CN220362517U - Locking device of nut for container - Google Patents

Abstract

The utility model provides a locking device of a nut for a container, which comprises a driving motor, a supporting component and a controller, wherein the driving motor is connected with the controller, one end of the supporting component is connected with the driving motor, the controller is arranged at the other end of the supporting component, the driving motor is connected with a hexagonal sleeve, the hexagonal sleeve is sleeved on the nut, the driving motor is controlled by the controller, and the driving motor drives the hexagonal sleeve to rotate so as to realize automatic locking of the nut. The locking device solves the problem of difficult arrival of nuts on the container due to limited operation space and long distance during the assembly process, improves the whole quality of products, and reduces the operation difficulty of operators.

Description

Locking device of nut for container

Technical Field

The utility model relates to the field of container manufacturing, in particular to a locking device of a nut for a container.

Background

Tube bundle container products are commonly used for compressed gas transportation as a mature transportation device. The connecting flanges at two ends of the large-volume steel seamless gas cylinder are connected with the end plates of the container frame through standard bolt groups. Random vibration caused by road jolts during daily transportation can cause loosening of nuts. In order to prevent the nut from loosening, a locknut is generally additionally arranged at the tail end of the bolt.

Tube bundle containers are typically constructed of a plurality of cylinders and a frame. Because the gas cylinder is arranged compactly, the connecting bolt position that the connecting flange that the gas cylinder that general middle row contains compares the connecting bolt of other outside gas cylinders, often assembly tool is difficult to reach required position when installing locknut, influences the precision of locknut installation, and then influences overall structure's connection quality and security. Therefore, it is desirable to design a device that can achieve long distance lock nut installation.

The prior art with publication number CN103807596a discloses a lightweight container. The device comprises a front end fixing structure, a connecting flange, an anti-rotation pin, a gas cylinder, a binding belt, a fixing clamp splice, a rear end operation box, a load transmission block, a connecting bolt, an M24 nut, a gasket, a container corner fitting, an upright post, a cross beam, a vertical plate, a rib plate, a square tube fixing plate, a door, a rear end vertical plate, a frame and an M20 nut. External threads at two ends of the gas cylinder are connected with the connecting flange and then are arranged on the vertical plate of the front end fixing structure and the rear end vertical plate of the rear end operation box through 6M 24 x 80 connecting bolts, M24 nuts and I-shaped gaskets, after the installation is finished, the gas cylinder is fixed between the gas cylinder and the connecting flange through an anti-rotation pin, the external threads of the gas cylinder and the internal threads of the connecting flange are all M160 x 3, the gas cylinder is divided into two layers up and down, and 3 gas cylinders are arranged in each layer. In the prior art, because the gas cylinders are compactly arranged, the positions of connecting bolts corresponding to connecting flanges contained in the gas cylinders in the middle row are compared with connecting bolts of other gas cylinders at the outer side, and when the locknut is installed, a frequent assembling tool is not easy to reach the required positions, the accuracy of the installation of the locknut is affected, and then the connection quality and the safety of the whole structure are affected.

Disclosure of Invention

In view of this, the present utility model aims to provide a locking device for a nut for a container. In order to solve among the prior art because the gas cylinder is arranged compactly, the connecting bolt position that the flange that the gas cylinder that the middle gas cylinder of lining contained corresponds compares the connecting bolt of other outside gas cylinders, often when installing locknut mounting tool be difficult to reach required position, influence the precision of locknut installation, and then influence overall structure's connection quality and security's problem.

In order to achieve the above purpose, the technical scheme of the utility model is realized as follows:

the utility model provides a locking device of nut for container, includes driving motor, supporting component, controller, worm gear train, driving motor's one end is connected with the controller, driving motor's the other end is connected with the worm gear train, driving motor sets up the one end of keeping away from the controller at supporting component, the worm gear train is connected with the hexagonal sleeve, hexagonal sleeve cover is established on the nut, through controller control driving motor, the worm gear train rotates and drives the hexagonal sleeve and rotate, realizes the automatic locking of nut.

In the setting, one end of the supporting component is held by a worker, and the driving motor is started to drive the hexagonal sleeve to lock the nut.

Further, the driving motor comprises a motor and a rotating shaft, and the motor is connected with the worm gear set through the rotating shaft.

The arrangement can rotate the hexagonal sleeve to lock or unlock the nut.

Further, one end of the motor is connected with the controller, and the other end of the motor is connected with the worm gear set through a rotating shaft.

The device is rotated by the controller and the control motor, and the rotation reversing is realized by the worm gear set, so that the nut can be automatically locked or unlocked.

Further, an output shaft is arranged on the worm gear set, and the worm gear set is connected with the hexagonal sleeve through the output shaft.

The nut can be locked and unlocked by the arrangement.

Further, the support component is a support rod.

Further, the supporting rod is of a cuboid structure.

This arrangement facilitates the installation of the locking device.

Further, the controller is connected with the driving motor through a data line.

The arrangement can realize automatic locking and loosening of the nut.

Further, the width of the supporting rod is W1, w1=3-5 cm.

