test body, by freely supplying the water to the airtight space through the water supply system, similar to the situation in the typhoon drove the airtight test and watertight test at the same time accurately and easily performance test An excellent effect that can be variously performed can be obtained.

1 is a side sectional view showing a window performance test apparatus to which the pressure control system according to the present invention is applied.
Figure 2a is a front view showing a cylinder arrangement structure of the clamp unit in the window performance test apparatus according to the present invention.
2B is an operation explanatory diagram showing the test piece fixing operation of the pneumatic cylinder provided in the window performance test apparatus according to the present invention.
3A to 3C are explanatory views illustrating a state in which test specimens of various sizes are mounted in the window performance test apparatus according to the present invention.
Figure 4 is a perspective view showing an intermediate pneumatic cylinder provided in the window performance testing apparatus according to the present invention.
Figure 5 is a mounting cross-sectional view of the intermediate pneumatic cylinder provided in the window performance testing apparatus according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

As shown in FIG. 1 according to the present invention, the window performance testing apparatus 200 has a hollow structure having a rectangular box shape, and an airtight space 130 having an open front is formed therein, and a device is provided on the rear of the airtight space 130. The main body 210 is provided with a mounting space 212.

That is, the main body 210 has a hermetic space 130 is formed on the front, such a hermetic space 130 is formed on the front of the main body 210, as shown in Figure 2a, the main body ( A plurality of pneumatic cylinders 232 are respectively spaced at the edges along the rear wall 220 of the hermetic space 130, that is, the wall 220 partitioning the hermetic space 130 and the device mounting space 212. It is provided with a clamp unit 230 disposed.

As shown in FIG. 2B, the clamp unit 230 includes a test body in which a rotatable fixing lever 236 is connected to the rod 234 of the pneumatic cylinder 232, and is disposed in front of the hermetic space 130. (S) is fixed by being in close contact with the support frame 182.

That is, such a fixed lever 236 is formed in the shape of "￢", the test body support frame 180 and the test body (S) of the front surface disposed on the front surface of the wall 220, the wall 220 In close contact with the front surface of the test body support frame 180 to form an airtight space 130.

The test piece support frame 180 has a rectangular door-like structure, and as shown in FIG. 2B, the sealing member 182 made of a rubber material is attached to the front and rear surfaces of the wall 220 so that the wall 220 is formed. When pressed to the front surface, the back seal 182 is pressed between the wall 220, and at the same time the front seal 182 is pressed between the test body (S) and the airtight space inside the test body support frame 180 Maintain 130 in a stable sealed state.

As such, the differential pressure is supplied to the hermetic space 130 of the main body 210 through, for example, the pressure control system 100. Such a pressure control system 100 is described with reference to FIG. A blower 110 is provided to provide air to the airtight space.

In addition, the pressure control system 100 includes a first port 122 connected to the outlet 114 of the blower 110 through a first pipe 122a, and a second port through which inflow and outflow of external air is made. And a third port 126 connected to the inlet 112 of the blower 110 through a third pipe 126a, and externally sealed through a fourth pipe 128a to the outside. An airflow conversion body 120 having a fourth port 128 connected to the space 130 is provided.

In addition, such a pressure control system 100 has a straight diaphragm 142 of the adjusting unit 140 mounted to be rotatable inside the airflow conversion body 120, and an adjustment dial for rotating the straight diaphragm 142 ( (Not shown) to connect the first port 122 and the fourth port 128 of the airflow conversion body 120 to the outside, and the second port 124 and the third port 126 are connected to the constant pressure mode (P1). ) Can be connected.

In addition, in the negative pressure mode P2, the first port 122 and the second port 124 of the airflow conversion body 120 are connected, and the third port 126 and the fourth port 128 are connected to each other. The internal flow path can be switched.

Therefore, the pressure control system 100 introduces air into the blower 110 from the outside through the second port 124 and the third port 126 of the blower 110 and the airflow conversion body 120, and The air is supplied at a constant pressure to the hermetic space 130 through the first port 122 and the fourth port 128, or from the hermetic space 130 through the fourth port 128 and the third port 126. The air may be introduced into the blower 110, and the air may be discharged to the outside through the first port 122 and the second port 124 to form the airtight space 130 under negative pressure.

In addition, the window performance test apparatus 200 according to the present invention has a controller 170 for controlling the air flow and the differential pressure in the airtight space 130, as shown in Figure 1, such a controller 170 is the main body Mounted on one side of the outside of the 210, mounted on the rear wall 220 of the hermetic space 130 is provided with a differential pressure sensor 152 for detecting the differential pressure of the hermetic space 130 to the main body portion 210 The pressure value is output to the differential pressure display window 164a of the instrumentation panel 172 provided.

