JPH09268740A - Execution method of double floor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an execution method by which the adjustment of a floor face level and the application of adhesive can be easily and efficiently and also accurately carried out and the construction period and cost can be reduced. SOLUTION: A unit support leg 20 in which a support board 31 is set on the upper end of a support bolt 23 so as to adjust the height and a floor panel are combined and used for the structure. The floor panels 40 are supported by the support board 31 of the unit support leg 20. A laser generator 1 is arranged so as to horizontally irradiate laser beam at a specified height and a laser receiver 3 is arranged on the floor panel 40 to receive laser beam L emitted from the laser generator 1 and measure the level difference from the laser beam. And the height of support board 31 of the unit support leg 20 is adjusted in proportion to the displacement measured by the receiver, from a preset level. Thereafter, an adhesive is injected in an adhesive hollow to fix the support bolt 23 to a level-adjusting nut 29.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a double-floor construction method, and more specifically, it constructs a double-floor by forming a space between it and an existing foundation floor in various buildings such as apartment houses. Dry floor construction method.

[0002]

2. Description of the Related Art In a double floor, a plurality of floor panels (floor boards) formed of wood, metal, concrete, calcium silicate or the like are fixed by supporting legs arranged on a foundation floor. It is built to support the height,
The space between the existing floor and the double floor is a space for passing various pipes such as water supply and drain pipes, gas pipes, a space for passing electric and communication wiring, a space for cooling and heating, and air conditioning under the floor. It is used as a space for installing a duct for use, a space for laying a heat insulating material and a soundproofing material under the floor, and as an air conditioning duct for enhancing a soundproofing effect or a heat insulating effect.

Conventionally, as a method of supporting such a double floor, for example, in Japanese Patent Laid-Open No. 3-17348, a rod-shaped leg portion and a support member mounted on the upper end portion of the rod-shaped leg portion so as to be adjustable up and down. There is disclosed a dry double floor construction method using a combination of the unit support leg group and the fixed length rectangular or square floor panel group. An example of the unit support leg used in this method is as shown in FIG. 14, which includes a floor-contact base 104 made of an elastic material such as rubber and a support bolt 103 rotatably erected on the base 104. Leg member 1
02 and a level adjusting nut 106 having an annular supporting portion 107 projecting from the lower end of the outer periphery of the supporting plate 108 fitted into an insertion hole 109 formed in the supporting plate 108. . Thus, the support bolt 103 of the leg member 102 is screwed into the level adjusting nut 106 fitted in the insertion hole 109 of the support plate 108, and the unit support leg 101 is assembled. An adhesive sheet 110 is attached to the entire upper surface of the support plate 108 excluding the insertion hole 109, and a minus groove 105 is provided on the top end surface of the support bolt 103. By loading the tip of the tool for use and rotating the support bolt 103, the load from the floor panel is applied to the level adjusting nut 106 via the support plate 108 during the construction, and the rotation is suppressed. Therefore, the level adjusting nut 106 moves up and down, and the floor surface level of the floor panel supported by the support plate 108 can be adjusted.

An example of construction in the case of constructing a double floor using the unit supporting legs 101 assembled as described above is, for example, as shown in FIG. 15, first, a room wall or a partition 112 is set to a predetermined height. A joist (or joist unit) 113 is provided along the side of which a side of the floor panel 114 is supported. The other edge of the floor panel 114 that is not in contact with the joist is the foundation floor (concrete slab) 11 at a predetermined pitch.
1 is mounted on the unit support leg 101 arranged on the upper part of the unit 1 in a cantilevered manner. The unit support leg 101 and the floor panel 114 are attached by the support plate 108 of the unit support leg 101.
This is performed via the adhesive sheet 110 attached to the upper surface, and the floor panel 114 is pressure-bonded to the adhesive sheet 110 and temporarily fixed when the floor panel is laid. Support plate 1 for unit support leg 101
The insertion hole 109 of 08 is exposed from the edge of the floor panel 114, and the support bolt 103 is turned by a driver or the like through the insertion hole 109 to adjust the level of the floor panel 114 (or the upper surface position of the support plate 108). Similarly, adjacent floor panels are mounted on the already installed unit supporting legs 101 with a predetermined gap allowing the level of the floor panel 114 to be adjusted, and the other unit supporting legs 101 are similarly arranged and attached. Such work is repeated for each floor panel, the floor panel is constructed in a predetermined area, the floor level is adjusted, and then the floor panel 114 to the support plate 108 of the unit support leg 101.
Nail the floor panel 114 to the unit support leg 1
Fixed at 01. After that, after laying the waste plywood 115 on the floor panel 114, a floor finishing material (not shown) such as a CF sheet, a carpet, a tatami mat, and a wooden floor material is laid, and the work is completed.

[0005]

In the construction of the double floor as described above, conventionally, the floor level is adjusted by placing a level on each floor panel 114 laid on the unit supporting leg 101, and While watching the level, each unit support leg 10
It is performed by rotating the support bolt 103 of No. 1 with a driver. Therefore, the work of adjusting the floor level is extremely complicated and time-consuming, which significantly reduces workability and workability, and is a major factor in prolonging the construction period and increasing costs. In addition, the floor level must be adjusted on the basis of an absolute flat surface regardless of the unevenness of the surface of the foundation floor (concrete slab), and the display of the level is visually determined. There is also a problem that it is difficult to carry out with accuracy.

