JP2000240029A - Concrete pipe having snow melting function, and snow melting apparatus or cooling apparatus using concrete pipe having snow melting function - Google Patents

Abstract

PROBLEM TO BE SOLVED: To warm and cool circulating water through a circulating pump by geothermal to be used in melting snow and cooling by burying a heat exchange pipe with a reinforcement bar in the peripheral wall of a concrete pipe to bury the concrete pipe in the ground. SOLUTION: This concrete pipe 11 is formed by spirally burying a heat exchange pipe 4 with a reinforcement bar in the peripheral wall, and the ends are fitted and connected to each other and buried in the ground to form a drain path. The heat exchange pipe 4 is connected to a heat exchange pipe 6A through a circulating pump 5 to circulat circulating water, and the heat exchange pipe 6A is arranged in meandering state to form a road heating snow melting surface 6. Thus, circulating water is warmed by geothermal in the heat exchange pipe 4 to perform snow melting action in the heat exchange pipe 6A. When warming by geothermal is insufficient, a boiler may be provided jointly. Further, the concrete pipe 11 may be buried in the ground, whereby circulating water is cooled by geothermal to be used in a cooling apparatus.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a concrete pipe having a snow melting function having a novel structure, a snow melting apparatus using a concrete pipe having a snow melting function, and a cooling system using a concrete pipe having a snow melting function. It concerns the device.

[0002]

2. Description of the Related Art Conventional snow melting and cooling systems are performed using fossil fuels.

[0003]

The above-mentioned prior art has the following problems. The use of fossil fuels leads to waste of resources and problems such as emission of carbon dioxide. The present invention has been made in view of such problems of the related art, and an object of the present invention is to provide one that can solve the above-described problems.

[0004]

Means for Solving the Problems In order to achieve the above object, the present invention is as follows. The first invention comprises a concrete pipe main body 2, a reinforcing bar 3, a heat exchange pipe 4, and a circulating pump 5. B. The concrete pipe main body 2 is configured as a tubular body. The reinforcing bar 3 includes an inner reinforcing bar 3A and an outer reinforcing bar 3B arranged inside a thick portion of the concrete pipe main body, and the inner reinforcing bar 3A is a coiled reinforcing bar formed in the longitudinal direction of the concrete pipe main body. 3A1 and a vertical reinforcing bar 3A2 connected at predetermined intervals around the coiled reinforcing bar.
The outer reinforcing bar 3B is composed of a coiled reinforcing bar 3B1 formed in the longitudinal direction of the concrete pipe main body and a vertical reinforcing bar 3B2 connected around the coiled reinforcing bar at a predetermined interval. The heat exchange pipe 4 includes a forward pipe 4A and a return pipe 4
B, the outgoing pipe 4A is piped linearly from the one end to the other end of the concrete pipe main body in a thick portion of the concrete pipe main body in a state of being attached to the reinforcing bar 3 and the outgoing pipe. The rear end 4A1 of the pipe 4A is drawn out from one end of the concrete pipe main body as a water supply port, and the return pipe 4B is connected to the front end 4 of the going pipe 4A.
While being connected to A2 and being spirally piped into the thick part of the concrete pipe main body, the front end 4B1 is drawn out from one end of the concrete pipe main body as a water outlet, and this heat exchange pipe 4 D. disposed between the reinforcing bar 3A and the outer reinforcing bar 3B; The circulation pump 5 is disposed between the rear end 4A1 of the outgoing pipe and the front end 4B1 of the return pipe, and is heated or cooled by the temperature in the ground while circulating water, antifreeze, or the like filled therein. This is a concrete pipe having a snow melting function and the like configured as described above.

[0005] The second invention comprises a concrete pipe main body 21;
It is composed of a reinforcing bar 3, a heat exchange pipe 4, and a circulation pump 5. The concrete pipe main body 21 includes a tubular body 21A, a socket 21B provided at one end of the tubular body, and a fitting portion 21 fitted to a socket provided at the other end of the tubular body.
C. B. B. The reinforcing bar 3 includes an inner reinforcing bar 3A and an outer reinforcing bar 3B arranged inside a thick portion of the concrete pipe main body. The heat exchange pipe 4 includes a forward pipe 4A and a return pipe 4
B, the outgoing pipe 4A is linearly piped to the thick portion of the concrete pipe main body while being attached to the reinforcing bar 3 from the socket 21B of the concrete pipe main body to the other end thereof, and The rear end 4A1 of the pipe 4A is drawn out from the socket 21B of the concrete pipe main body as a water supply port, and the return pipe 4B is connected to the front end 4A2 of the going pipe 4A and is located within the thick part of the concrete pipe main body. Plumbed in a spiral,
The front end 4B1 is drawn out from the socket portion 21B of the concrete pipe main body as a water outlet, and the heat exchange pipe 4
Is disposed between the inner reinforcing bar 3A and the outer reinforcing bar 3B; The circulation pump 5 is disposed between the rear end 4A1 of the outgoing pipe and the front end 4B1 of the return pipe, and is heated or cooled by the temperature in the ground while circulating water, antifreeze, or the like filled therein. This is a concrete pipe having a snow melting function and the like configured as described above.

