JP3623921B2 - Snow melting equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention has a novel configurationSnow melting equipmentIt is about.
[0002]
[Prior art]
The conventional snow melting machine has the following configuration.
First. About snow melting machine
1. The conventional snow melting heat source used by the snow melting machine is one that heats the furnace body with a flame from a burner and uses the direct heat (direct heat utilization), or one that uses the exhaust heat emitted from the furnace body (exhaust heat utilization) The water that is stored in the snow melting room is heated and pumped with a pump (using water), and a hot water heat source is prepared separately and used (boiler use). An actual snow melting machine uses a combination of these heat sources. And melt snow.
A. Snow melting using the direct heat of the furnace body heated by the flame from the burner and the exhaust heat from the exhaust port of the furnace body. (Direct heat and exhaust heat utilization type)
B. Direct heat and exhaust heat utilization type and water is accumulated inside the snow melting chamber, which is warmed and pumped up by a pump and sprayed on the snow to melt the snow. (Use of direct heat and exhaust heat and watering)
C. The water is heated by direct heat of the furnace body that is submerged in water and heated by the flame of a burner, and this is pumped up and projected onto snow to melt snow. (Exhaust is released through a flue outside the snowmelt room)
D. The entire furnace body is submerged in water, the exhaust port is exposed to the surface of the water, water is heated by direct heat from the furnace body, pumped up by a pump, projected to snow, and the exhaust heat is used to melt snow.
E. Part or all of the furnace body disposed in the snow melting chamber is submerged in water.
2. An overflow type is generally used to take out the snowmelt water from the snowmelt chamber, and the drainage outlet is attached to the wall of the snowmelt chamber.
3. Carbon dioxide gas is contained in the exhaust from the furnace body, and the exhaust gas is discharged from the drain outlet together with the snowmelt water. As a preventive measure, the exhaust outlet cover is covered with an exhaust prevention cover. Is lowered below the surface of the water.
4). When the lid of the snow melting chamber covering the snow melting chamber is opened in order to secure a wide snow inlet, the snow melting chamber is completely released from the atmosphere.
5). In the watering combination type, there are those that project water directly onto the snow from the water nozzle and those that are provided with a reflector.
[0003]
6). In the conventional snow melting machine, in order to take in air necessary for the combustion of the burner arranged in the burner chamber, there is the following.
A. An opening is provided in a part of the lid of the burner chamber, and this opening is covered with a lid when not in use, and the lid is opened when used, and the lid is attached so as to be freely opened and closed.
B. An opening is provided in a part of the lid of the burner chamber, and a double chimney (a pair of an intake cylinder and an exhaust cylinder) is attached to this opening, exhausting from the inside of the double chimney, and the chimney that intakes the outside Some are installed when using a snow melting machine, and removed when not in use and cover the opening with a lid.
C. An opening is provided in a part of the lid of the burner chamber, a cover that covers the opening is provided in the opening, an intake cylinder is attached to the inside of the lid, and an operation box of a snow melting machine is attached to the front side of the intake cylinder, When the lid covering the opening is closed, the intake cylinder and the control box are stored in the burner chamber.When using a snow melting machine, opening the lid covering the opening covers the burner chamber lid and opening. There are some which can be taken out by rotating the intake cylinder and the operation box using the hinge attached to the lid as a fulcrum.
D. Some burner combustion air intakes are provided in the wall of the burner chamber, pipes are connected to the burner chamber walls, and an intake port and an operation unit are provided at a location away from the snow melting machine.
2nd. About the operation method of the snow melting machine
The method of starting the watering snowmelter is to start the submersible pump first and then start the burner. The stopping method is to stop the burner first and then stop the submersible pump. However, in order to ensure safety in the event of a power outage, the circuit configuration is such that the electric circuit itself cannot be started and stopped by itself.
[0004]
[Problems to be solved by the invention]
Those described in the prior art have the following problems.
First. About snow melting machine
1. Even with a system that uses direct heat and exhaust heat of the furnace body, or a combination type that uses water spray, the water that is stored in the snow melting chamber freezes due to a decrease in the outside air temperature. It becomes ice.
If the snow melter is used frequently, it freezes little due to a drop in water temperature and is thin ice even if it freezes.However, if the outside temperature is low or the snow is cold and the surface is more chilly, the ice Even if both the direct heat of the furnace body and the exhaust heat are used together, the ice cannot be easily defrosted.
2. In a snow melting machine that uses water spray together, an exhaust prevention cover and ice covering the snow melting water outlet cause the following phenomenon.
A. The cover covering the snowmelt drainage outlet attached to the wall of the snowmelt chamber has its lower part lowered below the water surface. Even if the ice outside the cover melts with heat, the ice stretched inside the cover is not melted at the same speed, and when the snow melter is started, the water under the ice pumped up by the submersible pump is melted in the snow melting chamber. Since it is lifted on the ice stretched on the ice and is not drained from the drain, the water level on the ice in the snow melting chamber rises, soaks from the exhaust outlet of the furnace body and enters the furnace body.
B. Since the burner attached to the furnace body communicates with the furnace body, there is a risk that water infiltrated from the exhaust outlet of the furnace body will enter the burner from the furnace body and cause a dielectric accident.
C. In a snow melting machine that has an operation part with an opening provided in a part of the lid of the burner chamber, a cover that covers this opening, an intake cylinder attached to the inside of this cover, and an operation box attached to the front side of the intake cylinder Since water that has entered the burner may freeze into the burner chamber and freeze the wires connecting the burner and the operation box together, there is a risk of cutting the wires or causing an electric shock when the operation unit is lifted There is.
D. As for the method of starting the water melting type snow melting machine, the pump is started first and then the burner is started. However, since the electric circuit is a circuit configuration in which the burner cannot be operated independently and stopped, the water accumulated in the snow melting room is frozen. When it is running, only the burner is operated alone and the exhaust heat from the burner cannot be used to defrost the ice in the snow melting chamber.
In addition, the electrical circuit has a safety function in the event of a power failure because it is driven by a relay, but when the water inside the snow melting room freezes or the thickness of the ice increases, the snow melting machine is stopped completely or a metal rod If the snow melting machine is not started after breaking the ice, etc., there is a risk that the snow melting water will infiltrate from the exhaust port of the furnace body.
[0005]
3. The snow melting chamber lid of the conventional snow melting machine opens all the snow melting chambers in order to secure a wide entrance for the snow.
A. If the snow melting chamber is not always covered with snow, most of the exhaust from the furnace body is released to the atmosphere with a high temperature.
B. The state and thickness of the snow thrown into the snow melting chamber is not constant depending on the quality of the snow and how it is thrown in, and the exhaust that has flowed into the snow melting chamber from the exhaust outlet of the furnace body is a space between the snow and a thin space. However, since the snow melting chamber is equipped with a net or frame to prevent it from falling, and in fact there is this net or frame, the snow thrown into the snow melting chamber is Many in the center.
Therefore, the exhaust that has been disturbed by the snow and has exited from the exhaust outlet of the furnace body into the snow melting chamber is released to the atmosphere along the wall of the snow melting chamber.
4). In a conventional snow melting machine that melts snow using watering,
A. In order to project water spray onto snow, it is necessary to apply water spray from the nozzle to snow strongly, and it is necessary to use a powerful pump or a large pump.
B. Some water spray nozzles are provided with reflectors in order to direct water spray and project it onto snow.
C. Sprinkling raises the temperature of water stored in the snowmelt chamber by direct heat and exhaust heat from the furnace body, pumps it up with an underwater pump, and projects it onto the snow, but in fact, snow is continuously thrown into the water stored in this snowmelt chamber. The water temperature is not so high.
[0006]
5). In the conventional technology for taking in the combustion air necessary for burning the burner, there are the following problems.
A. In the case where an opening is provided in a part of the lid of the burner chamber, and the lid that covers this opening is opened to suck in combustion air, snow enters through the opening when a snow melting machine is used during snowfall. Further, the area around the opening tends to be high due to snow accumulation, the air permeability around the opening is poor, the supply of combustion air is not stable, and the combustion of the burner becomes unstable.
In addition, the exhaust gas near the ground surface coming out of the snow melter tends to enter through the combustion air intake opening opened in a part of the lid of the burner chamber, and the exhaust gas is supplied to the burner together with the combustion air. Combustion tends to be unstable.
B. Those using a double chimney have the advantage that the exhaust air in the chimney can be warmed and supplied using the exhaust heat of the exhaust gas. However, when using a snow melter or after installing the chimney, use it to remove it. Is troublesome.
C. When the intake cylinder and the control box are attached to the lower part of the lid that covers the opening part of the cover of the burner chamber, when the lid is opened and the intake cylinder is set up, the combustion air intake of the intake cylinder Because the upper mouth is directly above,
a. During snowfall, snow is sucked together with air, and burner combustion is hindered.
b. The snow sucked into the burner chamber melts and accumulates as water, and the deterioration of the burner and related parts easily proceeds due to moisture.
c. When an abnormality occurs in the ignition part of the burner during use of the snow melting machine and combustion stops, fuel accumulates in the furnace body or unburned gas accumulates, and when this is reignited, backfire occurs.
Since the opening of the intake air of the intake cylinder is directly above the intake cylinder, there is a risk that the backfire directly hits the face of the person operating the operation box.
Generally, the height around the snow melter is higher than that of the snow melter due to the accumulation of snow, so the intake opening that opens right above the intake cylinder attached to one corner of the cover of the burner chamber is the front side of the intake cylinder. If it is higher than the height of the person who operates the operation box attached to the unit, the person who operates the operation box is safe, but the height of the intake cylinder is higher than a certain height from the space where the intake cylinder is stored. It is impossible to do so, and the danger from backfire is inevitable.
[0007]
2nd. About the operation method of the snow melting machine
1. Even with a system that uses direct heat and exhaust heat of the furnace body, or a combination type that uses water spray, the water that is stored in the snow melting chamber freezes due to a decrease in the outside air temperature. It becomes ice.
If the snow melter is used frequently, it freezes little due to a drop in water temperature and is thin ice even if it freezes.However, if the outside temperature is low or the snow is cold and the surface is more chilly, the ice Even if both the direct heat of the furnace body and the exhaust heat are used together, the ice cannot be easily defrosted.
2. In a snow melting machine that uses water spray together, an exhaust prevention cover and ice covering the snow melting water outlet cause the following phenomenon.
A. The cover covering the snowmelt drainage outlet attached to the wall of the snowmelt chamber has its lower part lowered below the water surface. Even if the ice outside the cover melts with heat, the ice stretched inside the cover is not melted at the same speed, and when the snow melter is started, the water under the ice pumped up by the submersible pump is melted in the snow melting chamber. Since it is lifted on the ice stretched on the ice and is not drained from the snowmelt water outlet, the water level on the ice in the snowmelt chamber rises and enters the furnace body after entering the furnace body exhaust outlet.
B. Since the burner attached to the furnace body communicates with the furnace body, there is a risk that water infiltrated from the exhaust outlet of the furnace body will enter the burner from the furnace body and cause a dielectric accident.
C. In a snowmelt machine that has an opening in a part of the lid of the burner chamber, a lid that covers this opening, an intake cylinder attached to the inside of the lid, and an operation box attached to the intake cylinder, the water that has entered the burner Since there is a possibility that the electric wire connecting the burner and the operation box may be frozen together by being immersed in the burner chamber, there is a risk of cutting the electric wire or causing an electric shock when the intake cylinder is lifted.
D. As for the method of starting the watering snow melting machine, the submersible pump is started first and then the burner is started, but the electric circuit has a circuit configuration in which the burner cannot be operated independently and stopped, so the water accumulated in the snow melting chamber is When it is frozen, only the burner can operate alone and the exhaust heat from the burner cannot be used to defrost the ice in the snow melting chamber.
In addition, the electric circuit has a safety function in the event of a power failure because it is driven by a relay, but when the water inside the snow melting room freezes or when the ice thickness increases, the snow melting machine is completely stopped, such as a metal rod If the snow melting machine is not started after breaking the ice, there is a risk that the snow melting water will infiltrate from the exhaust port of the furnace body.
[0008]
The present invention has been made in view of such problems of the prior art, and an object of the present invention is to provide an apparatus capable of solving the above-described problems.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, the present invention is as follows.
The first invention is a snow melting apparatus comprising the following frame part i, furnace body b, burner part c, sprinkling pipe part d, exhaust path part e, and fall prevention frame part.
First. The frame part a is composed of a frame 2 and a lid 3.
1) The frame 2 is composed of a horizontally long bottom surface 2A on the left and right sides of the plane, front and rear surfaces 2B and 2B provided upright on the front and rear sides of the bottom surface, and left and right surfaces 2C and 2C provided upright on the left and right sides of the bottom surface. By extending a right partition plate 2D in parallel to the right surface with a predetermined distance from the right surface 2C in the frame 2, a snow melting chamber 2E and a machine room 2F are configured from the left in the frame 2, and a snow melting chamber In 2E, the drainage port 2G is formed with a height that can maintain the reference water level WL that is submerged, so as to exceed approximately 1/3 of the lower part of the furnace body port.
2) The pump chamber 2H is composed of a pump chamber main body 2H1, a dust collector 2H2, a submersible pump 2H3, a water temperature detection pipe 2H31, and an antifreeze heater, and the pump chamber main body 2H1 is connected in a state surrounding the drain port 2G. The vertical square tube 2H11 and the top plate 2H12 are configured such that the left side plate of the vertical square tube is lowered from the reference water level WL, and the snowmelt water intake 2H13 is opened.
