KR102661209B1 - Membrane structure system with intelligent smart tensioning device - Google Patents

Abstract

The membrane structure system equipped with an intelligent smart tensioning device according to the present invention includes a shackle (2) coupled to the edge of the membrane material (1) that blocks sunlight or blocks snow, rain, and wind; Tensile restoration means (4), one end of which is connected to the makjae fixing member (3) coupled to the ground fixed support and elastically expanded or restored depending on the strength and direction of the force applied to the other end; Tension measuring means (5), each of which is connected to the shackle (2) and the tension restoration means (4) at both ends, to measure the tension, which is the force with which the tension restoration means (4) pulls the shackle (2); and a control means (6) that displays the tension measured by the tension measuring means (5) on an indicator (7). The present invention with this configuration can measure the tension applied to the membrane that blocks sunlight, snow, or rainwater in real time, and can autonomously adjust the tension applied to the membrane according to the external environment.

Description

Membrane structure system with intelligent smart tensioning device}

The present invention relates to a membrane structure system equipped with an intelligent smart tensioning device, and more specifically, to an invention that can measure and adjust the tension of the membrane material.

A typical membrane structure is a structure that forms a ceiling or side wall on a steel structure using a flexible membrane such as a tent instead of a fixed structure. It has the advantage of being easy to install and dismantle and can be built for various structures and purposes, such as exhibition halls and warehouses. It is widely used, etc.

The membrane structure is a method of extending the membrane material using rings, chains, turnbuckles, etc. and fixing it to the steel structure body.

The membrane structure is a material capable of reducing the weight of buildings and is recognized as a structure suitable for various forms and purposes due to its economic efficiency, functionality, and construction excellence, and is recognized for its safety and durability compared to existing structures.

However, the elasticity of the membrane structure cannot be maintained continuously due to the physical characteristics of the membrane material, and when the membrane material becomes loose, not only does the fluttering phenomenon caused by the wind become increasingly severe, but there is also a problem in that the membrane material is torn due to stress.

In addition, there was a problem that the membrane structure could be deformed or collapsed when rainwater or snow accumulated in the stretched membrane portion due to rain or heavy snow.

Meanwhile, as a prior art of the present invention, "Membrane structure system with easy tension control" under application number "10-2022-0157087" has been applied and registered. The membrane structure system with easy tension control has a sheet shape and an end portion. A holder to which one end of the makjae including an edge rope wrapped in is coupled; A coupling plate that binds the makjae by allowing the holder to be coupled to one side; A support frame installed to support the coupling plate; and tension maintaining means for adjusting and fixing the horizontal position of the holder while connecting the holder and the coupling plate.

Republic of Korea Patent Registration No. "10-2515597" (2023.03.30)

Accordingly, the present invention provides an invention that can measure the tension applied to the makjae in real time in order to solve the above problems.

In addition, another object of the present invention is to provide an invention that can autonomously adjust the tension applied to the membrane material depending on the external environment.

A membrane structure system equipped with an intelligent smart tensioning device according to the present invention to achieve the above object includes a shackle (2) coupled to the edge of the membrane material (1) that blocks sunlight or blocks snow, rain, and wind; Tensile restoration means (4), one end of which is connected to the makjae fixing member (3) coupled to the ground fixed support and elastically expanded or restored depending on the strength and direction of the force applied to the other end; Tension measuring means (5), each of which is connected to the shackle (2) and the tension restoration means (4) at both ends, to measure the tension, which is the force with which the tension restoration means (4) pulls the shackle (2); and a control means (6) that displays the tension measured by the tension measuring means (5) on an indicator (7).

The membrane structure system equipped with an intelligent smart tensioning device according to the present invention with this configuration can measure the tension applied to the membrane material that blocks sunlight, snow, or rainwater in real time.

In addition, the present invention can autonomously adjust the tension applied to the membrane material depending on the external environment.

Figure 1 is a diagram showing a shackle connected between the makjae and the makjae fixing member, a tension measuring means, and a tension restoration means,
Figure 2 is a control block diagram of the present invention,
Figure 3 shows the signal conditioner of the tension measurement means,
Figure 4 is a diagram showing the shift voltage circuit part,
Figure 5 is a control circuit diagram of the control means,

Hereinafter, the present invention will be described in detail with reference to the attached drawings.