A third invention is a concrete pipe main body 22,
It is composed of a reinforcing bar 3, a heat exchange pipe 4, and a circulation pump 5. The concrete pipe main body 22 includes a tubular body 22A and a tip 22B provided at a lower end of the tubular body. B. The reinforcing bar 3 includes an inner reinforcing bar 3A and an outer reinforcing bar 3B arranged inside a thick portion of the concrete pipe main body. The heat exchange pipe 4 includes a forward pipe 4A and a return pipe 4
B, the outgoing pipe 4A is piped linearly from the one end to the other end of the concrete pipe main body in a thick portion of the concrete pipe main body in a state of being attached to the reinforcing bar 3 and the outgoing pipe. The rear end 4A1 of the pipe 4A is drawn out from one end of the concrete pipe main body as a water supply port to the outside, and the return pipe 4B is connected to the front end 4A2 of the going pipe 4A and the inside of the thick part of the concrete pipe main body. The front end 4B1 is drawn out from one end of the concrete pipe body to the outside as a water outlet, and the heat exchange pipe 4 is disposed between the inner reinforcing bar 3A and the outer reinforcing bar 3B. D. The circulation pump 5 is disposed between the rear end 4A1 of the outgoing pipe and the front end 4B1 of the return pipe, and is heated or cooled by the temperature in the ground while circulating water, antifreeze, or the like filled therein. This is a concrete pipe having a snow melting function and the like configured as described above.

A fourth invention is directed to the concrete pipe having the snow melting function of the first invention or the second invention and the concrete pipe having the snow melting surface 6 for road heating and located on the left side having the snow melting function. A concrete pipe having a snow melting function and the like located on the right is connected to the rear end 4A1 of the going pipe of the concrete pipe having a snow melting function and the like located on the left and a concrete having a snow melting function and the like located on the right. A front end 4B1 of a concrete pipe having a snow-melting function and the like located on the left, and a front end 4B1 of a concrete pipe having a snow-melting function and the like located on the right while connecting the rear end 4A1 of the pipe going out of the pipe. 4B1 and is buried at a predetermined depth in the ground, and the snow melting surface 6 for road heating is placed on the ground in a heat exchange path for snow melting. The heat exchange pipe 6A for snow melting has an inlet 6A1 with a rear end 4A1 of a going pipe in a concrete pipe having a snow melting function and the like located on the right side, and a snow melting. The outlet 6A2 of the heat exchange pipe 6A is connected to the rear end 4 of the outgoing pipe 4 in the concrete pipe having a snow melting function located on the left.
A1 is connected, and the circulation pump 5 is a snow melting apparatus using a concrete pipe having a snow melting function and the like disposed between the inlet 6A1 of the heat exchange pipe 6A and the rear end 4A1 of the going pipe.

The fifth invention comprises a concrete pipe having a snow melting function or the like according to the first invention or the second invention, and a snow melting surface 6 for road heating. The snow melting surface 6 for road heating is constituted by arranging a heat exchange pipe 6A for snow melting on the ground in a meandering manner.
The rear end 4A1 of the outgoing pipe is connected to the inlet 6A1, the front end 4B1 of the return pipe is connected to the outlet 6A2 of the heat exchange pipe 6A for snow melting, and the circulation pump 5 is connected to the inlet 6A1 of the heat exchange pipe for snow melting. This is a snow melting apparatus using a concrete pipe having a snow melting function and the like disposed between the rear end 4A1 of the pipe.

According to a sixth aspect of the present invention, a concrete pipe having the snow melting function or the like according to the first or second aspect of the present invention and a concrete pipe having a snow melting function and the like having a snow melting function are vertically placed at a predetermined depth in the ground. The snow melting part 61 is configured to be embedded as
A, a heat exchange pipe 61B for melting snow is arranged in a meandering shape in A. The snow melting part 61 is disposed at the bottom of a concrete pipe having a snow melting function and the like, and the heat exchange pipe 61B for melting snow is provided.
A return pipe 4A and a return pipe 4B in the heat exchange pipe 4 are connected to both ends of the heat transfer pipe 4. The circulation pump 5 has a function of melting snow provided between a rear end 4A1 of the return pipe and a front end 4B1 of the return pipe. It is a snow melting apparatus using a concrete pipe having the same.

A seventh invention comprises a concrete pipe having a snow melting function and the like according to the first or second invention and a cooling fan coil unit 8, and a concrete pipe having a snow melting function and the like is vertically placed underground. The cooling fan coil unit 8 is configured by burying it at a predetermined depth, and the cooling fan coil unit 8 is configured by arranging a cooling heat exchange pipe 8B in a meandering shape on a panel-shaped frame 8A. The front end 4B1 of the return pipe is located at the entrance 8B1 of the pipe 8B.
However, the rear end 4A1 of the outgoing pipe is connected to the outlet 8B2 of the cooling heat exchange pipe 8B, and the circulation pump 5 is connected between the rear end 4A1 of the outgoing pipe and the outlet 8B2 of the cooling heat exchange pipe 8B. This is a cooling device using a concrete pipe provided with a snow melting function and the like.

An eighth invention is a concrete pipe having a snow melting function according to the third invention and a snow melting surface 6 for road heating.
And a concrete pipe having a snow melting function and the like is vertically buried in the ground with a predetermined depth to be used as a snow melting tank, and the snow melting surface 6 for road heating is provided with a heat exchange for snow melting on the ground. A pipe 6A is arranged in a meandering manner, and an inlet 6A of the heat exchange pipe 6A for snow melting is formed.
1 is connected to the front end 4B1 of the return pipe, the outlet 6A2 of the heat exchange pipe 6A for snow melting is connected to the rear end 4A1 of the going pipe, and the circulation pump 5 is connected to the front end 4B1 of the return pipe.
This is a snow melting apparatus using a concrete pipe having a snow melting function and the like disposed between the inlet 6A1 of the heat exchange pipe 6A for snow melting.

