KR20120122203A - Snow melting fluid injection boundary block and snow melting fluid injection boundary block system including the same - Google Patents

Abstract

PURPOSE: A boundary block with a snow melting solution injection function and a boundary block system with the same are provided to reduce installation costs by installing a snow melting solution injection head inside the boundary block. CONSTITUTION: A boundary block with a snow melting solution injection function comprises a block body(10), a snow melting solution supply pipe(20), a snow melting solution injection head(30), an automatic valve(40), a valve control unit(50), and a cable(60). The block body comprises an injection head mount, a finishing cover, and an insertion hole. The injection head mount is open toward a roadway. The finishing cover finishes the injection head mount and has an open hole for injecting a snow melting solution. The insertion hole penetrates through the injection head mount. The snow melting solution supply pipe is inserted into the insertion hole of the block body and supplies a snow melting solution to the roadway. The automatic valve is installed between the snow melting solution supply pipe and injection head and is automatically powered by an external electrical signal. The cable is electrically connected to the valve control unit through the insertion hole of the block body and supplies power to the valve control unit.

Description

Snow melting fluid injection boundary block and snow melting fluid injection boundary block system including the same}

The present invention relates to a boundary block which is installed in a road or a bridge and divides a road through which a vehicle communicates with a pedestrian through which a pedestrian communicates. It is about a system including this.

Generally, when the snow falls in winter and the road surface freezes, vehicle accidents and pedestrian traffic accidents may occur.In particular, roads formed on mountainous terrain may have a higher melting speed than snow on roads due to shade. It is very slow, so if you don't remove snow on the road quickly, the road freezes and traffic accidents occur frequently.

Conventionally, in order to prevent freezing of the road, a method of spraying sand or calcium chloride on the road by manpower has been used. This method was not a fundamental solution to the problem of sliding accidents on the ice.

However, since other solutions have not been proposed, the use of the above method continues to require huge road snow removal costs every year.

In recent years, snow removal systems have been developed and applied in consideration of safety, economics, and environmental aspects to promote safety, speed, and smooth vehicle operation, but the application of these snow removal systems is difficult due to various improper conditions in mountainous terrain, tunnels, and bridges. Since it is difficult, it is urgent to prepare appropriate snow removal measures.

In other words, an ideal snow removal system should be snow cleared as soon as snow hits the ground, or before snow freezes, with no power or minimal use of snow removal, and the operation and maintenance of the installed system. There is no need to use manpower for remuneration, or a minimum manpower should be used.

In addition, there should be no damage to roads, vehicles and related facilities, and there should be no damage to vehicles or no traffic control when the system is operated.

However, since there is no conventional method of snow removal immediately after snow reaches the ground, snow is mainly applied by applying chemicals by snow after snowing, and when a large amount of snow falls, snow removal work becomes difficult due to rapid freezing of the road surface. Cases are frequent.

Therefore, there is a need for a precautionary system that can properly measure road conditions early, observe the surrounding weather, and immediately perform snow removal operations.

In order to solve this problem, various studies have been conducted to prevent road frost caused by winter snowfall.

For example, Korean Patent Laid-Open Publication No. 10-2000-0012771 (published on March 06, 2000) includes a heat supply pipe for supplying heat to the heat pipe, a heat supply device in a section of the road where frequent freezing occurs, and the heat supply device. A "road frost prevention system" is disclosed that includes a control device for controlling the. However, such a road ice prevention system has a problem in that a separate power is required for snow removal work, and the operator must maintain the system periodically.

In addition, Republic of Korea Utility Model Publication No. 20-0180855 (announced on May 15, 2000) "heat pipe for road ice" is disclosed, but only the idea that the use of the heat pipe for the ice equipment is described in terms of ideas Although only the configuration and application method of the specific invention for technically completing an invention are not described, it was unreasonable to apply.

