CN114991499A - Intelligent digital bark tree trunk erecting tool and using method - Google Patents

Abstract

The invention discloses an intelligent digital bark tree pole erecting tool and a using method thereof, the tool comprises an intelligent base and an intelligent control module, wherein the intelligent base is provided with an adjustable chassis, a rechargeable battery pack, a power distribution module, a calibration bubble and a loop bar socket, a sliding staff structure consisting of a plurality of sections of mutually spliced hollow round poles is arranged in the loop bar socket, the hollow round poles are provided with a laser emitting lamp light-transmitting area, laser emitting lamps arranged in the laser emitting lamp light-transmitting area, scale lines arranged at two sides of the laser emitting lamp light-transmitting area, a clamping hole arranged close to one end part of each hollow round pole and a clamping tool arranged close to the other end part of each hollow round pole, a sensor is arranged at the clamping hole, and two adjacent hollow round poles are connected with the clamping tool through the clamping hole, the rechargeable battery pack, the power distribution module, the laser emission lamp, the sensor and the intelligent control module are electrically connected. The construction method is not influenced by the environment, is simple to operate and convenient to carry, and greatly improves the construction quality and the construction efficiency.

Description

Intelligent digital bark tree trunk erecting tool and using method

Technical Field

The invention relates to the technical field of building construction, in particular to an intelligent digital bark tree trunk erecting tool and a using method thereof.

Background

The leather number pole is a wooden pole with the thickness of each leather brick and mortar joint and the height positions of door and window openings, lintels, floor slabs and the like. The self-made masonry ruler is used for controlling the vertical dimension of a wall body and the vertical elevation of components at each part during masonry, and ensuring the uniformity of mortar joint thickness, and is a self-made masonry ruler in construction.

But traditional wooden skin number pole preparation is coarser, and the accuracy is not high, often can lead to the elevation to deviate because of human factor, receives the environment moreover easily and uses time long influence to produce the deformation, and then influences measurement accuracy. In order to solve the problem, the invention provides an intelligent bark tree trunk erecting tool which can well solve the problem, and a digital intelligent technology is adopted, so that the influence of environment and human factors can be avoided, and the construction efficiency and the construction accuracy are greatly improved.

Disclosure of Invention

The invention aims to solve the problems that the traditional bark tree trunk is influenced by temperature, humidity, light and the like to cause scale deformation and accuracy reduction.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides an intelligence digital upright leather tree pole instrument, including intelligent base and intelligent control module, install adjustable chassis on the intelligent base, chargeable call group, the power distribution module, calibration bubble and loop bar socket, loop bar socket internally mounted has the sopwith staff structure of constituteing by the mutual concatenation hollow pole of multisection, be provided with laser emission lamp light-permeable area on the hollow pole, the laser emission lamp of setting in laser emission lamp light-permeable area inside, the scale mark of setting in laser emission lamp light-permeable area both sides, the card hole that sets up near one end of hollow pole and the fixture that sets up near another end of hollow pole, card hole department is provided with the sensor that is used for transmitting the laser emission lamp data information of scale graduation mark department that is transmitted by control panel, two adjacent hollow poles pass through card hole and fixture and connect, chargeable call group, the power distribution module, Laser emission lamp, sensor and intelligent control module electric connection.

Make following improvement in above-mentioned scheme, adjustable chassis is including installing the screw base in intelligent base bottom, and screw base internally mounted has the landing leg, and the upper portion of landing leg is installed with the threaded rod of screw base adaptation connection, is fixed with the nut on the threaded rod.

Make following improvement in above-mentioned scheme, be provided with the mounting groove on the cavity round bar, the mounting groove is inside to be inlayed and to be equipped with the electro-magnet and install the spring, and the electro-magnet is connected with intelligent control module, and fixture passes through spring movable mounting inside the mounting groove and fixture is made by magnetic material.

Make following improvement in above-mentioned scheme, be provided with millimeter level unit input interface, centimetre level unit input interface, meter level unit input interface, digital display screen, laser emission lamp control button and shift knob on the intelligent control module.