In addition, the controller 170 detects the air flow rate through the flow sensor 162 mounted on the fourth pipe 128a of the pressure control system 100 to determine the flow rate value in the flow rate display window 164b of the instrument panel 172. It outputs, it is provided with a volume type air pressure control switch (not shown) for adjusting the air volume of the blower 110 to control the air volume and the differential pressure in the airtight space (130).

Such a window performance testing apparatus 200 according to the present invention, as shown in Figures 3a to 3c, the various kinds of test bodies (S) of different sizes on the wall 220, for example 1000 X 1000 to It can be freely fixed up to the size of 2000 X 2000, and the positive pressure and the negative pressure are applied to the inside of the airtight box 132, and various performance tests can be performed.

To this end, the clamp unit 230 is a plurality of intermediate pneumatic cylinders 242 in the position corresponding to the standard of the test body (S) from the lower right corner of the body portion 210 to the rear wall 220 of the airtight space 130, respectively. ) Is removable so that it can be equipped with various test specimens (S).

As illustrated in FIG. 4, the intermediate pneumatic cylinder 242 protrudes from the rear end of the cylinder body 242a to form a hook 244, and the hook 244 is a rear surface of the airtight space 130. It is configured to be hooked to the projection 246 protruding from the wall 220.

That is, the hook 244 is formed in a "∩" shape, the end of the protrusion 246 to form a head portion 248 having an enlarged diameter so that the hook 244 is fitted to the protrusion 246 and fixed. 5, the intermediate pneumatic cylinder 242 is fixed to the protrusion 246 of the rear wall 220 and is supported to protrude vertically.

As shown in FIG. 2A, the intermediate pneumatic cylinder 242 corresponds to the size of the test body S based on the lower right corner of the main body 210 in the rear wall 220 of the hermetic space 130. Test body (S) by using a plurality of pneumatic cylinders 232 formed on the four sides of the main body portion 210 and the intermediate pneumatic cylinders 242 formed on the rear wall 220 of the hermetic space 130 by being disposed in a plurality of positions Can be fixed by specification.

The intermediate pneumatic cylinder 242 is equipped with a push rod 242d on a fixed lever 242c connected to the rod 242b to closely adhere the test piece S and the specimen support frame 180 to the front surface of the wall 220. To fix and form an airtight space 130 therein.

In addition, the window performance test apparatus 200 according to the present invention can test the watertight test by supplying water to the hermetic space (130).

That is, the present invention can be carried out in various ways by simulating similar to the airtight performance test, watertightness test, wind pressure test for the test body (S), such as curtain walls, windows, doors, etc. similar to the situation that the typhoon is driven. There is a water supply unit 270 having a pump 274 connected to the hermetic space 130 through a water supply pipe 272 for this purpose.

The water supply unit 270 includes a quantity sensor 276 connected to the water supply pipe 272 to detect the quantity of water supplied to the hermetic space, and control the pump 274 through the controller 170 in advance. A fixed amount of water is supplied according to a predetermined pattern.

In addition, the water supply unit 270 is connected to the nozzle hole 278 formed in the wall 220 of the end of the water supply pipe 272 may supply water to the inside of the airtight space 130, the water supply pipe 272 A plurality of nozzle holes 278 are formed to spray a predetermined amount of water onto the test body S while varying the pressure in the hermetic space 130 at a period of 2 seconds to perform a hermetic and watertight test.

That is, the watertight test is to change the pressure up to ± 5000 Pa in the airtight space 130 through the pressure control system 100 in a period of 2 seconds, that is, to apply the pneumatic pressure to the pressure as shown in Table 1 below to remove the air pressure In this way, a certain amount of water is sprayed under pulsating pressure.

Pulsating pressure

Classification (Unit: Pa)       10       15      25       35      50    median      100      150     250      350     500    Upper limit      150      225     375      525     750    Lower limit       50       75     125      175     250    Cycle (S)                                 2

When the watertight test is performed in this way, the test body S, such as a window, is exposed to the typhoon, and the external force is applied and removed by the wind pressure, so that the airtight performance and the watertightness performance can be more accurately tested. It is.

As described above, the present invention facilitates positive pressure and negative pressure in the airtight box 132 equipped with the test body S such as curtain walls, doors, windows, and the like through the pressure control system 100. The internal flow path is switched through the rotation of the straight diaphragm 142 embedded in the airflow converting body 120 of the pressure control system 100, so that the pressure inside the hermetic box 132 can be maintained at a positive pressure of up to ± 5000 Pa. Negative pressure can be adjusted instantaneously and performance tests can be performed.

