JP2005060944A - Ice breaker - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To break ice in a water channel by a simple configuration. <P>SOLUTION: An ice breaker body 16 fixing an expansible membrane body 18 on a wall face 14 of a canal 10 by a fitting is provided in the vicinity of a gate. When an ice 36 is formed in the vicinity of a surface of water 34 in the canal 10, air from a compressor 32 is supplied to the expansible membrane body 18 to swell the expansible membrane body 18. The ice 36 is pressed by the swelling expansible membrane body 18 and is broken to make the gate open and close smoothly. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to an ice breaker capable of destroying ice formed by freezing water in a water channel, and a water channel with an ice breaker.

For example, a steel gate is provided in a channel such as a canal in order to open and close the channel (see Patent Document 1).
Japanese Patent Laid-Open No. 2002-285533

  In general, the gate is opened and closed using the power of a motor or the like, but if the water in the water channel freezes in winter, it may hinder the opening and closing of the gate.

  Although it is conceivable to destroy the ice using some kind of equipment, it is not practical because the work is large and the cost is high, and it takes time to open and close the gate.

  The present invention has been made as a result of studying to solve such problems of the prior art, and the object of the present invention is to break ice formed in a water channel with a simple configuration. An object is to provide an ice breaker and a waterway with an ice breaker.

  The invention according to claim 1 is an ice breaker for breaking ice formed in a water channel, wherein the elastic film body disposed along a wall surface of the water channel, and the elastic film body is disposed on the wall surface. And a gas supply means for supplying gas between the stretchable film body and the wall surface to bulge the stretchable film body toward the water channel.

  Next, the operation of the ice breaker according to claim 1 will be described.

  Normally, the stretchable membrane body is disposed along the wall surface of the water channel.

  When the temperature falls and, for example, ice is stretched on the water surface of the water channel, the gas supply means is operated to bulge the stretchable film body.

  Thereby, the ice stretched on the water surface is pressed and cracked (destructed) by the expanding elastic film body.

  In addition, an elastic membrane body can be arrange | positioned along the wall surface of a water channel like the original by venting gas after use.

  According to a second aspect of the present invention, in the ice breaker according to the first aspect, a lower film body that is in close contact with the wall surface is provided, and the gas supply means is a gas between the stretchable film body and the lower film body. It is characterized by supplying.

  Next, the operation of the ice breaker according to claim 2 will be described.

  In the ice breaker according to claim 2, gas is supplied between the stretchable film body and the lower film body, and the stretchable film body swells.

  Further, since gas is supplied between the stretchable film body and the lower film body, the airtightness is improved.

  The water channel with an ice breaker according to claim 3 has a water channel, a gate for opening and closing the water channel, and the ice breaker according to claim 1 or 2 provided near the gate of the water channel. It is said.

  Next, the operation of the water channel with an ice breaker according to claim 3 will be described.

  When the temperature falls and ice is spread on the water surface near the gate, the gas supply means is operated to bulge the stretchable film body.

  As a result, the ice stretched on the water surface is pressed and cracked (broken down) by the expanding elastic film body, so that the gate can be opened and closed.

  As described above, the ice breaker of the present invention has an excellent effect that the ice formed in the water channel can be broken with a simple configuration.

  In addition, since the water channel with an ice breaker of the present invention has the above-described configuration, it is possible to destroy ice formed in the water channel with a simple configuration, and an excellent effect that the gate can be freely opened and closed even in winter. Have.

[First Embodiment]
Hereinafter, a first embodiment of a water channel with an ice breaker of the present invention will be described with reference to the drawings.

  As shown in FIG. 2, the canal 10 is provided with a gate 12 that can be opened and closed in the direction of arrow C. In FIG. 2, the gate 12 indicated by a solid line indicates a state where the canal 10 is closed, and the gate 12 indicated by a two-dot chain line indicates a state where the canal 10 is opened.

  An ice breaker body 16 is provided on each side wall 14 of the canal 10 on the side where the gate 12 opens.

  As shown in FIGS. 1 and 3, the ice breaker main body 16 includes a rectangular stretchable film body 18 that is long in the horizontal direction (the direction of arrow B in FIG. 3).