The ninth invention is directed to a concrete pipe having a snow melting function according to the third invention and a cooling fan coil unit 8.
And a concrete pipe having a snow-melting function or the like is vertically buried in the ground at a predetermined depth to be used as a cooling tank. The cooling fan coil unit 8 is cooled by a panel-shaped frame 8A. The heat exchange pipes 8B for cooling are arranged in a meandering manner.
At the entrance 8B1 of B, the front end 4B1 of the return pipe,
The rear end 4A1 of the outgoing pipe is connected to the outlet 8B2 of the cooling heat exchange pipe 8B, and the circulation pump 5 is arranged between the rear end 4A1 of the outgoing pipe and the outlet 8B2 of the cooling heat exchange pipe 8B. This is a cooling device using a concrete pipe having a snow melting function.

Any one of the fourth, fifth, sixth, and eighth inventions can be configured as follows. By providing the boiler 7 at the location where the circulation pump 5 is installed, heat is reinforced when the geothermal power is low.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below based on embodiments with reference to the drawings. Reference numeral 1 denotes a concrete pipe having a snow melting function according to the first aspect of the present invention, which comprises a concrete pipe main body 2, a reinforcing bar 3, a heat exchange pipe 4, and a circulation pump 5. (See FIG. 1) A. The concrete pipe main body 2 is configured as a tubular body. B. The reinforcing bar 3 includes an inner reinforcing bar 3A and an outer reinforcing bar 3B arranged inside a thick portion of the concrete pipe main body, and the inner reinforcing bar 3A is a coiled reinforcing bar formed in the longitudinal direction of the concrete pipe main body. 3A1 and a vertical reinforcing bar 3A2 connected at predetermined intervals around the coiled reinforcing bar.
It is composed of The outer reinforcing bar 3B is a coiled reinforcing bar 3B1 formed in the longitudinal direction of the concrete pipe main body.
And a vertical reinforcing bar 3B2 connected around the coiled reinforcing bar at a predetermined interval.

C. The heat exchange pipe 4 is composed of an outgoing pipe 4A and a return pipe 4B, and the outgoing pipe 4A has a reinforcing steel 3 extending from one end to the other end of the concrete pipe main body.
The rear end 4A1 of the outgoing pipe 4A is drawn out from one end of the concrete pipe main body as a water supply port to the outside, while being piped linearly to the thick part of the concrete pipe main body in a state of being attached to the concrete pipe main body. The pipe 4B is connected to the front end 4A2 of the outgoing pipe 4A and is spirally piped into the thick portion of the concrete pipe main body. The front end 4B1 is drawn out from one end of the concrete pipe main body as a water outlet. ing. And this heat exchange pipe 4
Is disposed between the inner reinforcing bar 3A and the outer reinforcing bar 3B, and the heat exchange pipe 4 is connected to the reinforcing bar 3 and the string 4C in some places. D. The circulation pump 5 is disposed between the rear end 4A1 of the outgoing pipe and the front end 4B1 of the return pipe, and is heated or cooled by the temperature in the ground while circulating water, antifreeze, or the like filled therein. It is configured as follows. E. FIG. The concrete pipe 1 having a snow-melting function or the like is used while being buried underground.

Numeral 11 denotes a concrete pipe having a snow melting function according to the second aspect of the present invention.
, A heat exchange pipe 4 and a circulation pump 5. (See FIG. 2) A. The concrete pipe main body 21 includes a tubular body 21A, a socket 21B provided at one end of the tubular body, and a fitting portion 21 fitted to a socket provided at the other end of the tubular body.
C. Therefore, the concrete pipe body 2
1 has a structure similar to a fume pipe used as a sewer pipe or the like. B. The reinforcing bar 3 includes an inner reinforcing bar 3A and an outer reinforcing bar 3B arranged inside a thick portion of the concrete pipe main body, and the inner reinforcing bar 3A is a coiled reinforcing bar formed in the longitudinal direction of the concrete pipe main body. 3A1 and a vertical reinforcing bar 3A2 connected at predetermined intervals around the coiled reinforcing bar.
It is composed of The outer reinforcing bar 3B is a coiled reinforcing bar 3B1 formed in the longitudinal direction of the concrete pipe main body.
And a vertical reinforcing bar 3B2 connected around the coiled reinforcing bar at a predetermined interval.

C. The heat exchange pipe 4 is composed of an outgoing pipe 4A and a return pipe 4B. The outgoing pipe 4A is attached to the reinforcing bar 3 from the socket 21B of the concrete pipe main body to the other end thereof, and the thick portion of the concrete pipe main body is provided. And a rear end 4A1 of the outgoing pipe 4A is drawn out from the socket 21B of the concrete pipe body as a water supply port, and is returned to the return pipe 4A.
B is connected to the front end 4A2 of the outgoing pipe 4A and is spirally piped into the thick part of the concrete pipe main body. The front end 4B1 is drawn out from the socket 21B of the concrete pipe main body as a water outlet. I have. The heat exchange pipe 4 is provided between the inner reinforcing bar 3A and the outer reinforcing bar 3B, and the heat exchanging pipe 4 is connected to the reinforcing bar 3 with a string at various places. D. The circulation pump 5 is disposed between the rear end 4A1 of the outgoing pipe and the front end 4B1 of the return pipe, and is heated or cooled by the temperature in the ground while circulating water, antifreeze, or the like filled therein. It is configured as follows. E. FIG. The concrete pipe 11 having a snow melting function or the like is used while being buried underground.