3) The submersible pump 2H3 is mounted in the pump chamber main body 2H1, and a sprinkler / drainage switching valve V is connected to a sprinkler riser pipe vertically passing through the pump chamber main body. Connected to
4) The dust collector 2H2 is disposed at the snow melting water inlet 2H13 of the pump chamber main body 2H1, and the upper and lower surfaces 2B and 2B, the left surface 2C, and the right partition plate 2D in the snow melting chamber 2E are loaded with a lid. Heavy lug 2R is attached,
[0010]
The lid 3 is composed of a snow melting chamber lid 3A, a machine chamber lid 3B, a locking portion 3C, a snow inlet lid over-fall prevention portion 3D, and a snow melting chamber lid main body over-fall prevention portion 3E.
1) The snow melting chamber lid 3A includes a snow melting chamber lid main body 3A1, a snow inlet 3A2, a snow inlet left lid 3A3, and a snow inlet right lid 3A4.
A. The snow melting chamber lid body 3A1 has a planar rectangular flat plate 3A11 that covers from above the upper surface opening having the upward protruding edge 2E1 of the snow melting chamber 2E, and a downward protruding edge 3A12 that extends downward from the outer periphery of the flat plate. And is configured to be openable and closable via a hinge T provided on the rear surface 2B of the snow melting chamber 2E.
B. In the snow melting chamber lid main body 3A1, the snow inlet 3A2 is opened in a horizontally long state from the outer periphery of the snow melting chamber lid main body to the left and right of the plane, leaving a frame-shaped lid 3A11 of a certain size.
C. The left cover 3A3 for the snow slot 3 is a flat, flat plate that covers the left half of the snow slot 3A2 from above, and can be opened and closed via a hinge T provided on the left side. A stopper S for preventing the snow cover left cover from opening more than a predetermined angle is attached, and a reinforcing face plate 3A31 is attached to the inner surface of the snow cover left cover 3A3 with a space to exhaust the exhaust into the snow melting chamber. Is attached as a guideway 3A5 to guide from
D. The right cover 3A4 for the snow slot 3 is composed of a flat rectangular plate that covers the right half of the snow slot 3A2 from above, and can be opened and closed via a hinge T provided on the right side. A stopper S for preventing the snow cover right cover from opening more than a predetermined angle is attached, and a reinforcing face plate 3A41 is attached to the inner surface of the snow cover right cover 3A4 with a space.
E. The snow cover right cover 3A4 is configured to receive the snow cover left cover 3A3 from below and is configured to be fixed by a lock pin RP.
F. In the snow melting chamber lid body 3Al, a reinforcing plate portion 3A13, which also serves as a watering reflector having a constant inclination angle toward the snow inlet, is attached horizontally inside the frame-shaped lid 3A11 of a certain size. The lower portion of the reinforcing plate portion 3A13 is configured to be placed on the lug 2R, and the left and right lids of the frame-shaped lid 3A11 are configured to be placed on the lug 2R in the snow melting chamber 2E.
2) The machine room lid 3B includes a machine room lid body 3B1 and an intake cylinder portion 3B2.
A. The machine room lid body 3B1 opens and closes from a flat rectangular plate 3B11 that covers the upper surface opening having the upward upper protruding edge 2F1 of the machine room 2F, and a downward protruding edge 3B12 that is connected to the outer periphery of the flat plate. Freely configured,
B. The intake cylinder portion 3B2 includes a mounting opening 3B3 opened at a corner of the machine room lid 3B, a vertical guide 3B4, and a lift intake cylinder 3B5. The vertical guide 3B4 is connected to the mounting opening in a suspended manner. It is composed of a rectangular cylinder 3B41 and guide vertical grooves 3B42 provided on the left and right side surfaces of the square cylinder, and a lateral guide horizontal groove 3B43 is connected to the upper end of the guide vertical groove in a T-shape, and the vertical intake and exhaust cylinders 3B5 has a rectangular tube 3B51, a ceiling plate 3B52 of the rectangular tube, an intake port 3B53 opened below the rectangular tube, and an intake port 3B54 opened above the back of the rectangular tube. Consists of small wheels 3B55 below the left and right sides of the body,
C. The front of the lift cylinder is cut out by retracting approximately 2/3 from the surface in contact with the vertical guide 3B4 from above, and the operation box is inserted with the front part left slightly in this cut-out part, Between the rear side walls of the cylinder, it is attached with an open space in which combustion air can be taken in,
3) The locking portion 3C is composed of a left locking receiving hole 3C1, a right locking receiving pipe 3C2, an overload prevention / locking rod 3C3, and a key fitting 3C4.
A. The key attachment hardware 3C4 is composed of a projecting piece having a small hole projecting from the front left end of the machine room lid body 3B1.
B. The overfall prevention and locking bar 3C3 includes a bar 3C31, a penetrating bar 3C32 bent to the left end of the bar, a penetrating bar 3C33 bent to the right end, and an intake cylinder part presser 3C34 attached to the bar 3C31. , Composed of key attachment hardware 3C35,
4) The snow throwing cap cover overfall prevention portion 3D is composed of a left receiving pipe 3C12, a right receiving pipe 3D2, and an overfall preventing and locking bar 3C3.
5) The snowmelt chamber lid main body overfall preventing portion 3E is composed of a front receiving hole 3E1, a rear receiving hole 3E2, and an overfall preventing and locking rod 3C3.
[0011]
2nd. The furnace body b is composed of a furnace body main body 4 and an exhaust part 5,
1) The furnace body 4 is composed of a cylindrical body 4A that is long in the left-right direction and left and right side plates 4B, 4C that are stretched at the left and right ends. And is supported in a horizontal state via a support leg 4D erected on the bottom surface 2A of the snow melting chamber,
2) The exhaust part 5 includes an exhaust expansion part 5A, front and rear exhaust port parts 5B and 5B, and an exhaust port 5C directed to the right.
A. The exhaust expansion portion 5A includes a downward substantially C-shaped side wall 5A1 connected to the left upper portion of the furnace body 4 in a communicating state, and left and right walls 5A2, 5A2 stretched at the left and right ends of the side wall 5A1. And
B. The front and rear exhaust ports 5B and 5B are front and rear exhaust ports 5B1 and 5B1 that are opened in a horizontally long state on the front and rear surfaces of the side wall 5A1 of the exhaust expansion portion 5A, and a cross section that is connected to the front and rear exhaust ports. It is composed of flat cylindrical exhaust guides 5B2, 5B2, and is configured such that the lower openings of these exhaust guides face downward, and an exhaust rectifying plate 5B21 is attached to the lower part of the exhaust guide,
C. The right-side exhaust port 5C includes an exhaust port 5C1 opened at the center of the right wall 5A2, and an exhaust pipe 5C2 connected to the exhaust port toward the right side. The exhaust pipe 5C2 is a furnace body main body. It is attached to the upper surface of 4 with a slight inclination.
[0012]
3rd. The burner section C is composed of a burner body 6 and a hot air outlet 7.
[0013]
4th. The watering pipe part D is composed of a watering pipe 8 and a watering nozzle 9,
1) The water sprinkling pipe 8 is piped in a substantially C shape along the upper opening in the snow melting chamber 2E, and is also used as a water sprinkling reflector attached in a horizontally long state with a certain inclination angle toward the snow inlet. Is connected to the watering riser pipe of the submersible pump 2H3 via the watering / drainage switching valve V,
2) The watering nozzle 9 is constructed by installing the nozzle 9B in the watering pipe 8 with a predetermined interval and planting the nozzle 9B toward the inside of the snow melting chamber so that the angle can be adjusted.
A. The front and rear nozzles are mounted so that the nozzle surface can be rotated and fixed upward.
B. The left nozzle is configured such that water discharged from the nozzle is directed toward the exhaust expansion portion of the furnace body, and the right nozzle is configured so that the nozzle surface is discharged upward and the water is reflected on the lid 3A11 covering the upper surface.
C. The front and rear nozzles are disposed below the reinforcing plate 3A13 attached to the lower part of the lid 3A11 of the snow melting chamber 2E.
[0014]
5th. The exhaust passage 12 is configured by attaching a punching plate 12C having a short leg 12B so that a slight exhaust space 12A is formed on the left inner wall of the snow melting chamber.
[0015]
Sixth. The fall prevention frame is installed in the snow melting room.
1) One sheet is the first prevention frame 10 that covers the top of the furnace body, and the other sheet is the second prevention frame that covers the space between the left side of the furnace body and the left wall of the snow melting chamber. Arranged as a frame 11,
2) The first preventive frame 10 is configured as a frame in which the insides of the four outer frames are assembled in a plane lattice pattern, and the second preventive frame 11 is configured so that the inside of the four outer frames are flat at regular intervals. It is composed of a frame partitioned into a shape,
3) The first preventive frame 10 is attached to the four corners of the outer frame in a downward U-shape, and is disposed on the watering pipe.
4) The second prevention frame 11 has its right end placed on the hardware of the furnace body, its left side is mounted on the punching plate 12C, and the punching plate is mounted on the receiving metal mounted on the left side of the snow melting chamber. .
[0016]
The second invention is a snow melting device comprising the following frame part i, furnace body b, burner part c, sprinkling pipe part d, exhaust path part e, and fall prevention frame part.
First. The frame part a is composed of a frame 2 and a lid 3.
1) The frame 2 includes a horizontally long bottom surface 2A on the left and right sides of the plane, front and rear surfaces 2B and 2B standing upright on the front and rear sides of the bottom surface, and left and right surfaces 2C and 2C standing upright on the left and right sides of the bottom surface. Then, by extending the right partition plate 2D in parallel with the right surface at a predetermined interval from the right surface 2C in the frame 2, the snow melting chamber 2E and the machine room 2F are configured from the left in the frame 2, and the snow melting chamber In the left part of the right partition plate 2D in 2E, a drain outlet 2G is formed with a height that can hold the reference water level WL that is submerged so as to exceed approximately 1/3 of the lower part of the furnace body B, and the snow melting chamber 2E. The pump chamber 2H is continuously connected to the drain port 2G, and the load bearing lugs 2R of the lid are provided on the upper sides of the front and rear surfaces 2B and 2B and the left surface 2C and the right partition plate 2D in the snow melting chamber 2E. Is installed and
2) The pump chamber 2H is composed of a pump chamber main body 2H1, a dust collector 2H2, a submersible pump 2H3, a water temperature detection pipe 2H31, and an antifreeze heater, and the pump chamber main body 2H1 is connected in a state surrounding the drain port 2G. The vertical square tube 2H11 and the top plate 2H12 are configured, and the left side plate of the vertical square tube is provided with a position below the reference water level WL to prevent the exhaust gas from flowing out, and a snow melt water intake 2H13 is opened, On the lower side of the intake port 2H13, there is provided an intrusion prevention plate 2H14 such as gravel in which several holes for residual water in the snow melting chamber are formed,
3) The submersible pump 2H3 is mounted in the pump chamber main body 2H1, and the submersible pump 2H3 is connected to a sprinkler riser pipe vertically penetrating the pump chamber main body, and a sprinkling / drainage switching valve V is connected to the submersible pump 2H3. Connected to the pipe 8 and the watering nozzle 9,
4) The dust collector 2H2 includes a right vertical plate 2H21 configured to close the snow melting water inlet 2H13 of the pump chamber body 2H1, and a front plate 2H22 connected to the front side of the right vertical plate, A left vertical plate 2H23 connected to the front plate in parallel with the right vertical plate, an upper connecting plate 2H24 suspended above the right vertical plate 2H21 and the left vertical plate 2H23, and a right side It consists of a bottom plate 2H25 that connects the bottom of the vertical plate, front plate, and left vertical plate. The right vertical plate, front plate, left vertical plate, upper connecting plate, and bottom plate are grouped with water holes H. The water holes formed in the right vertical plate, the front plate, and the bottom plate that are in contact with the snowmelt water intake 2H13 are configured to be slightly smaller than the water holes H provided in the left vertical plate and the upper connecting plate.
[0017]
The lid 3 is composed of a snow melting chamber lid 3A, a machine chamber lid 3B, a locking portion 3C, a snow inlet lid over-fall prevention portion 3D, and a snow melting chamber lid main body over-fall prevention portion 3E.
1) The snow melting chamber lid 3A includes a snow melting chamber lid main body 3A1, a snow inlet 3A2, a snow inlet left lid 3A3, and a snow inlet right lid 3A4.
A. The snow melting chamber lid body 3A1 has a planar rectangular flat plate 3A11 that covers from above the upper surface opening having the upward protruding edge 2E1 of the snow melting chamber 2E, and a downward protruding edge 3A12 that extends downward from the outer periphery of the flat plate. And is configured to be openable and closable via a hinge T provided on the rear surface 2B of the snow melting chamber 2E.
B. In the snow melting chamber lid main body 3A1, the snow inlet 3A2 is opened in a horizontally long state from the outer periphery of the snow melting chamber lid main body to the left and right of the plane, leaving a frame-shaped lid 3A11 of a certain size.