Further, as described above, in the conventional double floor construction using the unit support legs, the floor panel 114 is attached to the support plate 108 of the unit support legs 101 when the floor panel is laid.
Press the adhesive sheet 110 on the upper surface to temporarily fix it.
After constructing the floor panel 114 in a predetermined area, the floor panel 114
The floor panel 114 is fixed to the unit support leg 101 by nailing the support plate 108 from the bottom. That is, since the pressure-sensitive adhesive sheet has no durability, it is used only for temporary fixing, and the floor panel and the unit supporting legs are finally fixed by nailing. However, even if nailing is used, walking vibrations are repeatedly applied after a long period of use, so that the fixing due to nailing may be loosened, resulting in floor ringing. When fixing the floor panel and the unit support legs, it is possible to use adhesive instead of nailing, but applying adhesive one by one on the upper surface of the support plate of the unit support leg only increases the work process. Not
There is a problem that the adhesive adheres to the hands, clothes, and surroundings of the worker and stains them, and the treatment and cleaning are required thereafter, resulting in a significant decrease in workability, which is not practical.

If the support bolts of the unit support legs and the level adjusting nuts are not securely fixed after the floor construction, the level adjustment error and the screwing of the screwed parts due to the rotation of the support bolts due to repeated walking on the floor surface or the like. There are problems such as backlash, falling floor, squeaking of floor, and step difference between floor panels. Therefore, it is necessary to fix the support bolt of the unit support leg and the level adjusting nut with an adhesive or the like. The support bolt and the level adjusting nut are fixed to each other by applying an adhesive to the upper end portion of the support bolt. Therefore, if the adhesive between the floor panel and the support plate of the unit support leg is used as described above, the work of applying the adhesive is troublesome and the workability and workability are significantly reduced. There is a problem of doing.

Therefore, it is an object of the present invention to easily adjust the floor level and apply an adhesive agent with good workability and workability when constructing a double floor, and to adjust the floor level accurately. The purpose of the present invention is to provide a double floor construction method that can be performed well, thereby shortening the construction period and cost of the double floor construction. Another object of the present invention is to bond the supporting plate of the unit supporting legs and the floor panel with an adhesive to prevent floor squeaking almost permanently, and use a thin and soft finishing material such as a CF sheet or a carpet. It has sufficient strength and stability without the use of waste plywood, and even when stepping on the gap between floor panels when walking, there is no step or swelling of floor finishing material, peeling, and construction is efficient. An object of the present invention is to provide a double-floor construction method that can be simplified and simplified, and that can save the cost of material, processing, and construction of a plywood. Further, an object of the present invention is to fix the floor panel and the supporting plate of the unit supporting leg and the supporting bolt and the level adjusting nut at the same time by a single operation of injecting the adhesive. Workability and workability are improved,
The adjustment accuracy of the floor level is also high, and the level adjustment is incorrect due to the loosening of the support bolts due to repeated walking on the floor, etc., the floor falls due to looseness of the screwed part, the floor squeals, and the step between floor panels occurs. It is to provide a double floor construction method that does not cause problems such as the above.

[0009]

To achieve the above object, according to the present invention, a unit support leg group in which a height-adjustable support member is mounted on the upper ends of the leg members, and a floor panel group. In the construction of a double floor in which the floor panel is laid while the floor panel is supported by the supporting member of the unit supporting leg, the floor supporting base and the floor supporting base are used as the unit supporting leg. A support bolt that is rotatably erected on a stand and has a top end surface formed with a locking portion for engaging the tip of a rotating tool; and a support plate that directly or indirectly supports a floor panel, It has a level adjusting nut attached to the insertion hole formed in the support plate and screwed into the upper end portion of the support bolt, and forms an expanded adhesive reservoir in the insertion hole area of the support plate. Supported unit support legs The legs are arranged on the floor surface of the foundation floor at a predetermined pitch corresponding to the shape of the floor panel, and a plurality of floor panels are provided with a predetermined gap so that their edges are supported by the supporting plate of the unit supporting leg. The laser generating device is arranged so that the laser beam is projected horizontally at a predetermined height position, and the laser beam projected from the laser receiving device is received and the height position of the laser beam level. A light receiving device for measuring the relationship is arranged on the floor panel laid as described above, and in proportion to the displacement amount from the set level of the height positional relationship measured by the light receiving device,
Adjusting the height by engaging the rotation tool tip with the locking portion of the top end surface of the support bolt to rotate the support bolt, thereby raising or lowering the support plate in a direction to eliminate the displacement, and There is provided a method for constructing a double floor, which comprises a step of injecting an adhesive agent into an adhesive agent reservoir of a unit support leg and fixing a level adjusting nut and a support bolt screwed to the level adjusting nut.

In a more specific mode, the rotating tool is composed of an electric driver incorporating a pulse motor, and an electric signal corresponding to the displacement amount measured by the light receiving device is output to the pulse motor to drive the electric motor. Rotate the driver a certain amount in the direction that eliminates the displacement. Further, in a preferred aspect, at least a part between the support plate of the unit support leg and the floor panel is provided with a retaining means having a fixing force sufficient to prevent at least lateral displacement of the floor panel to be placed. It can be used for temporary fixing of floor panels. Examples of such holding means include, for example, an adhesive layer (or a double-sided adhesive sheet adhered) provided on the upper surface of the support plate of the unit support leg, and a pair of magic pieces attached at corresponding positions on the upper surface of the support plate and the lower surface of the floor panel. A fastener (a hook-and-loop fastener), a magnetic tape (when the support plate is made of metal, it can be provided only on the lower surface of the floor panel), etc. can be used. When a surface fastener or a magnetic tape having a relatively weak fixing force is used, it is possible to easily correct the displacement when the floor panel is displaced. In still another preferred embodiment, a unit support leg having an adhesive flowing portion including a groove portion and a concave portion on the upper surface of the support plate is used.

[0011]

BEST MODE FOR CARRYING OUT THE INVENTION In the method for constructing a double floor according to the present invention, a laser generator is arranged so as to horizontally project a laser beam at a predetermined height position, and the laser beam is projected from the laser generator. A light receiving device that receives the laser beam and measures the height positional relationship with the level of the laser beam is placed on the floor panel laid in a state of being supported by the unit support legs, and the height measured by the light receiving device is arranged. The height of the support member of the unit support leg is adjusted in proportion to the amount of displacement from the set level of the positional relationship.

