RU153209U1 - MANUAL TOOL FOR DISTRIBUTING MIXTURES IN THE HORIZONTAL PLANE - Google Patents

Abstract

1. A hand tool for distributing mixtures in a horizontal plane, characterized in that it contains a control handle connected to the housing, in which the power supply unit and the controller are connected, connected to the automatic extension mechanisms of the adjustable supports located on both sides of the housing, and the rule is fixed at the bottom while photodetectors are mounted on poles to respond to the laser beam. 2. The hand tool according to claim 1, characterized in that the on / off button and spring-loaded buttons for forced control of the supports are located on the control handle. 3. The hand tool according to claim 2, characterized in that the control handle is made of lightweight, durable material: thin metal or plastic, while the control handle is detachably attached to the housing. A hand tool according to claim 1, characterized in that the support blade is made of carbon steel in the form of a "ridge" .5. A hand tool according to claim 1, characterized in that the rule is made of aluminum, or steel, or composite. The hand tool according to claim 1, characterized in that the power supply is a battery associated with the controller. A hand tool according to claim 1, characterized in that each automatic extension mechanism consists of an electric motor with a planetary or worm gear, the torque of the gearbox of which is transmitted to a flexible cable, a rotating spindle or a threaded shaft along which the bearings are moved up / down. . The hand tool according to claim 7, characterized in that the electric motor is located inside the housing or on top of the support.

Description

The utility model relates to the field of construction, in particular to hand tools (electromechanical tools) intended for the automatic distribution of mixtures in a horizontal plane without the use of “beacons” when pouring or backfilling floors in construction and decoration. The utility model is suitable for working with bulk, self-leveling, cement-sand mixtures, as well as with dry “harz” and backfill with fine expanded clay in the technology of “dry floors”.

The usual procedure in the process of finishing is pouring a concrete floor with a cement-sand screed in a horizontal plane. Modern technology involves the process of marking the room. The material is bought - T-shaped steel, galvanized profile - “beacon”. Using a tape measure and a flat laser beam, the builder “freezes” the beacons to the surface onto the solution, thus setting the plane

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A device for applying roofing glue is known from the prior art, comprising a handle and a pair of spaced skids, pivotally attached to the ends of the upper part or the transverse element bearing the blade or plate attached to it in any suitable way, such as using screws passing through the mounting plate into the transverse element. The screws pass through elongated holes formed in the blade or plate, the holes allow vertical adjustment of the plate or blade (US 2913753, 11.24.1959).

The disadvantage of this design is that in cases of use for leveling another mixture, it will require the use of beacons and other markings when pouring or backfilling floors.

A tool is known that combines leveling and level control and includes a base plate, a vertically straight handle and an adjustable sliding sighting clamp mounted on a handle with an inspection groove and adjustable with a screw finger to ensure accurate level control (US 4114220, 09/19/1978).

The disadvantage of this device is its low functionality, the need to use beacons and other markings when pouring floors, which leads to large time costs.

A device for leveling the surface of the floor, including a guide rail and a screw adjustable device, the guide rail is made with a support base located perpendicular to its axis, while they are interconnected by corners fixed at one end to the guide rail, the other on a support base, the guide rail is mounted on four vertical supports with the possibility of its free movement, to the left and right of the guide rail, between two vertical supports are inter two transverse supports mounted on them and fixed with a screw, screw adjustable devices are installed in the middle of the transverse supports along the axis of the guide rail and are connected to the supporting base by means of a l-shaped profile, and laser receivers are installed at the ends of the guide rail (RU 105334, 06/10/2011) .

The disadvantages are the complexity of the design, the complexity of the operation.

A device for leveling concrete is known, which is a combination of a hand held mechanism having an elongated tubular element containing a rotating shaft. The elongated tubular element includes a cone-shaped bracket at its free end, and a device for leveling concrete. The contact plate can be either flat and / or prefabricated, or made with a contour, with a vertical wall passing from it, and an L-shaped bracket for attachment to a cone-shaped bracket. In addition, the rotating shaft can be mounted with an eccentric wheel for imparting vibration or cyclic action (US 6695531, 02.24.2004).

The disadvantage of this design is the complexity of the work associated with the complexity of the layout, low quality of the leveled surface.