As shown in Figures 1 and 2, the membrane structure system equipped with an intelligent smart tensioning device according to the present invention includes a shackle (2) coupled to the edge of the membrane material (1) that blocks sunlight or blocks snow, rain, and wind. )class; Tensile restoration means (4), one end of which is connected to the makjae fixing member (3) coupled to the ground fixed support and elastically expanded or restored depending on the strength and direction of the force applied to the other end; Tension measuring means (5), each of which is connected to the shackle (2) and the tension restoration means (4) at both ends, to measure the tension, which is the force with which the tension restoration means (4) pulls the shackle (2); and a control means (6) that displays the tension measured by the tension measuring means (5) on an indicator (7).

As shown in Figure 1, the tension restoration means 4 includes a case 9 with a rectangular space 8 formed therein, and front and rear sections of the rectangular space 8 inside the rectangular space 8. A pair of forward and backward moving member moving rails (10) are laid side by side in each direction and both ends are respectively fixed to the front and rear inner walls of the square space (8), and are penetratingly coupled to the pair of forward and backward moving member moving rails (10) and form a square space. A forward and backward moving member 11 sliding in the front and rear direction of the space 8, a pair of forward and backward moving member moving rails disposed between the front end of the square space 8 and the forward and backward moving member 11 ( 10), respectively, a pair of compression springs 12 that elastically push the forward and backward moving member 11, the rear end of which is connected to the center of the forward and backward moving member 11, and the front end of the front of the case 9. It includes a front wire (13) connected to the tension measuring means (5), and a rear wire (14) connecting the rear center of the case (9) to the makjae fixing member (3).

The shackle (2), the tension restoration means (4), and the tension measuring means (5) are installed in two or more pieces along the edge of the makjae (1), and the makjae faces each of the tension restoration means (4). As shown in Figure 1, two or more pulley fixing brackets 15 are installed on the outer peripheral surface of the fixing member 3, and a pulley 16 is axially fixed to the pulley fixing brackets 15. , the main wire 17 passes through two or more pulley fixing brackets 15.

The rear wire 14 is caught on the pulley 16, and the rear end of the rear wire 14 is connected to the main wire 17.

In addition, as shown in Figure 1, the present invention is a main device that adjusts the tension applied to the membrane material (1) by winding the main wire (17) or unwinding the wound wire according to the control signal of the control means (6). It further includes a wire winding means (18), and the control means (6) controls the main wire so that the average tension value derived from two or more tension measuring means (5) connected to one corner of the makjae (1) falls within a set range. Controls the winding means (18).

In addition, as shown in Figure 2, the present invention includes a snow detection means 19 for detecting snow at a place where the makjae 1 is installed, and a seal upon detection of snow by the snow detection means 19. The restoration means (4) further includes a tension range storage unit (20) upon eye detection in which the tension range for pulling the shackle (2) is stored, and the control means (6) detects the eye by the eye detection means (19). The main wire winding means (18) so that the average tension value derived from two or more tension measuring means (5) connected to one corner of the makjae (1) falls within the tension range stored in the tension range storage unit (20) when the eye is detected. ) is controlled.

In addition, as shown in Figure 2, the present invention includes a rainwater detection means 21 for detecting rainwater at a place where the makjae 1 is installed, and a tension recovery means when detecting rainwater by the rainwater detection means 21 ( 4) further includes a tension range storage unit 22 when detecting rainwater in which the tension range for pulling the shackle 2 is stored, and the control means 6 is configured to detect rainwater by the rainwater detection means 21 ( Controlling the main wire winding means (18) so that the average tension value derived from two or more tension measuring means (5) connected to one corner of 1) falls within the tension range stored in the tension range storage unit (22) when the rainwater is detected. do.

In addition, as shown in Figure 2, the present invention includes a wind speed measuring means (23) for measuring the wind speed at the place where the makjae (1) is installed, and a tension restoration means (4) for each wind speed range to hold the shackle (2). It further includes a tension range storage unit 24 for each wind speed in which the pulling tension range is stored, and the control means 6 measures the current wind speed through the wind speed measuring means 23 and is connected to one corner of the makjae (1). The main wire winding means (18) is controlled so that the average tension value derived from two or more tension measuring means (5) falls within the tension range for each wind speed range stored in the tension range storage unit for each wind speed (24).

As shown in Figure 3, the tension measuring means 5 includes a four-wire load cell 25 that outputs a voltage signal proportional or inversely proportional to the intensity of the tension with which the tension restoration means 4 pulls the shackle 2. Includes.

