CN216075286U - Auxiliary leveling device for equipment foundation embedded part - Google Patents

Abstract

The utility model relates to an auxiliary leveling device for a basic embedded part of equipment, which comprises a support frame, and a controller, an inclination angle detection mechanism, an alarm and two groups of pulley hoisting mechanisms which are arranged on the support frame, wherein the two groups of pulley hoisting mechanisms are symmetrically arranged at two ends of the top of the support frame, the inclination angle detection mechanism is arranged at one side of the support frame, the signal output end of the inclination angle detection mechanism is in communication connection with the signal input end of the controller, and the signal input end of the alarm is in communication connection with the signal output end of the controller. The two groups of pulley hoisting mechanisms are matched with each other and are used for hoisting the embedded part and adjusting the inclination angle of the embedded part; the inclination angle detection mechanism detects the inclination angle of the embedded part and reports the inclination angle to the controller; the controller compares the detected inclination angle with a preset angle threshold value, and outputs an alarm signal if the inclination angle is unqualified; and the alarm carries out alarm prompt after receiving the alarm signal. The device can remind the angle, saves time and labor in hoisting and is flexible to adjust.

Description

Auxiliary leveling device for equipment foundation embedded part

Technical Field

The utility model relates to the technical field of building construction, in particular to an auxiliary leveling device for an equipment foundation embedded part.

Background

The embedded parts are members pre-installed in hidden projects, namely, structural parts arranged during structure pouring are used for overlapping when an upper structure is built, so that the installation and the fixation of an external engineering equipment foundation are facilitated. The embedded parts are mostly made of metal, the embedded parts need to be used when the subway substation is constructed, and when the embedded parts are installed, an auxiliary leveling device is needed to help users to complete the installation of the embedded parts.

The prior auxiliary leveling device for the basic embedded part of the equipment has the following defects:

1. the conventional auxiliary leveling device for the basic embedded part of the equipment cannot remind a user of leveling when the embedded part is installed and the embedded part is inclined at an angle, so that the condition that the embedded part is inclined at an angle is easily caused when the user installs the embedded part, the installation accuracy of the embedded part is influenced, and the later construction cannot be normally carried out;

2. the conventional auxiliary leveling device for the equipment foundation embedded part consumes manpower when a large embedded part is conveyed and leveled, cannot adjust the length of a lifting rope according to needs, and consumes time and manpower when the lifting rope needs to be disassembled when a long or short lifting rope needs to be utilized.

SUMMERY OF THE UTILITY MODEL

The utility model provides an auxiliary leveling device for an equipment foundation embedded part, aiming at the technical problems in the prior art, and solving the problems that the conventional auxiliary leveling device for the equipment foundation embedded part cannot carry out angle reminding when the embedded part is hoisted, is time-consuming and labor-consuming in hoisting, is inflexible to adjust and the like.

The technical scheme for solving the technical problems is as follows:

the utility model provides an auxiliary leveling device of basic built-in fitting of equipment, includes the support frame and sets up controller, inclination detection mechanism, attention device and two sets of pulley hoisting machine construct on the support frame, and is two sets of pulley hoisting machine constructs the symmetry and sets up at the top both ends of support frame, inclination detection mechanism sets up the one side at the support frame, inclination detection mechanism's signal output part and the signal input part communication connection of controller, the signal input part of attention device and the signal output part communication connection of controller.

On the basis of the technical scheme, the utility model can be further improved as follows.

Preferably, the pulley hoisting mechanism comprises a lifting rope and a fixed pulley block, a shaft of the fixed pulley block is fixedly installed at the top of the support frame, the lifting rope is in sliding fit with a wheel surface of the fixed pulley block, one end of the lifting rope is provided with a lifting ring, and the other end of the lifting rope is provided with a gravity balance block.

Preferably, the fixed pulley block includes two at least fixed pulleys that set up side by side, the axle fixed mounting of fixed pulley is at the top of support frame, be equipped with the annular groove on the wheel face of fixed pulley, the axial setting of the perpendicular fixed pulley of annular groove, the tank bottom sliding fit of lifting rope and annular groove.