On the other hand, the recent study on the snow melt injection system comprising a detector for measuring the weather variable, a control unit for controlling the system based on the detection result of the detection unit, an execution unit for spraying the snow melt on the road surface under the control of the control unit Is actively underway.

That is, the execution unit prevents or freezes the road surface during snowfall by installing a snow melt injection nozzle which directly sprays a predetermined snow melt on a road surface or by installing snow melt sprayed directly on the road by spraying snow melt on the road surface. It is to thaw the old road.

As described above, the road surface freezing detection and prevention system that directly sprays snow melt on the road surface using the snow spray nozzle can be sprayed relatively freely according to the structure of the road and the environment in which the road is located. There is an advantage that the installation conditions of the nozzle is easy.

That is, the above spray nozzles may be installed on a road structure such as a guard rail or a protective wall surface installed on the outer surface of the road, and may be buried on the floor of the road, if necessary, on the outer surface of the road or near the center line of the road. Can be installed on

As such, the snow melt injection system has advantages in performance and installation cost as compared to the conventional road freezing prevention system, but has the following problems.

Compared with the conventional heated road ice prevention system, the cost is easy to install and relatively inexpensive, while the distance that one snow melt injection system can cover is only 15 m to 20 m.

That is, since the snow melt must be injected at a high pressure, there is a problem that a large number of execution units including a high pressure pump, a snow melt storage container, and a control unit must be installed.

For example, when a snow melt injection system is installed in a section of 1 km, there are problems of installing about 50 execution parts, which requires a relatively high cost of a high-pressure pump, a melting snow storage container, and a control unit, and thus a considerable installation cost. There is this.

In addition, there is a problem that the snow melt injection system is not generally used due to the installation cost problem.

In addition, the injection nozzle is installed on the road or a barrier wall, such as guard rails, the case of buying on the road there is a problem that takes a lot of installation costs and difficult maintenance, installed on the guard rail or barrier wall Although the cost is relatively inexpensive and easy to maintain, there is a limitation that it can be installed only where there is a guard rail or a protective wall, and the nozzle is always exposed to the risk of damage due to external impact due to exposure of the spray nozzle. There is this.

The present invention was devised to solve the above problems and can increase the distance which is relatively in charge compared to the conventional snow melt spraying system, and is easy to install and relatively easy to install due to a structure in which a snow melt spraying device is built in the boundary block. To provide an inexpensive snow melt injection system.

The present invention has the following technical features as a means for achieving the problem to be solved by the present invention as described above.

In the present invention, the snow melt injection boundary block is a boundary block installed at a boundary point between the road and the sidewalk to distinguish the road and the sidewalk. Boundary block body consisting of a closing cover is formed to be opened to be opened so that the opening and the insertion hole formed in the longitudinal direction to penetrate the injection head mounting portion; A snow melt supply pipe inserted into an insertion hole of the boundary block body; A snow melt injection head connected to the snow melt supply pipe exposed to the spray head mounting portion of the boundary block body to inject snow melt; An automatic valve installed between the snow melt supply pipe and the snow melt injection head and automatically driven according to an external electric signal; A valve control unit controlling opening and closing of the automatic valve; And a cable connected to the valve control unit through an insertion hole of the boundary block body to supply power to the valve control unit and to transmit a signal for opening and closing the automatic valve.

In addition, the boundary block body is formed of a material using the waste tire;

The boundary block body may further include an extension block positioned between the boundary block body and the adjacent boundary block body and having a groove through which the snow melt supply pipe and the cable pass in the longitudinal direction.

In addition, the boundary block main body forms different projection jaws different from each other so that the exposed predetermined space for connecting the snow melt supply pipe and the cable is formed at both ends when the snow melt injection boundary blocks are coupled, and the exposed predetermined space is formed. Finishing means for closing the; characterized in that it further comprises.

In addition, the closing cover of the boundary block body further comprises a light emitting unit including an LED element electrically connected to the valve control unit to emit light.

