KR101001688B1 - An experiment unit for small-scale hydraulic physical model - Google Patents

Abstract

The present invention relates to a small repair model device consisting of a water channel and a reservoir having an inclination control device, and more particularly, the inclination control device is provided upstream of the waterway to provide a load added to the inclination control device. The present invention relates to a miniature repair model that can utilize the installation space more efficiently by providing a water reservoir extending downwardly in the longitudinal direction of the channel in the downstream side of the channel to reduce the inclination by reducing the slope.

To this end, the present invention, the present invention as a technical concept for achieving the above object, the upper portion is configured in the form of a water tank, the downstream side of the water flow channel is provided with a flow control device, provided in the upstream side of the water channel And a reservoir provided on the downstream side of the waterway, wherein the inclination control device includes: a first support frame and a second support frame positioned to face each other with the waterway interposed therebetween; A rotation rod connected between the first support frame and the second support frame, and a tilt adjustment unit provided at one side of the first support frame to adjust the inclination of the channel by rotating the rotation rod, and across the channel from the bottom of the channel; It is configured to include a lifting frame formed and a pair of wires connected to both ends of the lifting frame and the rotary rod, respectively.

Repair, waterway, reservoir, tilt, adjustment, device

Description

Experimental unit for small-scale hydraulic physical model

The present invention relates to a small repair model device consisting of a water channel and a reservoir having an inclination control device, and more particularly, the inclination control device is provided upstream of the waterway to provide a load added to the inclination control device. The present invention relates to a miniature repair model that can utilize the installation space more efficiently by providing a water reservoir extending downwardly in the longitudinal direction of the channel in the downstream side of the channel to reduce the inclination by reducing the slope.

In general, the small repair model is a model test apparatus used to measure the flow rate of contaminants, such as flow rates of bridges, banks, embankments, dams, etc. in a laboratory or a laboratory.

The small repair model stores water in the channel and adjusts the inclination of the channel by the inclination adjusting device so that the water stored in the channel flows from the upstream side to the downstream side of the channel to be discharged to the reservoir.

In the above-mentioned small repairing model device, the conventional small repairing model device is connected to the lower side of the channel to adjust the inclination of the water channel to lower the downstream side of the channel to flow the water in the channel to the reservoir. It was made.

Detailed description of the conventional miniature repair model will be described in detail with reference to FIG. 1.

1 is an overall perspective view showing a conventional miniature repair model.

As shown in FIG. 1, the conventional miniature repairing model device has a tilt adjusting device 20 located at a lower side of the channel 10 together with the supporting member 50 to support the channel 10 and at the same time the channel 10 I adjust the inclination of).

Looking at the driving of the inclination control device 20, when the handle 21 with the handle 21a is rotated, the drive sprocket 22 is driven by the handle 21 is rotated to generate a chain 24 The rotating chain 24 is rotated to receive the power to rotate the auxiliary sprocket (23).

Subsequently, the gearbox 25 connected to the auxiliary sprocket 23 rotates the gear gear 26 through a worm gear or the like provided therein, and the moving bracket 28 that meshes with the gear gear 26 moves in a guide ( Go down along 27).

At this time, the moving bracket 28 is connected to the waterway 10 through the fixing member 29, the waterway 10 is guided to the guide 27 to be lowered down along the moving bracket 28 coming down This causes the slope of the downstream side of the waterway 10 to be gradually inclined so that the water stored in the waterway 10 is directed to the downstream side of the waterway 10.

Thus, the inclination control device 20 is subjected to a large load by the water accumulated in the downstream side, and requires a lot of force in adjusting the inclination of the waterway 10 while supporting the waterway (10). .

Therefore, the inclination adjusting device 20 of the conventional miniature repair model should be configured with a large volume that can accommodate the load in order to withstand the load applied downstream of the water channel 10, and also When water is exported through the flow control unit 40, a place to be provided with a reservoir 30 for storing the water to be discharged should be provided separately.

As a result, as the overall volume of the small repair model increases, a large space is required to install the small repair model, and the manufacturing cost of the small repair model increases.

The present invention is to solve the above problems according to the prior art. That is, an object of the present invention is to provide an inclination control device upstream of the waterway to reduce the load added to the inclination control device to facilitate the inclination adjustment when the inclination of the waterway is adjusted.

In addition, by placing the inclination control device upstream of the waterway, the water reservoir provided on the downstream side of the waterway is configured to extend in the lower portion of the waterway along the length of the waterway, thereby efficiently reducing the work space occupied by the small repair model device. It's there.