Make following improvement in above-mentioned scheme, the middle part of loop bar socket is provided with the jack, and the lateral part of jack is provided with the guide way, installs on the outer wall of the cavity round bar that is located the bottom and connects the tooth, connects tooth and guide way looks adaptation, and the guide way includes along the jack lateral wall progressively to be close to the setting and the bottom be horizontal spacing region to the bottom along circumference.

In the scheme, the intelligent base is improved in the following manner, an interlayer is arranged in the intelligent base, and power lines and data transmission lines for connecting the laser emission lamp, the sensor, the rechargeable battery pack, the power distribution module and the electromagnet are distributed in the interlayer.

In the scheme, the improvement is made that when the switch button is in the closed state, the clamp is positioned in the mounting groove under the action of the electromagnet.

A use method of an intelligent digital bark erecting tree rod tool comprises the following steps:

the method comprises the following steps: placing an intelligent base at a position where a bark tree trunk needs to be erected;

step two: connecting a sufficient number of hollow round rods with different specifications with the clamping holes through the clamping devices to form a tower ruler structure, and opening a switch button;

step three: inserting the connecting teeth at the bottom of the assembled tower ruler structure into the jack of the loop bar socket on the intelligent base, and acting through the guide groove and the connecting teeth until the installation position is marked;

step four: then adjusting the elevation of a nut on a supporting leg below the intelligent base until a calibration bubble on the intelligent base is centered;

step five: inputting a scale value of a required bark-erecting tree trunk into a control panel on the intelligent control module;

step six: when a laser emission lamp control button on the intelligent control module is turned on, the corresponding laser emission lamp is turned on and emits a red horizontal line according to the scale value of the bark tree trunk input on the intelligent module by the tower ruler structure, and data of the laser emission lamp is fed back through the sensor;

step eight: after the use is finished, the switching power supply is turned off, and the clamp can automatically retract into the hollow round rod under the action of the electromagnet;

step nine: and reversely operating the bottommost hollow round rod until the connecting teeth and the guide groove are completely separated, and loading the disassembled parts into the equipment box.

Compared with the prior art, the invention has the following beneficial effects:

the intelligent digital bark tree pole erecting tool is beneficial to avoiding deviation caused by moisture, insufficient light and temperature change, has a good quality control effect on building engineering masonry operation by utilizing the intelligent digital bark tree pole erecting tool, is not influenced by environment, is simple to operate and convenient to carry, and greatly improves construction quality and construction efficiency.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged view in partial cross-section of the fixture of the present invention;

FIG. 3 is a schematic view of the overall structure of the stem socket of the present invention;

fig. 4 is a cross-sectional view of a ferrule boot of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1

As shown in fig. 1, an intelligent digital bark tree pole erecting tool comprises an intelligent base 10 and an intelligent control module 30, wherein an adjustable chassis, a rechargeable battery pack 11, a power distribution module 12, a calibration bubble 14 and a loop bar socket 13 are mounted on the intelligent base 10.

The adjustable chassis comprises a threaded seat 15 installed at the bottom of the intelligent base 10, a supporting leg 16 is installed inside the threaded seat 15, a threaded rod 17 connected with the threaded seat 15 in an adaptive mode is installed on the upper portion of the supporting leg 16 in a rotating mode, and a nut 18 is fixed on the threaded rod 17. The nut 18 is rotated to enable the threaded seat 15 and the threaded rod 17 to move relatively, so that the elevation of the intelligent base 10 is adjusted, and the leveling work of the intelligent base 10 is realized by matching with the standard bubble 14.

A sliding staff structure composed of a plurality of hollow round rods 20 spliced with each other is arranged in the loop bar socket 13, a laser transmitting lamp light-permeable area 21 is arranged on each hollow round rod 20, a laser transmitting lamp 27 (a lamp bead with a corresponding height is distributed for each scale mark and is electrically connected with the lamp bead), which is arranged in the laser transmitting lamp light-permeable area 21, the scale marks arranged at two sides of the laser transmitting lamp 27 light-permeable area 21, a clamping hole 22 arranged near one end of the hollow round rod 20 and a clamping tool 23 arranged near the other end of the hollow round rod 20, a sensor 29 for transmitting data information of the laser transmitting lamp 27 at the scale marking point of the scale transmitted by the intelligent control module 30 is arranged at the clamping hole 22, and whether the laser transmitting lamp 27 at a preset high position normally transmits a horizontal line or not is controlled and judged by using the sensor 29 and the information is fed back to the intelligent control module 30, the adjacent two hollow round rods 20 are connected with the clamp 23 through the clamp holes 22, and the rechargeable battery pack 11, the power distribution module 12, the laser emitting lamp 27 and the sensor 29 are electrically connected with the intelligent control module 30.