Preferably, the lifting rope is further provided with a rope length adjusting mechanism, the rope length adjusting mechanism comprises a box body, a rocker, a winding rod, a gear and a limiting bolt, and the rocker, the limiting bolt and the lifting rope respectively penetrate through the box body; one end of the rocker, the gear and the furling rod are coaxially arranged and fixedly connected in the box body, the end part of the lifting rope is fixedly connected with the furling rod, and when the furling rod rotates, the lifting rope is wound around the furling rod in a spiral mode; the limiting bolt is in sliding fit with the box body, and when the limiting bolt slides towards the gear, the limiting bolt can clamp the tooth grooves of the gear tightly to limit the circumferential displacement of the gear.

Preferably, a handle is arranged at one end of the rocker, which is arranged outside the box body, and anti-skid grains are arranged on the surface of the handle.

Preferably, the hanging ring is fixedly arranged on the bottom surface of the box body.

Preferably, the inclination angle detection mechanism comprises a balance plate and a telescopic conducting wire, an inclination angle sensor is arranged in the balance plate, a signal output end of the inclination angle sensor is in communication connection with a signal input end of the controller through the conducting wire, and the conducting wire is installed on the support frame through a connecting piece.

Preferably, a control box is arranged below the inclination angle detection mechanism, the control box is fixedly connected with the support frame, the balance plate is detachably arranged at the top of the control box, the controller is fixedly arranged in the control box, and the warning device is fixedly arranged on the outer side of the control box; still be equipped with the battery in the control box, battery and controller electric connection.

Preferably, the support frame is further provided with an illuminating lamp, and a signal input end of the illuminating lamp is connected with a signal output end of the controller.

Preferably, the bottom of support frame is equipped with a plurality of gyro wheels, and a plurality of gyro wheels are at the bottom symmetry of support frame and arrange.

The utility model has the beneficial effects that: the device hoists the embedded part through the pulley hoisting mechanism, so that the operation is simple, time and labor are saved, and the hoisting efficiency of the embedded part is improved; detecting the angle of the embedded part in real time through an inclination angle detection mechanism, and giving an alarm when the embedded part is unqualified; the length of the lifting rope is adjusted through the rope length adjusting mechanism, so that the inclination angle of the lifting piece is finely adjusted until the angle is adjusted to be qualified, the adjustment is flexible, and the installation accuracy of the embedded part is guaranteed. The roller at the bottom of the support frame conveys the device and the hoisted embedded part to a construction destination, so that the conveying difficulty is reduced, and the adaptability to various environments is enhanced. The light is supplemented to the construction site through the illuminating lamp, and the installation accuracy of the embedded part is further improved.

Drawings

FIG. 1 is a perspective view of the device of the present invention;

FIG. 2 is a front view of the apparatus of the present invention;

FIG. 3 is a schematic view of the internal structure of the apparatus of the present invention;

fig. 4 is a schematic view of the internal structure of the cord length adjusting mechanism of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. the device comprises a support frame, 101, a reinforcing rod, 102, a roller, 2, a pulley hoisting mechanism, 201, a lifting rope, 202, a fixed pulley, 203, a lifting ring, 204, a gravity balance block, 205, a rope length adjusting mechanism, 2051, a box body, 2052, a rocker, 2053, a winding rod, 2054, a gear, 2055, a limiting bolt, 2056, a handle, 3, an inclination angle detecting mechanism, 301, a balance plate, 302, a conducting wire, 303, a supporting rod, 4, a control box, 401, a controller, 402, a battery, 5, an alarm, 6 and a lighting lamp.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, which are set forth by way of illustration only and are not intended to limit the scope of the utility model.

As shown in fig. 1 to 3, this embodiment provides an auxiliary leveling device for an equipment foundation embedded part, which includes a support frame 1, and a controller 401, an inclination detection mechanism 3, an alarm 5 and two sets of pulley hoisting mechanisms 2 which are arranged on the support frame 1, wherein the two sets of pulley hoisting mechanisms 2 are symmetrically arranged at two ends of the top of the support frame 1, the inclination detection mechanism 3 is arranged at one side of the support frame 1, a signal output end of the inclination detection mechanism 3 is in communication connection with a signal input end of the controller 401, and a signal input end of the alarm 5 is in communication connection with a signal output end of the controller 401. The two groups of pulley hoisting mechanisms 2 are matched with each other and are used for hoisting the embedded part and adjusting the inclination angle of the embedded part; the inclination angle detection mechanism 3 detects the inclination angle of the embedded part and reports the inclination angle to the controller 401; the controller 401 compares the detected inclination angle with a preset angle threshold value, and outputs an alarm signal if the inclination angle is not qualified; and the alarm 5 carries out alarm prompt after receiving the alarm signal.