)에 소정 레벨의 정전압을 공급하는 쉬프트 전압 회로부(28)를 포함한다.As shown in FIG. 3, the control means 6 includes a constant current supply unit 26 that supplies a constant current to the load cell 25, an amplification unit 27 that amplifies the voltage output from the load cell 25, And a reference voltage input terminal of the amplification unit 27 to adjust the DC offset voltage of the signal output from the amplification unit 27 (

) and a shift voltage circuit unit 28 that supplies a constant voltage of a predetermined level.

)에 공급하는 제1 오피 앰프(33)를 포함한다.As shown in Figure 4, the shift voltage circuit unit 28 includes a first resistor 29 to which a constant voltage of a predetermined level is supplied to the input terminal, an anode terminal is grounded, and a cathode terminal is connected to the first resistor 29. A Zener diode 30 connected to the output terminal of the resistor 29 and outputting a breakdown voltage from the cathode terminal, a second resistor 31 whose output terminal is grounded, the cathode terminal of the Zener diode 30 and the second resistor 31. A first variable resistor 32 is connected between the input terminals and divides and outputs the breakdown voltage output from the Zener diode 30 through a dividing voltage output terminal according to the internal resistance ratio, and an inverting input terminal and an output terminal are connected and a non-inverting The input terminal is connected to the divided voltage output terminal of the first variable resistor 32, so that the voltage output from the divided voltage output terminal of the first variable resistor 32 is connected to the reference voltage input terminal of the amplification unit 27 without attenuation (

) includes a first operational amplifier 33 that supplies power to the

As shown in FIG. 5, the control means 6 sequentially connects two or more amplification units 27, each connected to the two or more tension measurement means 5, to the A/D conversion unit 35. A tension measurement means channel selection unit 34 and an A/D conversion unit 35 for converting the analog signal output from the amplification unit 27 selected by the tension measurement means channel selection unit 34 into digital data, and It includes a tension conversion unit 36 that converts the digital data converted by the A/D conversion unit 35 into the strength of the tension with which the tension restoration means 4 pulls the shackle 2.

As shown in FIG. 5, the tension measuring means channel selection unit 34 is a serial amplifier for selecting the amplification unit 27 connected to the A/D conversion unit 35 among two or more amplification units 27. A serial data output unit 37 that outputs data, a clock signal output unit 38 that outputs a clock pulse signal, and two or more amplifier units 27 are matched one to one, but the 'n'th output terminal is 'n'. The serial data input from the serial data output unit 37 is output as parallel data using the D flip-flop 39 connected to the +1'th input terminal, and the parallel data is output as the falling edge of the clock pulse signal. A parallel data output unit 40 that shifts each signal by '1' bit to the right, is connected one-to-one with the output terminal of the parallel data output unit 40, and is connected in a one-to-one manner according to a control signal from the output control unit 42. A 3-state buffer unit 41 for transmitting the input 1-bit parallel data to the analog switch 44, and a control signal for transmitting or not transmitting the output signal of the 3-state buffer unit 41 to the analog switch 44. An output control unit 42 that outputs, a pull-down resistor 43 connected to the output terminal of the three-state buffer unit 41, and a one-to-one correspondence with each of the amplifier units 27 and a contact point The output signal of the three-state buffer unit 41 is connected to the output terminal of the specific amplifier 27, which is matched 1 to 1, and the common contact point is connected to the input terminal of the A/D converter 35, and is matched 1 to 1. It includes an analog switch 44 that attaches a movable contact to contact a and connects the output terminal of the specific amplifier 27 connected to contact a to the input terminal of the A/D converter 35.

The 'n' is a natural number.

For example, when there are five tension measuring means 5, the tension measuring means channel selection unit 34 sequentially selects parallel data of “10000”, “01000”, “00100”, “00010”, and “00001”. The amplification unit 27 connected to the five tension measuring means 5 is sequentially connected to the A/D conversion unit 35.

The membrane structure system equipped with an intelligent smart tensioning device according to the present invention with this configuration can measure the tension applied to the membrane material that blocks sunlight, snow, or rainwater in real time.

In addition, the present invention can autonomously adjust the tension applied to the membrane material depending on the external environment.