This setting is convenient for stretch into locking device between the adjacent gas cylinder of container, the lock nut of being convenient for and dismantle the nut.

Further, the length of the supporting rod is 1.0 m-1.5 m.

The arrangement is convenient for extending the locking device into the flange of the gas cylinder of the container, and is convenient for locking and disassembling the nut.

Further, the controller comprises a bidirectional switch, and the bidirectional switch can control the forward and reverse rotation of the driving motor, so that the locking and the loosening of the bolts are realized.

Compared with the prior art, the locking device of the nut for the container is provided by the utility model. Has the following advantages:

1) The locking device is arranged between the gas cylinders of the container and comprises a driving motor, a supporting component and a controller, wherein the driving motor is connected with a hexagonal sleeve, the hexagonal sleeve is sleeved on a nut, the driving motor is controlled by the controller, and the driving motor rotates to drive the hexagonal sleeve to rotate, so that the nut is automatically locked;

(2) The locking device solves the problem of assembling the locking nut in the container, effectively solves the problem that the locking nut cannot reach and cannot be centered when being installed due to longer distance in the assembling process, reduces the operation intensity in the assembling process, improves the assembling efficiency, and ensures the product quality.

Drawings

Fig. 1 is a schematic view showing the overall structure of a locking device according to embodiment 1 of the present utility model;

fig. 2 is an exploded view of the support bar of embodiment 2 of the present utility model.

Reference numerals illustrate:

the device comprises a 1-driving motor, a 11-motor, a 12-rotating shaft, a 2-supporting component, a 21-first section, a 211-protruding part, a 22-second section, a 221-through hole, a 3-controller, a 4-hexagonal sleeve, a 5-worm gear set, a 51-output shaft and a 6-data line.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings. In addition, the following description will be briefly made with respect to the azimuth in the following embodiments: reference to directions or positional relationships indicated by "front", "rear", "upper", "lower", "left", "right", etc. in the embodiments refer to the orientations or positional relationships shown in the drawings.

Example 1

The utility model relates to a locking device of a nut for a container, which comprises a driving motor 1, a supporting component 2, a controller 3 and a worm gear set 5, wherein one end of the driving motor 1 is connected with the controller 3, the other end of the driving motor 1 is connected with the worm gear set 5, the driving motor 1 is arranged at one end of the supporting component 2 far away from the controller 3, the worm gear set 5 is connected with a hexagonal sleeve 4, the hexagonal sleeve 4 is sleeved on the nut, the driving motor 1 is controlled by the controller 3, and the worm gear set 5 rotates to drive the hexagonal sleeve 4 to rotate, so that the nut is automatically locked.

Specifically, the driving motor 1 comprises a motor 11 and a rotating shaft 12, the motor 11 is connected with the worm gear set 5 through the rotating shaft 12, and the worm gear set 5 is connected with the hexagonal sleeve 4.

Specifically, an output shaft 51 is provided on the worm gear set 5, and the worm gear set 5 is connected with the hexagonal sleeve 4 through the output shaft 51.

Preferably, the driving motor, the worm gear set and the controller are all fixed on the supporting component through bolts.

Preferably, the support assembly 2 is a support rod.

More preferably, the support rod has a rectangular parallelepiped structure.

Specifically, the extension line of the output shaft 51 is perpendicular to the extension line of the rotation shaft 12.

Specifically, the controller 3 is connected to the drive motor 1 via a data line 6.

Specifically, the width of the supporting rod is W1, w1=3-5 cm.

Preferably, the distance between the controller 3 and one end of the support rod far away from the driving motor is L1, and L1 is 10-15 cm.

Specifically, the length of the supporting rod is L1, l1=1.0m-1.5m.

Specifically, the height of the supporting rod is 3-5 cm.

Specifically, the controller 3 includes a bidirectional switch that can control the forward and reverse rotation of the driving motor, thereby achieving locking and loosening of the bolts.

Specifically, the controller further comprises a power supply.

Specifically, the controller 3 is mounted on the upper end of the square support bar.

Specifically, the support rod provides a handheld position and a longer extension distance, and the rotation direction of the control motor drives the worm group to drive the sleeve and the lock nut to rotate in.

Taking the 12-tube container conventionally produced at present as an example, two gas cylinders distributed in the middle of the middle layer cannot reach the screwing position of the lock nut due to insufficient length of arms of operators and general tool wrenches. After the device is used, the required screwing position can be reached, and the operation is simple and convenient. The motor and the control switch used in the design have the function of controlling the forward and reverse rotation of the motor. If deviation exists in centering in the screwing process, a control switch can be used for controlling the motor to reversely rotate to withdraw the lock nut and reinstall.

The locking device solves the assembly problem that the locking nut is difficult to reach in the assembly process due to limited operation space and long distance, improves the overall quality of products, and reduces the operation difficulty of operators.

