JP2021105259A - Variable invert with multiple foundation blocks having different shapes manufactured in single form device, and form device thereof - Google Patents

Abstract

To provide a variable invert with multiple foundation blocks having different shapes manufactured in a single form device, and a form device thereof, that can easily form a flow channel, including gutters, and even can create the flow channel with an opposite slope against a slope of an installation site, by pre-manufacturing the variable invert with a foundation block having the slope according to a height difference at a factory.SOLUTION: A variable invert 1 of the present invention with multiple foundation blocks having the different shapes manufactured in a single form device 5 comprises a foundation block part 2 forming a substantially rectangular parallelepiped shape and a variable invert part 3, wherein the variable invert part of the variable invert 1 is formed integrally with the foundation block part 2 on an upper surface of the foundation block part 2 and has a substantially rectangular parallelepiped shape smaller than the foundation block part 2, a water flow channel part 4 recessed in a concave shape is provided in a substantially central part in a width direction of the upper surface in a longitudinal direction, and the upper surface part is formed so as to be inclined from one end part in the longitudinal direction toward the other end part.SELECTED DRAWING: Figure 1

Description

The present invention relates to gutters with variable inverts used, for example, in waterways laid on the side of roads and houses, and in particular, variable inverts with multiple foundation blocks of different shapes manufactured by a single formwork device and the like. It relates to a forming formwork.

Conventionally, as described in Japanese Patent Application Laid-Open No. 10-146041, many patent applications have been filed and many patents have been obtained for inverted side grooves forming so-called water channels and inverts and side groove forming formwork. ..

However, considering, for example, the situation of a waterway for flowing domestic wastewater existing in an urban area, the waterway is formed by a U-shaped groove, is formed by mere earth retaining, or is formed by a natural valley river or the like. It has been done. In addition, all the waterways are not installed in horizontal places, but are usually installed in a slanted position with a predetermined height difference. That is, it is generally laid with a slope of an oblique inclination in the installation direction of the waterway.

In addition, the waterway is usually for flowing domestic wastewater, and usually has almost no strong water flow. Therefore, when it does not rain for a long time, dust and earth and sand are accumulated in this waterway, and a foul odor is generated and weeds are propagated, which tends to be extremely unsanitary.

Here, in recent years, there has been a demand for manufacturing a side groove using a variable invert with a foundation block capable of quickly installing a water channel having a slope with a height difference as described above, and for laying a water channel using the side groove.

Further, conventionally, concrete must be cast on site and a foundation block must be laid under the side groove to be laid, but the above-mentioned on-site construction may be difficult depending on the laying place of a narrow waterway.

Japanese Unexamined Patent Publication No. 10-146041

Thus, the present invention was devised in order to solve the above-mentioned conventional problems, and especially when it is necessary to form a waterway through a gap of a private house, heavy machinery or the like cannot enter, and the foundation block is hit on site. When it is necessary to lay a side ditch in a place where the construction work is extremely difficult to form a waterway, or for the flow of ordinary domestic drainage, there is usually almost no water flow, so for a long time When it does not rain, dust and earth and sand accumulate, foul odors are generated, and weeds tend to grow, which tends to be extremely unsanitary. It is possible to create a smooth flow even if it is a flow, and even if there is an installation location with any height difference, a variable invert with a foundation block having a gradient according to the height difference is manufactured in advance at the factory and a side groove. With multiple foundation blocks of different shapes manufactured with a single formwork device that can easily form canals, including canals, and can even create canals with opposite gradients against the gradient of the installation site. It is an object of the present invention to provide a variable invert and its formwork device.