C. The left cover 3A3 for the snow slot 3 is a flat, flat plate that covers the left half of the snow slot 3A2 from above, and can be opened and closed via a hinge T provided on the left side of the snow slot 3A2. The hinge T is attached with a stopper S for preventing the left cover for the snow slot from opening more than a predetermined angle, and the inner surface of the left cover 3A3 for the snow slot covers almost the entire surface of the cover. When the reinforcing face plate 3A31 is attached with a little space between the inside of the left cover for snow slot 3A3 and the left cover for snow slot is raised with the hinge T as a fulcrum, the left cover for snow slot The space between 3A3 and the reinforcing face plate is attached as a guide path 3A5 for guiding the exhaust from the inside of the snow melting chamber to the atmosphere.
D. The right cover 3A4 for the snow slot 3 is formed of a flat rectangular plate that covers the right half of the snow slot 3A2 from above, and can be opened and closed via a hinge T provided on the right side of the snow slot 3A2. The hinge T is attached with a stopper S for preventing the snow cover right cover from opening more than a predetermined angle. The snow cover right cover 3A4 has an inner surface of the snow cover right cover. The reinforcing face plate 3A41 is attached with a little space between the inside of the right cover 3A4 for the snow slot so as to cover almost the entire surface of the 3A4 cover,
E. The left end step of the closed snow inlet right lid 3A4 is configured to receive the right end of the closed snow inlet left lid 3A3 from below, and the snow inlet left lid is a snow melting chamber lid main body. 3A1 is configured to be fixed by a lock pin RP that is removably inserted into the downward projecting edge 3A12,
F. In the snow melting chamber lid body 3Al, the snow inlet 3A2 has a frame-shaped lid 3A11 having a certain size from the outer periphery of the snow melting chamber lid body, and a constant inclination angle toward the snow inlet from the inner lower portion of the lid 3A11. Reinforcing plate portion 3A13 that also serves as a sprinkling reflector forming an unequal side triangle is attached in a horizontally long state, and the lowermost part of reinforcing plate portion 3A13 that forms an unequal side triangle at the bottom of frame-shaped lid 3A11 is The left and right lids of the frame-shaped lid 3A11 are placed on the left and right wall surfaces in the snow melting chamber 2E. The lugs 2R are mounted on the front and rear wall surfaces in the snow melting chamber 2E with a predetermined height and interval. The reinforcing plate portion 3A13, which is configured to be placed on the lug 2R attached with a height and a gap and forms an unequal side triangle, has a certain inclination angle toward the opposite snow inlet 3A2, and therefore, below this Watering Type 8 with watering nozzle 9 is arranged,
2) The machine room lid 3B includes a machine room lid body 3B1 and an intake cylinder portion 3B2.
A. The machine room lid body 3B1 includes a planar rectangular flat plate 3B11 that covers the upper surface opening having the upward upper protruding edge 2F1 of the machine room 2F from above, and a downward protruding edge 3B12 connected to the outer periphery of the flat plate. Are configured to be openable and closable,
B. The intake cylinder portion 3B2 includes a mounting opening 3B3 provided at a corner of the machine room lid 3B, a vertical guide 3B4, and a lift intake cylinder 3B5. The vertical guide 3B4 is provided in the machine chamber at the mounting opening. 2F is composed of a rectangular cylinder 3B41 that is suspended and connected to the left and right sides of the rectangular cylinder, and guide vertical grooves 3B42 provided on the left and right side surfaces of the square cylinder. The up-and-down intake cylinder 3B5 is connected to the vertical guide 3B4 so that it can be moved up and down from above, a ceiling plate 3B52 attached to the upper end of the square cylinder, and a lower part of the square cylinder It has an intake port 3B53 and an intake port 3B54 opened above the back of the rectangular tube, and is composed of a small ring 3B55 corresponding to a guide longitudinal groove provided below the left and right side surfaces of the rectangular tube. Front upper part of intake cylinder 3B5 It is mounted an operation box 3B6,
C. When lifting and fixing the lifting / lowering intake cylinder, when the handle of the lifting / lowering intake cylinder is lifted, the bolt enters the horizontal guide lateral groove perpendicular to the upper guide groove, and when the upper part of the lifting / lowering intake cylinder is tilted backward, The front upper part is fixed in a state where the upper part of the front is tilted slightly backward, and the front of the lift cylinder is retracted from the top to the back side of the surface that contacts the vertical guide 3B4, and this surface is cut into a flat rectangle. The operation box is inserted into the rectangular hollow part with a little front part, and the air required for combustion is inserted between the rear side of the inserted operation box and the rear side wall of the lifted intake cylinder opposite to the operation box. Can be installed with an open space,
D. The lift cylinder has an air intake in the upper part of the rear side wall of the lift cylinder facing the rear side of the operation box, and the introduced air passes through the opening at the bottom of the lift cylinder and then passes through the vertical guide. Configured to enter the chamber and be fed to the burner,
3) The locking portion 3C is composed of a left locking receiving hole 3C1, a right locking receiving pipe 3C2, an overload prevention / locking rod 3C3, and a key fitting 3C4.
A. The left locking receiving hole 3C1 is attached in the front-rear direction to the bottom surface of the through-hole 3C11 opened in the front-rear direction at the upward protruding edge 2E1 in the snow melting chamber and the left cover 3A3 for the snow inlet. Receiving pipe 3C12,
B. The right receiving pipe 3C2 for locking is composed of a receiving pipe attached to the front of the upper side of the right surface 2C of the frame 2,
C. The key attachment hardware 3C4 is composed of a projecting piece having a small hole projecting from the front left end of the machine room lid body 3B1.
D. The overfall prevention and locking bar 3C3 includes a bar 3C31 having a predetermined length, a bar 3C32 penetrating into the left lock receiving hole bent at the left end of the bar, and a bar extending at the right end. The rod 3C33 is inserted into the right-side locking receiving hole, the intake cylinder holder 3C34 is attached to the right portion of the rod 3C31, and the key attachment 3C35 is attached to the rod 3C31 at a predetermined position. And
4) The snow throwing cap cover overfall prevention portion 3D is composed of a left receiving pipe 3C12, a right receiving pipe 3D2, and an overfall preventing and locking bar 3C3.
A. The left receiving pipe 3C12 is composed of a receiving pipe attached to the left front on the lower surface of the left cover 3A3 for the snow inlet,
B. The right receiving pipe 3D2 is composed of a receiving pipe attached to the right front side of the lower surface of the snow cover right lid 3A4.
5) The snow melting chamber lid main body overfall preventing portion 3E is composed of a front receiving hole 3E1, a rear receiving hole 3E2, and an overfall preventing and locking rod 3C3.
A. The front receiving hole 3E1 is opened with the left-right direction at the left front end of the upward protruding edge 2E1 in the snow melting chamber 2E,
B. The rear receiving hole 3E2 is opened in the left-right direction at the left front end of the downward protruding edge 3A12 of the snow melting chamber lid body 3A1.
[0018]
2nd. The furnace body b is composed of a furnace body main body 4 and an exhaust part 5,
1) The furnace body 4 is composed of a cylindrical body 4A that is long in the left-right direction and left and right side plates 4B and 4C that are stretched at the left and right ends of the cylindrical body. And the furnace body body 4 is supported in a horizontal state in the snow melting chamber 2E via a support leg 4D erected on the bottom surface 2A of the snow melting chamber,
2) The exhaust part 5 includes an exhaust expansion part 5A, front and rear exhaust port parts 5B and 5B, and an exhaust port 5C directed to the right.
A. The exhaust expansion portion 5A includes a downward substantially C-shaped side wall 5A1 connected to the left upper portion of the furnace body 4 in a communicating state, and left and right walls 5A2, 5A2 stretched at the left and right ends of the side wall 5A1. And
B. The front and rear exhaust ports 5B and 5B are front and rear exhaust ports 5B1 and 5B1 that are opened in a horizontally long state on the front and rear surfaces of the side wall 5A1 of the exhaust expansion portion 5A, and a cross section that is connected to the front and rear exhaust ports. The exhaust guides 5B2 and 5B2 are configured to be flat, and the exhaust guides are configured such that the lower openings of the exhaust guides face downward, and the exhaust rectifying plate 5B21 is attached to the lower part of the exhaust guides.
C. The right-side exhaust port 5C includes an exhaust port 5C1 opened in the center of the right wall 5A2, and an exhaust pipe 5C2 connected to the exhaust port toward the right. The exhaust pipe 5C2 is a furnace. It is attached to the upper surface of the body body 4 with a slight inclination.
[0019]
3rd. The burner section C is composed of a burner body 6 and a hot air outlet 7.
[0020]
4th. The water sprinkling pipe section d installed in the snow melting chamber is composed of a water sprinkling pipe 8 and a water spray nozzle 9.
1) The sprinkling pipe 8 is piped in a substantially C shape along the inner side of the upper opening in the snow melting chamber 2E, and is connected to the sprinkling riser pipe of the submersible pump 2H3 via the sprinkling / drainage switching valve V. The sprinkling pipe has a reinforcing plate portion 3A13 that also serves as a sprinkling reflector and is attached to the lower side of the frame-shaped lid 3A11 in a horizontally long state that forms an unequal triangle with a constant inclination angle toward the snow inlet. Located in the lower part, piped in a substantially plane C shape, connected to the water riser pipe of the submersible pump 2H3 through the valve V for water spray / drainage switching,
2) The watering nozzle 9 is constructed by installing the nozzle 9B in the watering pipe 8 with a predetermined interval and planting the nozzle 9B toward the inside of the snow melting chamber so that the angle can be adjusted.
A. The front and rear nozzles 9B and the left and right nozzles 9B are attached to predetermined positions of a sprinkling pipe 8 piped in a substantially C shape in the snow melting chamber 2E.
B. The front and rear nozzles are attached to the sprinkling pipe so that the nozzle surface can be rotated and fixed in a symmetrical position at a predetermined interval.
C. The left and right nozzles are similarly attached to the sprinkling pipes at symmetrical positions, with the left nozzle tilting the nozzle surface diagonally downward and directing the water discharged from the nozzles toward the exhaust expansion part of the furnace body, The right nozzle is configured so that the nozzle surface faces upward and the water discharged from the nozzle is reflected by the lid 3A11 covering the nozzle and water is sprayed on the snow.
D. The front and rear nozzles are disposed below the reinforcing plate 3A14 attached to the lower part of the lid 3A11 of the snow melting chamber 2E.
[0021]
5th. The exhaust passage section ho is a punching plate having short legs 12B so that a small amount of exhaust space 12A is formed between the left inner wall of the snow melting chamber and the left end surface of the furnace body with respect to the left inner wall of the snow melting chamber. The exhaust path 12 is configured by attaching 12C in parallel in the vertical direction.
[0022]
Sixth. The fall prevention frame is installed in the snow melting room.
1) One sheet is the first prevention frame 10 that covers the top of the furnace body, and the other sheet is the second prevention frame that covers the space between the left side of the furnace body and the left wall of the snow melting chamber. Arranged as a frame 11,
2) The first preventive frame 10 has a flat lattice shape inside the four outer frames so that it can easily fall on the furnace body of the snow melting chamber or the water surface stored in the snow melting chamber when snow is thrown into the snow melting chamber. The second preventive frame 11 is configured as a frame in which the inside of the four outer frames is partitioned into a bowl shape at regular intervals,
3) The first preventive frame 10 has receiving metal fittings attached in four corners of the four outer frames in a downward U shape, and the receiving metal pipes in a substantially C shape along the inner wall of the snow melting chamber. Placed on the sprinkled pipe,
4) The second preventive frame 11 has its right end placed on a hardware attached to the left side of the furnace body at a predetermined height, and its left side is at a position about half the vertical direction of the punching plate 12C. Install horizontally and the punching board must rest on a metal fitting attached to the left side of the snow melting chamber.
[0023]
The snow melting device of the first invention and the second invention can be configured as follows.
First. The intake port 3B54 in the ascending / descending intake cylinder is closed, a hole for intake of combustion air is provided in the side wall of the machine room, and when the snow melting device is installed, the pipe is laterally drawn from this hole provided in the side wall of the machine room to be separated from the snow melting device. By starting up the pipe of the required length and introducing the combustion air to the place where it was, the combustion air of the snow melting device is sucked in from the tip of the pipe that was set up at a location far from the snow melting device, and the snow melting device is started. And stop is comprised so that it may operate, after starting up the operation box 3B6 mounted in the snow melting apparatus.
2nd. The shapes of the exhaust port portions 5B and 5B before and after the exhaust portion 5 in the furnace body are configured to be curved as a whole.
[0024]
The operation will be described.
[0025]
When the water accumulated in the snow melting room freezes,
A. A part of the furnace body is submerged in the water stored in the snow melting chamber, and the ice is melted in the vicinity of the furnace body using the direct heat temperature of the furnace body.
B. The exhaust guide of the furnace body is attached so as to surround the outer periphery of the exhaust outlet of the exhaust expansion part of the combustion furnace body, the guide exhaust outlet faces the water surface below the exhaust guide, and the exhaust is the ice surface directly below the guide exhaust outlet It has a role to project powerfully.
C. Since the exhaust rectifier plate is attached to the lower part of the exhaust guide, the exhaust that exits from the exhaust guide to the snow melting chamber is applied to the lower ice surface of the exhaust guide, and at the same time, this exhaust rectifier plate causes the It is forced out.
D. The exhaust guide and the exhaust flow straightening plate are attached in a symmetrical shape both before and after the exhaust expansion portion when the furnace body is viewed from above.
E. An exhaust auxiliary pipe is attached to the exhaust expansion part, and prevents exhaust balance from being lost due to the introduction of snow together with the front and rear exhaust guides. Further, the exhaust auxiliary pipe plays a role of warming a portion where the surface temperature of the furnace body is likely to decrease.