Reference numeral 111 denotes a concrete pipe having a snow melting function according to the third invention.
, A heat exchange pipe 4 and a circulation pump 5. (See FIG. 3) A. The concrete pipe main body 22 includes a tubular body 22A and a tip 22B provided at a lower end of the tubular body. Therefore, the concrete pipe main body 22 has the same structure as a pile used as a pile for foundation work. B. The reinforcing bar 3 includes an inner reinforcing bar 3A and an outer reinforcing bar 3B arranged inside a thick portion of the concrete pipe main body, and the inner reinforcing bar 3A is a coiled reinforcing bar formed in the longitudinal direction of the concrete pipe main body. 3A1 and a vertical reinforcing bar 3A2 connected at predetermined intervals around the coiled reinforcing bar.
It is composed of The outer reinforcing bar 3B is a coiled reinforcing bar 3B1 formed in the longitudinal direction of the concrete pipe main body.
And a vertical reinforcing bar 3B2 connected around the coiled reinforcing bar at a predetermined interval.

C. The heat exchange pipe 4 is composed of an outgoing pipe 4A and a return pipe 4B, and the outgoing pipe 4A has a reinforcing steel 3 extending from one end to the other end of the concrete pipe main body.
And the rear end 4A1 of the outgoing pipe 4A is drawn outward from one end of the concrete pipe main body as a water supply port, while being piped linearly to the thick part of the concrete pipe main body in a state of being attached to the concrete pipe main body. The return pipe 4B is connected to the front end 4A2 of the outgoing pipe 4A and is spirally piped into the thick part of the concrete pipe main body.
The front end 4B1 is drawn outward from one end of the concrete pipe main body as a water outlet. The heat exchange pipe 4 is provided between the inner reinforcing bar 3A and the outer reinforcing bar 3B, and the heat exchanging pipe 4 is connected to the reinforcing bar 3 with a string at various places. D. The circulation pump 5 is disposed between the rear end 4A1 of the outgoing pipe and the front end 4B1 of the return pipe, and is heated or cooled by the temperature in the ground while circulating water, antifreeze, or the like filled therein. It is configured as follows. E. FIG. The concrete pipe 111 having a snow melting function or the like is used while being buried underground.

A is a snow melting apparatus according to the fourth invention.
(Refer to FIGS. 4 and 5.) The concrete pipe 1 having the snow melting function or the concrete pipe 11 having the snow melting function is used. The concrete pipe 11 having the snow melting function will be described as an example. The configuration is as follows. It is composed of a concrete pipe 11 having a snow melting function and the snow melting surface 6 for road heating. A. The socket 21B of the concrete pipe 11 having the snow melting function and the like located on the right is fitted to the fitting part 21C of the concrete pipe 11 having the snow melting function and the like located on the left and the left. The rear end 4A1 of the outgoing pipe 4A of the concrete pipe 11 having a snow melting function and the like located at the right side and the rear end 4A1 of the going pipe 4A of the concrete pipe 11 having the snow melting function and the like located at the right side are connected to the left. The front end 4B1 of the return pipe 4B of the concrete pipe 11 having the snow melting function and the front end 4B1 of the return pipe 4B of the concrete pipe 11 having the snow melting function located on the right side are connected to each other under the ground. It is buried with depth. As described above, a drainage channel and the like are formed by connecting concrete pipes having a snow melting function or the like. B. The snow melting surface 6 for road heating is a known snow melting surface formed by arranging a heat exchange pipe 6A for snow melting on the ground in a meandering manner. The rear end 4A1 of the outgoing pipe in the concrete pipe 11 having a snow melting function and the like located on the right side is located at the inlet 6A1 of the heat exchange pipe 6A for snow melting, and the outlet 6A2 of the heat exchange pipe 6A for snow melting is located at the right side. The rear end 4A1 of the outgoing pipe in the concrete pipe 11 located on the left and having a snow melting function or the like is connected.

C. The circulation pump 5 is disposed between the inlet 6A1 of the heat exchange pipe 6A and the rear end 4A1 of the going pipe. While the circulation pump 5 circulates water, antifreeze, and the like filled in the heat exchange pipe 4 and the heat exchange pipe 6A for snow melting, the heat exchange pipe 4 is heated by the geothermal heat, and the heat for snow melting is heated. The exchange pipe 6A performs a snow melting action. This operation can be repeated to reliably perform snow melting. In this case, by providing the boiler 7 at the installation location of the circulation pump 5, heat can be reinforced when the geothermal power is low. D. In the case of the concrete pipe 1 having a snow melting function,
Since there is no fitting portion 21C to the socket portion and no socket portion 21B, the concrete pipe 1 having a snow melting function and the like located on the left side and the concrete pipe 1 having a snow melting function and the like located on the right side need to be connected. Using a well-known socket.

Reference numeral 1 denotes a snow melting apparatus according to the fifth invention.
(Refer to FIG. 6) The concrete pipe 1 having the snow melting function or the concrete pipe 11 having the snow melting function is used. The concrete pipe 11 having the snow melting function will be described as an example. The configuration is as follows. It is composed of a concrete pipe 11 having a snow melting function and the snow melting surface 6 for road heating. A. The concrete pipe 11 having a snow melting function or the like is vertically buried in the ground with a predetermined depth to constitute a snow melting tank. B. The snow melting surface 6 for road heating is a known snow melting surface formed by arranging a heat exchange pipe 6A for snow melting on the ground in a meandering manner. The rear end 4A1 of the outgoing pipe is connected to the inlet 6A1 of the heat exchange pipe 6A for snow melting, and the front end 4B of the return pipe is connected to the outlet 6A2 of the heat exchange pipe 6A for snow melting.
1 are connected. A cover (not shown) for preventing falling may be attached to the socket portion 21B.