As shown in fig. 2, the hollow round rod 20 is provided with an installation groove 24, an electromagnet 26 and a spring 25 are embedded in the installation groove 24, the electromagnet 26 is connected with the intelligent control module 30, the fixture 23 is movably installed in the installation groove 24 through the spring 25, and the fixture 23 is made of a magnetic material. When the electromagnet 26 is powered on, the clamping apparatus 23 is driven to move outwards, and then moves towards the corresponding clamping hole 22, and after the electromagnet 26 is powered off, the clamping apparatus 23 is pushed inwards under the action of the spring 25, so that the clamping apparatus is recovered into the mounting groove 24, and then is separated from the clamping hole 22.

The intelligent control module 30 is provided with a millimeter unit input interface, a centimeter unit input interface, a meter unit input interface, a digital display screen and a laser emission lamp control button. The precise size is input through a millimeter-scale unit input interface, a centimeter-scale unit input interface and a meter-scale unit input interface, and the laser emitting lamp 27 with the set elevation is started in cooperation with the sensor 29.

As shown in fig. 1, 2, 3, and 4, the bottom of the hollow round bar 20 located at the lowest part in this embodiment is not provided with the jig 23. The middle of the loop bar socket 13 is provided with an insertion hole 131, the side of the insertion hole is provided with a guide groove 1311, the outer wall of the hollow round bar 20 at the bottom is provided with 1312, the connecting teeth 1312 are matched with the guide groove 1311, and the guide groove 1311 comprises a horizontal limiting area which is gradually arranged close to the bottom along the side wall of the insertion hole 131 along the circumferential direction and the bottom is a horizontal limiting area. After the coupling teeth 1312 and the guide grooves 1311 are aligned with each other, the hollow round bar 20 at the bottom is inserted into the horizontal position-limiting region by rotating the hollow round bar along the guide grooves 1311 toward the bottom, thereby improving the stability and reliability of the horizontal position-limiting region

An interlayer is arranged in the intelligent base 10, and power lines and data transmission lines for connecting the laser emitting lamp 27, the sensor 29, the rechargeable battery pack 11, the power distribution module 12 and the electromagnet 26 are distributed in the interlayer.

The fixture 23 is located inside the mounting groove 24 under the action of the electromagnet 26 when the switch button is in the off state.

A use method of an intelligent digital bark erecting tree rod tool comprises the following steps:

the method comprises the following steps: placing the intelligent base 10 at a position where a bark tree is required to stand;

step two: connecting a sufficient number of hollow round rods 20 with different specifications through a fixture 23 and a fixture hole 22 to form a tower ruler structure, and turning on a switch button;

step three: inserting the connecting tooth 1312 at the bottom of the assembled sliding staff structure into the insertion hole 131 of the loop bar socket 13 on the intelligent base 10, and acting through the guide groove 1311 and the connecting tooth 1312 until the installation position is marked;

step four: then adjusting the elevation of a nut 18 on a support leg 16 below the intelligent base 10 until a calibration bubble 14 on the intelligent base 10 is centered;

step five: inputting the scale value of the required bark-erecting tree trunk into a control panel on the intelligent control module 30;

step six: when the laser emission lamp control button on the intelligent control module 30 is turned on, the corresponding laser emission lamp 27 is turned on and emits a red horizontal line according to the scale value of the bark tree trunk input on the intelligent module by the box staff structure, and the data of the laser emission lamp 27 is fed back through the sensor 29;

step eight: after the use is finished, the switching power supply is turned off, and the fixture 23 can automatically retract into the hollow round rod 20 under the action of the electromagnet 26;

step nine: the bottommost hollow round bar 20 is operated in reverse until the coupling teeth and the guide grooves are completely separated, and the disassembled parts are loaded into the equipment box.