Example 2

The utility model relates to a locking device of a nut for a container, which comprises a driving motor 1, a supporting component 2, a controller 3 and a worm gear set 5, wherein one end of the driving motor 1 is connected with the controller 2, the other end of the driving motor 1 is connected with the worm gear set 5, the driving motor 1 is arranged at one end of the supporting component 2 far away from the controller 3, the worm gear set 5 is connected with a hexagonal sleeve 4, the hexagonal sleeve 4 is sleeved on the nut, the driving motor 1 is controlled by the controller 3, and the worm gear set 5 rotates to drive the hexagonal sleeve 4 to rotate, so that the nut is automatically locked.

Specifically, the driving motor 1 comprises a motor 11 and a rotating shaft 12, the motor 11 is connected with the worm gear set 5 through the rotating shaft 12, and the worm gear set 5 is connected with the hexagonal sleeve 4.

Specifically, an output shaft 51 is provided on the worm gear set 5, and the worm gear set 5 is connected with the hexagonal sleeve 4 through the output shaft 51.

Preferably, the driving motor, the worm gear set and the controller are all fixed on the supporting component through bolts.

Specifically, the controller 3 is connected to the drive motor 1 via a data line 6.

Specifically, the support component 2 can be a telescopic rod, and the structure of the telescopic rod can be used for locking the nut according to different positions of different people, and meanwhile, the length of the support rod can be changed according to the position of the nut, so that the telescopic rod is convenient for a worker to hold.

Specifically, the support assembly 2 has a cavity structure, the support assembly 2 includes a first section 21 and a second section 22, the first section 21 is connected with the second section 22, and the driving motor 1 is disposed at one end of the first section 21 away from the second section 22.

Specifically, the shapes of the first section 21 and the second section 22 are both square structures.

Specifically, the first section 21 is provided with a plurality of protruding structures 211, the second section 22 is provided with a plurality of through holes 221, the first section can be inserted into the cavity of the second section, and the first section 21 and the second section 22 can stretch out and draw back through the protruding structures 211.

Specifically, the plurality of bump structures 211 are disposed corresponding to the plurality of through holes.

Preferably, the plurality of protrusion structures 211 are disposed at equal intervals.

Specifically, the length of the first section 21 is longer than that of the second section 22, the arrangement can realize that the driving motor is arranged on the first section 21 even if the supporting rod stretches and contracts, the effectiveness of the locking device is ensured, and the stretching length of the first section 21 and the second section 22 is 1.0-1.5 mm. The arrangement can be according to different manual operations, select the appropriate length of bracing piece.

Specifically, the controller 3 includes a bidirectional switch that can control the forward and reverse rotation of the driving motor, thereby achieving locking and loosening of the bolts.

Specifically, the controller further comprises a power supply.

Specifically, the controller 3 is mounted on the upper end of the square support bar.

Specifically, the controller 3 is mounted at the upper end of the second section 22, and the length of the controller 3 from the end of the second section 22 remote from the first section 21 is 10 to 15cm.

Specifically, the width and the height of the first section 21 are smaller than those of the second section 22, and the width and the height of the second section are 3-5 cm.

Although the present utility model is disclosed above, the present utility model is not limited thereto. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the utility model, and the scope of the utility model should be assessed accordingly to that of the appended claims.

Claims (10)

1. The utility model provides a locking device of nut for container, its characterized in that, including driving motor (1), supporting component (2), controller (3), worm gear group (5), the one end and the controller (3) of driving motor (1) are connected, the other end and the worm gear group (5) of driving motor (1) are connected, driving motor (1) set up the one end of keeping away from controller (3) at supporting component (2), worm gear group (5) are connected with hexagonal sleeve (4), hexagonal sleeve (4) cover is established on the nut, through controller (3) control driving motor (1), and worm gear group (5) rotate and drive hexagonal sleeve (4) rotation, realize the automatic locking of nut.

2. A locking device of a nut for a container according to claim 1, characterized in that the drive motor (1) comprises a motor (11), a rotation shaft (12), the motor (11) being connected to the worm gear set (5) by means of the rotation shaft (12).

3. A locking device for a container nut according to claim 1, characterized in that one end of the motor (11) is connected to the controller (3), and the other end of the motor (11) is connected to the worm gear set (5) via a rotation shaft (12).

4. A locking device for a nut for a container according to claim 1, characterized in that the worm gear set (5) is provided with an output shaft (51), and that the worm gear set (5) is connected with the hexagonal sleeve (4) by means of the output shaft (51).

5. A locking device for a nut for a container according to claim 1, characterized in that the support assembly (2) is a support bar.

6. The locking device of a nut for a container according to claim 5, wherein the supporting bar has a rectangular parallelepiped structure.

7. A locking device for a container nut according to claim 1, characterized in that the controller (3) is connected to the drive motor (1) via a data line (6).

8. The locking device of a nut for a container according to claim 5, wherein the width of the support bar is W1, w1=3 to 5cm.

9. The locking device of a nut for a container according to claim 5, wherein the length of the supporting rod is L1, l1=1.0m to 1.5m.

10. A locking device for a nut for a container according to claim 1, characterized in that the controller (3) comprises a bi-directional switch which can control the forward and reverse rotation of the driving motor, thereby achieving locking and loosening of the bolt.