The present invention as a technical concept for achieving the above object, the upper portion is configured in the form of a water tank, the downstream side is provided with a flow rate control device, the inclination provided on the upstream side of the waterway to adjust the slope of the waterway It comprises a control device and a reservoir provided on the downstream side of the water channel, the inclination control device, the first support frame and the second support frame, which are located opposite to each other with the waterway between, the first support frame And a rotating rod connected between the second supporting frame, a tilt adjusting unit provided at one side of the first supporting frame to adjust the inclination of the waterway by rotating the rotating rod, and a lifting frame formed across the waterway at the lower portion of the waterway. It comprises a pair of wires connected to both ends of the lifting frame and the rotary rod, respectively.

According to the present invention, the small repair model device is provided with an inclination adjusting device upstream of the waterway to reduce the load added to the inclination adjusting device when adjusting the inclination of the waterway by lifting the upstream side of the waterway upward. There is an effect that can be facilitated.

In addition, by placing the inclination control device upstream of the waterway, the water reservoir provided on the downstream side of the waterway is configured to extend in the lower portion of the waterway along the length of the waterway, thereby efficiently reducing the work space occupied by the small repair model device. There is also an effect that can be done.

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

2 is an overall perspective view of a miniature repair model according to an embodiment of the present invention.

As shown in Figure 2, the small repair model according to an embodiment of the present invention is a waterway 100 and the inclination control device 200 for adjusting the inclination of the waterway 100 is a movement passage of the water (流 水) And a reservoir 300 for storing water flowing down from the water channel 100.

The water channel 100 is configured in the shape of a tank having an upper opening, and a flow rate adjusting device 500 is provided on the downstream side, and the through groove 110 so that the wire 250 penetrates on both sides of the upper side of the upstream side of the water channel 100. ) Are formed respectively.

The upper center portion of the waterway 100 is provided with a pair of detection stand 120 having a rectangular cross section to cross the waterway 100, and serves to fix the detection device used in the flow rate measurement experiment.

The upstream side of the waterway 100 is provided with a tilt control device 200 for adjusting the inclination of the waterway 100.

The inclination adjusting device 200 includes a first support frame 210 and a second support frame 220, the first support frame 210 and a second support frame, which are positioned to face each other with the channel 100 interposed therebetween. Rotating rod 240 connected between the 220, the first support frame 210 is provided on one side of the inclination adjustment unit 230, the channel to adjust the inclination of the waterway 100 by rotating the rotating rod 240, It is composed of a lifting frame 260 formed across the channel 100 in the lower portion of the 100 and a pair of wires 250 connected to both ends of the lifting frame 260 and the rotating rod 240, respectively. .

In the first and second support frames 210 and 220, insertion grooves (not shown) having bearings are formed on upper sides of the rotary rods 240 to rotate, and the rotary rods 240 are formed in the first and second support frames. Both ends are inserted into and fixed to respective insertion grooves of the support frames 210 and 220.

The first support frame 210 is provided with an inclination adjustment unit 230 on one side under the insertion groove, the rotation rod 240 is connected to one side of the inclination control unit 230.

A pair of wires 250 are connected to both sides of the rotating rod 240, and the pair of wires 250 pass through the respective through grooves 110 of the water channel 100, and the lower end of the upstream side of the water channel 100. It is connected and fixed to both ends of the lifting frame 260 which is located at.

Here, the lifting frame 260 is provided across the lower end of the upstream side of the waterway 100 in a rod shape.

More detailed configuration of the inclination control unit 230 in the inclination control device 200 as described above will be described in detail later with reference to FIG.

The downstream side of the waterway 100 is formed in an open shape, the opening surface is provided with a flow rate control device 500 for controlling the flow rate of water to be stored in the waterway (100).

The flow regulating device 500 is provided with a flow regulating handle 520 having a handle 510 attached to an upper side thereof, and the flow regulating handle 520 is connected to the first shaft gear 530.

The first shaft gear 530 is arranged at a predetermined interval with the second shaft gear 540, and a driving sprocket 550 is provided on an upper side thereof and is inserted into and connected to the driving sprocket 550.

The second shaft gear 540 is provided with an auxiliary sprocket 560 on the upper side, is inserted into the auxiliary sprocket 560 is connected, the auxiliary sprocket 560 is the drive sprocket 550 and the belt gear 570. It is linked and connected through.

Each of the first and second shaft gears 530 and 540 is supported by a fixing guide 580 accommodating the shaft gear, and each of the fixing brackets 590 moves up and down along the fixing guide 580. )

Each of the fixing brackets 590 is coupled to both sides of the flow control plate (591) to adjust the flow rate when the water stored in the waterway 100 to the reservoir 300.

The lower surface of the first and second shaft gears 530 and 540 and the pair of fixed guides 580 is provided with a supporting guide 592 for supporting them, and the supporting guide 592 is the flow control plate 591. Flow control grooves (not shown) are formed along the longitudinal direction so as to pass up and down.

Looking at the driving of the flow control device 500 described above, when the flow control knob 520 is rotated, the first shaft gear 530 in contact with the flow control handle 520 is rotated The drive sprocket 550 provided on the upper side of the first shaft gear 530 is rotated.