The present invention
A variable invert with multiple foundation blocks of different shapes manufactured in a single formwork device.
The variable invert with a plurality of foundation blocks having different shapes is
The foundation block portion having a substantially rectangular parallelepiped shape and the foundation block portion formed integrally with the foundation block portion on the upper surface of the foundation block portion, forming a substantially rectangular parallelepiped shape smaller than the foundation block portion, and having a concave shape at the substantially central portion in the width direction of the upper surface. A dented running water channel portion is provided in the longitudinal direction, and is provided with a variable invert portion formed by inclining the upper surface portion from one end portion in the longitudinal direction toward the other end portion.
The thickness, width and / or the thickness of the variable invert portion and the inclination angle of the upper surface portion of the foundation block portion can be changed by adjusting the bottom formwork and the side formwork of the formwork device, and the single formwork can be changed. Can be manufactured with equipment
Characterized by that
or,
The foundation block portion having a substantially rectangular parallelepiped shape and the foundation block portion formed integrally with the foundation block portion on the upper surface of the foundation block portion, forming a substantially rectangular parallelepiped shape smaller than the foundation block portion, and having a concave shape in the substantially central portion in the width direction of the upper surface. A variable invert portion formed by providing a recessed flow channel portion in the longitudinal direction, changing the height from one end to the other end in the longitudinal direction, and inclining the upper surface portion and the flow channel portion. It is a variable invert with a foundation block equipped with
A water channel having a plurality of types of inclination angles can be formed by connecting variable inverts with foundation blocks having different inclination angles of the variable invert portion.
Characterized by that
or,
A single formwork device that manufactures variable inverts with multiple foundation blocks of different shapes, having a foundation block and a variable invert.
The formwork device includes a bottom formwork, a pair of side formwork, front and rear front formwork, and a rear formwork.
The bottom form has a variable invert portion having a substantially semicircular shape in the central portion in the width direction, and a ridge for flowing water channels is provided in the longitudinal direction. A rotating shaft portion for rotating the bottom mold is formed so as to have an inclination and to have an inclination, and the bottom mold can be inclined to the left and right with the rotating shaft portion as a rotating shaft. The rotating shaft portion has a configuration in which the thickness of the variable invert portion manufactured by moving in the vertical direction can be changed.
Characterized by that
or,
A single formwork device that manufactures variable inverts with multiple foundation blocks of different shapes, having a foundation block and a variable invert.
The formwork device includes a bottom formwork, a pair of side formwork, front and rear front formwork, and a rear formwork.
On the inner peripheral surfaces of the pair of side molds, a space wall for forming the foundation block portion for forming the foundation block portion is provided above the form space wall for forming the variable invert portion.
The space wall for forming the foundation block portion is a flat surface perpendicular to the lower part of the inner side surface of the side formwork to the substantially middle upper part in the height direction. A wall that can form a foundation block that spreads in the frame thickness direction and is wider than the width of the variable invert.
Characterized by that
or,
Inside the space wall for forming the foundation block portion, a spacer capable of changing the width of the foundation block portion to be formed can be attached.
Characterized by that
or,
Inside the space wall for forming the foundation block portion, an extension wall material capable of changing the height of the foundation block portion to be formed can be attached.
It is characterized by that.

In the case of a variable invert with a plurality of foundation blocks having different shapes and the formwork device manufactured by a single formwork device according to the present invention, especially when it is necessary to form a water channel through a gap of a private house, etc. Since heavy machinery cannot enter the waterway, it is formed in a place where it is extremely difficult to hit the foundation block on site, or it is for draining ordinary household drainage, and usually has almost no water flow. Therefore, if it does not rain for a long time, dust and earth and sand will accumulate, causing foul odors and weeds to grow, which tends to be extremely unsanitary. It is possible to easily create a smooth flow even with a small amount of flow, and to create a flow with a gradient opposite to the above-mentioned gradient at a channel formation site having a height difference, in other words, a gradient. It has an excellent effect of being able to form a waterway that can even be formed.

It is a block diagram of the variable invert with a foundation block by this invention. It is a block diagram (1) of the formwork apparatus which manufactures the variable invert with a foundation block by this invention. FIG. 2 is a configuration explanatory view (2) of a mold device for manufacturing a variable invert with a foundation block according to the present invention. FIG. 3 is a configuration explanatory view (3) of a mold device for manufacturing a variable invert with a foundation block according to the present invention. FIG. 6 is a configuration explanatory view (4) of a mold device for manufacturing a variable invert with a foundation block according to the present invention. FIG. 5 is a configuration explanatory view (5) of a mold device for manufacturing a variable invert with a foundation block according to the present invention.

First, the outline of laying a side groove using the variable invert 1 with a foundation block according to the present invention will be described.
Measure the terrain such as the height difference of the terrain at the laying site. By this measurement work, the required canal slope and the like can be determined in advance.