F. The exhaust gas from the furnace body hits the ice surface and is reflected and stays at a high temperature under the reinforcing plate portion below the frame-shaped lid 3A11.
G. Since the exhaust gas is projected onto the ice surface and is emitted in a direction parallel to the furnace body, the pump chamber 2H protruding above the reference water level WL is forcibly heated at a high temperature.
[0026]
H. The pump chamber portion 2H is disposed in the vicinity of the furnace body between the right partition plate 2D and the front surface 2B of the snow melting chamber, in parallel with the furnace body, and high temperature exhaust is applied to the snow melting water inlet 2H13 of the pump chamber body 2H1. .
I. The snow melting water intake of the pump chamber body 2H1 is lowered into the water below the reference water level to prevent the exhaust gas from flowing into the snow melting water intake 2H13.
An intrusion prevention plate such as gravel is attached to the lower part of the snow melting water intake of the pump chamber main body, and several holes are made in this.
J. et al. A dust collector is placed in front of the snow melting water intake in the pump chamber body. The dust collector opens on the side facing the furnace body, the right vertical plate, front plate, bottom plate is a small-diameter hole, left vertical plate The upper connecting plate has a large-diameter hole.
K. The snowmelt drainage outlet 2G is provided in the pump chamber body, and the snowmelt water is drained through the pump chamber body.
L. An antifreeze heater is attached to the submersible pump and sprinkler riser pipe arranged in the pump chamber.
M.M. Since a part of the wall surface and the top plate of the vertical cylinder 2H11 of the pump chamber main body are arranged above the reference water level WL, the ice extending around the wall surface and the pump chamber portion may contain an exhaust guide for the furnace body and Since high-temperature exhaust gas is continuously and forcibly applied by the exhaust flow straightening plate, it contacts the metal edge forming the pump chamber body in order to heat the ice surrounding the pump chamber and the metal forming the pump chamber body. Thaw the ice and the surrounding ice quickly.
The ice that is in contact with the inner wall of the pump chamber body and the ice inside the pump chamber body increase the temperature of the metal that forms the pump chamber body. There is a water passage at the snowmelt water intake.
Furthermore, the wall on the side parallel to the furnace body of the pump chamber body is located in the vicinity of the furnace body so that the distance from the furnace body is extremely short. The ice is melted together with the ice in contact with the furnace body.
In addition, anti-freeze heaters are attached to the submersible pump and sprinkler riser, and some of the anti-freeze heaters are mounted on the water surface. As a result, the ice melts faster and a snow-melting water intake passage is secured.
N. Furthermore, since a part of the dust collector is disposed above the reference water level WL, the same effect as that of the pump chamber main body can be obtained by exhaust heat hitting the dust collector.
O. Therefore, even if the surface of the snow melting chamber freezes, the ice melting is quick, so that the snow melting water is drained from the drain port 2G and is not flooded from the exhaust port of the furnace body.
[0027]
About the snowmelt chamber lid, exhaust, water sprinkling, and improvement of snowmelt efficiency With conventional snow machines, when the snowmelt chamber lid is opened, the snowmelt chamber is fully open to the atmosphere, and a large snow inlet can be secured. However, the exhaust from the furnace body tends to be released into the atmosphere, the exhaust emission temperature is high, and the water temperature applied to the snow tends not to be too high. Therefore, it is necessary to increase the heating power of the burner mounted on the snow melting device or to combine a heater for raising the water temperature.
[0028]
A. Since the snow melting chamber covers the outer periphery of the snow inlet with a frame-shaped lid, the snow inlet is narrowed.
B. Therefore, even if the snow melting chamber opens the snow inlet, it is not fully released to the atmosphere.
C. When snow is continuously poured into the snow slot, the snow melting chamber is covered with snow and is sealed.
D. The exhaust from the furnace body inevitably stays at a high temperature in the lower part of the lid covering the outer periphery of the snow inlet, and a reinforcing plate is attached to the lower part of the outer lid with an inclination angle toward the snow inlet, The watering nozzle is located at the bottom of this reinforcing plate, so the water pumped up by the submersible pump is blown to the exhaust, and the water sprayed onto the snow absorbs the heat of the exhaust to raise the temperature and hits the snow. Is heated by watering and becomes cold.
E. Even if the snow melting chamber is opened, the snow melting chamber does not completely open to the atmosphere because the frame-shaped lid around the snow covering chamber covers the periphery of the snow charging chamber.
In addition, when the snow is thrown in, the snow inlet and the upper part thereof are covered with snow, so the exhaust flows along the wall of the snow melting chamber toward the upper part of the snow melting chamber, and a frame-like lid that covers the periphery of the snow inlet of the snow melting chamber. Heading to taxiway 3A5 while staying in the lower part of the road.
GuidanceRoadThe heat of the exhaust gas discharged from the air is lowered by the action of D and released to the atmosphere.
F. Therefore, inside the snow melting chamber, the exhaust gas from the exhaust port of the furnace body is directly projected onto the snow at a high temperature to melt the snow, and the high temperature exhaust heat is projected onto the water surface to heat the water temperature. Therefore, it stays in the lower part of the frame-shaped lid around the snow inlet of the snow melting chamber, and heat exchange is performed on the water spray to lower the atmospheric discharge temperature and exit the snow melting chamber, so that heat exchange is improved.
[0029]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described based on examples with reference to the drawings.
Reference numeral 1 denotes a snow melting device, which comprises a frame part i, a furnace body b, a burner part c, a sprinkling pipe part d, an exhaust path part e, and a fall prevention frame part.
The frame part A is composed of a frame 2 and a lid 3.
1. The frame 2 is composed of a horizontally long bottom surface 2A on the left and right sides of the plane, front and rear surfaces 2B and 2B that are erected on the front and rear sides of the bottom surface, and left and right surfaces 2C and 2C that are erected on the left and right sides of the bottom surface. Yes.
By extending the right partition plate 2D in parallel to the right surface at a predetermined interval from the right surface 2C in the frame 2, the snow melting chamber 2E and the machine chamber 2F are configured from the left in the frame 2, and the snow melting chamber 2E In the left part of the right partition plate 2D, a drain outlet 2G is formed with a height that can maintain the reference water level WL that is submerged so as to exceed approximately 1/3 of the lower part of the furnace body B. In the snow melting chamber 2E, The pump chamber 2H is continuously connected to the drain port 2G. (See Figs. 3 and 20)
It should be noted that the upper sides of the front and rear surfaces 2B, 2B and the left surface 2C, and the right partition plate 2D in the snow melting chamber 2E can withstand the weight applied to the lid when riding a vehicle or the like. A lug 2R is attached.
2. The pump chamber 2H includes a pump chamber body 2H1, a dust collector 2H2, a submersible pump 2H3, a water temperature detection pipe 2H31, and an antifreeze heater.
Therefore, the pump chamber main body 2H1 is composed of a vertical rectangular tube 2H11 and a top plate 2H12 which are continuously provided so as to surround the drain port 2G. The left side plate of the vertical rectangular tube has a position below the reference water level WL and has a position below the reference water level WL. The snowmelt water intake 2H13 is opened to prevent the outflow.
Reference numeral 2H14 denotes an intrusion prevention plate such as gravel provided at the lower side of the snow melting water inlet 2H13, and several holes for residual water in the snow melting chamber are opened.
3. The submersible pump 2H3 is mounted in the pump chamber main body 2H1, and a sprinkling / drainage switching valve V is connected to the submersible pump 2H3 in a sprinkling riser pipe vertically penetrating the pump chamber main body. And connected to the watering nozzle 9.
In the figure, 2H32 is a water temperature controller connected to the water temperature detection tube.
4). The dust collector 2H2 includes a right vertical plate 2H21 configured to close the snow melting water inlet 2H13 of the pump chamber body 2H1, a front plate 2H22 connected to the front side of the right vertical plate, A left vertical plate 2H23 connected to the face plate in parallel with the right vertical plate, an upper connecting plate 2H24 suspended above the right vertical plate 2H21 and the left vertical plate 2H23, and a right vertical plate The bottom plate 2H25 connects the lower side of the front plate and the left vertical plate. The right vertical plate, the front plate, the left vertical plate, the upper connection plate, and the bottom plate are provided with water passage holes H.
The water holes formed in the right vertical plate, the front plate, and the bottom plate that are in contact with the snowmelt water inlet 2H13 are configured to be slightly smaller than the water holes H provided in the left vertical plate and the upper connecting plate. Yes. (See Figure 27)
In the figure, 2H4 and 2H5 are fixing brackets for preventing the dust collector from being displaced, 2H26 is a handle, 2I is a horizontal maintenance fitting, and 2J is a lifting hook.
[0030]
The lid 3 includes a snow melting chamber lid 3A, a machine room lid 3B, a locking portion 3C, a snow throwing port lid overfall preventing portion 3D, and a snow melting chamber lid main body overfall preventing portion 3E. (See FIGS. 1, 4, 5, 6, 8, 9, 10, and 11)
1. The snow melting chamber lid 3A includes a snow melting chamber lid body 3A1, a snow inlet 3A2, a snow inlet left lid 3A3, and a snow inlet right lid 3A4.
A. The snow melting chamber lid body 3A1 has a planar rectangular flat plate 3A11 that covers from above the upper surface opening having the upward protruding edge 2E1 of the snow melting chamber 2E, and a downward protruding edge 3A12 that extends downward from the outer periphery of the flat plate. And can be opened and closed through a hinge T provided on the rear surface 2B of the snow melting chamber 2E.
B. In the snow melting chamber lid main body 3A1, the snow inlet 3A2 is opened in a horizontally long state from the outer periphery of the snow melting chamber lid main body, leaving a frame-shaped lid 3A11 having a certain size.
C. The left cover 3A3 for the snow slot 3 is a flat, flat plate that covers the left half of the snow slot 3A2 from above, and can be opened and closed via a hinge T provided on the left side of the snow slot 3A2. ing.
The hinge T is attached with a stopper S for preventing the snow inlet left cover from opening more than a predetermined angle. (See Figs. 7 and 8)
Further, a reinforcing face plate 3A31 is attached to the inner surface of the left cover 3A3 for the snow inlet with a little space between the inner side of the left cover 3A3 for the snow inlet so as to cover almost the entire surface of the lid. When the left lid for the mouth is erected with the hinge T as a fulcrum, the space between the left lid for snow inlet 3A3 and the reinforcing face plate is attached as a guide path 3A5 for guiding the exhaust from the inside of the snow melting chamber to the atmosphere. It is what. (Figs. 12 and 13)
The snow inlet left lid 3A3 and the reinforcing face plate 3A31 serve to withstand the load of a vehicle or the like applied to the snow inlet left lid when the snow melting device is embedded, and to keep the snow melting chamber warm. Is responsible.
D. The right cover 3A4 for the snow slot 3 is formed of a flat rectangular plate that covers the right half of the snow slot 3A2 from above, and can be opened and closed via a hinge T provided on the right side of the snow slot 3A2. ing.
The hinge T is attached with a stopper S that prevents the snow cover right lid from opening more than a predetermined angle.
Further, the inner surface of the right cover for snow inlet 3A4 is reinforced with a little space between the inner side of the right lid for snow inlet 3A4 so as to cover almost the entire surface of the right lid for snow inlet 3A4. The face plate 3A41 is attached, and the reinforcing face plate and the snow cover right lid 3A4 play a role of load-bearing of the snow cover right cover and a heat retention of the snow melting chamber.
E. As shown in FIG. 10, the left end step of the closed snow inlet right lid 3A4 is configured to receive the right end of the closed snow inlet left lid 3A3 from below. The snow melting chamber cover body 3A1 is configured to be fixed by a lock pin RP that is removably inserted into the downward projecting edge 3A12.
[0031]
F. As described above, in the snow melting chamber lid body 3Al, the snow inlet 3A2 is formed in a frame-shaped lid 3A11 having a certain size from the outer periphery of the snow melting chamber lid body and on the inner lower portions of the front and rear surfaces of the frame-shaped lid 3A11. As shown in FIG. 18, a reinforcing plate portion 3A13 that doubles as a watering reflection plate that forms an inequilateral triangle having a constant inclination angle toward the snow inlet is attached in a horizontally long state.
The lowermost part of the reinforcing plate portion 3A13 forming an unequal triangular shape at the lower part of the frame-shaped lid 3A11 is above the lug 2R attached to the front and rear wall surfaces in the snow melting chamber 2E with a predetermined height and interval as shown in FIGS. It is on.
The lids on the left and right sides of the frame-like lid 3A11 are placed on the lugs 2R attached to the left and right wall surfaces in the snow melting chamber 2E with a predetermined height and interval as shown in FIGS.
Since the reinforcing plate portion 3A13 forming the unequal side triangle has a constant inclination angle toward the opposing snow inlet 3A2, the watering pipe 8 and the watering nozzle 9 are disposed on the lower side.
Further, the reinforcing plate portion 3A13 serves to keep the snow melting chamber warm, and when a snow melting device is embedded by a combination of the reinforcing plate portion and lugs, the left and right lids 3A3, 3A4 for the snow inlet and the frame-shaped lid 3A11 are connected to the vehicle. The snow melting chamber lid body 3Al is enhanced in strength against an external load as a whole.