In addition, the snow melt injection head is connected to the discharge side of the automatic valve to transfer the inlet pipe and the snow melt flows into the inlet pipe, the inflow of the snow melt flowing into the inlet pipe Corrugated pipe variable in length according to the pressure, and the snow melt conveyed through the corrugated pipe is discharged into the forward and reverse rotation through the following discharge hole formed in the forward and reverse rotation portion, when the corrugated pipe is relaxed, the forward and reverse rotation portion at a fine angle When the forward and reverse rotation part is rotated forward at a fine angle by the discharge pipe for forward rotation and the discharge pipe, the length is reduced by being pressed by the following pressing part provided on the lower surface of the forward and reverse rotation part, and the following injection hole formed in the following injection nozzle part At the same time as the snow melt is injected through the inlet pressure of the snow melt flowing into the inlet pipe is lowered the internal pressure of the forward and reverse rotation part This decreases, the length of the lower slack having a protruding rod that slides into the insertion hole formed in the center to the normal and reverse rotation, but a spring of the pressing portion pressing the reverse rotation to the normal and reverse rotation at a fine angle, the case; A forward and backward rotation part seated on an upper end of the lower case and including an insertion hole in which the protruding rod is slidably inserted into the inner circumferential surface, an insertion hole formed with a screw thread on the inner circumferential surface, a discharge hole through which the discharge pipe is discharged, and a pressing part for pressing the spring; And an injection nozzle part fixedly installed at an upper part of the forward and reverse rotation part and having at least one injection hole formed on an outer circumferential surface to spray the snow melt discharged into the forward and reverse rotation part through the injection hole, The bolt penetrates through the screw is inserted into the insertion hole is characterized in that the forward and reverse rotation unit and the injection nozzle unit is fixed to the bolt, it is possible to forward and reverse rotation at a fine angle.

In addition, the present invention snow melt injection boundary block system is formed by connecting a plurality of snow melt injection boundary block having the characteristics as described above, and by connecting the snow melt supply pipe and cable of each snow melt injection boundary block portion ; A storage container for storing the snow melt injected through the snow melt injection boundary block; A high pressure pump positioned between the storage container and the snow melt supply pipe to supply the snow melt stored in the storage container to the snow melt supply pipe at a high pressure; And a main controller which controls the operation of the high pressure pump and is connected with the cable of the boundary block to give a valve control signal to the valve control unit of each boundary block.

The present invention has the effect of increasing the relative charge relative to the conventional snow melt injection system through the injection control of the snow melt injection head using the automatic valve through the technical features as described above.

In addition, it is easy to install the snow melt injection head in the boundary block and the installation cost is relatively inexpensive.

In addition, it is possible to stably protect the snow melt injection system, but also has an effect of easy maintenance.

Furthermore, due to the effects as described above, there is an effect that the snow melt injection system can be easily applied to the entire road.

1 is a view for explaining the configuration of the present invention snow melt injection boundary block,
2 is a view for explaining a boundary block body of the present invention snow melt injection boundary block,
3 is a view for explaining an extension block of the present invention snow melt injection boundary block,
Figure 4 is a view for explaining the protruding jaw of the present invention snow melt injection boundary block body,
5 is a view for explaining a snow melt injection related configuration of the snow melt injection boundary block of the present invention;
Figure 6 is a view for explaining a snow melt injection head of the snow melt injection boundary block of the present invention,
7 is a view for explaining the snow melt injection boundary block system of the present invention.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the present invention with respect to one embodiment. In addition, it is to be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the invention. The following detailed description, therefore, is not to be taken in a limiting sense, and the scope of the present invention is defined only by the appended claims, along with the full scope of equivalents to which such claims are entitled. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention.