Since the laser beam projected horizontally from the laser generator is used as a reference line for floor level adjustment in this way, it is absolutely not affected by the unevenness of the surface of the foundation floor (concrete slab), etc. It is possible to adjust the floor level on a plane basis, and the deviation from the set level of the height position of the laid floor panel is different from the set position of the height position by the light receiving device that receives the laser beam. Since it is measured and displayed as a displacement amount and the height is adjusted by raising or lowering the supporting member of the unit supporting leg in a direction in which the displacement is canceled by an amount proportional to the displacement amount, the conventional floor panel The floor level can be adjusted with extremely high accuracy, workability, and workability as compared with the method of adjusting the height while looking at the spirit level arranged at.

At this time, in order to raise or lower the support member of the unit support leg, the tip of a rotating tool such as a driver is engaged with a locking portion formed on the top end surface of the support bolt to rotate the support bolt. However, it is preferable to use, as the rotating tool, an electric driver having a built-in pulse motor that rotates a predetermined amount in response to an electric signal (pulse signal) input from the light receiving device. That is, an electric signal (pulse signal) corresponding to the amount of displacement measured by the light receiving device is output to the pulse motor, and the electric driver is rotated by an amount proportional to the amount of displacement so as to eliminate the displacement. As a result, the floor level can be adjusted extremely easily and accurately, and the workability and workability are significantly improved, as compared with the method of manually rotating the driver.

Further, since the expanded adhesive reservoir is formed in the insertion hole area of the support plate of the unit support leg, one adhesive is applied to the upper end portion of the support bolt of the unit support leg as in the conventional case. After laying the floor panel instead of applying it, it is sufficient to inject the adhesive into the adhesive reservoir from the gap between the unit support leg arrangement parts between the adjacent floor panels. Compared with the above, the problem that the adhesive adheres to the operator's hand, clothes, or the surroundings and stains is greatly alleviated. The adhesive reservoir may be formed by expanding the upper part of the level adjusting nut itself, or by chamfering the upper part of the insertion hole of the support plate into which the level adjusting nut is fitted to form the expanded part. However, this may be used as an adhesive reservoir.

In another aspect of the present invention, the support plate of the unit support leg has an adhesive flow section on its upper surface. Therefore, a plurality of floor panels are laid on the unit support legs arranged on the floor surface of the foundation floor with a predetermined gap so that the edge portions thereof are supported in the above arrangement mode, and the adjacent floors are adjacent to each other. When the adhesive is injected from the above-mentioned gap between the panels, the injected adhesive flows in the adhesive flow part formed on the support plate of the unit support leg and then solidifies, so that the adhesive between the support plate and the floor panel is solidified. The adhesion area increases, and you can surely adhere. Therefore, even if walking vibration is repeatedly applied to the floor panel, there is no fear of loosening as in the case of fixing with only nails, and floor squeaking can be almost permanently prevented. Preferably, the adhesive flowing part is a groove or a recess formed on the upper surface of the supporting plate, and a retaining means such as a pressure-sensitive adhesive sheet for temporary fixing and an adhesive flowing part may be provided on the upper surface of the supporting plate.

Further, in another preferred aspect of the present invention, an expanding portion is formed at an upper portion of the level adjusting nut of the unit support leg to provide an adhesive agent reservoir, and the adhesive agent reservoir is provided for the support. It is configured to communicate with the adhesive flow part on the upper surface of the plate. With such a configuration, the adhesive is supplied between the floor panel and the support plate through the adhesive flow section and the support bolt and the level through the adhesive reservoir by one injection operation of the adhesive. Since it is also supplied to the threaded portion with the adjustment nut, the fixing between the floor panel and the support plate of the unit support leg and the locking of the support bolt (fixation of the support bolt and the level adjustment nut) are done at the same time. It can be carried out.

The form of the adhesive flow part that can be formed on the upper surface of the support plate of the unit support leg is roughly classified into the following two modes. (1) Form a groove on the upper surface of the support plate. The following modes are mentioned as a suitable mode of this groove part. (A) A groove that communicates with the adhesive reservoir formed on the level adjusting nut of the unit support leg, for example, a groove radially formed from the adhesive reservoir. (B) A groove in which a part of the groove is exposed in a gap between adjacent floor panels when the floor panel is laid, for example, a stripe groove.

(2) A recess is formed on the upper surface of the support plate with a height difference, and when a floor panel is laid, a gap is formed between the support plate and the floor panel, and the adhesive is flowed into this gap. As a preferable mode of forming such a recess, the following modes can be mentioned. (A) A partially thin sheet-like material, such as a double-sided pressure-sensitive adhesive sheet (sometimes simply referred to as a pressure-sensitive adhesive sheet) or a surface fastener, or a resin-impregnated paper with a relatively high friction resistance is attached to the upper surface of the support plate. . Preferably, at least two thin sheet-like materials are attached to the periphery of the upper surface of the support plate so that recesses are formed between these sheet-like materials. (B) The upper surface of the support plate is partially ground to form a recess. In the present invention, the above-described mode of forming the adhesive flow part may be adopted alone, or these may be combined arbitrarily. Especially when the concave portion is formed by using an adhesive sheet or a surface fastener, or when the adhesive sheet or the like is used in combination, the floor panel can be temporarily fixed using the adhesive sheet or the like, so that workability is good, This is the preferred form.

[0019]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT A preferred embodiment of the present invention will be described below with reference to the accompanying drawings. FIG. 1 is a schematic configuration diagram for explaining floor level adjustment of a double floor according to the present invention. In the figure, 1 is a laser generator, 3 is a light receiving device, 7 is an electric driver, 20 is a unit supporting leg, 40 indicates a floor panel.