[0032]
2. The machine room lid 3B includes a machine room lid body 3B1 and an intake cylinder portion 3B2. (See FIGS. 9, 14, 15, 16, 17, 28, 30)
A. The machine room lid body 3B1 includes a planar rectangular flat plate 3B11 that covers the upper surface opening having the upward upper protruding edge 2F1 of the machine room 2F from above, and a downward protruding edge 3B12 connected to the outer periphery of the flat plate. And can be opened and closed.
In the figure, 3B13 is a drip-proof plate.
B. The intake cylinder portion 3B2 includes an attachment opening 3B3 opened at a corner of the machine room lid 3B, a vertical guide 3B4, and a lift intake cylinder 3B5.
The vertical guide 3B4 includes a rectangular tube 3B41 that is suspended from the mounting opening toward the inside of the machine room 2F, and guide vertical grooves 3B42 formed on the left and right side surfaces of the rectangular tube. A lateral guide lateral groove 3B43 is connected to the upper end in a side-face T shape.
The elevating and lowering intake cylinder 3B5 includes a rectangular cylinder 3B51 inserted into the vertical guide 3B4 so as to be movable up and down, a ceiling plate 3B52 attached to the upper end of the rectangular cylinder, and an intake port 3B53 opened below the rectangular cylinder. And a small ring 3B55 corresponding to a guide longitudinal groove provided below the left and right side surfaces of the rectangular tube.
And the operation box 3B6 is attached to the front upper part of the raising / lowering intake cylinder 3B5.
A partition 2F1 that receives snow and water droplets that have fallen from the gap between the vertical guide 3B4 and the lifting and lowering intake cylinder 3B5 is provided on the bottom surface of the machine room 2F.
[0033]
C. When lifting and fixing the lifting / lowering intake cylinder, when the handle of the lifting / lowering intake cylinder is lifted, the bolt enters the lateral guide lateral groove perpendicular to the upper guide longitudinal groove, and when the upper part of the lifting / lowering intake cylinder is tilted rearward, the lifting / lowering intake cylinder Is fixed with the front upper part tilted back a little. The front of the lift cylinder is retracted from the top to the back of the surface that contacts the vertical guide 3B4, and this surface is cut out into a flat rectangle, and the operation box is placed in front of the cut out portion of the rectangle. A part of the operation box is inserted, and an opening space in which air necessary for combustion can be taken in is attached between the rear side surface of the inserted operation box and the rear side wall of the ascending / descending intake cylinder.
As a result, when the lift cylinder is raised and fixed, the upper part of the lift cylinder has a center of gravity, and the upper part of the lift cylinder can secure a combustion air intake, so that fresh air necessary for combustion can be supplied to the burner. Can be supplied.
D. The lift cylinder has an air intake in the upper part of the rear side wall of the lift cylinder facing the rear side of the operation box, and the introduced air passes through the opening at the bottom of the lift cylinder and then passes through the vertical guide. Enters the chamber and is fed to the burner.
E. The lifting / lowering intake cylinder and the operation box can be integrated with each other and the mounting direction can be replaced by 180 degrees.
F. The machine room has a burner 6 as a boundary when viewed from above, and the left side is a small room made up of the left side surface of the rectangular tube forming the vertical guide and the machine room lid body 3A1. (Fig. 30, 31)
G. This small room has a water temperature controller, burner motor and terminal block, and burner controller. (Fig. 30, 31)
[0034]
H. If the exhaust gas released from the snow melting device to the atmosphere through the combustion air intake opening that opens to the upper rear side of the upper and lower intake cylinders is circulated and sucked, the burner combustion may become unstable and incomplete combustion may occur. There are the following methods to prevent this.
One of the countermeasures is to provide a plate that closes the combustion air intake at the top of the elevating intake cylinder, make a hole of a certain size, install a pipe in this hole and start it up, and make the tip of the pipe from the height of the intake When using a snow melting device at a high position, start up the lift intake cylinder and then insert the pipe into this hole.
The pipe is removed when the lift cylinder is stored.
The second countermeasure is to close the combustion air intake at the top of the lift cylinder as in the first countermeasure, and provide a hole for the combustion air in the side wall of the machine room. Then, a pipe of the required length is raised from the ground to a place away from the snow melting device, and the combustion air is taken in.
Therefore, the combustion air of the snow melting device is sucked in from the tip of a pipe that is set up at a location distant from the snow melting device, and the snow melting device is started and stopped after the operation box mounted on the snow melting device is started up. It is a method that can be.
[0035]
4). The locking portion 3C is composed of a left locking receiving hole 3C1, a right locking receiving pipe 3C2, an overload prevention / locking bar 3C3, and a key fitting 3C4. (See Figs. 4 and 5)
A. The left locking receiving hole 3C1 has a through-hole 3C10 opened in the front-rear direction on the upward protruding edge 2E1 in the snow melting chamber and a through-hole 3C11 opened in the front-rear direction on the downward protruding edge 3A12 of the frame-shaped lid 3A11. And a receiving pipe 3C12 attached in the front-rear direction to the lower surface of the left cover 3A3 for the snow inlet in the closed state.
B. The right locking receiving pipe 3 </ b> C <b> 2 includes a receiving pipe attached to the front side of the upper side of the right surface 2 </ b> C in the frame 2.
C. The key attachment hardware 3C4 is constituted by a projecting piece having a small hole projecting from the front left end of the machine room lid main body 3B1.
D. The overfall prevention and locking bar 3C3 includes a bar 3C31 having a predetermined length, a bar 3C32 penetrating into the left lock receiving hole bent at the left end of the bar, and a bar extending at the right end. It comprises a rod 3C33 penetrating into the right locking receiving pipe, a suction cylinder holder 3C34 attached to the right part of the rod 3C31, and a key attachment 3C35 attached to a predetermined position of the rod 3C31. Has been. (See Figure 6)
E. A method of using the locking part 3C will be described.
The overhang prevention / locking bar 3C3 has a penetrating bar 3C32 into the left locking receiving hole 3C1 in the left locking receiving hole 3C1, and a right penetrating bar 3C33 into the right locking receiving pipe 3C3. When the pipe 3C2 is penetrated, the intake cylinder part presser 3C34 presses the intake cylinder part 3B2 from above, and the left and right lids 3A3 and 3A4 for the snow inlet are not opened.
Thereafter, the key attachment hardware 3C35 and the key attachment hardware 3C4 are connected with a lock. (See Figure 4)
[0036]
5). The snow throwing port cover overfall prevention portion 3D includes a left receiving pipe 3C12, a right receiving pipe 3D2, and an overfall preventing and locking rod 3C3. (See Figure 5)
A. The left receiving pipe 3C12 is configured by a receiving pipe attached to the front side of the lower surface of the left cover 3A3 for snow inlet.
This receiving pipe can also be provided at the rear as shown in the figure.
B. The right receiving pipe 3D2 is configured by a receiving pipe attached to the front of the lower surface of the snow cover right lid 3A4.
This receiving pipe can also be provided at the rear as shown in the figure.
C. The structure of the snow throwing-in-door cover overfall prevention unit 3D is as described above.
D. A method of using the snow throwing cap cover overfall prevention unit 3D will be described.
When throwing snow, open the left lid for the snow slot and the right lid for the snow slot in the front inverted shape, and put the penetration bar 3C32 into the lock receiving hole on the left side of the locking bar 3C3 to the right. When the penetration rod 3C33 into the right receiving pipe 3D2 is inserted into the left receiving pipe 3C12, the left lid for the snow inlet and the right lid for the snow inlet are opened in a reverse shape. Since it is light, when it melts snow, it will be held securely so as not to open too much outside due to the weight of snow thrown into the snow slot.
[0037]
6). The snow melting chamber lid main body overfall preventing portion 3E includes a front receiving hole 3E1, a rear receiving hole 3E2, and an overfall preventing and locking rod 3C3. (See Figure 9)
A. The front receiving hole 3E1 is formed in the left-right front end of the upward protruding edge 2E1 in the snow melting chamber 2E with a left-right direction.
B. The rear receiving hole 3E2 is formed in the left-right front end of the downward projecting edge 3A12 in the snow melting chamber lid main body 3A1 with a left-right direction.
C. The configuration of the snow melting chamber lid main body overfall preventing portion 3E is as described above.
D. A method of using the snow melting chamber lid main body overfall prevention portion 3E will be described.
Open the snow melting chamber lid main body 3A1, and insert the penetration rod 3C32 into the lock receiving hole on the left side of the locking rod 3C3 to prevent overfall and the penetration rod 3C33 into the lock receiving hole on the right side into the receiving hole 3E2. When it penetrates into the front receiving hole 3E1, the open snow melting chamber lid body 3A1 is securely held, and the snow melting chamber can be opened widely when the inside of the snow melting chamber is required for cleaning and repair.
[0038]
The furnace body b is composed of a furnace body body 4 and an exhaust part 5. (See FIGS. 2, 19, 20, 23, 24, 25, 26)
1. The furnace body 4 is composed of a cylindrical body 4A that is long in the left-right direction and left and right side plates 4B, 4C that are stretched at the left and right ends of the cylindrical body. The center of the right side plate 4C is connected to the hot air outlet 7 in the burner part. Part 4C1 is provided.
The furnace body 4 is supported in a horizontal state in the snow melting chamber 2E via a support leg 4D that stands on the bottom surface 2A of the snow melting chamber.
[0039]
2. The exhaust part 5 includes an exhaust expansion part 5A, front and rear exhaust port parts 5B and 5B, and an exhaust port 5C directed rightward.
A. The exhaust expansion portion 5A includes a downward substantially C-shaped side wall 5A1 connected to the left upper portion of the furnace body 4 in a communicating state, and left and right walls 5A2, 5A2 stretched at the left and right ends of the side wall 5A1. Has been.
B. The front and rear exhaust ports 5B and 5B are front and rear exhaust ports 5B1 and 5B1 that are opened in a horizontally long state on the front and rear surfaces of the side wall 5A1 of the exhaust expansion portion 5A, and a cross section that is connected to the front and rear exhaust ports. The exhaust guides are formed of flat cylindrical exhaust guides 5B2 and 5B2, and the exhaust guides are configured such that the lower openings of the exhaust guides face downward, and an exhaust rectifying plate 5B21 is attached to the lower part of the exhaust guides. Yes.
C. The right-side exhaust port 5C includes an exhaust port 5C1 opened in the center of the right wall 5A2, and an exhaust pipe 5C2 connected to the exhaust port toward the right. The exhaust pipe 5C2 is a furnace. It is attached to the upper surface of the body body 4 with a slight inclination.
[0040]
In addition, with reference to FIG. 25, FIG. 26, the shape of the exhaust port parts 5B and 5B before and behind the exhaust part 5 in a furnace body can be comprised in the curved state as a whole.
[0041]
The burner section C is composed of a burner body 6 and a hot air outlet 7. (See Figure 19)
[0042]
The water sprinkling pipe section d arranged and arranged in the snow melting chamber is composed of a water sprinkling pipe 8 and a water spray nozzle 9. (See FIGS. 2, 12, 18, 20, 21, 22)
1. The sprinkling pipe 8 is connected to the snow melting chamber 2E in a substantially C-shaped plane, and is connected to a sprinkling riser pipe of the submersible pump 2H3 through a sprinkling / drainage switching valve V.
Accordingly, the water sprinkling pipe is attached to the bottom of the frame-shaped lid 3A11 as shown in FIGS. 18 and 22 in a horizontally long state where the water sprinkler is attached to the left and right to form an unequal triangular shape having a constant inclination angle toward the snow inlet. It is located in the lower part of the reinforcing plate portion 3A13 that also serves as a plate, is piped in a substantially plane C shape, and is connected to a watering riser pipe of the submersible pump 2H3 through a valve V for watering / drainage switching.
[0043]
2. The watering nozzle 9 is attached to the watering pipe 8 at a predetermined interval, and is configured to be adjustable in angle toward the inside of the snow melting chamber.
In this case, specifically, the nozzle 9 </ b> B is implanted in the watering pipe 8 that is connected to the watering pipe 8 divided into a predetermined size so as to be rotatable and fixed.
A. The front and rear nozzles 9B and the left and right nozzles 9B are attached to predetermined positions of a water sprinkling pipe 8 piped in a substantially C-shaped plane in the snow melting chamber 2E as shown in FIG.
In the figure, 13 is a water level display board.
B. The front and rear nozzles are attached to the sprinkling pipe so that the nozzle surfaces can be rotated and fixed at symmetrical positions at predetermined intervals.
C. The left and right nozzles are similarly attached to the sprinkling pipe at symmetrical positions at a predetermined interval, and the left nozzle has the nozzle surface inclined obliquely downward as shown in FIG. 21, and the discharged water from the nozzles is discharged from the exhaust expansion part of the furnace body. Turn in the direction.
In the right nozzle, the nozzle surface faces upward, and water discharged from the nozzle is reflected by the cover 3A11 covering the nozzle, and water is sprayed on the snow.
D. The front and rear nozzles are disposed below the reinforcing plate 3A13 attached to the lower part of the lid 3A11 of the snow melting chamber 2E.
This reinforcing plate part serves as a water spray reflector, and the discharged water from the front and rear nozzles hits this reinforcing plate part as shown in FIG. 22, and the inside of the snow melting chamber on the combustion furnace side according to the inclination angle of the reinforcing plate part. Sprinkle towards the direction.
[0044]
3. The exhaust passage portion e attached to the wall will be described with reference to FIGS. 12, 13, 19, and 20.
A. When the snow melting device of the present invention is in operation, the snow inlet 3A2 of the snow melting chamber 2E leaves a frame-shaped lid 3A11 of a certain size from the outer periphery of the snow melting chamber lid body 3A1. Open horizontally in the horizontal direction.