  As shown in FIG. 4, the stretchable membrane body 18 is a canvas-like material in which a fiber material 19 a woven vertically and horizontally and a fiber material 19 b are covered with an elastic body 21 such as rubber, and is longitudinal (arrow A direction: canal). The fiber material 19a oriented in the vertical direction (10) has a large wave shape, but the fiber material 19b oriented in the lateral direction (arrow B direction: horizontal direction in the canal 10) has a substantially straight shape.

  Therefore, the stretchable film body 18 does not extend so much in the B direction, but can greatly extend in the A direction when the fiber material 19a extends linearly.

  As shown in FIGS. 3 and 5, on the wall surface 14, embedded metal fittings 20 are disposed along the outer peripheral edge of the stretchable film body 18, and anchor bolts 22 are disposed at predetermined intervals. .

  The anchor bolt 22 is inserted into a hole 15 formed in the wall surface 14, and is fixed by fixing a fixing agent (epoxy resin or the like) 17 injected into the hole 15.

  The anchor bolt 22 penetrates the embedded metal fitting 20.

  On the embedded metal fitting 20, the vicinity of the end of the stretchable film body 18 is placed, and the anchor bolt 22 penetrates the stretchable film body 18.

  A presser fitting 24 is placed on the stretchable film body 18, and a nut 26 is screwed into the vicinity of the upper end of the anchor bolt 22 penetrating the presser fitting 24 via a spring washer 25. The outer peripheral edge is sandwiched between the presser fitting 24 and the embedded metal fitting 20 and fixed to the wall surface 14.

  As shown in FIG. 6, an air pipe 28 is embedded in the wall surface.

  One end of the air pipe 28 opens to the wall surface 14 and faces the inner surface side of the stretchable film body 18.

  An air supply valve 30, an exhaust valve 31, a compressor 32, a check valve 33, a pressure gauge 34, and an opening / closing valve 35 are attached to the other end of the air pipe 28.

  When the exhaust valve 31 is closed and the air supply valve 30 is opened, the air from the compressor 32 can be supplied to the stretchable film body 18 side. When the exhaust valve 31 is opened, the air on the stretchable film body 18 side is supplied. Air can be discharged.

  A check valve 33 and a pressure gauge 34 provided in the air pipe 28 prevent the backflow of the supplied air and manage the necessary pressure. In order to check the pressure, the on-off valve 35 is opened.

The supply valve 30 and the exhaust valve 31 may be electric valves for convenience.
(Function)
Next, the operation of this embodiment will be described.

  As shown in FIG. 1 and FIG. 2, the elastic membrane body 18 is disposed along the wall surface 14 of the canal 10 at normal times. Therefore, there is no problem in opening and closing the gate 12.

  In the canal 10 of this embodiment, the water level rises and falls. In FIG. 1, the water level 34a indicated by a solid line indicates a high level, and the water level 34b indicated by a two-dot chain line indicates a low level.

  For example, when the temperature drops when the water level 34a is at a high level and the gate 12 is closed, and the ice 36 is spread on the surface of the water 34 in the canal 10, as shown in FIG. The air is supplied to the stretchable film body 18 to bulge the stretchable film body 18 as shown in FIG.

  For example, when the size of the stretchable film body 18 is 3200 mm wide × 915 mm long and the pressure in the stretchable film body is about 30.0 Kpa, the stretchable film body 18 can be expanded by about 300 mm at the center. I can do it.

  As a result, the ice 36 stretched on the water surface of the water 34 is pressed and broken by the expanding elastic film body 18, and the gate 12 can be opened and closed without any trouble.

  The work for breaking the ice 36 is only the operation of the compressor 32, the air supply valve 30, and the exhaust valve 31, and the ice 36 can be easily broken.

  It should be noted that the ice breaker body 16 must be installed in accordance with the height (water surface) stretched by the ice 36, and the size of the stretchable film body 18 must also be set to a size that can break the ice 36. .

  After use, the air of the stretchable film body 18 is discharged, so that the stretchable film body 18 is disposed along the wall surface 14 of the canal 10 as before.

  Since the stretchable film body 18 is expanded and deformed and bulges, if the internal air is discharged, the stretchable film body 18 becomes planar due to its contraction force.

  The internal air may be forcibly exhausted with a pump or the like.

  As shown in FIG. 8, ice 36 may adhere to the surface of the stretchable film body 18. Even in such a case, if the stretchable film body 18 is expanded, the attached ice 36 is peeled off. Then fall.