In order to increase the supporting rigidity of the support frame 1, a plurality of reinforcing rods 101 may be further disposed on the support frame 1. The support frame 1 provides rigid support for the whole device, and the two groups of pulley hoisting mechanisms 2 hoist the equipment foundation embedded part to prepare for subsequent processes, so that the hoisting process is time-saving and labor-saving; the inclination angle detection mechanism 3 is used for testing the inclination angle of the hoisted equipment foundation embedded part, and the angle inaccuracy during installation of the embedded part is prevented. An alarm angle threshold value is preset in the controller 401, and when the inclination angle is detected to reach the angle threshold value, the alarm 5 can give an alarm through sound and/or luminous flicker to remind an operator that the angle is unqualified. At the moment, the two groups of pulley hoisting mechanisms 2 are adjusted, so that the inclination angle of the embedded part is adjusted until the alarm 5 eliminates the alarm. The device is time-saving and labor-saving in the hoisting of the embedded part, and the hoisting efficiency of the embedded part is improved; the inclination angle detection mechanism 3 is used for detecting the angle of the embedded part in real time, and alarming and prompting are carried out when the angle of the embedded part is unqualified until the angle is adjusted to be qualified, so that the installation accuracy of the embedded part is ensured.

On the basis of the technical scheme, the utility model can be further improved as follows.

As shown in fig. 1 to 3, the pulley hoisting mechanism 2 includes a lifting rope 201 and a fixed pulley block, a shaft of the fixed pulley block is fixedly installed at the top of the support frame 1, the lifting rope 201 is in sliding fit with a wheel surface of the fixed pulley block, one end of the lifting rope 201 is provided with a lifting ring 203, and the other end of the lifting rope is provided with a gravity balance block 204.

The embedded part and the lifting ring 203 are fixed, the lifting rope 201 is matched with the fixed pulley block, an operator pulls the gravity balance block 204, the large embedded part can be easily lifted to move and install, the fixed pulley block is matched with the lifting rope 201, consumption of manpower can be reduced, time and labor are saved, and working efficiency is improved. The gravity balance block 204 is arranged to facilitate an operator to hold the lifting rope 201 when pulling the lifting rope 201, and when the device is unloaded, the gravity balance block 204 is used for balancing the weight at two ends of the lifting rope 201 to prevent the lifting rope 201 from falling off from the wheel surface of the fixed pulley block due to the weight of the lifting ring 203.

As shown in fig. 1 to 3, the fixed pulley block includes at least two fixed pulleys 202 arranged side by side, a shaft of the fixed pulley 202 is fixedly installed at the top of the support frame 1, an annular groove is formed on a wheel surface of the fixed pulley 202, the annular groove is perpendicular to the axial direction of the fixed pulley 202, and the lifting rope 201 is in sliding fit with the groove bottom of the annular groove. A plurality of fixed pulleys 202 are arranged side by side according to use requirements, and the fixed pulleys 202 are matched with one lifting rope 201, so that the horizontal distance between the lifting ring 203 and an operator can be prolonged, and the lifting device is suitable for various construction sites and sizes of embedded parts. The annular groove provides the location for lifting rope 201, prevents that lifting rope 201 and fixed pulley 202 from droing, influencing the construction progress among the hoist and mount process.