As shown in FIG. 2, the unit support leg 20 includes a vibration-proof floor-contact base 21 made of an elastic material such as rubber and a support bolt 23 rotatably erected on the base 21. And a level adjusting nut 29 having an annular supporting portion 30 provided in a substantially central portion of the outer periphery, and an insertion hole (through hole) into which the upper portion of the level adjusting nut 29 is fitted in the central portion. ) 32 and a support member including a support plate 31. The support plate 31 is formed in a square or a rectangle, but its shape may be arbitrary. The floor contact base 21 is made of a relatively hard elastic material such as rubber or synthetic resin, and is used as a foundation floor surface (111) such as a concrete slab.
It is designed to be a perfect fit and to function as a vibration proof. The support bolt 2 is attached to the center of the upper surface.
Non-penetrating central hole 2 for inserting the base round bar portion 25 of No. 3
2 are formed.

On the other hand, the support bolt 23 is integrally provided with an annular flange portion 24 projecting laterally on the outer peripheral surface at a position spaced upward from the lower end by a predetermined distance, and a screw portion 27 is formed above the flange portion. The base end portion 25 below the flange portion 24 is formed as a round bar portion having a circular cross section, and a bulge portion 26 is formed at the lower end of the base end round rod portion 25. In addition, a groove portion 28 that constitutes a locking portion for engaging the tip of the electric screwdriver is formed on the top end surface of the support bolt 23.
(In the illustrated example, the groove is a minus groove, but it may be a plus groove or a square recess). Then, by inserting the base round bar portion 25 of the support bolt 23 into the center hole 22 of the floor-contacting base 21, the support bolt 23 is rotatable on the floor-contacting base 21 with the flange portion 24 as the support portion. It will be in a standing state. In addition, the bulging portion 26 formed at the lower end of the base round bar portion 25 of the support bolt 23 causes the base round bar portion 25 of the support bolt 23 to once move to the central hole 22 of the floor contact base 21.
It will not come out easily after it is inserted into. In addition,
The length of the base round bar portion 25 is shallower than the depth of the central hole 22 of the floor-contacting base 21, and the length is such that the air chamber 36 is formed thereunder. By thus providing the air chamber 36 below the base round bar portion 25, the air chamber 36 functions as an air cushion, and the vibration damping effect is further improved. In addition, the support bolt 2 is provided on the inner surface of the central hole 22 of the floor-contact base 21.
It is preferable to apply a lubricant such as grease so that the rotation of 3 can be performed smoothly and the air chamber 36 is hermetically sealed.

The upper part of the insertion hole 32 of the support plate 31 is chamfered and expanded. The level adjusting nut 29 is fitted into the insertion hole 32 of the support plate 31, and then the upper portion of the nut 29 is expanded and partially embedded in the chamfered portion 33 of the support plate insertion hole 32, so that Can be firmly attached. At the same time, an adhesive reservoir 34 is formed on the level adjusting nut 29. In this way, the support plate 31
By screwing the upper end of the screw portion 27 of the support bolt 23 into the level adjusting nut 29 fitted in the insertion hole 32, the unit support leg 20 is assembled as shown in FIG. Further, as shown in FIG. 2, a double-sided adhesive sheet 35 is attached to the upper surface of the support plate 31 of the unit support leg 20, and the release sheet covering the double-sided adhesive sheet 35 at the time of use (see FIG. It is used by peeling off (not shown). Alternatively, the pressure-sensitive adhesive layer may be directly applied to the upper surface of the support plate 31, and a release paper may be attached onto the pressure-sensitive adhesive layer for convenience of storage, transportation, and the like.

The unit support leg 20 assembled as described above is used for level adjustment by fitting the tip of a rotating tool such as a screwdriver into the groove 28 formed in the upper end surface of the support bolt 23 and rotating the same. The nut 29 and the support plate 31 to which it is fixed move up and down, and the floor level of the floor panel (40) supported by the support plate 31 can be adjusted.

FIG. 3 shows the layout of floor panels. Similar to the conventional construction method, after the unit support legs 20 are erected on the foundation floor at a predetermined pitch P according to the shape of the floor panel, the floor panel 40 is provided with a predetermined amount corresponding to the diameter of the support bolt 23. The unit support leg 20 supports the edge portion of the floor panel 40 by arranging it with a space W therebetween. The unit support leg 20 and the floor panel 40 are attached by the unit support leg 2
0 through the adhesive sheet 35 attached to the upper surface of the support plate 31, and the floor panel 40 is attached to the adhesive sheet 3 when the floor panel is laid.
It is crimped to 5 and temporarily fixed. Similarly, the adjacent floor panels 40 are also placed on the already installed unit support legs 20.
A predetermined gap W that allows level adjustment of 0 is opened and placed, and similarly, another unit supporting leg 20 is arranged and attached. This operation is repeated for each floor panel, and the floor panel is constructed in a predetermined area. Then, the floor level is adjusted according to the method of the present invention. The floor panels may be arranged in a zigzag pattern as shown in FIG. 3 or may be arranged in parallel as shown in FIG.

Next, the floor level adjustment will be described with reference to FIG. First, the laser generator 1 is mounted on the tripod 2 which is horizontally installed on the base floor 111 so as to be at a predetermined height position. The laser generator 1 turns on the power switch to rotationally project the laser beam L at a constant speed in the horizontal direction. The light receiving device 3 is provided with a light receiving portion 4 and an LCD display portion 5. Light receiving part 4
Is for detecting the laser beam L rotatably projected from the laser generator 1, and is provided with a pair of wedge-shaped light receiving elements and generates a photoelectric signal that changes according to the position of the laser beam that crosses the light receiving section 4. This photoelectric signal is input to the signal processing circuit built in the light receiving device 3. The signal processing circuit
It has functions such as amplification and peak hold, and processes the photoelectric signal to detect the displacement from the center position as shown in FIG.
While displaying on the D display unit 5, an output signal (pulse signal) corresponding thereto is generated on the output line 6.