  In this embodiment, the ice breaker body 16 is disposed only on the side where the gate 12 is opened. However, the ice breaker body 16 may be additionally disposed on the opposite side of the gate 12.

Moreover, it is preferable to attach a pressure regulating valve (not shown) to the compressor 32 in advance so that an excessive pressure does not act on the stretchable film body 18.
[Second Embodiment]
Below, 2nd Embodiment of the waterway with an ice breaker of this invention is described based on drawing. In addition, the same code | symbol is attached | subjected to the same structure as 1st Embodiment, and the description is abbreviate | omitted.

  As shown in FIG. 9A, in the ice breaker main body 16 of the present embodiment, a lower film body 38 made of an elastic material such as rubber having the same dimensions as the elastic film body 18 is adhered to the wall surface 14. The stretchable film body 18 is disposed on the film body 38.

  Since the lower film body 38 is not expanded, it is not necessary to extend like the stretchable film body 18.

  The lower film body 38 is sandwiched between the embedded metal fitting 20 and the holding metal fitting 24 together with the elastic film body 18 and fixed to the wall surface 14.

  As shown in FIG. 9B, a donut plate-shaped fastener 40 is embedded in the end surface of the air pipe 28 on the wall surface 14.

  A female screw 42 is formed inside the donut plate-shaped fastener 40, and a male screw 46 of the presser fitting 44 is screwed into the female screw 42 through a washer 45.

  The presser fitting 44 is formed with a circular flange 48 larger than the annular seal rib 47 of the fastener 40, and the lower film body 38 is sandwiched between the fastener 40 and the washer 45.

  A through hole 50 through which air passes is formed in the shaft core portion of the presser fitting 44.

  In the present embodiment, the stretchable film body 18 is in contact with the lower film body 38 that is an elastic body, and the portion where air enters is between the elastic film body 18 that is an elastic body and the lower film body 38 that is an elastic body. Therefore, the degree of sealing becomes high and air leakage can be prevented.

Therefore, this embodiment is suitable when the wall surface 14 is cracked.
[Other Embodiments]
In the above embodiment, as shown in FIG. 3, the planar shape of the stretchable film body 18 is a rectangle with four corners chamfered, but the planar shape of the stretchable film body 18 is not limited to this, for example, Other shapes such as an oval shape or an oval shape as shown in FIG. 10 may be used.

  Moreover, in the said embodiment, although the recessed part 52 which accommodates the gate 12 was provided in the wall surface 14 of the canal 10, and the ice breaker main body 16 was provided in this recessed part 52, as shown in FIG. The recess 52 may not be provided.

It is sectional drawing of the canal which concerns on 1st Embodiment. It is a top view of a canal. It is a front view of an ice breaker main body. It is a perspective view of an elastic membrane body. It is sectional drawing of the attachment part of an elastic membrane body. It is sectional drawing of an ice breaker main body. It is a top view of the canal which shows the state which expanded the ice breaker. It is sectional drawing of a canal which shows the state which has peeled the ice adhering to the surface of an elastic membrane body. (A) is sectional drawing of the ice breaker main body which concerns on 2nd Embodiment, (B) is an expanded sectional view with the end of air piping. It is a front view of the ice breaker main body which concerns on other embodiment. It is a top view of the canal concerning other embodiments.

Explanation of symbols

10 water channel 12 gate 16 ice breaker body (ice breaker)
28 Air piping (ice breaker)
30 Air supply valve (ice breaker)
31 Exhaust valve (ice breaker)
32 Compressor (Ice Breaker)
33 Check valve (Ice breaker)

Claims (3)

An ice breaker for breaking ice formed in a waterway,
An elastic membrane disposed along the wall of the waterway;
A fixing member for fixing the stretchable film body to the wall surface;
A gas supply means for supplying a gas between the stretchable membrane body and the wall surface to bulge the stretchable membrane body toward the water channel;
An ice breaker characterized by comprising:   2. The ice breaker according to claim 1, wherein a lower film body that is in close contact with the wall surface is provided, and the gas supply means supplies gas between the stretchable film body and the lower film body. Waterways,
A gate that opens and closes the waterway,
The ice breaker according to claim 1 or 2, provided near the gate of the water channel,
A waterway with an ice breaker, characterized by comprising:

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