The present invention is shown in Figure 1 for explaining the configuration of the snow melt injection boundary block of the present invention closed the injection head mounting portion and the injection head mounting portion opened in the direction of the driveway and open to allow the snow melt to be injected A boundary block body 10 formed of a closing cover formed with a ball and an insertion hole formed in a longitudinal direction to penetrate the spray head mounting portion, and a snow melt supply pipe inserted into an insertion hole of the boundary block body 10 to supply snow melt ( 20 and the snow melt injection head 30 and the snow melt supply pipe 20 which are connected to the snow melt supply pipe 20 exposed to the spray head mounting portion of the boundary block body 10 to inject the snow melt supplied. And a valve control unit installed between the melted snow injection head 30 and controlling the opening and closing of the automatic valve 40 and the automatic valve 40 which are automatically driven according to an external electric signal. Electrically connected to the valve control unit 50 through the insertion hole of the 50 and the boundary block body 10 to supply power to the valve control unit 50 and to signal the opening and closing of the automatic valve 40. It is characterized by including the cable 60 for transmitting. Hereinafter, each structure is demonstrated in detail.

The boundary block body 10 is shown in Figure 2 for explaining the boundary block body of the snow melt injection boundary block of the present invention, the boundary block body 10 is generally on the road to distinguish the road and sidewalk. The boundary block body 10 according to the present invention is the same as the boundary stone installed in the material and the appearance (standard) can be manufactured as a precast using a granite, or concrete, like a conventional boundary stone.

In addition, as shown in FIG. 1 (b), the boundary block body 10-1 of the present invention may be formed by using a material using waste tire, that is, waste tire crushing chip or powder, and in this case, resources In this case, the boundary block body 10-1 formed from the material using waste tires has elasticity due to the characteristics of the material. Can be reduced.

The boundary block body 10 according to the present invention has the injection head mounting portion 110 opened in the driveway direction as shown in FIG.

The spray head mounting unit 110 is a snow melting liquid injection head 30, the automatic valve 40 and the valve control unit 50 is installed in the space for easy mounting as shown in FIG. It is preferable that the head 30, the automatic valve 40, and the valve controller 50 have a sufficient space to be easily mounted, and have a space having a front surface (roadway direction) and an upper surface open.

In addition, the boundary block body 10 is closed as shown in Fig. 1 (a) is the finishing head cover 110 is formed with an open hole 122 to close the injection head mounting portion 110 so that the snow melt can be injected ( 120). The opening hole 122 is formed to a size that the snow melt can be sprayed sufficiently to the road.

The finishing cover 120 is to protect the parts mounted on the injection head mounting portion 110 may be made of a metal material or a high strength synthetic resin material, and fastening means such as bolts 124 for maintenance. It has a structure that can be attached and detached to the boundary block body (10).

In addition, the boundary block body 10 has an insertion hole 130 formed in the longitudinal direction so that the snow melt supply pipe 20 and the cable 60 can penetrate the boundary block body 10 in the longitudinal direction. The insertion hole 130 is formed in a position where the snow melt supply pipe 20 and the cable 60 can be exposed from the injection head mounting portion 110, as shown in Figure 1 (a) As described above, the snow melting supply pipe 20 is inserted into the insertion hole 132 and the cable 60 is inserted into the insertion hole 134, or may be formed into one insertion hole.

In addition, the boundary block body 10 of the present invention is a boundary block body 10-2 adjacent to the boundary block body 10 as shown in the figure for explaining the extension block of the present invention snow melt injection boundary block. It further comprises an extension block 140 which is located between the grooves 142 through which the snow melt supply pipe 20 and the cable 60 penetrate in the longitudinal direction. The extension block 140 is preferably made of the same material as the boundary block body 10.

In addition, the length of the extension block 140 can be selectively applied by the user according to the situation, the direction of the groove 142 can also be formed downward or as shown in FIG. 3 above.

Through the extension block 140, the installation interval of the snow melt injection boundary block can be adjusted, and a space for more easily connecting the snow melt supply pipe 20 and the cable 60 can be secured.