C. The circulation pump 5 is disposed between the inlet 6A1 of the heat exchange pipe for snow melting and the rear end 4A1 of the going pipe. While the circulation pump 5 circulates water, antifreeze, and the like filled in the heat exchange pipe 4 and the heat exchange pipe 6A for snow melting, the heat exchange pipe 4 is heated by the geothermal heat, and the heat for snow melting is heated. The exchange pipe 6A performs a snow melting action. This operation can be repeated to reliably perform snow melting. In this case, by providing the boiler 7 at the installation location of the circulation pump 5, heat can be reinforced when the geothermal power is low. D. Although not shown, a bottom plate can be provided on the lower end surface of the fitting portion 21C of the concrete tube 11 having a snow melting function or the like to the socket portion. E. FIG. In the case of the concrete pipe 1 having a snow melting function,
A concrete pipe 11 having no fitting part 21C and socket part 21B to the socket part but having a snow melting function or the like.
As in the case of (1), it is natural that it can be used as a snowmelt tank by being buried in the ground vertically at a predetermined depth using a socket.

Reference numeral 2 denotes a snow melting apparatus according to the sixth invention.
(Refer to FIGS. 7 and 8.) The concrete pipe 1 having the snow melting function or the concrete pipe 11 having the snow melting function is used. The concrete pipe 11 having the snow melting function will be described as an example. The configuration is as follows. It comprises a concrete pipe 11 having a snow melting function and a snow melting part 61. A. The concrete pipe 11 having a snow melting function or the like is vertically buried in the ground at a predetermined depth to be used as a snow melting tank. B. The snow melting portion 61 is a known structure in which a heat exchange pipe 61B for melting snow is arranged in a meandering shape in a predetermined frame 61A. The snow melting part 61 is provided at the bottom of the concrete pipe 11 having a snow melting function and the like, and a heat exchange pipe 61 for snow melting is provided.
At both ends of B, the outgoing pipe 4A in the heat exchange pipe 4
And the return pipe 4B are connected. Socket part 21B
It is preferable to attach a lid (not shown) for preventing fall.

C. The circulation pump 5 is provided at the rear end 4 of the outgoing pipe.
It is arranged between A1 and the front end 4B1 of the return pipe.
While the circulation pump 5 circulates water, antifreeze, and the like filled inside the heat exchange pipe 4 and the snow exchange heat exchange pipe 61A, the heat exchange pipe 4 is heated by the geothermal heat, and the heat for snow melting is heated. The exchange pipe 61B performs a snow melting action. This operation can be repeated to reliably perform snow melting. In this case, by providing the boiler 7 at the installation location of the circulation pump 5, heat can be reinforced when the geothermal power is low. D. Although not shown, a bottom plate can be provided on the lower end surface of the fitting portion 21C of the concrete tube 11 having a snow melting function or the like to the socket portion. E. FIG. In the case of the concrete pipe 1 having a snow melting function,
A concrete pipe 11 having no fitting part 21C and socket part 21B to the socket part but having a snow melting function or the like.
As in the case of (1), it is natural that it can be used as a snow melting tank by burying it at a predetermined depth in the ground vertically using a known socket.

Reference numeral 3 denotes a cooling device as the seventh invention.
(Refer to FIG. 9) The concrete pipe 1 having the snow melting function or the concrete pipe 11 having the snow melting function is used. The concrete pipe 11 having the snow melting function will be described as an example. The configuration is as follows. It comprises a concrete pipe 11 having a snow melting function and the like, and a cooling fan coil unit 8. A. The concrete pipe 11 having a snow-melting function or the like is vertically buried in the ground with a predetermined depth to constitute a cooling tank. B. The cooling fan coil unit 8 includes a panel-shaped frame 8A.
This is a known structure in which a cooling heat exchange pipe 8B is arranged in a meandering shape. The front end 4B1 of the return pipe is connected to the inlet 8B1 of the cooling heat exchange pipe 8B, and the rear end 4A1 of the going pipe is connected to the outlet 8B2 of the cooling heat exchange pipe 8B. A cover (not shown) for preventing falling may be attached to the socket portion 21B.

C. The circulation pump 5 is provided at the rear end 4 of the outgoing pipe.
It is arranged between A1 and the outlet 8B2 of the cooling heat exchange pipe 8B. While circulating water, antifreeze, and the like filled in the heat exchange pipe 4, the cooling heat exchange pipe 8B, and the like by the circulation pump 5, the heat exchange pipe 4
The portion is cooled by geothermal heat, and the cooling fan coil unit 8 performs a cooling function. Such operations can be repeated to perform reliable cooling. D. Although not shown, a bottom plate can be provided on the lower end surface of the fitting portion 21C of the concrete tube 11 having a snow melting function or the like to the socket portion. E. FIG. In the case of the concrete pipe 1 having a snow melting function,
A concrete pipe 11 having no fitting part 21C and socket part 21B to the socket part but having a snow melting function or the like.
As in the case of (1), it is natural that it can be used as a cooling tank by burying it in the ground vertically and at a predetermined depth using a known socket.

B is a snow melting apparatus according to the eighth invention.
(Refer to FIGS. 10 and 11.) A concrete pipe 111 having a snow melting function and the like is used. The configuration is as follows. It comprises a concrete pipe 111 having a snow melting function and the snow melting surface 6 for road heating. A. The concrete pipe 111 having a snow melting function or the like is vertically buried in the ground with a predetermined depth and used as a snow melting tank. B. The snow melting surface 6 for road heating is a known snow melting surface formed by arranging a heat exchange pipe 6A for snow melting on the ground in a meandering manner. The front end 4B1 of the return pipe is provided at the inlet 6A1 of the heat exchange pipe 6A for snow melting, and the rear end 4A of the outgoing pipe is provided at the outlet 6A2 of the heat exchange pipe 6A for snow melting.
1 are connected. A cover (not shown) for preventing falling may be attached to the socket portion 21B.