Next, it is composed of a side groove formed in a split connection type and a variable invert 1 with a foundation block so as to have a slope corresponding to the required waterway slope at the time of connection based on each slope determined at the laying site. The free slope side groove will be manufactured in advance at the factory.

As for the side groove, an existing side groove may be used in some cases. In this case, only the variable invert 1 with the foundation block may be manufactured at the factory, connected to the existing gutter at the laying site, and used as the free slope gutter.
Therefore, even if the existing gutter is a product of another company, it is possible to sufficiently meet the above-mentioned request and manufacture a product that can meet the demand.

Here, the substantially rectangular parallelepiped foundation block portion 2 is integrated with the variable invert portion 3 and manufactured in advance at the factory, and it is not necessary to hit the foundation block portion 2 on site at the laying site. It has become. This is a major feature of the present invention. Therefore, a waterway can be formed even in a narrow place where the foundation block cannot be laid with cast-in-place concrete.

Then, a free-gradient side groove composed of a variable invert 1 with a foundation block having a predetermined inclination in which the foundation block portion 2 and the variable invert portion 3 are set and a side groove is laid at the laying location.

At this time, it is important that when laying the free slope side grooves connected in the longitudinal direction, the required waterway slope, for example, the entire waterway with a downward slope from the left side to the right side, is based on the slope determined at the laying site. The degree of inclination must be connected so as to have as a whole when each free slope side groove is connected.

Therefore, in the factory, the difference in depth (dimensions) up to the foundation block portion 2 of the laying location where each free-gradient side groove is laid, and the thickness of the free-gradient side groove laid at that location, especially the variable invert portion 3. It is necessary to clarify which shape, such as the degree of inclination and the degree of inclination, is composed of, for example, by assigning a serial number.

By laying the waterway as described above, for example, it is possible to form a waterway having the slope of the waterway as a whole side groove when the slope of the waterway is downward from the left side to the right side.

Here, a specific configuration of the free-gradient side groove will be described.
First, the gutter is provided with a slit that penetrates vertically in the center in the width direction of the upper surface thereof, and for example, the upper surface of the gutter is configured to be a downwardly inclined surface toward the slit, and is accumulated on the upper surface of the gutter by the slit. It is configured so that rainwater and the like can flow into the gutter. Further, regarding the height of the side wall of the side groove, the formwork is configured so that the side grooves having different heights can be easily manufactured.

Further, the variable invert 1 with a foundation block can also be manufactured by one formwork device by freely selecting one having a different inclination, that is, an inclination.

By the way, there is a site where a gutter laying site has to lay a gutter across a road having a road surface formed as a downward slope from the central portion to both sides in the width direction in the width direction.

In that case, the direction of water flow in the laid side groove is, for example, from the right side to the left side and is configured to have a downward slope so that rainwater or the like flows in a downward slope in the passage where the water flows in the side groove. It has to be configured. These are also solved in the present invention.

Furthermore, when gutters must be laid across the road, the most important point is to promptly lay the gutters and shorten the traffic cutoff period. This is because if the traffic cutoff period is long, it will cause a great hindrance to economic activities.

Conventionally, since the foundation block and the invert portion under the side groove are formed of cast-in-place concrete, it takes time such as a curing period of the concrete, and the traffic blocking period cannot be shortened. Then, such a problem has been solved.

Next, the variable invert portion 1 with a basic block and the formwork device 5 thereof of the present invention will be described.
The variable invert 1 with a foundation block is configured to include a long rectangular foundation block portion 2 and a variable invert portion 3 integrally manufactured on the foundation block portion 2.

As can be understood from FIG. 1, the variable invert portion 3 is formed on the rectangular foundation block portion 2 in a substantially rectangular shape smaller than the foundation block portion 2, and is formed in a semicircle in the central portion in the width direction thereof. A water flow channel portion 4 recessed in a circular shape is provided in the longitudinal direction.

This is devised with the intention of narrowing the flow path so that when the variable invert portion 3 is formed as the bottom surface of the water channel, drainage or the like collects in the flow channel portion 4 and flows smoothly even if the flow is not large. It is a thing.