1. Makjae 2. Shackle
3. Membrane fixing member 4. Tensile restoration means
5. Means for measuring tension 6. Means for control
7. Indicator 8. Rectangular space
9. Case 10. Forward and backward moving member moving rail
11. Forward and backward moving member 12. Compression spring
13. Front wire 14. Rear wire
15. Pulley fixing bracket 16. Pulley
17. Main wire 18. Main wire winding means
19. Eye detection means 20. Tension range storage unit for eye detection
21. Rainwater detection means 22. Tension range storage unit when detecting rainwater
23. Wind speed measurement means 24. Tension range storage unit for each wind speed
25. Load cell 26. Constant current supply unit
27. Amplification unit 28. Shift voltage circuit unit
29. First resistor 30. Zener diode
31. Second resistor 32. First variable resistor
33. First operational amplifier 34. Tension measurement means channel selection unit
35. A/D conversion unit 36. Tension conversion unit
37. Serial data output unit 38. Clock signal output unit
39. D flip-flop 40. Parallel data output unit
41. 3-state buffer unit 42. Output control unit
43. Pull-down resistor 44. Analog switch

Claims (8)

A shackle (2) connected to the edge of the makjae (1) that blocks sunlight or blocks snow, rain, and wind;
Tensile restoration means (4), one end of which is connected to the makjae fixing member (3) coupled to the ground fixing support and elastically expanded or restored depending on the strength and direction of the force applied to the other end;
Tension measuring means (5), each of which is connected to the shackle (2) and the tension restoration means (4) at both ends, to measure the tension, which is the force with which the tension restoration means (4) pulls the shackle (2);
And a control means (6) for displaying the tension measured by the tension measuring means (5) on an indicator (7),
The tensile restoration means (4) includes a case (9) with a square space (8) formed therein,
A pair of forward and backward moving members, a moving rail (10), are laid side by side in the front and rear direction of the square space (8) inside the square space (8), and both ends are respectively fixed to the front and rear inner walls of the square space (8). ,
A forward and backward moving member (11) penetratingly coupled to a pair of the forward and backward moving member moving rails (10) and sliding in the forward and backward direction of the square space (8),
A pair of compression elements that are respectively inserted into the moving rails 10 of a pair of forward and backward moving members disposed between the front end of the square space 8 and the forward and backward moving member 11 to elastically push the forward and backward moving members 11. spring (12),
a front wire (13) whose rear end is connected to the center of the back and forth moving member (11) and whose front end is connected to the tension measuring means (5) through the front of the case (9);
And a rear wire (14) connecting the rear center of the case (9) to the membrane fixing member (3). Membrane structure system with an intelligent smart tensioning device.
According to claim 1,
The tension measuring means (5) consists of two or more,
The tension measuring means (5) includes a four-wire load cell (25) that outputs a voltage signal proportional or inversely proportional to the intensity of the tension with which the tension restoration means (4) pulls the shackle (2),
The control means 6 includes a constant current supply unit 26 that supplies a constant current to the load cell 25,
An amplification unit 27 that amplifies the voltage output from the load cell 25,
And a reference voltage input terminal of the amplification unit 27 to adjust the DC offset voltage of the signal output from the amplification unit 27 (

) includes a shift voltage circuit unit 28 that supplies a constant voltage of a predetermined level to the
The shift voltage circuit unit 28 includes a first resistor 29 to which a constant voltage of a predetermined level is supplied to an input terminal,
A Zener diode (30) whose anode terminal is grounded, whose cathode terminal is connected to the output terminal of the first resistor (29), and whose breakdown voltage is output from the cathode terminal,
A second resistor 31 whose output terminal is grounded,
A first variable resistor connected between the cathode terminal of the Zener diode 30 and the input terminal of the second resistor 31 and dividing the breakdown voltage output from the Zener diode 30 through a divided voltage output terminal according to the internal resistance ratio. (32),
And the inverting input terminal and the output terminal are connected, and the non-inverting input terminal is connected to the divided voltage output terminal of the first variable resistor 32, so that the voltage output from the divided voltage output terminal of the first variable resistor 32 is transmitted to the amplification unit ( 27) reference voltage input terminal (