The above description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto. The substitution may be of partial structures, devices, method steps, or may be a complete solution. The technical solution and the inventive concept thereof according to the present invention should be equally replaced or changed within the protection scope of the present invention.

Claims (8)

1. The utility model provides an intelligent digital upright bark tree pole instrument, a serial communication port, including intelligent base and intelligent control module, install adjustable chassis on the intelligent base, chargeable call group, the power distribution module, calibration bubble and loop bar socket, loop bar socket internally mounted has the sopwith staff structure of constituteing by the mutual concatenation hollow pole of multisection, be provided with laser emission lamp light-permeable area on the hollow pole, set up the laser emission lamp in laser emission lamp light-permeable area inside, the scale mark that sets up in laser emission lamp light-permeable area both sides, the card hole that sets up near one end of hollow pole and the fixture that sets up near another end of hollow pole, card hole department is provided with the sensor that is used for transmitting the laser emission lamp data information of scale mark department that is transmitted by control panel, two adjacent hollow poles are connected through card hole and fixture, chargeable, rechargeable, The power distribution module, the laser emission lamp, the sensor and the intelligent control module are electrically connected.

2. The intelligent digital bark standing tree rod tool as claimed in claim 1, wherein the adjustable chassis comprises a threaded seat mounted at the bottom of the intelligent base, a support leg is mounted inside the threaded seat, a threaded rod adapted to be connected with the threaded seat is mounted at the upper part of the support leg, and a nut is fixed on the threaded rod.

3. The intelligent digital bark tree raising pole tool as claimed in claim 2, wherein the hollow round pole is provided with a mounting groove, an electromagnet and a spring are embedded in the mounting groove, the electromagnet is connected with the intelligent control module, the clamp is movably mounted in the mounting groove through the spring, and the clamp is made of magnetic material.

4. The intelligent digital bark standing tree rod tool as claimed in claim 3, wherein the intelligent control module is provided with a millimeter-scale unit input interface, a centimeter-scale unit input interface, a meter-scale unit input interface, a digital display screen, a laser emission lamp control button and a switch button.

5. The intelligent digital bark standing tree rod tool as claimed in claim 4, wherein a jack is arranged in the middle of the stem socket, a guide groove is formed in the side portion of the jack, a connecting tooth is mounted on the outer wall of the hollow round rod at the bottom, the connecting tooth is matched with the guide groove, and the guide groove comprises a horizontal limiting area which is gradually arranged close to the bottom along the side wall of the jack along the circumferential direction and the bottom is a horizontal limiting area.

6. The intelligent digital bark standing tree rod tool as claimed in claim 5, wherein an interlayer is arranged inside the intelligent base, and power lines and data transmission lines for connecting the laser emitting lamp, the sensor, the rechargeable battery pack, the power distribution module and the electromagnet are distributed in the interlayer.

7. The intelligent digital bark standing tree pole tool as claimed in claim 6, wherein the clamp is located inside the mounting groove under the action of the electromagnet when the switch button is in the off state.

8. A use method of an intelligent digital bark erecting tree rod tool is characterized by comprising the following steps:

the method comprises the following steps: placing an intelligent base at a position where a bark tree trunk needs to be erected;

step two: connecting a sufficient number of hollow round rods with different specifications with the clamping holes through the clamping devices to form a tower ruler structure, and opening a switch button;

step three: inserting the connecting teeth at the bottom of the assembled tower ruler structure into the jack of the loop bar socket on the intelligent base, and acting through the guide groove and the connecting teeth until the installation position is marked;

step four: then adjusting the elevation of the nut on the support leg below the intelligent base until the calibration bubble on the intelligent base is centered;

step five: inputting a scale value of a required bark-erecting tree trunk into a control panel on the intelligent control module;

step six: when a laser emission lamp control button on the intelligent control module is turned on, the corresponding laser emission lamp is turned on and emits a red horizontal line according to the scale value of the bark tree trunk input on the intelligent module by the tower ruler structure, and data of the laser emission lamp is fed back through the sensor;

step eight: after the use is finished, the switching power supply is turned off, and the clamp can automatically retract into the hollow round rod under the action of the electromagnet;

step nine: and reversely operating the bottommost hollow round rod until the connecting teeth and the guide groove are completely separated, and loading the disassembled parts into the equipment box.

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