The variable invert portion 3 is formed by changing its thickness in the longitudinal direction thereof, and is formed with a gradient having a predetermined inclination angle when viewed from the side.

Here, in order to form a water channel having a predetermined gradient, not only one type of variable invert 1 with a foundation block laid on the bottom surface of the side groove but also a plurality of types of variable invert 1 with a foundation block must be prepared. ..

The terrain of the places where waterways are installed varies, and it is by no means limited to horizontal places. In addition, the up and down gradients are various, and the variable invert 1 with a foundation block consisting of one type of gradient cannot cope with the formation of a water channel.

Further, in order to lay a waterway having a predetermined gradient, a plurality of variable inverts 1 with foundation blocks are prepared and laid by connecting them, so that each variable invert 1 with foundation block is laid. Must be manufactured with different gradients.

Further, not only the gradient of the variable invert portion 3 but also the width and thickness of the foundation block portion 2 may have to be manufactured in various ways depending on the installation location. Then, a plurality of types of variable invert 1 with a foundation block may be produced. It is extremely inefficient to prepare and manufacture the formwork device 5.

Therefore, the present inventor has devised a formwork device 5 capable of manufacturing each type of variable invert 1 with a foundation block by one type of formwork measure 5.
In FIG. 2, reference numeral 5 indicates a formwork device for manufacturing the variable invert 1 with a foundation block. The formwork device 5 includes a bottom formwork 6, left and right side formwork 7, front and rear front formwork 8, and rear formwork 9.

The bottom form 6 is provided with a substantially semicircular ridge 10 for a flow channel of a variable invert portion at a substantially central portion in the width direction in the longitudinal direction.
Then, in the bottom formwork 6, a rotating shaft portion 13 for rotating the bottom formwork 6 is formed so that the variable invert portion 3 has an inclination on the lower side in the middle in the longitudinal direction and has an inclination. The bottom formwork 6 can be tilted to the left or right with the rotating shaft portion 13 as the rotating shaft. That is, the bottom form 6 is configured so that the bottom form 6 can be sloped in any of the left and right directions in the longitudinal direction by stepless adjustment.

Further, the thickness of the variable invert portion 3 can be changed by the bottom form 6. That is, as shown in FIGS. 2 and 3, a vertical movement device 14 for moving the bottom form 6 in the vertical direction is provided below the rotation shaft portion 13. The vertical movement device 14 moves the bottom form 6 in the vertical direction steplessly, and the vertical movement measure 14 moves up and down by rotating the handle 16. As a result, the thickness of the variable invert portion 3 can be easily changed for manufacturing.

Here, the variable invert portion 3 is formed by the bottom form 6, the left and right side forms 7, the front form 8, and the rear form 9. Then, for example, when it is desired to change the thickness of the variable invert portion 3, for example, when it is desired to increase the thickness, the bottom form 6 can be lowered by the vertical movement device 14 to form a thick variable invert portion 3. .. If it is desired to make it thinner, the bottom form 6 can be raised upward by the vertical moving device 14 to form a thin variable invert portion 3. As described above, the bottom form 6 in the present invention is configured to be movable in the vertical direction in a stepless manner.

Next, the left and right side formwork 7s are configured to open outwards, respectively, and when concrete is filled in the formwork device 5 assembled into a predetermined shape and then the formwork is removed, the left and right sides are formed. The formwork 7 is opened to the left and right to perform the demolding work.

The left and right side molds 7 are provided with a foundation block portion forming space 19 for forming the foundation block portion 2 above the variable invert portion forming space 18. That is, each inner surface of the left and right side formwork 7 is configured not as a vertical plane but as an inner surface with a step.

For example, from the lower part of the inner side surface of the side formwork to the upper middle part is configured as a vertical plane, from which the upper part expands outward and widens in the width direction. That is, the space wall 17 for forming the foundation block portion faces outward from the portion forming the space wall 11 for forming the variable invert portion as a plane perpendicular to the lower part of the inner side surface of the side formwork 7 to the substantially intermediate upper part in the height direction. The wall is formed so that the foundation block portion 2 can be formed, which spreads in the thickness direction of the side formwork and is wider than the width of the variable invert portion 3.