As shown in FIG. 4, the display on the LCD display section 5 of the light receiving device 3 varies in size depending on the amount of displacement from the center position. That is, the laser beam L
4A, a large downward display is made, and as the position where the laser beam L crosses the light receiving unit 4 becomes lower, the display size becomes as shown in FIGS. Becomes smaller and crosses the center of the light receiving unit 4 (e)
Is displayed, and as the crossing position is further lowered, the display direction is upward as shown in (f) to (i), and the size thereof is gradually increased. Therefore, LCD
The display direction of the display unit 5 indicates the direction opposite to the direction in which the floor panel 40 should be raised and lowered, and its size corresponds to the amount of displacement of the floor level from the set level.

The electric driver 7 has a built-in motor drive control circuit, which receives an output signal (pulse signal) corresponding to the display on the LCD display section 5 and receives a pulse motor (incorporated in the driver body). The rotation direction and speed (not shown) are controlled. Reference numeral 8 is a forward / reverse changeover switch of the electric driver 7, and the rotation direction of the electric driver 7 can be changed over to the forward rotation side or the reverse rotation side by operating this switch. When operating the electric screwdriver 7, the level of the floor panel 40 as a whole is set to a low level, the electric screwdriver 7 is rotated in the forward direction, and the floor panel 40 is raised to approach the set level. Alternatively, it may be set to be higher, and the electric driver 7 may be rotated in the reverse direction to lower the floor panel 40 to approach the set level.

The horizontal accuracy of the laser generator 1 installed on the foundation floor 111 as described above is based on the average value of the upper and lower positions of the width of the laser beam in order to eliminate the backlash of the screw feeding mechanism and the like. . That is, when the light receiving device 3 is moved from top to bottom, the position when the LCD display unit 5 displays a bar display (display (e) in FIG. 4) is marked on the wall surface (position A). , And vice versa
When moving from the bottom to the top, LCD display 5
Mark the position when the bar display is displayed (B position), and rotate the calibration screw attached to the laser generator so that it becomes the average value (intermediate position) of the distance between AB, and adjust the horizontal accuracy. To do.

Next, the height of each floor panel 40 is adjusted using the electric screwdriver 7. It is preferable that the height adjustment by the electric screwdriver 7 is performed after the rough adjustment (quick approach) and then the accuracy adjustment. That is,
When the tip of the electric screwdriver 7 is fitted into the groove 28 formed on the top end surface of the support bolt 23 of the unit support leg 20 and the trigger 10 of the grip portion 9 is pulled, the motor rotates at high speed to bring the floor level close to the set value. As a result, the floor level rises or falls, and when the laser beam L crosses one end (upper end or lower end) of the light receiving unit 4 of the light receiving device 3 arranged on the floor panel 40, a photoelectric signal is output from the light receiving unit 4. To be done. The signal processing circuit determines the beam receiving position of the light receiving unit 4 based on this photoelectric signal and generates an output signal. Upon receiving this output signal, the drive control circuit of the electric driver 7 decelerates the rotation speed of the motor, and at the same time, rotates the electric driver by a rotation amount corresponding to the magnitude of the output signal (corresponding to the magnitude of the display on the LCD display section). 7 is rotated and the motor is stopped. In addition, when the floor level in the installed state is already at a height position where the laser beam L crosses the light receiving unit 4 of the light receiving device 3, displays such as (a) to (i) of FIG. An output signal that appears on the LCD display unit 5 is output to the drive control circuit of the electric driver 7, and the drive control circuit rotates the electric driver at a low speed by the rotation amount according to the output signal.

The floor level of each floor panel can be adjusted in any order. For example, as shown in FIG. 5, a floor panel 40a laid on one corner is provided with a light receiving device 3a, and a laser beam is projected from a laser generator 1 installed near the other side wall surface of the floor panel 40a. After adjusting the floor surface level of 40a, the floor surface level of the floor panel 40b laid at the other opposite corner portion is adjusted in the same manner, and then the other floor panels are adjusted in accordance with these floor panels 40a and 40b. It is also possible to carry out the level adjustment according to the present invention after the rough adjustment of the floor surface level. Alternatively, after laying the floor panel almost entirely, the floor level may be adjusted sequentially from the floor panel 40a at one corner toward the other floor panel.

After the floor level is adjusted as described above, the adhesive is injected into the adhesive reservoir 34 of the unit support leg 20 exposed in the gap between the adjacent floor panels, and the support is carried out as described above. The bolt 23 and the nut 29 for level adjustment are fixed. After the adhesive is solidified, the floor panel 40 is fixed with nails or screws.
Is fixed to the support plate 31 of the unit support leg 20, and if necessary, a siding material is laid on the entire laid floor, or a relatively rigid adhesive so as to cover the gap between the adjacent floor panels. After attaching the tape or closing it with an elongated embedding member, a floor finishing material such as a CF sheet, a carpet, a tatami mat, or a wooden floor material is applied. As an adhesive to be used, an epoxy-based, urethane-based, vinyl acetate-based adhesive, or the like can be used, and an epoxy-based or urethane-based adhesive is particularly suitable. The adhesive is
It is put in a container such as a tube or a pump, and is extruded by applying pressure with a nozzle having a narrow tip, and is injected into the adhesive agent reservoir 34.