As a result, the driving sprocket 550 generates power, and the belt gear 570 engaged with the outer circumferential surface of the driving sprocket 550 receives the power to rotate the auxiliary sprocket 560.

Accordingly, the second shaft gear 540 connected to the auxiliary sprocket 560 rotates along the auxiliary sprocket 540, and as a result, the first and second shaft gears 530 and 540 rotate together. .

Accordingly, each of the fixing brackets 590 connected to the rotating first and second shaft gears 530 and 540, respectively, is a fixing guide 580 for receiving the first and second shaft gears 530 and 540. It moves up or down along.

In addition, each of the fixing bracket 590 is coupled to each side of the flow control plate (591) is accommodated in the guide groove of each fixing guide 580 is moved upward or downward with each fixing bracket 590.

The lower portion of the downstream side of the water channel 100 having such a flow control device 500 is provided with a reservoir 300 to store the water discharged through the flow control device (500).

Reservoir 300 is located on the downstream side of the waterway 100, one side of the reservoir 300 is formed to extend to the lower portion of the waterway 100, the size and shape of the reservoir 300 is downstream of the waterway 100 Various variations are possible in size to accommodate the side.

On both inner side surfaces of the reservoir 300, the support bar 310 for supporting the lower surface of the waterway 100 is provided with at least one rotary roller 320 on the outside.

The support bar 310 supports the downstream side of the waterway 100, and the rotary roller 320 installed on the support bar 310 has the upstream side of the waterway 100 being lifted by the inclination adjusting device 200. When the city 100 reduces the friction between the bottom of the waterway 100 and the support bar 310, a function of facilitating the flow of the waterway 100 is performed.

Outside the reservoir 300, the fixing frame 400 is formed to accommodate the reservoir 300 and the waterway 100, and the fixing frame 400 supports the first and second supports for the inclination adjusting device 200. It is connected to the frame (210, 220) to support the waterway 100 to support the entire small repair model device.

Figure 3 is a perspective view showing the inclination adjustment unit 230 of the miniature repair model according to an embodiment of the present invention.

As shown in Figure 3, the inclination adjustment unit 230 constituting the inclination control device 200 of the miniature repair model according to an embodiment of the present invention is a computer bolt having a driving wheel 231 at one end ( 232, a support plate 235 fixed to lower surfaces of the first bearing 233 and the second bearing 234, the first bearing 233, and the second bearing 234 provided on both sides of the computer bolt 232. ), A rack gear connected to the outer circumferential surface of the computer bolt 232 and fixed to the upper surface of the bracket 236 to move left and right in the longitudinal direction of the computer bolt 232, the rack gear to move left and right with the bracket 236 237 and the first support frame 210 is in contact with the upper surface of the rack gear 237 is composed of a shaft gear 238 that rotates.

The computer bolt 232 is connected to one end of the computer bolt 232 is inserted into the drive groove 231b formed in the drive wheel 231 provided with a handle (231a).

At this time, the computer bolt 232 is inserted into the first groove 231b of the driving wheel 231 is inserted into the first bearing 233 in order to rotate together in response to the rotation of the driving wheel 231, The other end of the computer bolt 232 is inserted into the second bearing 234 is connected.

The first and second bearings 233 and 234 are connected to the support plate 235 on the bottom surface and are fixed through the bolts 233a and 234a, and the support plate 235 is connected to the side of the first support frame 210. It is fixed.

A rack 236 is connected to the outside of the computer bolt 232 and includes a rack gear 237 to move the rack gear 237 left and right in the longitudinal direction of the computer bolt 232.

In this case, when the rack gear 237 is moved left and right, the rack plate 235 helps to move the rack gear 237 to one side of the support plate 235 to which the second bearing 234 is fixed to the support plate 235. A support roller 239 is provided.

A shaft gear 238 is formed above the rack gear 237 to correspond to the left and right movement of the rack gear 237, and the shaft gear 238 is provided with a bearing formed in the first support frame 210. It is inserted and fixed in the insertion groove (not shown).

The rotating rod 240 is inserted into the hole of the shaft gear 238, and the wire 250 is bundled and fixed to the outer circumferential surface of the rotating rod 240.

Description of the driving of the above-described tilt control device 200 will be described in detail with reference to FIG.

4 is a view for showing the driving of the tilt control device 200 of the miniature repair model of the present invention according to an embodiment of the present invention.

As shown in FIG. 4, the small repair model device is in contact with the driving wheel 231 by rotating the driving wheel 231 of the inclination adjusting unit 200 in the state in which water is stored in the waterway 100. Computing bolt 232 is rotated.

Accordingly, the bracket 236 connected to the outer circumferential surface of the computer bolt 232 is moved to the left along the longitudinal direction of the computer bolt 232, wherein the rack gear 237 connected to the upper side of the bracket 236 is also a bracket It moves to the left with 236.