C. The circulation pump 5 is connected to the front end 4 of the return pipe.
B1 and the inlet 6A1 of the heat exchange pipe 6A for melting snow. While circulating water, antifreeze, and the like filled in the heat exchange pipe 4 and the snow exchange heat exchange pipe 6A by the circulation pump 5, the heat exchange pipe 4
The part is cooled by geothermal heat and heat exchange pipe 6A for snow melting
In part, it acts as a snowmelt. This operation can be repeated to reliably perform snow melting. In this case, by providing the boiler 7 at the installation location of the circulation pump 5, heat can be reinforced when the geothermal power is low. (See Fig. 11)

B is a cooling device according to the ninth invention.
(Refer to FIG. 12) A concrete pipe 111 having a snow melting function and the like is used. The configuration is as follows. It is composed of a concrete pipe 111 having a snow melting function and the like, and a cooling fan coil unit 8. A. The concrete pipe 111 having a snow melting function or the like is vertically buried in the ground at a predetermined depth and used as a cooling tank. B. The cooling fan coil unit 8 includes a panel-shaped frame 8A.
This is a known structure in which a cooling heat exchange pipe 8B is arranged in a meandering shape. The front end 4B1 of the return pipe is connected to the inlet 8B1 of the cooling heat exchange pipe 8B, and the rear end 4A1 of the going pipe is connected to the outlet 8B2 of the cooling heat exchange pipe 8B.

C. The circulation pump 5 is provided at the rear end 4 of the outgoing pipe.
A1 and an outlet 8B2 of the cooling heat exchange pipe 8B in the cooling fan coil unit 8.
While the circulation pump 5 circulates water, antifreeze, and the like filled in the heat exchange pipe 4, the cooling heat exchange pipe 8A, and the like, the heat exchange pipe 4 is cooled by geothermal heat, and the heat exchange pipe for cooling is used. The pipe 8A performs a cooling operation. Such operations can be repeated to perform reliable cooling.

[0032]

EXAMPLES Further, as a result of an experiment under the following conditions,
Very good results were obtained. 1. When used as a drainage channel, the drainage heat and the underground heat (heat of the part more than 10m from the surface of the ground) are always constant regardless of the time, so that a certain temperature can be obtained, making it ideal for snow melting and cooling for the purpose of use. It was thought that fossil fuel consumption could be reduced. 2. If a heat exchange pipe made of a flexible cross-linked polyethylene is used, it is excellent in durability, impact resistance, chemical resistance, etc., and is easy to manufacture.

[0033]

Since the present invention is configured as described above, the following effects can be obtained. 1. In the concrete pipes having the snow melting function according to the first, second and third inventions, since the heat exchange pipes are provided in the concrete pipe main body in a state of being attached to the reinforcing bar, the pipes are provided at an equal pitch. State can be secured,
The purpose of utilizing heat is reliably achieved. 2. In the concrete pipes having the snow melting function of the first invention, the second invention, and the third invention, the heat exchange pipe is disposed between the inner rebar and the outer rebar in the concrete pipe main body. Even if there is an external or internal impact on the concrete pipe main body, the heat exchange pipe can be reliably protected. 3. In the concrete pipes having the snow melting function according to the first, second and third inventions, water, antifreeze, etc., passing through the heat exchange pipes are always constant irrespective of time due to geothermal heat, drainage heat, ground heat, and the like. It can be heated in a state. Since the temperature can be reliably obtained in this manner, it can be used for snow melting, cooling, and the like. Furthermore, a constant temperature can always be obtained in a state where consumption of fossil fuels and the like is reduced and emission of carbon dioxide is reduced.

4. Since a concrete pipe having a snow melting function having the above effects is used, A. In the snow melting apparatus according to the fourth aspect of the present invention, it is possible to obtain a constant temperature from drainage heat, geothermal heat, and the like while acting as a drainage passage or the like, and to exert this on a snow melting surface for road heating to exert a snow melting effect. it can. Therefore, it is effective for hot water drainage in hot springs. B. In the snow melting apparatus according to the fifth aspect of the present invention, a certain temperature is obtained from geothermal heat or the like, and the temperature is applied to the snow melting surface for road heating to exert a snow melting action. C. In the snow melting apparatus according to the sixth aspect of the present invention, a certain temperature is obtained from geothermal heat or the like, and the temperature is applied to the snow melting portion in the snow melting tank to exert a snow melting action. D. In the cooling device according to the seventh aspect of the present invention, a constant temperature can be obtained from geothermal heat or the like, and the temperature can be applied to the cooling device body to exert a cooling effect. E. FIG. In the snow melting apparatus according to the eighth aspect of the present invention, a certain temperature is obtained from geothermal heat or the like, and the temperature is applied to the snow melting surface for road heating to exert a snow melting effect. F. In the cooling device according to the ninth aspect of the present invention, a constant temperature can be obtained from geothermal heat or the like, and the temperature can be applied to the cooling device body to exert a cooling effect. 5. In addition, it has effects such as being inexpensive to manufacture, easy to assemble because of a small number of parts, and economical.

[Brief description of the drawings]

FIG. 1 is a left side view in which a part of the first invention is cut away.

FIG. 2 is a left side view in which a part of the second invention is cut away.

FIG. 3 is a left side view in which a part of the third invention is cut away.

FIG. 4 is a partially cutaway perspective view of a snow melting apparatus according to a fourth invention.

FIG. 5 is a partially cutaway perspective view of another embodiment of the snow melting apparatus of the fourth invention.

FIG. 6 is a perspective view of a snow melting apparatus according to a sixth invention, in which a part of the snow melting apparatus is cut away.

FIG. 7 is a perspective view of the snow melting apparatus according to a sixth invention, in which a part of the snow melting apparatus is cut away.