The problem to which the proposed utility model is directed is to create a hand tool for distributing mixtures in the horizontal plane, which would eliminate the above disadvantages.

The technical result achieved by the implementation of this utility model is to reduce labor costs and complexity due to the absence of the need to install beacons and use markings (saving time when filling floors up to 50%, highly skilled labor - the whole operation is excluded), which also leads to material savings - beacons, profiles, screws.

The specified technical result is achieved in a hand-held tool for distributing mixtures in a horizontal plane, containing a control handle connected to the housing, in which the power supply unit and the controller are connected, connected to the automatic extension mechanisms of the adjustable supports located on both sides of the housing, and the rule is fixed below it, at the same time, photodetectors for responding to the laser beam are fixed on the supports.

On the control knob are the on / off button and spring-loaded buttons for forced control of the supports.

The control handle is made of lightweight, durable material: thin metal or plastic, while the control handle is detachably attached to the housing.

The blade of the support is made of carbon steel in the shape of a ridge. The rule is made of aluminum, or steel, or composite. The power supply is batteries associated with the controller.

Each extension mechanism consists of an electric motor with a planetary or worm gear, the torque of the gearbox of which is transmitted to a flexible cable, a rotating spindle or a threaded shaft, along which the support moves up / down.

The electric motor is located inside the housing or on top of the support. The essence of the utility model is illustrated by drawings, where in FIG. 1 shows a side view of a hand tool for distributing mixtures in a horizontal plane; in FIG. 2 is a front view of a hand tool for distributing mixtures in a horizontal plane; in FIG. 3 is a top view of a hand tool for distributing mixtures in a horizontal plane; in FIG. 4 is a general view of a hand tool for distributing mixtures in a horizontal plane; in FIG. 5 - location of photodetectors on adjustable supports; in FIG. 6 - a form of adjustable supports; in FIG. 7, 8 - place mounting the control knob to the body; in FIG. 9 - on / off button and spring-loaded buttons for forced control of adjustable supports; in FIG. 10 - the case of a hand tool for distributing mixtures in a horizontal plane; in FIG. 11, 12 - mechanism for automatic extension of adjustable supports; in FIG. 13 - the distance from the laser beam of the laser level to the level of the proposed screed; in FIG. 14 - automatic extension mechanism with the placement of the electric motor on an adjustable support.

A hand tool for distributing mixtures in a horizontal plane (work surface, for example, floor) contains rule 1, having a width of 1-1.5 m and rigidly fixed to the bottom on the housing 2, made in the form of a hollow box and connected in the middle with the control handle 3.

At the edges of the housing 2 are adjustable supports 4 (supporting elements "knives").

The hand tool for distributing mixtures in the horizontal plane has a leveling range from 0 to 100 mm or more. The process of filling or filling the horizontal surface excludes the operation of marking and installation of beacons. A hand-held tool for distributing mixtures in the horizontal plane is paired with a laser level 6, the beam of which is detected by photodetectors 5 located in the upper part of the supports 4 (fixed part 16 of the supports 4) receiving reciprocating movement up / down from the automatic extension mechanisms, placed in the housing 2 and connected to the controller 7, receiving power from the power supply 8 - battery.

A horizontal leveling system is used in a hand tool to distribute mixtures in a horizontal plane. It is enough for the contractor to set the desired height when installing the laser and drag the rule onto himself as the mixture is added, the device will do the rest. The error during pouring will be 1-2 mm and directly depends on the properties of the mixture.

The control handle is made of light alloy (light, strong material: thin metal or plastic) with 3 switches: on / off button 10 and spring-loaded buttons 11 for forced control of adjustable supports, and is designed to control the movement of the hand tool and its modes. In the place of attachment of the handle to the body, a detachable connection is made - constructive and electricians. This is necessary for safe tool transport. The control buttons are located on the control handle. In the middle, the main on / off button is the automation of the hand tool, along the edges of the left and right are two of the 3 poses. spring-loaded buttons for forced control of supports. They are needed to reduce the dimensions of the hand tool during transportation, as well as to set the hand tool to the height necessary for the automation to operate.