As shown in fig. 4, the lifting rope 201 is further provided with a rope length adjusting mechanism 205, the rope length adjusting mechanism 205 includes a box body 2051, a rocker 2052, a winding rod 2053, a gear 2054 and a limit bolt 2055, and the rocker 2052, the limit bolt 2055 and the lifting rope 201 respectively penetrate through the box body 2051; one end of the rocker 2052, the gear 2054 and the furling rod 2053 are coaxially arranged and fixedly connected in the box 2051, the end of the lifting rope 201 is fixedly connected with the furling rod 2053, and when the furling rod 2053 rotates, the lifting rope 201 is wound around the furling rod 2053; the limiting bolt 2055 is in sliding fit with the box body 2051, and when the limiting bolt 2055 slides towards the gear 2054, the limiting bolt 2055 can clamp the tooth groove of the gear 2054 to limit the circumferential displacement of the gear 2054. In order to facilitate subsequent maintenance of the rope length adjusting mechanism 205, a maintenance door can be arranged on the box body 2051, and a handle is arranged on the maintenance door, so that the maintenance door can be pulled open conveniently.

The operator can flexibly adjust the length of the lifting rope 201 through the rope length adjusting mechanism 205. An operator rotates the rocker 2052, the rocker 2052 drives the gear 2054 and the furling rod 2053 to synchronously rotate, and the lifting rope 201 is spirally wound on the periphery of the furling rod 2053, so that the lifting rope 201 is wound and unwound. When the lifting rope 201 is adjusted to a desired length, an operator pushes the limiting bolt 2055 to extend into the tooth groove of the gear 2054 to clamp the gear 2054, and at the moment, the rocker 2052 and the furling rod 2053 cannot rotate, so that the length change of the lifting rope 201 is limited. The length of the lifting rope 201 is adjusted by rotating the rocker 2052, the operation is simple, and the adjustment precision is high. Since the precision of the length adjustment of the lifting rope 201 is related to the number of the gear teeth of the gear 2054, the closer the gear teeth are, the higher the precision of the adjustment is, the angle adjustment of the lifting piece can be performed by finely adjusting the rope length. For example, when the embedded part is lifted but the inclination angle is detected to be not proper, the rope length can be finely adjusted by the rope length adjusting mechanism 205, so that the inclination angle of the embedded part can be adjusted.

As shown in fig. 4, a handle 2056 is disposed on the rocker 2052 at one end outside the box body 2051, and anti-slip patterns, such as cross-hatching, are disposed on the surface of the handle 2056. An operator holds the handle 2056 to rotate the rocker 2052, so that the length of the rope can be adjusted, and the operation is simple and convenient. The anti-slip threads increase the friction between the palm of the operator and the handle 2056, preventing slippage during adjustment.

Preferably, the hanging ring 203 is fixedly arranged on the bottom surface of the box 2051. The rope length adjusting mechanism 205 is arranged at one end of the lifting rope 201 close to the lifting ring 203, and the inclination angle of the embedded part can be adjusted by the rope length adjusting mechanism 205 in a state that the embedded part is lifted by the lifting ring 203.

In this embodiment, the tilt angle detecting mechanism 3 includes a balance plate 301 and a retractable conducting wire 302, and the conducting wire 302 may be set to be spiral, so that it has conducting performance, and at the same time, it has elasticity, and can be retracted, thereby saving the occupied space of the conducting wire 302. An inclination angle sensor is arranged in the balance plate 301, the inclination angle sensor can adopt an RS-DIP-N01-1 type inclination angle sensor, and a signal output end of the inclination angle sensor is in communication connection with a signal input end of the controller 401 through a conducting wire 302. After the embedded part is lifted, an operator places the balance plate 301 on the embedded part according to a required direction, the inclination angle sensor detects an inclination angle signal of the embedded part and transmits the inclination angle signal to the controller 401, and the controller 401 judges whether the inclination angle of the embedded part is qualified. During the detection process, the balance plate 301 is shifted to pull the conducting wire 302 to extend, and after the detection is finished, the balance plate 301 is reset and the conducting wire 302 retracts. In order to prevent the communication connection between the conductive wire 302 and the controller 401 from being broken due to the elastic force of the conductive wire 302 during the telescoping process, the end of the conductive wire 302 close to the controller 401 is fixedly mounted on the support frame 1 through the support rod 303.