Thus, the entire space formed in this wide area becomes the foundation block portion forming space 19 for forming the foundation block portion 2.

The length of the space 19 for forming the foundation block portion 2 forming the foundation block portion 2 in the width direction can be changed. That is, when the width is narrowed, if the spacer 20 is attached to the inner peripheral surface in the width direction of the wide foundation block portion forming space 19, the narrow foundation block portion 2 can be formed. can. Further, when it is desired to form the wide foundation block portion 2, it is conceivable to reduce the thickness of this portion of the side form 7 in advance so as to widen the space 19 for forming the foundation block portion. Further, the side form 7 may be formed so that this portion can be slid outward to expand.

Further, if the extension wall material 15 extending upward is attached to the foundation block portion forming space wall 17 formed on the inner peripheral surface of the foundation block portion forming space 19 in the width direction, the concrete filling height can be increased. Therefore, a thick foundation block portion 2 can be formed. Further, when it is desired to form the thin foundation block portion 2, the foundation block portion forming space 19 is formed up to the intermediate height of the foundation block portion forming space wall 17 formed on the inner peripheral surface in the width direction. If the filling amount of concrete is used, a thin foundation block portion 2 can be easily formed.

Next, the front form 8 and the rear form 9 will be described.
The front form 8 and the rear form 9 serve as a form for forming the front and rear surfaces of the variable invert 1 with a foundation block.

Therefore, the shapes of the front form 8 and the rear form 9 are notches that form a substantially semicircle in the substantially central portion in the width direction so that the ridge 10 for the flow channel of the variable invert portion fits on the lower end surface thereof. A portion 12 is provided. Further, the front form 8 and the rear form 9 are configured to be movable in the vertical direction like the bottom form 6. Then, when the bottom form 6 moves up and down, it moves up and down in the same manner to close the front and back of the form device 5.

In the above, the assembly of the formwork device 5 will be described.
For example, first, as described above, go to the installation location where the waterway should be formed and grasp the topography. Specifically, we will investigate how much slope the free slope side groove to form the waterway should be laid.

From the results of the survey, a predetermined gradient angle is detected, the foundation block portion 2 having the gradient angle and having a size and thickness according to the survey result is variable having a predetermined thickness and a predetermined tilt angle. The variable invert 1 with a plurality of types of foundation blocks provided with the invert portion 3 is manufactured in advance at the factory.

The adjustment of the formwork device 5 is determined by first adjusting the bottom formwork 6 by moving it up and down and setting the variable invert portion 3 at a position having a predetermined thickness. This movement adjustment is performed by rotating the handle 16 and operating the vertical movement device 14. Next, the bottom form 6 is tilted according to the slope determined in the above survey.

Next, the front form 8 and the rear form 9 are moved up and down so as to come into contact with the front and rear upper ends of the bottom form 6. As a result, the inclination of the bottom form 6 is fixed, and the bottom form 6 is also fixed.

Further, the left and right side formwork 7 are closed inward. Then, the state shown in FIG. 3 is obtained.
When changing the thickness of the foundation block portion 2, especially when increasing the thickness, the extension wall material 15 is attached as shown in FIG.

If concrete is filled in the formwork device 5 assembled as described above and solidified, the variable invert 1 with a foundation block can be manufactured.

Further, the variable invert portion 3 having a different gradient angle and the thickness, and the foundation block portion 2 having a different size and the thickness are sequentially manufactured by adjusting the formwork device 5. ..
Then, a plurality of types of variable inverts 1 with foundation blocks and side grooves manufactured thereafter are transported to the laying site of the waterway.

The variable invert 1 with a foundation block is fixed to a gutter using, for example, bolts and packing, and a plurality of types of the fixed variable invert 1 with a foundation block and a gutter are mounted on a moving vehicle and transported to an installation location.

Here, as described above, if a plurality of types of variable inverts 1 with fixed foundation blocks and side grooves mounted on a moving vehicle are given an order, they can be laid in the order at the installation location. A waterway with a slope can be easily laid.