In addition, the present invention detaches a plurality of intermediate pneumatic cylinders 242 to the rear wall 220 of the airtight space 130, and by using the same for a variety of different test specimens (S), for example, 1000 X 1000 Freely fixed through one airtight box 132 up to a size of 2000 X 2000, and then positive pressure and negative pressure are easily given to the inside of the airtight box 132, and various performance tests are performed. It becomes possible to carry out.

In addition, the present invention, as well as the airtight test for the test body (S), it is possible to freely supply water to the airtight space 130 through the water supply unit 270, the airtight test and watertight test similar to the situation where the typhoon is driven Simultaneous simulation can be easily performed in various performance tests, and thus more accurate performance tests can be made.

An embodiment of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art will be able to modify the technical idea of the present invention in various forms. Accordingly, such improvements and modifications are within the scope of the present invention as long as they are obvious to those skilled in the art.

100 ...... Pressure control system 200 ...... Window performance tester
210 ...... Main unit 212 ...... Device mounting space
220 ...... rear wall 230 ...... clamp part
232 ...... pneumatic cylinder 234 ...... rod
236 ...... fixed lever 242 ...... medium pneumatic cylinder
242a ..... cylinder body 242b ..... rod
242c ...... Securing lever 242d ..... Push rod
244 ...... Hook 246 ...... Turn
248 ...... Head 270 ...... Male Supply
272 ...... Water supply line 274 ...... Pump
276 ...... Quantity Sensor 278 ...... Nozzle Hole
P1 ....... Constant pressure mode P2 ...... Negative pressure mode
S ....... Test body

Claims (5)

A hollow body having a rectangular box shape, an inside of which is formed with an open airtight space, and a rear surface of the airtight space having a device mounting space;
A plurality of pneumatic cylinders are arranged at predetermined intervals along the front airtight space of the main body, and a rotatable fixed lever is connected to the rod of the pneumatic cylinder, and the test body placed on the front of the airtight space has a rim of the airtight space. A clamp unit fixed in close contact with the frame;
A blower providing air to the airtight space, a first port connected to an outlet of the blower through a first pipe, a second port through which inflow and outflow of outside air is made, and a third pipe at an inlet of the blower An airflow conversion body having a third port connected thereto and a fourth port externally connected to an external hermetic space through a fourth pipe, and having a straight diaphragm mounted to be rotatable inside the airflow conversion body; The straight diaphragm is rotated to connect the first port and the fourth port, connect the second port and the third port, or connect the first port and the second port, and connect the third port and the fourth port. Including the control unit for switching the internal flow path through the air from the outside through the second port and the third port to the blower, and supplies the air to the airtight space at a constant pressure through the first port and the fourth port , From the airtight space and the inlet air to the fan through a fourth port and the third port, by using a first port and a second port discharging air to the outside of the pressure control system which forms the airtight space by the negative pressure; And
A differential pressure sensor mounted on the rear wall of the hermetic space and detecting a differential pressure of the hermetic space to output the pressure value to the differential pressure display window of the instrument panel provided in the main body portion, and a flow rate mounted on the fourth tube of the pressure control system. It detects the air flow rate through the sensor and outputs the flow rate value in the flow rate display window of the instrument panel, the controller for controlling the air flow rate and the differential pressure in the airtight space with a volume-type blowing pressure control switch for adjusting the air flow rate of the blower; Is configured to test the airtight performance of the test body mounted in the airtight space,
The hermetically sealed space is an inner space of an hermetic test box for testing the hermetic performance of the curtain wall, the window and the door, and the pressure control system forms a pressure of ± 5000 Pa inside the hermetic space through the blower, and inside the hermetic space. The window performance tester, characterized in that the airtightness and watertightness test by spraying a predetermined amount of water through the water supply unit while varying the pressure at a 2 second cycle. The method of claim 1, wherein the clamp portion is a plurality of intermediate pneumatic cylinders are detachably arranged at positions corresponding to the test specimen from the lower right corner of the main body portion on the rear wall of the airtight space, and the four sides of the main body portion in accordance with the specification of the test specimen Window performance test apparatus, characterized in that configured to test by fixing the test specimens of various specifications using the pneumatic cylinder and the intermediate pneumatic cylinder formed in each. 3. The intermediate pneumatic cylinder according to claim 2, wherein the intermediate pneumatic cylinder is formed to protrude a hook to one side of the rear end of the cylinder body, and the hook is caught by a protrusion protruding from the rear wall of the airtight space, and the diameter of the protrusion is enlarged at the end of the protrusion. Window performance tester, characterized in that the intermediate pneumatic cylinder is fixed to the projection of the rear wall is supported so as to project vertically by forming a head. According to claim 3, characterized in that it further comprises a water supply unit having a pump connected to the airtight space through a water supply pipe, and having a water quantity sensor connected to the water supply pipe to supply a fixed amount of water to the airtight space. Window performance tester. delete

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