In addition, the boundary block body 10 is shown in Figure 4 for explaining the protrusion of the snow melt injection boundary block of the present invention, snow melt injection boundary blocks (1-a, 1-b) according to the present invention , Different projections 152 and 154 are formed at both ends so that the exposed predetermined space S1 for connecting the snow melt supply pipe 20 and the cable 60 is formed at both ends thereof. And a finishing means 156 for closing the exposed predetermined space.

The boundary block body 10 as shown in FIG. 4 provides a feature that makes it easier to combine the snow melt injection boundary blocks during installation by assembling the snow melt injection boundary blocks. 20) and a predetermined space (S1) for the connection work of the cable 60 has a feature.

Shapes of the protruding jaws 152 and 154 and the finishing means 156 may be configured in various forms as needed by the user, and are not limited to the form shown in FIG.

Hereinafter, the snow melt injection related configuration will be described in detail. As shown in FIG. 5 to explain the snow melt injection related configuration of the snow melt injection boundary block of the present invention, the snow melt supply pipe 20, the snow melt injection head 30, and the automatic valve are shown in FIG. 5. 40, the valve control unit 50, and the cable 60.

The snow melt supply pipe 20 is connected to the inlet side of the automatic valve 40 through the T-shaped pipe 22, the snow melt injection head 30 is coupled to the discharge side of the automatic valve 40. .

At this time, the automatic valve 40 is a valve that automatically opens and closes the valve by an electrical signal, such as a solenoid valve, and is electrically connected to the valve controller 50.

The valve controller 50 is connected through a cable 60 and a connector 62 and receives power and control signals from the outside through the cable. The valve control unit 50 transmits a signal for opening and closing the automatic valve 40 to the automatic valve 40 according to a control signal of the automatic valve 40 input from the outside.

The snow melt injection head 30 may be various types of snow melt injection heads 30 which are generally adopted in a snow melt injection system, but preferably, snow melt injection of the present invention snow melt injection boundary block As shown in the drawings for explaining the head is composed of a lower case 310, the forward and reverse rotation unit 320 and the injection nozzle unit 330.

The lower case 310 is connected to the discharge side of the automatic valve 40 includes an inlet pipe 311 through which the snow melt flows, and transfers the snow melt flowing into the inlet pipe 311 and the inflow It includes a corrugated pipe (312) variable in length in accordance with the inlet pressure of the snow melt flowing into the pipe (311).

Discharge the snow melt conveyed through the corrugated pipe 312 into the forward and reverse rotation part 320 through the discharge hole 321 formed in the forward and reverse rotation part 320, when the corrugated pipe 312 is relaxed, the forward and reverse rotation part When the forward and backward rotation part 320 is rotated forward by a minute angle by the discharge pipe 313 and the discharge pipe 313 for forward rotation of the fine angle, the pressing portion provided on the bottom surface of the forward and reverse rotation part 320 Pressurized by the contraction length and the snow melt is injected through the injection hole 331 formed in the injection nozzle unit 330 and at the same time the inlet pressure of the snow melt flowing into the inlet pipe 311 lowers the reverse rotation unit 320 When the internal pressure is lowered, the length is relaxed and provided with a spring 314 for pressing the pressing part to rotate the forward and reverse rotation part 320 at a fine angle, the insertion hole 322 formed in the center of the forward and reverse rotation part 320. Sliding insert) Provided with a protruding rods (315).

The forward and reverse rotation part 320 is seated on the lower case 310, the protrusion rod 315 is inserted into the sliding slide therein and the insertion hole 322 and the discharge pipe 313 is formed through the inner circumferential surface through the melted It is provided with a discharge hole 321 for discharging the snow solution and a pressing portion for pressing the spring 314.

The injection nozzle unit 330 is fixedly installed on the top of the forward rotation part 320 and at least one injection hole 331 is formed on an outer circumferential surface thereof to the inside of the forward rotation part 320 through the injection hole 331. The discharged snow melt is injected.