As shown in fig. 3, a control box 4 is arranged below the tilt angle detection mechanism 3, the control box 4 may be fixedly connected with the support frame 1 through bolts, and the balance plate 301 is detachably arranged on the top of the control box 4. The controller 401 is fixedly arranged in the control box 4, the controller 401 can adopt a QYM type controller 401, a unique anti-interference technology is adopted, stable and reliable work under the worst industrial environment can be ensured, and PLC control can be completely replaced. The controller 401 adopts a multifunctional shortcut key combined with nixie tube display of four and a half digits, can conveniently modify control parameters, and can display process parameters when the controller works. The alarm 5 can adopt audible and visual annunciator, for example, the combination of a buzzer and an LED, and the alarm 5 is fixedly arranged on the outer surface of the control box 4, so that an operator can receive audible and visual alarm information in time. A battery 402 is further arranged in the control box 4, the battery 402 is electrically connected with the controller 401, and the battery 402 provides electric energy for the whole device. The control box 4 can also be provided with a box door, and the box door is provided with a handle, so that the control box 4 can be conveniently overhauled and maintained.

The inclination angle detection mechanism 3 and the control box 4 are arranged adjacently, so that the length of a conducting wire 302 for connecting the inclination angle detection mechanism 3 and the controller 401 can be shortened, the control box 4 can provide a containing position (such as a movable mounting seat) for the balance plate 301, and when the balance plate 301 is idle, the balance plate is movably mounted at the top of the control box 4 to prevent the balance plate from falling to cause damage; when inclination detection is needed, the balance plate 301 is taken down from the control box 4 and is placed on an object to be detected according to requirements, and therefore the balance plate is convenient to take and saves space.

In this embodiment, the support frame 1 is further provided with an illuminating lamp 6, and a signal input end of the illuminating lamp 6 is connected with a signal output end of the controller 401. The light 6 is controlled through the controller 401, and under the condition that the illumination of the construction site is insufficient, the light 6 can be started through the controller 401 to supplement light to the construction site. The lighting lamp 6 emits lighting rays to realize lighting, so that the situation that the light rays inside a construction site are dark and influence an operator to install the embedded part is avoided.

In this embodiment, the bottom of the supporting frame 1 is provided with a plurality of rollers 102, and the plurality of rollers 102 are symmetrically arranged at the bottom of the supporting frame 1. A plurality of gyro wheels 102 carry on the built-in fitting of support frame 1 and hoist and mount, have reduced area of contact and frictional force between support frame 1 and the ground to be convenient for the user to remove the device, with transporting the built-in fitting to the construction site, increased this device to the adaptability of different ground environment.

The working principle is as follows:

the operator pushes the support frame 1 to transport the support member to the embedment to be installed while the rollers 102 roll. After the embedded part and the two hanging rings 203 are respectively fixed by an operator, the embedded part is lifted to a target height by pulling the gravity balance block 204, and the gravity balance block 204 is fixed on the support frame 1. An operator takes the balance plate 301 off the control box 4, places the balance plate on the top of the embedded part according to requirements, starts the controller 401, detects the inclination angle of the embedded part by the inclination angle sensor in the balance plate 301 and transmits the inclination angle to the controller 401, and the controller 401 compares the detected inclination angle data with a preset angle threshold value. When the inclination angle reaches the angle threshold value, the controller 401 controls the alarm 5 to give an alarm through sound and/or luminous flicker, and an operator is reminded that the angle is unqualified. At this time, the rope length is finely adjusted by adjusting the rope length adjusting mechanism 205, so that the angle of the embedded part is adjusted until the alarm 5 cancels the alarm. The supporting frame 1 is pushed, the embedded part with the qualified inclination angle is conveyed to the installation position to be aligned, then the connection between the hanging ring 203 and the embedded part is unfastened, and the embedded part can be accurately installed. When the light is not enough at the construction site, the controller 401 can be used for starting the illuminating lamp 6 to supplement light to the site, so that the situation that the light inside the construction site is dark and the installation of the embedded part is influenced by an operator is prevented. The device is simple in hoisting operation of the embedded part, saves time and labor, and improves hoisting efficiency of the embedded part; the inclination angle detection mechanism 3 is used for detecting the angle of the embedded part in real time, and alarming and prompting are carried out when the angle of the embedded part is unqualified until the angle is adjusted to be qualified, so that the installation accuracy of the embedded part is ensured.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. The utility model provides an auxiliary leveling device of basic built-in fitting of equipment, its characterized in that includes support frame (1) and sets up controller (401), inclination detection mechanism (3), attention device (5) and two sets of pulley hoisting machine construct (2) on support frame (1), and is two sets of pulley hoisting machine constructs (2) symmetry and sets up the top both ends at support frame (1), inclination detection mechanism (3) set up the one side at support frame (1), the signal output part of inclination detection mechanism (3) and the signal input part communication connection of controller (401), the signal input part of attention device (5) and the signal output part communication connection of controller (401).