FIG. 8 is a partially cutaway perspective view of another embodiment of the snow melting apparatus of the sixth invention.

FIG. 9 is a perspective view of a cooling device according to a seventh aspect of the present invention, with a part thereof cut away.

FIG. 10 is a configuration view of the snow melting apparatus according to the eighth invention in which a part is cut away.

FIG. 11 is a configuration view of another embodiment of the snow melting apparatus according to the eighth invention, in which a part is cut away.

FIG. 12 is a configuration diagram of a cooling device of a ninth invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Concrete pipe with snow melting function etc. of 1st invention 2 Concrete pipe main body 3 Reinforcing bar 4 Heat exchange pipe 11 Concrete pipe with snow melting function etc. of 2nd invention 21 Concrete pipe main body 111 Concrete pipe with snow melting function etc. of 3rd invention 22 Concrete pipe main body A Snow melting device of the fourth invention i1 Snow melting device of the fifth invention I2 Snow melting device of the sixth invention I3 Cooling device of the seventh invention b Snow melting device of the eighth invention b1 Cooling device of the ninth invention

Claims (10)

[Claims] 1. A concrete pipe main body (2), a reinforcing bar (3), a heat exchange pipe (4), and a circulation pump (5). The concrete pipe main body (2) is formed in a tubular body. The reinforcing bar (3) is composed of an inner reinforcing bar (3A) and an outer reinforcing bar (3B) arranged inside a thick portion of the concrete pipe main body, and the inner reinforcing bar (3A) is a longitudinal member of the concrete pipe main body. Coiled rebar formed with direction (3A1)
And a vertical reinforcing bar (3A2) connected around the coiled reinforcing bar at a predetermined interval, and an outer reinforcing bar (3B).
Is composed of a coiled reinforcing bar (3B1) formed in the longitudinal direction of the concrete pipe main body and a vertical reinforcing bar (3B2) connected around the coiled reinforcing bar at a predetermined interval. The heat exchange pipe (4) It is composed of an outgoing pipe (4A) and a return pipe (4B). The outgoing pipe (4A) extends from one end to the other end of the concrete pipe main body while being attached to the reinforcing bar (3). In addition to being piped linearly in the thick portion, the rear end (4A1) of the outgoing pipe (4A) is drawn out from one end of the concrete pipe body as a water supply port, and is returned to the return pipe (4A).
B) is connected to the front end (4A2) of the outgoing pipe (4A) and is spirally piped into the thick part of the concrete pipe main body. The front end (4B1) serves as a water outlet at one end of the concrete pipe main body. This heat exchange pipe (4) is disposed between the inner rebar (3A) and the outer rebar (3B), and the circulation pump (5) is connected to the rear end (4A1) of the going pipe. ) And the front end (4B1) of the return pipe, and are configured to be heated or cooled by the temperature in the ground while circulating water, antifreeze, and the like filled therein. A concrete pipe with a characteristic snow melting function. 2. A concrete pipe main body (21), a reinforcing steel bar (3), a heat exchange pipe (4), and a circulation pump (5), wherein the concrete pipe main body (21) has a tubular body (21A). ,
A socket (21) provided at one end of the tubular body
B) and a fitting part (21C) to a socket part provided at the other end of the tubular body, and the reinforcing bar (3) is arranged inside a thick part of the concrete pipe main body. The heat exchange pipe (4) is composed of a going pipe (4A) and a return pipe (4B), and the going pipe (4A) is a socket of a concrete pipe main body. From the part (21B) to the other end, the pipe is linearly piped to the thick part of the concrete pipe main body while being attached to the reinforcing bar (3), and the rear end (4A1) of the going pipe (4A) is The return pipe (4B) is connected to the front end (4A2) of the outgoing pipe (4A) while being drawn out of the socket (21B) of the concrete pipe main body as a water supply port. Nisu The front end (4B1) is drawn out from the socket (21B) of the concrete pipe main body as a water outlet to the outside, and the heat exchange pipe (4) is provided with an inner rebar (3A) and an outer rebar (3B1). The circulation pump (5) is disposed between the rear end (4A1) of the outgoing pipe and the front end (4B1) of the return pipe, and circulates water, antifreeze, and the like filled therein. A concrete pipe having a snow melting function or the like, wherein the concrete pipe is configured to be heated or cooled by the temperature of the ground during the heating. 3. A concrete pipe main body (22), a reinforcing steel bar (3), a heat exchange pipe (4), and a circulating pump (5), wherein the concrete pipe main body (22) has a tubular body (22A). ,
The rebar (3) is composed of an inner rebar (3A) and an outer rebar (3A) arranged inside the thick part of the concrete pipe main body. 3B), the heat exchange pipe (4) is composed of an outgoing pipe (4A) and a return pipe (4B), and the outgoing pipe (4A) is reinforced from one end to the other end of the concrete pipe main body. In addition to the concrete pipe main body, the rear end (4A1) of the outgoing pipe (4A) serves as a water supply port from one end of the concrete pipe main body while being attached to the thick part of the concrete pipe main body in a state attached to 3). The return pipe (4B) is drawn out and connected to the front end (4A2) of the going pipe (4A), and is also spirally piped into the thick part of the concrete pipe main body, and the front end (4B1) is Water The heat exchange pipe (4) is disposed between the inner reinforcing bar (3A) and the outer reinforcing bar (3B), and the circulation pump (5) is Is disposed between the rear end (4A1) of the outgoing pipe and the front end (4B1) of the return pipe, and is heated or cooled by the temperature in the ground while circulating water, antifreeze, and the like filled therein. A concrete pipe having a snow-melting function or the like, characterized in that it is configured as follows. 4. A concrete pipe having a snow melting function or the like according to claim 1 or 2, and a concrete pipe having a snow melting function or the like located on the left side, which is constituted by a snow melting surface for road heating (6). And a concrete pipe having a snow melting function and the like located on the right side are connected, and a rear end (4A1) of the going pipe of the concrete pipe having a snow melting function and the like located on the left side and a snow melting function and the like located on the right side are connected. The rear end of the outgoing concrete pipe (4A