B. The left and right lids 3A3 and 3A4 for the snow inlet are opened in a reverse letter C shape.
C. In reality, the state of the snow to be thrown is actually stacked above the frame-shaped lid 3Al1 of the snow melting chamber and higher than the snow throwing port 3A2.
D. While using the snow melting device in normal snow melting work, the exhaust that has flowed into the snow melting chamber from the exhaust guide of the furnace body is projected to the water surface and snow, and the exhaust is covered with the frame-shaped lid 3A11 of the snow melting chamber and the unequal triangle. By staying in the lower part of the reinforcing plate portion 3A13 to be formed and being sprayed with water from the watering nozzle, heat is taken away by the watering and is guided to the guiding path 3A5 and released to the atmosphere.
E. When a part of this exhaust gas is not easily released into the atmosphere from the snow melting chamber, or when the exhaust gas cannot be released, the combustion of the burner stops or incomplete combustion occurs.
F. Often, the user of a snow melting device throws snow in such a way that there is not enough space in the snow melting chamber, and when this makes it difficult to discharge the exhaust from the snow melting chamber, combustion of the burner becomes extremely unstable. , Burner may stop burning (misfire) or cause incomplete combustion.
G. The exhaust passage attached to the wall is installed to prevent the burner from stopping or incompletely burning even when snow is poured into the snow melting chamber so that there is no space inside. This is to secure an exhaust passage attached for the purpose of ensuring stable combustion.
H. 12, 19, and 32, the exhaust passage section e has a small exhaust space 12 </ b> A for the left inner wall of the snow melting chamber between the left inner wall of the snow melting chamber and the left end surface of the furnace body. A punching plate 12C having short legs 12B is attached in parallel in the vertical direction, and an exhaust passage 12 is formed with a space formed between the left inner wall of the snow melting chamber and the punching plate 12C.
Then, the left side of the second prevention frame 11 is attached to a position about half the vertical length of the punching plate 12C, and the right side is used as a metal fitting on the left end surface of the furnace body. Put it on.
In addition, since the second prevention frame 11 has a narrower mesh than the first fall prevention frame 10, most of the thrown-in snow rides on the second prevention frame 11, and the snow is this Even if it falls below the frame, a gap is secured to allow exhaust to pass through.
I. The exhaust path attached to the wall is a small space between the punching plate and the inner wall on the left side of the snow melting chamber, and when snow is poured in so that there is no space inside the snow melting chamber, the exhaust passes through this space. It is guided to the taxiway and released to the atmosphere.
J. et al. In addition, the portion of the punching plate that was raised above the second preventive frame 11 that was horizontally mounted at about 1/2 the vertical length of the punching plate was slipped down by the user of the snow melting device. Sometimes it also serves as a stopper that does not slide to the left.
K. Since the snow cover left cover 3A3 has a gap between the lower part of the snow cover left cover 3A3 and the frame-shaped cover 3A11 when the cover is opened and fixed, the exhaust gas flows into the snow cover left cover 3A3. Although it releases from the attached taxiway, a part of it is released through the gap below the snow cover left lid 3A3 without passing through the taxiway, so that the upper opening of the taxiway should be sealed with snow. However, since the exhaust port of the snow melting device is secured by the gap, the burning of the burner does not stop.
[0045]
4). About the fall prevention frame
The snow melting device may cause injury if a person using the snow melting device falls when the lid of the snow melting chamber is opened.
Also, if the user falls, there is a risk of being burned or seriously injured by the direct heat of the furnace body arranged in the snow melting chamber and the heat of the exhaust coming out of the furnace body through the exhaust port of the furnace body during operation of the snow melting device.
Therefore, it is necessary to take measures to prevent the user from falling into the snow melting chamber, and a frame is attached to the portion of the snow melting chamber covering the snow inlet to prevent the user from falling.
A. As shown in FIG. 2, two fall prevention frame portions are provided in the snow melting chamber.
B. One is a first preventive frame 10 that covers the top of the furnace body, and the other one is a second preventive frame that covers the space between the left side of the furnace body and the left wall of the snow melting chamber. 11 is arranged.
C. The first preventive frame 10 is constructed in a flat lattice shape inside the four outer frames so that it easily falls onto the furnace body of the snow melting chamber or the water surface stored in the snow melting chamber when snow is thrown into the snow melting chamber. It is a frame.
The second prevention frame 11 is a frame in which the inside of the four outer frames is partitioned into a bowl shape at regular intervals.
D. The first prevention frame 10 has a metal fitting attached downward at the four corners of the outer frame in four directions, and the metal fitting was piped in a substantially C shape along the inner wall of the snow melting chamber. Located on the sprinkling pipe.
E. The second preventive frame 11 is placed on a metal fitting attached to the left side of the furnace body at a predetermined height on the right end, and the left side of the second preventive frame 11 is horizontally positioned at about half the vertical direction of the punching plate 12C. The punching plate is mounted on a metal fitting attached to the left side of the snow melting chamber.
F. The first prevention frame 10 and the second prevention frame 11 are positioned below the snow melting chamber lid body 3A1, and cannot be removed unless the snow melting chamber lid body 3A1 is opened.
G. The first prevention frame 10 and the second prevention frame 11 can be removed when the snow melting chamber lid body 3A1 is opened as shown in FIGS. 9 and 11, and the inside of the snow melting chamber needs to be cleaned and repaired. It can be removed in some cases.
H. To remove the first prevention frame 10 and the second prevention frame 11, as shown in FIG. 9, the left and right lids 3 </ b> A <b> 3 and 3 </ b> A 4 for the snow inlet of the snow melting chamber and a frame-like lid that covers the outer periphery of the snow inlet 3A11 is engaged with the lock pin RP, the snowmelt chamber lid body 3A1 is opened, and the overfall prevention and locking bar 3C3 is attached, so it can only be removed afterwards. When cleaning or repairing the snowmelt chamber Otherwise, it is cumbersome and can be easily removed and the snow melting device cannot be used.
[0046]
here,Of the present inventionA method for operating the snow melting device will be described.
In a snow-melting device with watering, if the snow-melting device is not used for several days or if there is little snowfall and the outside air temperature is low, the water in the snow-melting chamber will freeze and the thickness will increase. The operation method for de-icing is as follows.
a. The operation method is to turn on the submersible pump first, and then turn on the burner switch. Next, turn off the submersible pump.
Since the snow melting device stops watering, there is no rise of water on the ice, and the exhaust heat intensively breaks the ice directly under the exhaust guide by the independent operation of the burner. The water under the ice pumped up by the submersible pump returns to the bottom of the crushed ice.
b. If de-icing is confirmed, the submersible pump switch may be turned on to sprinkle water to melt snow, or the submersible pump switch may be turned off to melt snow using direct heat and exhaust heat. .
c. When the burner is operating and the submersible pump switch is OFF, first turn on the submersible pump switch, then turn off the burner switch, and then turn off the submersible pump switch. To.
When the burner is operating and the submersible pump switch is on, the burner switch is turned off and then the submersible pump switch is turned off.
[0047]
【The invention's effect】
Since the present invention is configured as described above, the following effects can be obtained.The
1. Since the hot exhaust is forced to the water stored in the snowmelt chamber and the pump chamber, the snowmelt water drained through the pump chamber is drained at a high temperature. It solves the problem that the snowmelt drainage that flows into the gutter is easy to freeze.
2. The combustion air supplied to the burner has a time lag from the process of entering the machine room through the vertical guide and then through the vertical guide, so the combustion air is supplied easily and warmed, so the combustion of the burner is stable .
3. Backfire, which is generated when a kerosene pool is ignited inside the furnace body, goes out to the burner chamber, then passes through the inside of the vertical guide and is led to the lift cylinder. Since it is released from the combustion air intake port of the intake cylinder with a time lag, the force is weakened.
4). In the event of a backfire, the vertical position of the lift cylinder is fixed with the front upper part tilted slightly backwards, so it will be discharged from the combustion air intake at the upper rear of the lift pipe toward the lower rear. However, it is not suitable for those who operate the operation box of the snow melting device.
5). Even if a backfire occurs, the electrical components are isolated in a small room and will not burn out.
6). Since the direction of the elevating and lowering intake cylinder and the operation box can be integrally changed by 180 degrees, the operation box of the snow melting device can always be installed facing the user.
[0048]
7). The upper part of the lifting and lowering intake cylinder is covered with a lid, and the combustion air intake is opened at the upper rear of the lifting and lowering intake cylinder. Does not penetrate, the burner performs stable combustion.
8). The combustion air intake port of the elevating and lowering intake cylinder is located at the upper part of the elevating and lowering intake cylinder and does not suck exhaust gas to the ground surface released from the snow melting chamber to the atmosphere, so that the burner combustion is stabilized.
9. Since the snow melting chamber covers the periphery of the snow inlet with a frame-shaped lid on the outer periphery even when the lid of the snow inlet is opened, the snow melting chamber does not completely release it from the atmosphere. There is no wasteful release into the atmosphere, improving snow melting efficiency.
10. Since a guide path is provided inside the snow cover left lid 3A3 and the lower part is further lowered from the frame-shaped cover, the exhaust gas staying in the lower part of the lid is easily guided to the guide path, and the exhaust path is guided to the guide path. Does not require a board.
[0049]
11. Inside the snow melting chamber, the exhaust from the furnace outlet is directly projected onto the snow at high temperature to melt the snow, and the hot exhaust heat is projected onto the water surface to heat the water temperature. Heat stays better because it stays in the lower part of the frame-shaped lid around the snow inlet of the room, heat-exchanges the sprinkler, lowers the atmospheric discharge temperature, and exits the snow-melting room.
12 The heat of the high-temperature exhaust gas staying in the lower part of the frame-shaped lid on the outer periphery of the snow inlet is exchanged for water, and the high-temperature water spray is used as cooling water for the furnace body. Less cooling and local expansion.
13. Since a space for exhaust discharge is provided in the wall of the snow melting chamber at the lower part of the exhaust passage and the snow inlet lid, there is no misfire even if used by an unspecified person, and the snow melting device can be operated stably. Is possible.
14 Since a reinforcing face plate is attached to the back of the snow inlet cover so as to cover the entire surface of the cover with a certain clearance, the heat retaining effect of the snow melting chamber is increased and the water accumulated in the snow melting chamber does not freeze. Even if it freezes, it is thin ice.
15. Since a drip-proof plate is provided on the lid of the machine room and each electrical component is covered with a drip-proof plate and a drip-proof cover separately, the corrosion resistance is improved.
[0050]
16. The lifting / lowering intake cylinder has an operation box at the top and has a center of gravity at the top, so if it is lifted and fixed, the front part is tilted a little rearward, and the operation box is easy to operate even if the position of the operation box is not too high.
It also has an effect such as low running cost and economy.
[Brief description of the drawings]
FIG. 1 is an overall plan view.
FIG. 2 is a plan view in which a snow melting chamber cover is omitted.
FIG. 3 is an overall front view.
FIG. 4 is a perspective view with a lid as a center.
FIG. 5 is an exploded perspective view in a state where a lid is opened.
FIG. 6 is a perspective view of an overfall prevention and locking bar.
FIG. 7 is an exploded perspective view showing a connection state of the left cover for the snow slot and the snow slot.
FIG. 8 is an enlarged vertical sectional view of the main part of the above.
FIG. 9 is a perspective view showing a state where a lid is opened.
FIG. 10 is an enlarged perspective view showing a state in which the main part is inverted.
FIG. 11 is a left side view of the state in which the lid is opened.
FIG. 12 is an enlarged perspective view of the main part of the above.
13 is a longitudinal sectional view of FIG.
FIG. 14 is an exploded perspective view in which a part of the machine room portion is cut away and viewed from the center.
FIG. 15 is a perspective view of a state in which a machine room lid is inverted.
FIG. 16 is a left side view of the ascending / descending intake cylinder as a center.
FIG. 17 is an explanatory diagram of the operation of the above.
FIG. 18 is a cross-sectional view taken along line AA.
FIG. 19 is a cross-sectional view showing a state where the lid is opened along the line BB.
FIG. 20 is a cross-sectional view of the pump chamber section taken longitudinally.
FIG. 21 is an enlarged view of the main part of the above.
22 is an enlarged view of a main part in FIG.
FIG. 23 is a perspective view of a furnace body.
FIG. 24 is an enlarged sectional view taken along line CC.
FIG. 25 is a perspective view of another example of a furnace body.
FIG. 26 is an enlarged vertical sectional view of the same.
FIG. 27 is an exploded perspective view of the pump chamber.
FIG. 28 is an exploded perspective view of a machine room lid.
FIG. 29 is an enlarged sectional view taken along line DD.
FIG. 30 is a right side view with a part cut away illustrating the operation of the burner part.
FIG. 31 is an enlarged sectional view taken along line EE.
FIG. 32 is a perspective view of a punching plate.
[Explanation of symbols]
1 Snow melting equipment
A Frame part
B Furnace
Ha burner
D Sprinkling pipe section
E Exhaust passage
F Fall prevention frame

Claims (4)

It consists of the following frame part (b), furnace body (b), burner part (c), sprinkling pipe part (d), exhaust passage part (e), and fall prevention frame part (f). A snow melting device characterized by that.
First. The frame part (A) is composed of a frame (2) and a lid (3).