2. The auxiliary leveling device for the equipment foundation embedded part as claimed in claim 1, wherein the pulley hoisting mechanism (2) comprises a hoisting rope (201) and a fixed pulley block, a shaft of the fixed pulley block is fixedly installed at the top of the support frame (1), the hoisting rope (201) is in sliding fit with a wheel surface of the fixed pulley block, one end of the hoisting rope (201) is provided with a hoisting ring (203), and the other end of the hoisting rope is provided with a gravity balance block (204).

3. The auxiliary leveling device for the equipment foundation embedded part according to claim 2, wherein the fixed pulley group comprises at least two fixed pulleys (202) arranged side by side, the shafts of the fixed pulleys (202) are fixedly arranged at the top of the support frame (1), the wheel surfaces of the fixed pulleys (202) are provided with annular grooves, the annular grooves are perpendicular to the axial direction of the fixed pulleys (202), and the lifting ropes (201) are in sliding fit with the groove bottoms of the annular grooves.

4. The auxiliary leveling device for the equipment foundation embedded part according to claim 2, wherein a rope length adjusting mechanism (205) is further arranged on the lifting rope (201), the rope length adjusting mechanism (205) comprises a box body (2051), a rocker (2052), a winding rod (2053), a gear (2054) and a limiting bolt (2055), and the rocker (2052), the limiting bolt (2055) and the lifting rope (201) respectively penetrate through the box body (2051); one end of the rocker (2052), the gear (2054) and the winding rod (2053) are coaxially arranged and fixedly connected in the box body (2051), the end part of the lifting rope (201) is fixedly connected with the winding rod (2053), and when the winding rod (2053) rotates, the lifting rope (201) is spirally wound on the periphery of the winding rod (2053); the limiting bolt (2055) is in sliding fit with the box body (2051), and when the limiting bolt (2055) slides towards the gear (2054), the limiting bolt (2055) can clamp the tooth groove of the gear (2054) to limit the circumferential displacement of the gear (2054).

5. The auxiliary leveling device for the equipment foundation embedded part is characterized in that one end, arranged outside the box body (2051), of the rocker (2052) is provided with a handle (2056), and the surface of the handle (2056) is provided with anti-skid grains.

6. The auxiliary leveling device for the equipment foundation embedded part as claimed in claim 4, wherein the lifting ring (203) is fixedly arranged on the bottom surface of the box body (2051).

7. The auxiliary leveling device for the equipment basic embedded part is characterized in that the inclination angle detection mechanism (3) comprises a balance plate (301) and a telescopic conducting wire (302), an inclination angle sensor is arranged in the balance plate (301), a signal output end of the inclination angle sensor is in communication connection with a signal input end of a controller (401) through the conducting wire (302), and the conducting wire (302) is installed on the supporting frame (1) through a connecting piece.

8. The auxiliary leveling device for the equipment foundation embedded part as claimed in claim 7, wherein a control box (4) is arranged below the inclination angle detection mechanism (3), the control box (4) is fixedly connected with the support frame (1), the balance plate (301) is detachably arranged at the top of the control box (4), the controller (401) is fixedly arranged in the control box (4), and the warning device (5) is fixedly arranged at the outer side of the control box (4); still be equipped with battery (402) in control box (4), battery (402) and controller (401) electric connection.

9. The auxiliary leveling device for the basic embedded part of the equipment according to claim 1, wherein an illuminating lamp (6) is further arranged on the supporting frame (1), and a signal input end of the illuminating lamp (6) is connected with a signal output end of the controller (401).

10. The auxiliary leveling device for the equipment foundation embedded part as claimed in claim 1, wherein a plurality of rollers (102) are arranged at the bottom of the support frame (1), and the plurality of rollers (102) are symmetrically arranged at the bottom of the support frame (1).

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