In addition, the bolt penetrating through the upper portion of the injection nozzle unit 330 is screwed into the insertion hole so that the forward and reverse rotation unit 320 and the injection nozzle unit 330 is fixed by the bolt 322 at a fine angle It is characterized in that the forward and reverse rotation is possible.

Hereinafter, the present invention snow melt injection boundary block system will be described in detail with reference to the drawings for describing the present invention snow melt injection boundary block system.

The snow melt injection boundary block system 70 according to the present invention comprises a snow melt injection boundary block 710, a storage container 720, a high pressure pump 730, and a main control unit 740, and the storage container 720. ), The high pressure pump 730 and the main control unit 740 is connected to the snow melt injection boundary block 710, it is preferably installed in the enclosure (4) formed on the sidewalk (3).

The snow melt injection boundary block 710 is installed at a boundary point that separates the roadway 2 and the sidewalk 3 to drive the snow melt transported by the high pressure pump 730 with the same function as a general boundary stone. 2) is a means for performing the function to inject a plurality of snow melt injection boundary block (1) is made by connecting the snow melt supply pipe 20 and the cable 60 of each snow melt injection boundary block (1).

The storage container 720 is made of a metal tank or synthetic resin material to store the snow melt to be sprayed to the snow melt injection boundary block portion 710.

The high pressure pump 730 is for supplying the snow melt stored in the storage container 720 to the snow melt injection boundary block portion 710 through the snow melt supply pipe 20, as shown in FIG. It is connected through a pipe between the storage container 720 and the snow melt spraying boundary block 710 to supply the snow melt stored in the storage container 720 to the snow melt spraying boundary block 710 at high pressure.

The main control unit 740 controls the operation of the high pressure pump 730, is connected to the cable 60 of the boundary block portion 710 to the valve control unit 50 of each snow melt injection boundary block (1) Give the valve control signal. The valve control signal is implemented by an address value method, which is a method of driving the valve control unit 50 by giving an address value to each valve control unit 50.

That is, when snow accumulates on the roadway 2, the main control unit 740 detects this, or the main control unit 740 according to a command input from the outside in order to turn on / off the injection of the melted pressure pump 730. Control the operation of the valve, and is electrically connected through the valve control unit 50 and the cable 60 installed in each snow melt injection boundary block (1), while supplying power to each valve control unit 50, It provides a signal for controlling the opening and closing of the automatic valve 40 installed in the snow liquid injection boundary block (1).

That is, the entire boundary block portion 710 is not sprayed at the same time through the main control unit 740 and the valve control unit 50, and the snow solution is partially opened by controlling the opening and closing operation of the automatic valve 40. Spray.

For example, by the pressure of the high-pressure pump 730 it is possible to spray the melt of 20 snow melt injection boundary block (1), the snow melt boundary block portion 710 is 100 snow melt injection boundary block (1) ), The snow melt can be sprayed by selecting 20 out of 100 snow melt spraying boundary blocks 1. This increases the distance covered by one snow melt injection system.

In the above, the present invention has been described based on the preferred embodiments, but the technical idea of the present invention is not limited thereto, and modifications or changes can be made within the scope of the claims. It will be apparent to those skilled in the art, and such modifications and variations will belong to the appended claims.

1: snow melt injection boundary block
2: driveway
3: India
4: enclosure
10: boundary block body
20: snow melt supply pipe
30: snow melt injection head
40: automatic valve
50: valve control unit
60: cable
70: snow melt injection system
110: jet head mounting portion
120: finish cover
122: opening hole
124: Bolt
130: insertion hole
132: snow melt feed pipe insertion hole
134: cable insertion hole
140: extension block
152/154: protruding jaw
156: finishing means
310: lower case
320: forward and reverse rotation part
330: injection nozzle unit
710: boundary block portion
720: storage container
730: high pressure pump
740: main control unit

Claims (7)