1) The frame (2) has a horizontally long bottom surface (2A) on the left and right sides of the plane, front and rear surfaces (2B, 2B) standing upright on the front and rear sides of the bottom surface, and left and right surfaces standing on the left and right sides of the bottom surface. (2C, 2C), and by extending the right partition plate (2D) in parallel to the right surface at a predetermined interval from the right surface (2C) in the frame (2), the frame (2) The snow melting chamber (2E) and machine room (2F) are constructed from the left, and the snow melting chamber (2E) holds the reference water level (WL) that is submerged to the extent that it exceeds approximately 1/3 of the lower part of the furnace opening. Drainage port (2G) is formed with the height that can be,
2) The pump chamber (2H) includes a pump chamber main body (2H1), a dust collector (2H2), a submersible pump (2H3), a water temperature detection pipe (2H31), and an antifreeze heater. ) Is composed of a vertical rectangular tube (2H11) and a top plate (2H12) connected in a state surrounding the drain port (2G), and the left side plate of this vertical rectangular tube is lowered from the reference water level (WL) to reduce the snow melting water. The intake (2H13) is opened,
3) The submersible pump (2H3) is mounted in the pump chamber main body (2H1), and a sprinkling / drainage switching valve (V) is connected to a sprinkling riser pipe vertically penetrating the pump chamber main body. Connected to the pipe (8) and the watering nozzle (9),
4) The dust collector (2H2) is disposed at the snow melting water inlet (2H13) of the pump chamber body (2H1), and the front and rear surfaces (2B, 2B), the left surface (2C), and the right in the snow melting chamber (2E) A load-bearing lug (2R) for the lid is attached to the upper side of the partition plate (2D),
The lid (3) includes a snow melting chamber lid (3A), a machine chamber lid (3B), a locking portion (3C), a snow inlet lid over-fall prevention portion (3D), and a snow melting chamber lid over-fall prevention portion ( 3E),
1) The snow melting chamber lid (3A) includes a snow melting chamber lid body (3A1), a snow inlet (3A2), a snow inlet left lid (3A3), and a snow inlet right lid (3A4). And
A. The snow melting chamber lid main body (3A1) has a flat rectangular plate (3A11) that covers from above the upper surface opening having an upward protruding edge (2E1) of the snow melting chamber (2E), and the outer periphery of the flat plate. And is configured to be opened and closed through a hinge (T) provided on the rear surface (2B) of the snow melting chamber (2E).
B. In the snow melting chamber lid body (3A1), the snow inlet (3A2) is opened from the outer periphery of the snow melting chamber lid body in a horizontally long state to the left and right of the plane, leaving a frame-shaped lid (3A11) of a certain size,
C. The left cover for the snow slot (3A3) is a flat plate that covers the left half of the snow slot (3A2) from above, and can be opened and closed via a hinge (T) provided on the left side. The hinge (T) is attached with a stopper (S) for preventing the left cover for the snow inlet from opening more than a predetermined angle, and there is a space on the inner surface of the left cover for the snow inlet (3A3). A reinforcing face plate (3A31) is attached and attached as a guide path (3A5) for guiding exhaust from the inside of the snow melting chamber,
D. The right cover for the snow slot (3A4) is composed of a flat plate that covers the right half of the snow slot (3A2) from above, and can be opened and closed via a hinge (T) provided on the right side. The hinge (T) is attached with a stopper (S) that prevents the snow cover right cover from opening more than a predetermined angle, and the inner surface of the snow cover right cover (3A4) is reinforced with a space. A face plate (3A41) is attached,
E. The right cover for snow slot (3A4) is configured to receive the left cover for snow slot (3A3) from below and is configured to be fixed by a lock pin (RP).
F. In the snow melting chamber lid main body (3Al), inside the frame-shaped lid (3A11) of a certain size, there are left and right reinforcing plate portions (3A13) that also serve as a water spray reflector having a certain inclination angle toward the snow inlet. The lower part of the reinforcing plate part (3A13) is configured to rest on the lug (2R), and the left and right side lids of the frame-shaped lid (3A11) are located in the snow melting chamber (2E). Configured to rest on the lug (2R)
2) The machine room lid (3B) includes a machine room lid body (3B1) and an intake cylinder (3B2).
A. The machine room lid body (3B1) is connected to a flat plate (3B11) of a flat rectangular shape that covers from above the upper surface opening having an upwardly upward protruding edge (2F1) of the machine room (2F), and an outer periphery of the flat plate. It is configured to be openable and closable from the downward projecting edge (3B12) provided,
B. The intake cylinder portion (3B2) includes a mounting opening (3B3) opened at a corner of the machine room lid (3B), a vertical guide (3B4), and a lift intake cylinder (3B5). 3B4) is composed of a rectangular tube body (3B41) that is suspended and connected to the mounting opening, and vertical guide grooves (3B42) provided on the left and right sides of the rectangular tube body. The lateral groove for guide (3B43) is connected in a T-shape on the side, and the lifting and lowering intake cylinder (3B5) is opened below the square cylinder (3B51), the square cylinder ceiling plate (3B52), and the square cylinder. The intake port (3B53) and the intake port (3B54) opened above the back of the rectangular tube body, and the small ring (3B55) below the left and right side surfaces of the rectangular tube body,
C. The front of the lift cylinder is cut out by retracting approximately 2/3 from the surface in contact with the vertical guide (3B4) from the top, and the operation box is inserted with the front part left slightly in this cut-out part. Between the rear side walls of the lifting and lowering intake cylinder is attached with an open space that can take in combustion air,
3) The locking part (3C) is composed of a left locking receiving hole (3C1), a right locking receiving pipe (3C2), an overturn prevention / locking bar (3C3), and a key fitting (3C4). ,
A. The key attachment hardware (3C4) is composed of a projecting piece having a small hole projecting from the front left end of the machine room lid body (3B1).
B. The overfall prevention and locking bar (3C3) includes a bar (3C31), a penetrating bar (3C32) bent at the left end of the bar, an penetrating bar (3C33) bent at the right end, and a bar (3C31). ) Attached to the intake cylinder part presser (3C34) and the key fitting (3C35),
4) The snow throwing cap cover overfall prevention part (3D) is composed of a left receiving pipe (3C12), a right receiving pipe (3D2), and an overfall preventing and locking bar (3C3).
5) The overmelting prevention part (3E) for the snow melting chamber lid body is composed of a front receiving hole (3E1), a rear receiving hole (3E2), and an overfall prevention and locking bar (3C3).
2nd. The furnace body (b) is composed of a furnace body body (4) and an exhaust part (5),
1) The furnace body main body (4) is composed of a cylindrical body (4A) that is long in the left-right direction and left and right side plates (4B, 4C) stretched at the left and right ends, and the center of the right side plate (4C) is in the burner section. A hot air outlet (7) and a connecting portion (4C1) are provided and supported in a horizontal state via a support leg (4D) raised on the bottom surface (2A) of the snow melting chamber,
2) The exhaust part (5) is composed of an exhaust expansion part (5A), front and rear exhaust port parts (5B, 5B), and an exhaust port (5C) directed rightward,
A. The exhaust expansion part (5A) is stretched around the downward substantially C-shaped side wall (5A1) connected in communication with the upper left part of the furnace body (4) and the left and right ends of the side wall (5A1). Left and right walls (5A2, 5A2)
B. The front and rear exhaust ports (5B, 5B) include front and rear exhaust ports (5B1, 5B1) opened in a horizontally long state on the front and rear surfaces of the side wall (5A1) of the exhaust expansion portion (5A), and the front and rear exhaust ports. The exhaust guides (5B2, 5B2) are flat and have a transverse cross section, and the lower openings of the exhaust guides are directed downward. The exhaust guide plate ( 5B21) is attached,
C. The rightward exhaust port (5C) is composed of an exhaust port (5C1) opened in the center of the right wall (5A2) and an exhaust pipe (5C2) connected to the exhaust port toward the right. The exhaust pipe (5C2) is attached with a slight inclination toward the upper surface of the furnace body (4).
3rd. The burner section (c) is composed of a burner body (6) and a hot air outlet (7).
4th. The watering pipe part (d) is composed of a watering pipe (8) and a watering nozzle (9),
1) The water sprinkling pipe (8) is installed in a substantially C-shaped plane along the upper opening in the snow melting chamber (2E), and is attached in a horizontally long state with a certain inclination angle toward the snow inlet. Located at the lower part of the reinforcing plate part (3A13) that also serves as a sprinkling reflector, and connected to the sprinkling riser pipe of the submersible pump (2H3) through the sprinkling / drainage switching valve (V),
2) The watering nozzle (9) is constructed by installing the nozzle (9B) in the watering pipe (8) with a predetermined interval and inwardly adjusting the angle toward the inside of the snow melting chamber,
A. The front and rear nozzles are mounted so that the nozzle surface can be rotated and fixed upward.
B. The left nozzle is configured so that the water discharged from the nozzle is directed toward the exhaust expansion portion of the furnace body, and the right nozzle is discharged with the nozzle surface facing upward and the water is reflected on the cover (3A11) covering the nozzle And
C. The front and rear nozzles should be arranged below the reinforcing plate (3A13) attached to the lower part of the lid (3A11) of the snow melting chamber (2E).
5th. The exhaust passage portion (e) is attached with a punching plate (12C) having short legs (12B) so that a slight exhaust space (12A) is formed with respect to the left inner wall of the snow melting chamber. Be configured.
Sixth. The fall prevention frame (f) is in the snow melting chamber. 1) One is the first prevention frame (10) wide enough to cover the top of the furnace body, and the other is the left side of the furnace body and snow melting. It is arranged as a second preventive frame (11) with a width that almost covers the space between the left walls of the room,
2) The first preventive frame (10) is configured as a frame in which the insides of the four outer frames are assembled in a planar grid pattern, and the second preventive frame (11) is arranged at a constant interval inside the four outer frames. It is composed of a frame that divides the plane into bowls,
3) The first preventive frame (10) is mounted on the water spray pipe by attaching a metal fitting in a downward U-shape at the four corners of the four outer frames.
4) The second prevention frame (11) has one end on the right side placed on the hardware of the furnace body, the left side is attached to the punching plate (12C), and the punching plate is a metal fitting attached to the left side of the snow melting chamber. It is listed. It consists of the following frame part (b), furnace body (b), burner part (c), sprinkling pipe part (d), exhaust passage part (e), and fall prevention frame part (f). A snow melting device characterized by that.
First. The frame part (A) is composed of a frame (2) and a lid (3).
1) The frame (2) has a horizontally long bottom surface (2A) on the left and right sides of the plane, front and rear surfaces (2B, 2B) standing upright on the front and rear sides of the bottom surface, and left and right surfaces standing on the left and right sides of the bottom surface. (2C, 2C), and by extending the right partition plate (2D) in parallel to the right surface at a predetermined interval from the right surface (2C) in the frame (2), the frame (2) From the left, a snow melting chamber (2E) and a machine room (2F) are formed, and the left part of the right partition plate (2D) in the snow melting chamber (2E) is almost 1 / of the lower part of the furnace body (b). The drain port (2G) is formed with a height that can maintain the reference water level (WL) that is submerged as the value exceeds 3, and the snow melting chamber (2E) is connected to the drain port (2G) in the pump chamber portion (2H). ), And the front and rear surfaces (2B, 2B), left surface (2C), and right side in the snow melting chamber (2E) The upper side of Setsuban (2D), the lid of the load bearing lug (2R) is attached,
2) The pump chamber (2H) includes a pump chamber body (2H1), a dust collector (2H2), a submersible pump (2H3), a water temperature detection pipe (2H31), and an antifreeze heater. ) Is composed of a vertical square tube (2H11) and a top plate (2H12) connected in a state surrounding the drain port (2G), and the left side plate of the vertical square tube has a position below the reference water level (WL). Measures are taken to prevent the exhaust gas from flowing out, the snowmelt water intake (2H13) is opened, and the bottom of the snowmelt water intake (2H13) has several holes for residual water in the snowmelt chamber, such as gravel. Intrusion prevention plate (2H14) is provided,
3) The submersible pump (2H3) is mounted in the pump chamber main body (2H1), and the submersible pump (2H3) has a sprinkling riser pipe vertically penetrating the pump chamber main body (V) for switching sprinkling / drainage. And the valve is connected to the watering pipe (8) and the watering nozzle (9),
4) The dust collector (2H2) is connected to the right vertical plate (2H21) configured to close the snow melting water inlet (2H13) of the pump chamber body (2H1) and the front side of the right vertical plate. The provided front plate (2H22), the left vertical plate (2H23) connected to the front plate in parallel with the right vertical plate, the right vertical plate (2H21) and the left vertical plate (2H23) ) Above the upper connecting plate (2H24), the right vertical plate, the front plate, and the bottom plate (2H25) connecting the lower side of the left vertical plate, the right vertical plate, the front plate, the left The vertical plate, the upper connecting plate, and the bottom plate are grouped with water holes (H), and the water holes formed in the right vertical plate, front plate, and bottom plate in contact with the snowmelt water intake (2H13) are , Left vertical plate, configured to be slightly smaller than the water passage hole (H) established in the upper connecting plate,
The lid (3) includes a snow melting chamber lid (3A), a machine chamber lid (3B), a locking portion (3C), a snow inlet lid over-fall prevention portion (3D), and a snow melting chamber lid over-fall prevention portion ( 3E),
1) The snow melting chamber lid (3A) includes a snow melting chamber lid body (3A1), a snow inlet (3A2), a snow inlet left lid (3A3), and a snow inlet right lid (3A4). And
A. The snow melting chamber lid main body (3A1) has a flat rectangular plate (3A11) that covers from above the upper surface opening having an upward protruding edge (2E1) of the snow melting chamber (2E), and the outer periphery of the flat plate. And is configured to be opened and closed through a hinge (T) provided on the rear surface (2B) of the snow melting chamber (2E).