) Membrane structure system with an intelligent smart tensioning device, characterized in that it includes a first operational amplifier (33) that supplies to.
According to clause 2,
The control means (6) is a tension measuring means channel selection unit (34) that sequentially connects two or more amplification units (27) each connected to the two or more tension measuring means (5) to the A/D conversion unit (35). )and,
An A/D conversion unit 35 that converts the analog signal output from the amplification unit 27 selected by the tension measuring means channel selection unit 34 into digital data,
And a tension conversion unit 36 that converts the digital data converted by the A/D conversion unit 35 into the strength of the tension with which the tension restoration means 4 pulls the shackle 2,
The tension measuring means channel selection unit 34 is a serial data output unit that outputs serial data for selecting an amplification unit 27 connected to the A/D conversion unit 35 among two or more amplification units 27. (37) and,
A clock signal output unit 38 that outputs a clock pulse signal,
The input from the serial data output unit 37 is provided using a D flip-flop 39 that is matched one to one with two or more amplifier units 27 and whose 'n'th output terminal is connected to the 'n+1'th input terminal. A parallel data output unit 40 that outputs serial data as parallel data and shifts the parallel data by '1' bit to the right for each falling edge signal of the clock pulse signal,
A three-state buffer unit 41 that is connected one-to-one with the output terminal of the parallel data output unit 40 and transmits 1 bit of parallel data input according to the control signal of the output control unit 42 to the analog switch 44. ;
an output control unit 42 that outputs a control signal for transmitting or not transmitting the output signal of the three-state buffer unit 41 to the analog switch 44;
A pull-down resistor (43) connected to the output terminal of the three-state buffer unit (41);
And each of the amplification units 27 is matched one to one, and the a contact point is connected to the output terminal of the specific amplification unit 27 matched one to one, and the common contact point is connected to the input terminal of the A/D converter 35. According to the output signal of the three-state buffer unit 41, which is connected and matched 1 to 1, the movable contact is attached to contact A, and the output terminal of the specific amplifier 27 connected to contact A is connected to the input terminal of the A/D converter 35. A membrane structure system with an intelligent smart tensioning device, characterized in that it includes an analog switch (44) connected to.

Here, 'n' is a natural number
delete According to claim 1,
The shackle (2), the tension restoration means (4), and the tension measurement means (5) are installed at least two along the edge of the makjae (1),
Two or more pulley fixing brackets (15) are installed on the outer peripheral surface of the makjae fixing member (3) facing each of the tension restoration means (4),
A pulley 16 is axially fixed to the pulley fixing bracket 15,
The main wire (17) is passed through two or more pulley fixing brackets (15),
The rear wire 14 is caught on the pulley 16,
The rear end of the rear wire 14 is connected to the main wire 17,
It further includes a main wire winding means (18) for controlling the tension applied to the membrane material (1) by winding the main wire (17) or unwinding the wound main wire (17) according to the control signal of the control means (6). And
The control means (6) controls the main wire winding means (18) so that the average tension value derived from two or more tension measuring means (5) connected to one corner of the makjae (1) falls within a set range. Membrane structure system with intelligent smart tensioning device.
According to clause 5,
Snow detection means (19) for detecting snow at the location where the makjae (1) is installed,
When the eye is detected by the eye detection means 19, the tension restoration means 4 further includes a tension range storage unit 20 when the eye is detected storing a tension range in which the shackle 2 is pulled,
The control means (6) determines that the average tension value derived from two or more tension measuring means (5) connected to one corner of the makjae (1) when the eye is detected by the eye detection means (19) is within the tension range when the eye is detected. A membrane structure system with an intelligent smart tensioning device, characterized in that the main wire winding means (18) is controlled to fall within the tension range stored in the storage unit (20).
According to clause 5,
It further includes rainwater detection means (21) for detecting rainwater at the location where the makjae (1) is installed,
It further includes a tension range storage unit 22 in which the tension restoration means 4 pulls the shackle 2 when the rainwater is detected by the rainwater detection means 21.
The control means (6) determines that the average tension value derived from two or more tension measuring means (5) connected to one corner of the makjae (1) when detecting rainwater by the rainwater sensing means (21) is within the tension range when detecting rainwater. A membrane structure system with an intelligent smart tensioning device, characterized in that the main wire winding means (18) is controlled to fall within the tension range stored in the storage unit (22).
According to clause 5,
It further includes wind speed measuring means (23) for measuring the wind speed at the location where the makjae (1) is installed,
The tension restoration means for each wind speed range (4) further includes a tension range storage unit for each wind speed (24) in which the tension range for pulling the shackle (2) is stored,
The control means (6) measures the current wind speed through the wind speed measuring means (23), and the average tension value derived from two or more tension measuring means (5) connected to one corner of the makjae (1) is the tension for each wind speed. A membrane structure system with an intelligent smart tensioning device, characterized in that the main wire winding means (18) is controlled to fall within the tension range for each wind speed range stored in the range storage unit (24).

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