FIGS. 6 and 7 show an embodiment in which an adhesive flow section is formed on the upper surface of the support plate of the unit support leg. In FIG. 6, 20a is the unit support leg, and 40 is the floor supported thereby. It is a panel. Unit support leg 20a
2 is a leg composed of a support bolt 23a rotatably erected with a flange portion 24a as a support portion on a vibration-proof floor-contact base 21a made of an elastic material such as rubber. Member and annular support portion 30 projecting from the lower outer periphery
It is composed of a level adjusting nut 29a having a and a support plate 31a having an insertion hole 32a in the central portion, but since the basic structure thereof is the same as that shown in FIG. 2, detailed description thereof will be omitted. . For the sake of clarity, the members having the same function are designated by the same reference numerals.

As is apparent from FIG. 7, the support plate 31a is a rectangle whose length L ₁ is at least twice the width L ₂ , and the double-sided adhesive tapes 35a, 35a are provided on the upper surfaces at both longitudinal ends thereof.
Is adhered, and the concave portion formed between the double-sided adhesive tapes 35a, 35a functions as an adhesive flow portion as described later. Thus, by using a rectangular support plate whose long side is twice or more as long as the short side as the support plate of the unit support leg, the unit support leg is placed on the surface of the foundation floor 111 at the same pitch as the conventional method. Even if it is placed on the floor panel, the spacing between the support plates of the adjacent unit support legs becomes narrower, and even if a load is applied to the part of the floor panel where the unit support legs are not placed, bending does not easily occur. Almost no step is generated. Therefore, even if a flexible floor finishing material such as a cushion floor is directly applied without laying a waste plywood on the laid floor panel, swelling or peeling of the cushion floor due to bending as in the past, There is no problem such as a feeling of strangeness when stepping on the step between the adjacent floor panels with the sole of the foot. In particular, by covering the gap between adjacent floor panels with a thin sheet having rigidity, such a problem can be almost completely eliminated. As a result, CF sheets, carpets, etc. can be constructed without the use of waste plywood, the need for waste plywood is eliminated, and the material cost of the waste plywood, the labor of applying the waste plywood, and the material cost,
Labor costs can be saved, construction period can be shortened, and floor construction can be performed at lower cost.

8 and 9 show the arrangement of the floor panels in the above embodiment. As shown in FIG. 8, after the unit support legs 20 and 20a are erected on the foundation floor at a predetermined pitch corresponding to the shape of the floor panel, the floor panel 40
With a predetermined gap corresponding to the diameter of the support bolt 23a, and the edge of the support plate 31 of the unit support leg 20a.
It is laid so as to be arranged along the long side of a, and the end edge portion of the floor panel 40 is supported by the unit support legs 20a. Each floor panel 40 is pressure-bonded to the double-sided adhesive tape 35a attached to the upper surface of the support plate 31a of the unit support leg 20a and temporarily fixed. By temporarily fixing the floor panel with the adhesive tape in this manner, it is possible to prevent the position of the unit support leg from being displaced or falling during the construction, and the workability of the double floor is improved. In addition, in the above-described embodiment, since the edge portion on the short side of the floor panel is hardly bent even when a load is applied, the unit support leg 20 having the square support plate 31 as shown in FIG. 2 is used. However, it goes without saying that the unit support leg 20a having the rectangular support plate 31a may be used to support this portion.

Subsequent steps such as floor level adjustment and adhesive injection may be the same as in the embodiment shown in FIG. 1, but in the above embodiment, as shown in FIGS. 6 and 7. , A thickness of 0.1 on both sides of the upper surface of the support plate 31a facing each other.
Since the double-sided pressure-sensitive adhesive sheets 35a, 35a having a thickness of about 1.0 mm are adhered, and the recess formed between the pressure-sensitive adhesive sheets 35a, 35a functions as an adhesive flow part as described below, An adhesive is used to fix the panel 40 and the support plate 31a, and the floor panel can be fixed with good workability. That is, when the floor panel 40 is laid using the unit support legs 20a to which the support plate 31a is attached, as shown in FIG. 6, a gap S is formed between the upper surface of the support plate 31a and the floor panel 40. Therefore, when the adhesive is injected into the adhesive reservoir 34a from the gap W between the floor panels, the adhesive permeates into the threaded portion of the support bolt 23a and the level adjusting nut 29a, and also into the gap S. Then, the floor panel 40 and the support plate 31a are strongly joined together, and the support bolt 23a and the level adjusting nut 29a are also firmly joined together, and these joinings are achieved by a single adhesive injection operation. In the case of the above embodiment, it is not necessary to fix the floor panel to the support plate by nailing, but the important points are from the floor panel 40 to the support plate of the unit support leg 20 before or after the adhesive injection. It is also possible to stabilize the floor panel by nailing and fixing it to 31 or fixing it with screws or the like.

When it is not necessary to temporarily fix the floor panel with the double-sided pressure-sensitive adhesive sheet, a thin sheet material such as a single plate or resin-impregnated paper may be attached instead of the pressure-sensitive adhesive sheet. It is also possible to completely adhere the sheet-shaped material to the four sides of the upper surface of the support plate 31a to completely prevent the adhesive from dripping.
After laying the floor panels, a thin sheet 36 having rigidity is provided between the adjacent floor panels as shown in FIG.
For example, by covering with an adhesive tape, there is no problem such as swelling or peeling of the flexible floor finishing material and generation of a step portion, and by using the double-sided adhesive tape, it can be used for fixing the floor finishing material.