1 Variable invert with foundation block
2 Foundation block part 3 Variable invert part 4 Flow channel part 5 Formwork device 6 Bottom formwork 7 Side formwork 8 Front formwork 9 Rear formwork 10 Variable invert part Convex for flow channel 11 Space for forming variable invert part Wall 12 Notch 13 Rotating shaft 14 Vertical movement device 15 Extension wall material 16 Handle 17 Space for forming foundation block part Wall 18 Space for forming variable invert part 19 Space for forming foundation block 20 Spacer

Claims (6)

A variable invert with multiple foundation blocks of different shapes manufactured in a single formwork device.
The variable invert with a plurality of foundation blocks having different shapes is
The foundation block portion having a substantially rectangular parallelepiped shape and the foundation block portion formed integrally with the foundation block portion on the upper surface of the foundation block portion, forming a substantially rectangular parallelepiped shape smaller than the foundation block portion, and having a concave shape at the substantially central portion in the width direction of the upper surface. A dented running water channel portion is provided in the longitudinal direction, and is provided with a variable invert portion formed by inclining the upper surface portion from one end portion in the longitudinal direction toward the other end portion.
The thickness, width and / or the thickness of the variable invert portion and the inclination angle of the upper surface portion of the foundation block portion can be changed by adjusting the bottom formwork and the side formwork of the formwork device, and the single formwork can be changed. Can be manufactured with equipment
A variable invert with multiple foundation blocks of different shapes manufactured in a single formwork device.
The foundation block portion having a substantially rectangular parallelepiped shape and the foundation block portion formed integrally with the foundation block portion on the upper surface of the foundation block portion, forming a substantially rectangular parallelepiped shape smaller than the foundation block portion, and having a concave shape in the substantially central portion in the width direction of the upper surface. A variable invert portion formed by providing a recessed flow channel portion in the longitudinal direction, changing the height from one end to the other end in the longitudinal direction, and inclining the upper surface portion and the flow channel portion. It is a variable invert with a foundation block equipped with
A water channel having a plurality of types of inclination angles can be formed by connecting variable inverts with foundation blocks having different inclination angles of the variable invert portion.
A variable invert with multiple foundation blocks of different shapes manufactured in a single formwork device.
A single formwork device that manufactures variable inverts with multiple foundation blocks of different shapes, having a foundation block and a variable invert.
The formwork device includes a bottom formwork, a pair of side formwork, front and rear front formwork, and a rear formwork.
The bottom form has a variable invert portion having a substantially semicircular shape in the central portion in the width direction, and a ridge for flowing water channels is provided in the longitudinal direction. A rotating shaft portion for rotating the bottom mold is formed so as to have an inclination and to have an inclination, and the bottom mold can be inclined to the left and right with the rotating shaft portion as a rotating shaft. The rotating shaft portion has a configuration in which the thickness of the variable invert portion manufactured by moving in the vertical direction can be changed.
A formwork device for manufacturing variable inverts with multiple foundation blocks of different shapes, which is manufactured by a single formwork device.
A single formwork device that manufactures variable inverts with multiple foundation blocks of different shapes, having a foundation block and a variable invert.
The formwork device includes a bottom formwork, a pair of side formwork, front and rear front formwork, and a rear formwork.
On the inner peripheral surfaces of the pair of side molds, a space wall for forming the foundation block portion for forming the foundation block portion is provided above the form space wall for forming the variable invert portion.
The space wall for forming the foundation block portion is a flat surface perpendicular to the lower part of the inner side surface of the side formwork to the substantially middle upper part in the height direction. A wall that can form a foundation block that spreads in the frame thickness direction and is wider than the width of the variable invert.
A formwork device for manufacturing variable inverts with multiple foundation blocks of different shapes, which is manufactured by a single formwork device.
Inside the space wall for forming the foundation block portion, a spacer capable of changing the width of the foundation block portion to be formed can be attached.
A formwork device for manufacturing a variable invert with a plurality of foundation blocks having different shapes, which is manufactured by the single formwork device according to claim 4.
Inside the space wall for forming the foundation block portion, an extension wall material capable of changing the height of the foundation block portion to be formed can be attached.
A formwork device for manufacturing variable inverts with a plurality of foundation blocks having different shapes, which is manufactured by the single formwork device according to claim 4 or 5.

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