B. In the snow melting chamber lid body (3A1), the snow inlet (3A2) is opened from the outer periphery of the snow melting chamber lid body in a horizontally long state to the left and right of the plane, leaving a frame-shaped lid (3A11) of a certain size,
C. The left cover for snow slot (3A3) is a flat rectangular plate that covers the left half of the snow slot (3A2) from above, and a hinge (T) provided on the left side of the snow slot (3A2). The hinge (T) is attached with a stopper (S) for preventing the left cover for the snow slot from opening more than a predetermined angle, and the left cover for the snow slot. On the inner surface of (3A3), a reinforcing face plate (3A31) is attached with a little space between the inside of the left cover for snow inlet (3A3) so as to cover almost the entire surface of the lid, When the lid is erected with the hinge (T) as a fulcrum, the space between the left cover for snow inlet (3A3) and the reinforcing face plate is attached as a guide path (3A5) for guiding the exhaust from the inside of the snow melting chamber to the atmosphere. Established,
D. The right cover for snow slot (3A4) is a flat rectangular plate that covers the right half of the snow slot (3A2) from above, and a hinge (T) provided on the right side of the snow slot (3A2). The hinge (T) is attached to the hinge (T) with a stopper (S) for preventing the snow cover right cover from opening more than a predetermined angle. The snow cover right cover On the inner surface of (3A4), the reinforcing face plate (3A41) has a small space between the inner side of the right cover for snow inlet (3A4) so as to cover almost the entire surface of the right lid for snow inlet (3A4). ) Is installed and
E. The left end step of the closed snow inlet right lid (3A4) is configured to receive the right end of the closed snow inlet left lid (3A3) from below, and the snow inlet left lid is melted snow. It is configured to be fixed by a lock pin (RP) that is removably inserted into the downward projecting edge (3A12) of the room lid body (3A1),
F. In the snow melting chamber lid main body (3Al), the snow inlet (3A2) is provided with a frame-shaped lid (3A11) having a certain size from the outer periphery of the snow melting chamber lid main body and on the inner lower portion of the lid (3A11). Reinforcing plate part (3A13) that also serves as a sprinkling reflector that forms an unequal side triangle with a certain inclination angle toward the inlet is mounted in a horizontally long state, and the unequal side at the bottom of the frame-shaped lid (3A11) The lowermost part of the reinforcing plate portion (3A13) forming the triangle is configured to be placed on a lug (2R) attached to the front and rear wall surfaces in the snow melting chamber (2E) with a predetermined height and interval, and is a frame-shaped lid The left and right lids of (3A11) are configured to rest on the lugs (2R) attached to the left and right wall surfaces in the snow melting chamber (2E) at a predetermined height and interval, and form reinforcing plate portions that form unequal triangles. (3A13) is the opposite snow inlet (3 Because having a fixed inclination angle toward 2), the watering nozzle watering pipe (8) to the bottom (9) is arranged,
2) The machine room lid (3B) includes a machine room lid body (3B1) and an intake cylinder (3B2).
A. The machine room lid body (3B1) is connected to a flat plate (3B11) of a flat rectangular shape that covers from above the upper surface opening having an upwardly upward protruding edge (2F1) of the machine room (2F), and an outer periphery of the flat plate. It is composed of a downward projecting edge (3B12) and is configured to be openable and closable.
B. The intake cylinder portion (3B2) includes a mounting opening (3B3) opened at a corner of the machine room lid (3B), a vertical guide (3B4), and an elevating intake cylinder (3B5). (3B4) is composed of a rectangular tube (3B41) that is suspended and connected to the mounting opening toward the machine room (2F), and guide vertical grooves (3B42) that are opened on the left and right side surfaces of the rectangular tube. A horizontal guide horizontal groove (3B43) is connected to the upper end of the guide vertical groove in a T-shape, and the vertical intake cylinder (3B5) is inserted into the vertical guide (3B4) so as to be movable up and down from above. (3B51), a ceiling plate (3B52) attached to the upper end of the square tube, an intake port (3B53) established below the square tube, and an intake port (3B53) established above the back of the square tube ( 3B54) in the guide longitudinal groove provided below the left and right side surfaces of the rectangular tube body. Is composed of small wheels (3B55) to respond, the operation box (3B6) on the front upper portion of the elevating air cylinder (3B5) is attached,
C. When lifting and fixing the lifting / lowering intake cylinder, when the handle of the lifting / lowering intake cylinder is lifted, the bolt enters the horizontal guide lateral groove perpendicular to the upper guide groove, and when the upper part of the lifting / lowering intake cylinder is tilted backward, The front upper part is fixed in a state where the upper part of the front side is tilted slightly backwards, and the front of the lift cylinder is retracted from the top to the back side of the surface that contacts the vertical guide (3B4), and this surface is cut into a flat rectangle. The operation box is inserted in this rectangular hollow part with a little left front part, and the space between the rear side of the inserted operation box and the rear side wall of the lift cylinder opposite to it is necessary for combustion. It is installed with an open space that can take in fresh air,
D. The lift cylinder has an air intake in the upper part of the rear side wall of the lift cylinder facing the rear side of the operation box, and the introduced air passes through the opening at the bottom of the lift cylinder and then passes through the vertical guide. Configured to enter the chamber and be fed to the burner,
3) The locking part (3C) is composed of a left locking receiving hole (3C1), a right locking receiving pipe (3C2), an overturn prevention / locking bar (3C3), and a key fitting (3C4). ,
A. The left receiving hole for locking (3C1) includes a through hole (3C11) opened in the front-rear direction on the upward protruding edge (2E1) in the snow melting chamber, and a closed left cover for the snow inlet (3A3). Consists of a receiving pipe (3C12) attached to the lower surface with the front-rear direction,
B. The right locking receiving pipe (3C2) is composed of a receiving pipe attached to the front side of the right surface (2C) of the frame (2).
C. The key attachment hardware (3C4) is composed of a projecting piece having a small hole projecting from the front left end of the machine room lid body (3B1).
D. The overfall prevention and locking bar (3C3) includes a bar (3C31) having a predetermined length, and a penetrating bar (3C32) into the left locking receiving hole bent and connected to the left end of the bar, A rod (3C33) that penetrates into the right locking receiving hole that is bent at the right end, an air intake cylinder retainer (3C34) that is attached to the right side of the rod (3C31), and a rod (3C31) ) And a key attachment (3C35) attached at a predetermined position,
4) The snow throwing cap cover overfall prevention part (3D) is composed of a left receiving pipe (3C12), a right receiving pipe (3D2), and an overfall preventing and locking bar (3C3).
A. The left receiving pipe (3C12) is composed of a receiving pipe attached to the left front on the lower surface of the left cover for snow inlet (3A3),
B. The right receiving pipe (3D2) is composed of a receiving pipe attached to the right front of the lower surface of the snow cover right lid (3A4),
5) The snowmelt chamber lid main body overfall prevention portion (3E) is composed of a front receiving hole (3E1), a rear receiving hole (3E2), and an overfall preventing and locking rod (3C3).
A. The front receiving hole (3E1) is opened in the left-right direction at the left front end of the upward protrusion (2E1) in the snow melting chamber (2E),
B. The rear receiving hole (3E2) should be opened in the left-right direction at the left front end of the downward projecting edge (3A12) in the snow melting chamber lid body (3A1).
2nd. The furnace body (b) is composed of a furnace body body (4) and an exhaust part (5),
1) The furnace body main body (4) is composed of a cylindrical body (4A) that is long in the left-right direction and left and right side plates (4B, 4C) that are stretched on the left and right ends of the cylindrical body. Is provided with a hot air outlet (7) and a connecting part (4C1) in the burner part, and the furnace body (4) is erected on the bottom surface (2A) of the snow melting chamber in the snow melting chamber (2E). Supported in a horizontal state via a support leg (4D),
2) The exhaust part (5) is composed of an exhaust expansion part (5A), front and rear exhaust port parts (5B, 5B), and an exhaust port (5C) directed rightward,
A. The exhaust expansion part (5A) is stretched around the downward substantially C-shaped side wall (5A1) connected in communication with the upper left part of the furnace body (4) and the left and right ends of the side wall (5A1). Left and right walls (5A2, 5A2)
B. The front and rear exhaust ports (5B, 5B) include front and rear exhaust ports (5B1, 5B1) opened in a horizontally long state on the front and rear surfaces of the side wall (5A1) of the exhaust expansion portion (5A), and the front and rear exhaust ports. Are formed of cylindrical exhaust guides (5B2, 5B2) that are flat in cross section and are configured such that a lower opening of the exhaust guide faces downward, and a lower portion of the exhaust guide. The exhaust air rectifying plate (5B21) is attached to
C. The rightward exhaust port (5C) is composed of an exhaust port (5C1) opened in the center of the right wall (5A2) and an exhaust pipe (5C2) connected to the exhaust port toward the right. And this exhaust pipe (5C2) should be attached to the upper surface of the furnace body (4) with a slight inclination.
3rd. The burner section (c) is composed of a burner body (6) and a hot air outlet (7).
4th. The sprinkling pipe section (d) piped to the snow melting chamber is composed of a sprinkling pipe (8) and a sprinkling nozzle (9).
1) The sprinkling pipe (8) is piped in a substantially C-shape along the inside of the upper opening in the snow melting chamber (2E), and is connected to the submersible pump (2H3) via the sprinkling / drainage switching valve (V). The sprinkling pipe was attached to the lower part of this frame-shaped lid (3A11) in a horizontally long state on the right and left to form an unequal triangle with a constant inclination angle toward the snow inlet. Located at the bottom of the reinforcing plate part (3A13), which is also used as a sprinkling reflector, and is connected to the sprinkling riser pipe of the submersible pump (2H3) via a sprinkling / drainage switching valve (V). And
2) The watering nozzle (9) is constructed by installing the nozzle (9B) in the watering pipe (8) with a predetermined interval and inwardly adjusting the angle toward the inside of the snow melting chamber,
A. The front and rear nozzles (9B) and the left and right nozzles (9B) are attached to predetermined positions of a water spray pipe (8) piped in a substantially C-shape in the snow melting chamber (2E),
B. The front and rear nozzles are attached to the sprinkling pipe so that the nozzle surface can be rotated and fixed in a symmetrical position at a predetermined interval.
C. The left and right nozzles are similarly attached to the sprinkling pipes at symmetrical positions with a predetermined interval, and the left nozzle is inclined obliquely downward on the nozzle surface, and the water discharged from the nozzles is directed toward the exhaust expansion portion of the furnace body. The right nozzle is configured so that the nozzle surface faces up and the water discharged from the nozzle is reflected by the lid (3A11) covering the nozzle and water is sprayed on the snow.
D. The front and rear nozzles should be arranged below the reinforcing plate (3A14) attached to the lower part of the lid (3A11) of the snow melting chamber (2E).
5th. The exhaust passage (e) has short legs (12A) between the left inner wall of the snow melting chamber and the left end surface of the furnace body so that a small amount of exhaust space (12A) is formed with respect to the left inner wall of the snow melting chamber. The exhaust path (12) is configured by attaching a punching plate (12C) having 12B) in parallel in the vertical direction.
Sixth. The fall prevention frame (f) is in the snow melting chamber. 1) One is the first prevention frame (10) wide enough to cover the top of the furnace body, and the other is the left side of the furnace body and snow melting. It is arranged as a second preventive frame (11) with a width that almost covers the space between the left walls of the room,
2) The first preventive frame (10) is a flat grid that surrounds the inside of the four outer frames so that it is easy to fall on the furnace body of the snow melting chamber or on the water surface stored in the snow melting chamber when snow is thrown into the snow melting chamber. The second preventive frame (11) is configured as a frame in which the inside of the four outer frames is partitioned into a bowl shape at regular intervals,
3) The first preventive frame (10) has a receiving metal fitting attached at the four corners of the four outer frames in a downward U-shape, and the receiving metal is substantially C-shaped along the inner wall of the snow melting chamber. Placed on the sprinkler pipe,
4) The second preventive frame (11) has its right end placed on a hardware attached to the left side surface of the furnace body at a predetermined height, and its left side is about 1 / the vertical of the punching plate (12C). Install horizontally at position 2 and the punching plate rests on a metal fitting attached to the left side of the snowmelt chamber. The intake port (3B54) in the elevating intake cylinder is closed, a hole for intake of combustion air is provided in the side wall of the machine room, and a pipe is horizontally pulled from this hole provided in the side wall of the machine room when the snow melting device is installed, and the snow melting device By launching a pipe of the required length to a more distant location and taking in combustion air, the combustion air of the snow melting device is sucked in from the tip of the pipe that has been launched farther than the snow melting device, and the snow melting device The snow melting device according to claim 1 or 2, wherein the starting and stopping of the operation is performed after the operation box (3B6) mounted on the snow melting device is started up. The snow melting device according to claim 1 or 2, wherein the shape of the exhaust port portions (5B, 5B) before and after the exhaust portion (5) in the furnace body (b) is curved.

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