FIGS. 11 and 12 show a modification of the embodiment shown in FIGS. 6 to 9 in which the double-sided adhesive sheet 35 is provided on both ends of the upper surface of the support plate 31b of the unit support leg 20b which face each other.
b and 35b are also attached, and the double-sided adhesive sheet 35 is also attached around the insertion hole of the support plate 31b. Furthermore, a part of the groove forms a floor panel on the upper surface of the support plate between the double-sided adhesive sheets 35 and 35b. Gap W between adjacent floor panels 40 when laid
This is different from the above-described embodiment in that a plurality of stripe-shaped grooves 37 are formed in a direction orthogonal to the longitudinal direction so as to be exposed at.
Further, the adhesive reservoir 34b is formed by expanding the upper portion of the level adjusting nut 29b itself. Therefore, in this embodiment, when the floor panel 40 is laid and then the adhesive is injected into the groove 37 forming portion of the adhesive reservoir 34b and the support plate 31b, the adhesive is applied to the support bolt 23b and the level adjusting nut 29b. In addition to being supplied to the threaded portion, it is also supplied between the floor panel 40 and the support plate 31b through the groove 37 and reaches the peripheral portion of the support plate 31b, so that the support bolt 23b and the level adjusting nut 29b are fixed. At the same time, the fixing of the floor panel 40 and the support plate 31b is also achieved by one operation of injecting the adhesive. In the case of this embodiment, each groove 3
It is also possible to provide a groove for connecting the seven, and each groove 37 can be communicated with the adhesive reservoir 34b formed on the upper portion of the level adjusting nut 29b.

FIG. 13 shows a modified example of the embodiment shown in FIGS. 11 and 12, in which double-sided adhesive sheets 35b, 35b are attached to opposite end portions of the upper surface of the support plate 31c of the unit support leg, and A plurality of grooves 37 communicating with the adhesive reservoir 34b are formed on the upper surface of the support plate between the double-sided adhesive sheets 35b, 35b.
It is different from the above-mentioned embodiment in that it is formed radially. Therefore, in the case of this embodiment, the fixing of the support bolt 23b and the level adjusting nut 29b and the fixing of the floor panel 40 and the supporting plate 31c can be performed simultaneously by a single operation of injecting the adhesive into the adhesive reservoir 34b. it can. In any of the above-described examples, the groove forming the adhesive flowing part has a depth of 0.5 to 3.0 mm and a width of 2.0 to 5.0 mm.
Grooves are suitable and, in the preferred embodiment, have a depth of 1.
A groove having a width of 5 mm and a width of 4.0 mm is suitable. Further, the shape of the groove is arbitrary such as a square groove and a V groove.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and various changes and modifications can be made. For example, the rotation speed of a polygon mirror of a laser generator is generally 60.
Although it is 0 rpm, the rotation speed and the braking force of the electric driver can be selected according to the rotation speed of the polygon mirror, and the limit speed can be set. Further, the unit support leg is not limited to the structure as shown in the above-mentioned embodiment, and any structure having a structure in which the height can be adjusted by rotating the support bolt from above with an electric screwdriver can be used. Further, in order to smoothly supply the adhesive to the threaded portions of the support bolts 23, 23a and 23b and the threaded portions of the level adjusting nuts 29, 29a and 29b, the inner peripheral threads of the level adjusting nuts 29, 29a and 29b are provided. One or a plurality of grooves can be formed in the axial direction in the portion, and each groove can be stopped up to near the lower end of the level adjusting nut to form a non-penetrating groove to prevent adhesive dripping. it can. Alternatively, a groove may be formed in the axial direction at the upper end of the threaded portion of the support bolts 23, 23a, 23b.

Furthermore, the method of the present invention can be applied to the flatness measurement of the existing floor level. For example, as shown in FIG. 5, a laser generator 1 is installed near one side wall surface so as to horizontally project a laser beam at a predetermined height on a floor panel that is entirely laid, and one side facing the other side. The light receiving device 3a is placed on the floor panel 40a at the corner of the floor to measure the floor level (A value), and then the light receiving device 3b is placed on the floor panel 40b at the other corner. Similarly, the floor level (B value) is measured, and the floor panel 40a
And the difference between 40b (difference between A value and B value) is a predetermined value (for example, 3
If it is within mm), it will be passed. Alternatively, the floor level of any of a plurality of floor panels or all floor panels can be measured in the same manner to further improve the measurement accuracy.
If the flatness cannot be satisfied by such a floor level measurement, the floor level can be adjusted in the same manner as described above. The difference between the A value and the B value can be determined by the height difference of the LCD display portions of the light receiving devices 3a and 3b, or the laser generator 1 can display the A value as a bar display on the LCD display portion. 4 is adjusted in advance, and determination is made depending on whether the B value is the display of (a) to (d) or (f) to (i) of FIG. 4 on the LCD display unit. You can also

[0041]

As described above, according to the double floor construction method of the present invention, the following effects and advantages are obtained. (A) According to the double floor construction method of the present invention, the floor level is adjusted by using the laser beam horizontally projected from the laser generator as the reference line for floor level adjustment. The floor level can be adjusted on the basis of an absolute plane without being affected by the unevenness of the surface of the floor (concrete slab). Further, the deviation of the height position of the laid floor panel from the set level is measured and displayed as a displacement amount from the set position of the height positional relationship by the light receiving device that receives the laser beam, and is proportional to the displacement amount. The height is adjusted by raising or lowering the support member of the unit support leg in the direction that eliminates the displacement by the amount of the above adjustment, so the floor level is adjusted with extremely high accuracy, workability and workability. be able to.

(B) In particular, as a rotating tool for rotating the support bolt of the unit support leg, an electric motor having a built-in pulse motor that rotates a predetermined amount in response to an electric signal (pulse signal) input from the light receiving device. Using a driver to output an electric signal (pulse signal) corresponding to the amount of displacement measured by the light receiving device to the pulse motor, and rotate the electric driver in a direction to eliminate the displacement by an amount proportional to the amount of displacement. As compared with the method of manually rotating the driver, the floor level can be adjusted very easily and accurately, and the workability and the workability are significantly improved.