The front end (4B1) of a return pipe of a concrete pipe having a snow melting function and the like located on the left side while connecting 1).
And the front end (4B1) of the return pipe of the concrete pipe having a snow melting function etc. located on the right side,
The snow melting surface for road heating (6) is buried in the ground with a predetermined depth, and the heat exchange pipe (6A) for snow melting is mounted on the ground.
The rear end (4A1) of the outgoing pipe in the concrete pipe having a snow melting function and the like located on the right is provided at the entrance (6A1) of the heat exchange pipe for snow melting (6A). The outlet (6A2) of the snow-melting heat exchange pipe (6A) has a rear end (4A) of a going pipe in a concrete pipe located on the left and having a snow-melting function or the like.
1) is connected, and the circulation pump (5) is connected to the inlet (6A1) of the heat exchange pipe (6A) and the rear end of the going pipe (4A).
1) A snow melting device using a concrete pipe having a snow melting function or the like, which is provided between 1). 5. A concrete pipe having a snow melting function and the like according to claim 1 and a snow melting surface for road heating (6), wherein the concrete pipe having a snow melting function and the like is vertical and underground. The snow melting tank for road heating is constructed by burying it at a predetermined depth in the ground, and the snow melting surface for road heating (6)
A) is arranged in a meandering manner, and the rear end (4A1) of the outgoing pipe is provided at the entrance (6A1) of the heat exchange pipe for snow melting (6A), and the heat exchange pipe (6A) for snow melting is also provided. The front end (4B1) of the return pipe is connected to the outlet (6A2), and the circulation pump (5) is disposed between the inlet (6A1) of the heat exchange pipe for snow melting and the rear end (4A1) of the going pipe. A snow melting apparatus using a concrete pipe having a snow melting function and the like. 6. A concrete pipe having a snow melting function or the like according to claim 1 or 2 and a concrete pipe having a snow melting function or the like having a snow melting function and having a predetermined depth under the ground in a vertical state. The snow melting part (61) is configured by arranging a heat exchange pipe (61B) for snow melting in a meandering shape in a predetermined frame (61A). (61) is disposed at the bottom of a concrete pipe having a snow melting function and the like, and a heat exchange pipe (4) is provided at both ends of a heat exchange pipe (61B) for snow melting.
The return pipe (4B) and the return pipe (4B) are connected to each other, and the circulation pump (5) is connected to the rear end (4A)
1) A snow melting apparatus using a concrete pipe having a snow melting function and the like, which is disposed between the return pipe and a front end (4B1) of the return pipe. 7. A concrete pipe having a snow melting function or the like according to claim 1 or 2 and a cooling fan coil unit (8), and the concrete pipe having a snow melting function or the like is vertically placed in the ground. The cooling fan coil unit (8) is configured by being buried with a predetermined depth, and the cooling fan coil unit (8) is configured by arranging a cooling heat exchange pipe (8B) in a meandering shape on a panel-shaped frame (8A). The front end (4B1) of the return pipe is located at the entrance (8B1) of the cooling heat exchange pipe (8B), and the rear end (4A) is located at the exit (8B2) of the cooling heat exchange pipe (8B).
1) is connected, and the circulation pump (5) is disposed between the rear end (4A1) of the outgoing pipe and the outlet (8B2) of the cooling heat exchange pipe (8B). A cooling device using a concrete pipe having functions and the like. 8. A concrete pipe having the snow melting function and the like according to claim 3 and a snow melting surface for road heating (6), and the concrete pipe having a snow melting function and the like is vertically placed at a predetermined depth in the ground. The snow melting surface for road heating (6) is constituted by arranging a heat exchange pipe (6A) for snow melting on the ground in a meandering manner. Pipe (6A)
The front end (4B1) of the return pipe is located at the entrance (6A1)
Further, a rear end (4A1) of the going pipe is connected to an outlet (6A2) of the heat exchange pipe for snow melting (6A), and a circulation pump (5) is connected to a front end (4B1) of the return pipe and a heat exchange pipe for snow melting. A snow melting apparatus using a concrete pipe having a snow melting function or the like, which is provided between an inlet (6A1) of (6A). 9. A concrete pipe having a snow melting function according to claim 3 and a cooling fan coil unit (8), and the concrete pipe having a snow melting function and the like is vertically placed at a predetermined depth in the ground. The cooling fan coil unit (8) is configured to be embedded and used as a cooling tank, and the cooling fan coil unit (8) is configured by arranging a cooling heat exchange pipe (8B) in a meandering shape on a panel-shaped frame (8A). The front end (4B1) of the return pipe is at the inlet (8B1) of the cooling heat exchange pipe (8B), and the rear end (4A1) of the going pipe is at the outlet (8B2) of the cooling heat exchange pipe (8B). The circulation pump (5) is connected to the rear end (4A
1) and the outlet (8B2) of the cooling heat exchange pipe (8B)
A cooling device using a concrete pipe having a snow melting function or the like, which is disposed between the cooling pipes. 10. The construction according to claim 4, wherein a boiler (7) is additionally provided at a place where the circulation pump (5) is installed, so that the heat can be reinforced when the geothermal power is low. 6. A snow melting apparatus using a concrete pipe having the snow melting function according to claim 8.