As a result, the shaft gear 238 meshed with the rack gear 237 rotates to the right side corresponding to the rack gear 237 moving to the left.

As the shaft gear 238 rotates, the rotating rod 240 inserted into the hole of the shaft gear 238 rotates in the rotation direction of the shaft gear 238, and the wire that is tied to the rotating rod 240 is fixed thereto. 250 is wound on the rotating rod (240).

Here, the wire 250 is tied to the rotating rod 240 and fixedly connected to the lifting frame 260 supporting the waterway 100, and the lifting frame 260 while the wire 250 is wound on the rotating rod 240. ) Is lifted in the direction of the arrow by the wire 250, and at this time upstream side of the waterway 100 accommodated in the lifting frame 260 is also lifted upward.

Accordingly, the water in the waterway 100 is concentrated on the downstream side of the waterway 100 and accumulated on the downstream side, and the water accumulated on the downstream side through the flow regulating device 500 is provided on the downstream side of the waterway 100 downstream. Will be exported to the reservoir 300.

As described above, the small repair model according to the present invention can be easily configured by minimizing the load added to the inclination control device 200 during the inclination adjustment by configuring the inclination control device 200 upstream side of the channel 100 The inclination of the 100 can be adjusted.

In addition, a separate space for installing the reservoir 300 by configuring the reservoir 300 provided on the downstream side of the channel 100 so as to extend to the lower portion of the channel 100 along the longitudinal direction of the channel 100. By minimizing this, the space in the laboratory can be used more efficiently.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be clear to those who have knowledge of God.

1 is an overall perspective view showing a conventional miniature repair model.

Figure 2 is an overall perspective view of a miniature repair model according to an embodiment of the present invention.

Figure 3 is a perspective view showing the inclination control portion of the miniature repair model according to an embodiment of the present invention.

Figure 4 is a view for showing the driving of the tilt control device of the miniature repair model of the present invention according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10, 100: channel 20, 200: tilt control device

21: handle 21a, 231a, 510: handle

22, 550: drive sprocket 23, 560: auxiliary sprocket

24: chain 25: gearbox

26: Tailor 27: Guide

28: moving bracket 29: fixing member

30, 300: reservoir 40, 500: flow control device

50: support member 110: through groove

260: lifting frame 120: detection table

210: first support frame 220: second support frame

240: rotating rod 250: wire

231: driving wheel 231b: driving groove

232: computer bolt 233: first bearing

234: second bearing 233a, 234a: bolt

235 support plate 236 bracket

237: rack gear 238: shaft gear

239: support roller 310: support bar

320: rotating roller 400: fixed frame

520: flow control handle 530: first shaft gear

540: second shaft gear 570: belt gear

580: fixing guide 590: fixing bracket

591 flow control plate 592 support guide

Claims (8)

In the small repair model device, A water channel having an upper opening and having a flow control device on a downstream side thereof; An inclination control device provided on an upstream side of the waterway to adjust the inclination of the waterway; And It is configured to include; including a reservoir provided on the downstream side of the waterway, The tilt control device, A first support frame and a second support frame positioned opposite each other with the channel therebetween; A rotary rod connected between the first support frame and the second support frame; An inclination control unit provided at one side of the first support frame to adjust the inclination of the waterway by rotating the rotary rod; An elevating frame formed across the channel at the bottom of the channel; And A pair of wires connected to both ends of the elevating frame and the rotary rod, respectively; Small repair model device, characterized in that comprising a. delete The method of claim 1, The tilt control unit, Computation bolt provided with a driving wheel at one end; A bracket which is connected to an outer circumferential surface of the computer bolt and moves along a longitudinal direction of the computer bolt by rotation of a driving wheel; A rack gear fixed to an upper surface of the bracket to move in synchronization with the bracket; And A shaft gear connected to the circumference of the rotating rod; Consist of The rack gear and the shaft gear is configured to mesh with each other, Small repair model, characterized in that the rotating rod is configured to rotate in accordance with the rotation of the drive wheel. The method of claim 1, On both sides of the upper side of the channel, Small repairing model, characterized in that the through groove is formed through each of the pair of wires are formed. The method of claim 1, In the upper part of the channel, Small repair model device, characterized in that provided with a pair of detection stages formed in a shape that crosses the waterway. The method of claim 1, The reservoir is Is located on the downstream side of the channel, one side of the reservoir is a miniature repair model, characterized in that formed to extend in the lower portion of the channel along the longitudinal direction of the channel. The method of claim 6, At a predetermined position of the reservoir extending below the water channel, And a support bar for supporting the downstream side of the water channel is configured to cross the interior of the water reservoir. The method of claim 7, wherein The support bar, Small repair model device characterized in that at least one rotary roller is provided.

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