(C) By providing an adhesive flow part such as a groove or a recess on the upper surface of the support plate used for supporting the floor panel,
The support plate and the floor panel can be reliably bonded together, and even if repeated vibrations are applied to the floor panel, there is no risk of loosening as with fixing with only nails, and floor squeaking can be almost permanently prevented. . Also, instead of applying the adhesive to the upper surface of the support plate of the unit support legs one by one, after laying the floor panels, the adhesive may be injected from the gap of the unit support leg arrangement portion between the adjacent floor panels. Since it is good, the workability is extremely good, and the problem that the adhesive adheres to the operator's hand, clothes, or the surroundings and stains is greatly alleviated as compared with the coating work.

(D) An expanding portion is formed on the upper portion of the level adjusting nut to provide an adhesive reservoir, and preferably an adhesive flowing portion is provided on the upper surface of the support plate so as to communicate with the adhesive reservoir. With a single injection of adhesive,
The fixing between the floor panel and the supporting plate of the unit supporting leg and the fixing of the support bolt and the level adjusting nut can be performed at the same time. Therefore, workability and workability are improved, and the floor surface level adjustment accuracy is also increased. Further, there is no problem such as a level adjustment error caused by loosening of the support bolts due to repeated walking on the floor surface, a floor drop due to looseness of the screwed portion, a floor squeal, and a step between floor panels. (E) As mentioned above, a series of floor panel laying, floor level adjustment, fixing of support bolts and level adjusting nuts by injection of adhesive, fixing of floor panel to unit support leg, and construction of floor finishing material Can be performed with good workability,
Therefore, it is possible to significantly shorten the construction period of the double floor and reduce the cost.

[Brief description of drawings]

FIG. 1 is a partial cross-sectional schematic side view for explaining floor level adjustment of a double floor according to the present invention.

FIG. 2 is a vertical cross-sectional view of an example of a unit support leg used in the present invention.

FIG. 3 is a partial plan view showing an example of the layout of floor panels laid using unit support legs.

FIG. 4 is an explanatory diagram showing some display examples of an LCD display unit of the light receiving device.

FIG. 5 is a schematic plan view showing another example of the layout of floor panels.

FIG. 6 is a partial cross-sectional side view showing a state in which a floor panel is supported by unit support legs according to another embodiment of the present invention.

FIG. 7 is a plan view of the floor panel supported by the unit support legs of the embodiment shown in FIG.

FIG. 8 is a plan view showing an example of an arrangement state of floor panels laid using the unit support legs of the embodiment shown in FIG.

9 is a view taken along line XX of FIG.

10 is a view taken along the line YY of FIG.

FIG. 11 is a partial cross-sectional side view showing a state in which a floor panel is supported by unit support legs according to still another embodiment of the present invention.

FIG. 12 is a plan view of the floor panel supported by the unit support legs of the embodiment shown in FIG.

FIG. 13 is a plan view of a unit support leg according to another embodiment of the present invention.

FIG. 14 is an exploded perspective view of an example of a conventional unit support leg.

FIG. 15 is a broken perspective view of a floor panel construction state using a conventional unit support leg.

[Explanation of symbols]

 1 Laser generator 3 Light receiving device 4 Light receiving part 5 LCD display part 7 Electric screwdriver 20,20a, 20b Unit support leg 21,21a, 21b Floor contact base 23,23a, 23b Support bolt 28,28a, 28b Groove part 29,29a , 29b Level adjustment nuts 31, 31a, 31b, 31c Support plates 34, 34a, 34b Adhesive reservoir 37 Groove (adhesive flow part) 40 Floor panel L Laser beam

Claims (4)

[Claims] 1. A floor panel is supported by a support member of the unit support leg, which is used by combining a unit support leg group in which a support member is mounted on the upper end portion of the leg member so as to be adjustable in height, and a floor panel group. In the double-floor construction in which the floor panel is laid in this state, the unit support leg is a floor-contacting base and is rotatably erected on the floor-contacting base, and the tip of the rotary tool is attached to the top end face. A support bolt formed with a locking portion for engaging with the support plate, a support plate that directly or indirectly supports the floor panel, and an upper end of the support bolt that is attached to the insertion hole formed in the support plate. A unit support leg having a level adjusting nut screwed to the section and having an adhesive reservoir expanded in the insertion hole area of the support plate is used, and the unit support leg is formed into a floor panel shape. Floor surface of the foundation floor at the corresponding predetermined pitch And arranging a plurality of floor panels with a predetermined gap so that the edges of the floor panels are supported by the supporting plates of the unit supporting legs, so that the laser beam is projected horizontally at a predetermined height position. A laser generator is arranged on the floor panel, and a light-receiving device that receives the laser beam projected from the laser generator and measures the height positional relationship with the level of the laser beam is arranged on the floor panel laid as described above. Then, in proportion to the amount of displacement from the set level of the height positional relationship measured by the light receiving device, the tip of the rotating tool is engaged with the engaging portion of the support bolt top end surface to rotate the support bolt, As a result, the step of raising or lowering the support plate in the direction to eliminate the displacement to adjust the height, and injecting the adhesive into the adhesive reservoir of the unit support leg, and screwing it into the level adjusting nut and this Dual construction technique for the floor, which comprises the step of fixing the the support bolts. 2. The rotating tool comprises an electric driver incorporating a pulse motor, and an electric signal corresponding to the displacement amount measured by the light receiving device is output to the pulse motor to displace the electric driver by a predetermined amount. 2. The method according to claim 1, further comprising rotating in a direction in which 3. A holding means having a fixing force sufficient to prevent at least lateral displacement of a floor panel to be placed, is provided at least at a part between the support plate of the unit support leg and the floor panel. The method according to claim 1 or 2. 4. The method according to claim 1, wherein the unit support leg has an adhesive flowing part formed of a groove or a recess on an upper surface of the support plate.