The body of the hand tool is a box of approximately 100 * 50 mm cross-section. It houses all the electromechanics. The case is made of light alloy or plastic. Mechanisms of automatic extension of adjustable supports are rigidly fixed to the body on both sides. In the middle part of the housing are batteries supplying the system and the controller. On the surface is connector 9 for charging. The electromechanical part is located in the housing or on an adjustable support 4 (fixed part 16) and consists of electric motors 12 with a planetary 18 or worm gear. The torque after the gearbox is transmitted to a flexible cable 13, which rotates the lead screw or threaded shaft 14. The lead screw or threaded shaft 14 moves in the form of a slider up / down the movable part 15 of the adjustable support 4 relative to the fixed part 16 (screw-nut transmission).

From below, a little to the body, the rule is rigidly fixed. The cutting angle of the rule is needed so that the rule does not “take off” and does not push the mixture to the opposite side. The rule directly levels the mixture.

The blade 17 of the adjustable support 4 of the hand tool is made of carbon steel due to the load on wear (constant friction against the surface) and is located on the movable part 15 of the support 4. The blade 17 is made in the form of a “ridge”, the length and shape of which is due to the need to smooth the movement along roughnesses ( mounds, pits, mesh, fittings, pipes of underfloor heating) of the horizontal plane (black floor / work surface) and support for the hand tool in balance, in a passive state.

Photo detectors are located at the top of the automatic extension mechanisms of the adjustable supports. An automatic extension mechanism controls the supports. Adjustable feet transfer the weight of the hand tool to a horizontal plane / surface and keep it level.

The principle of operation of a hand tool:

The hand tool is installed in the far corner of the room. The laser is installed closer to the exit. The hand tool stands on the horizontal plane of the "rough floor" (asleep or poured surface) on 2 automatically adjustable supports. The source of a flat, horizontal laser beam is located at the required height N. The height H of the laser installation is determined by the distance of the "dead zone of photodetectors" from the lower edge of the rule. Photo detectors are located on the fixed parts of the adjustable supports at the same height and consist of upper and lower sensitive zones. Between the upper and lower there is a dead zone, which is also the zone of the ideal position of the device, h 3 mm high (along the beam thickness). The upper photodetector starts the mechanism of automatic extension of the adjustable support, the lower vice versa. As a result of the actions of the system, the hand tool always strives for an ideal position.

A mixture is applied to the surface of the subfloor. The worker takes the hand tool by the control handle, turns it on with the on / off button and gently pulls it onto himself. In the process of moving a hand tool, the laser beam sometimes leaves the “dead zone” of photodetectors, sometimes reaching the top or bottom photodetector, thereby starting the alignment process of the hand tool.

When using the declared manual tool, the installation of beacons and other markings for leveling the mixture (for example, small expanded clay, self-leveling mixture, cement-sand mixture, dry “harz”) in a horizontal plane are not needed. Material is saved - beacons, profiles, self-tapping screws. Save time when pouring floors up to 50% of highly skilled labor - the whole operation is excluded.

Claims (8)

1. A hand tool for distributing mixtures in a horizontal plane, characterized in that it contains a control handle connected to the housing, in which the power supply unit and the controller are connected, connected to the automatic extension mechanisms of the adjustable supports located on both sides of the housing, and the bottom of which is fixed while photodetectors are mounted on poles to respond to the laser beam. 2. The hand tool according to claim 1, characterized in that the on / off button and spring-loaded buttons for forced control of the supports are located on the control handle. 3. The hand tool according to claim 2, characterized in that the control handle is made of lightweight, durable material: thin metal or plastic, while the control handle is detachably attached to the housing. 4. The hand tool according to claim 1, characterized in that the blade of the support is made of carbon steel in the form of a "ridge". 5. The hand tool according to claim 1, characterized in that the rule is made of aluminum, or steel, or composite. 6. The hand tool according to claim 1, characterized in that the power supply is a battery associated with the controller. 7. The hand tool according to claim 1, characterized in that each automatic extension mechanism consists of an electric motor with a planetary or worm gear, the gearbox torque of which is transmitted to a flexible cable, a rotating spindle or a threaded shaft along which the support moves up / down . 8. The hand tool according to claim 7, characterized in that the electric motor is located inside the housing or on top of the support.

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