In the boundary block that is installed at the boundary of the driveway and sidewalk to distinguish between the roadway and the sidewalk,
A boundary block body including an injection head mounting portion opened in a driveway direction, a closing cover formed with an open hole for dissolving the spray head mounting portion, and an insertion hole formed in a longitudinal direction to penetrate the spray head mounting portion;
A snow melt supply pipe inserted into an insertion hole of the boundary block body;
A snow melt injection head connected to the snow melt supply pipe exposed to the spray head mounting portion of the boundary block body to inject snow melt;
An automatic valve installed between the snow melt supply pipe and the snow melt injection head and automatically driven according to an external electric signal;
A valve control unit controlling opening and closing of the automatic valve; And
And a cable connected to the valve control unit through an insertion hole of the boundary block body to supply power to the valve control unit and to transmit a signal for opening and closing the automatic valve. The method of claim 1, wherein the boundary block body is
Snow melt injection boundary block, characterized in that molded from the material using the waste tire. The method of claim 1, wherein the boundary block body is
And an extension block positioned between the boundary block body and the adjacent boundary block body and having a groove through which the snow melting supply pipe and the cable pass. The method of claim 1, wherein the boundary block body is
Closing means for forming different projection projections so as to form a predetermined exposed space for connecting the snow melt supply pipe and the cable at both ends when the snow melt injection boundary blocks are combined; closing means for closing the exposed predetermined space; Snow melt injection boundary block further comprising. According to claim 1, wherein the closing cover of the boundary block body
And a light emitting part electrically connected to the valve control part and including an LED element to emit light. The method of claim 1, wherein the snow melt injection head
A corrugated pipe which is connected to the discharge side of the automatic valve and transfers the snow melt flowing into the inlet pipe, and the snow melt flowing into the inlet pipe, and whose length varies according to the inflow pressure of the snow melt flowing into the inlet pipe. And a discharge pipe configured to discharge the snow melt transferred through the corrugated pipe into the forward and reverse rotation part through a discharge hole formed in the forward and reverse rotation part, and when the corrugated pipe is relaxed, the forward and reverse rotation part is rotated forward at a fine angle and the discharge pipe. When the forward and reverse rotation part rotates forward at a fine angle, the forward and reverse rotation part is pressurized by the lower pressing part installed on the lower surface of the forward and reverse rotation part to shrink the length, and at the same time the snow melt is injected through the following injection hole formed in the following injection nozzle part. When the inlet pressure of the snow melt flowing into the inlet pipe is lowered and the internal pressure of the forward and reverse rotation is lowered, the length is relaxed. A lower case provided with a spring for pressing the pressing part to rotate the forward and backward rotation part at a fine angle, the projection rod slidingly inserted into the insertion hole formed at the center of the forward and reverse rotation part;
A forward and backward rotation part seated on an upper end of the lower case and including an insertion hole in which the protruding rod is slidably inserted into the inner circumferential surface, an insertion hole formed with a screw thread on the inner circumferential surface, a discharge hole through which the discharge pipe is discharged, and a pressing part for pressing the spring; And an injection nozzle part fixedly installed at an upper part of the forward and reverse rotation part and having at least one injection hole formed on an outer circumferential surface thereof to inject the snow melt discharged into the forward and reverse rotation part through the injection hole. And a bolt penetrating through the insertion hole is fixed to the forward and backward rotation part and the injection nozzle part by the bolt so that forward and reverse rotation is possible at a fine angle. A snow melt injection boundary block formed by connecting a plurality of snow melt injection boundary blocks according to any one of claims 1 to 6, and connecting a snow melt supply pipe and a cable of each snow melt injection boundary block;
A storage container for storing the snow melt injected through the snow melt injection boundary block;
A high pressure pump positioned between the storage container and the snow melt supply pipe to supply the snow melt stored in the storage container to the snow melt supply pipe at a high pressure; And
And a main control unit controlling the operation of the high pressure pump and connected to the cable of the boundary block to give a valve control signal to the valve control unit of each boundary block.

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