CN220223300U - Manual magnetic load control and positioning safety tool - Google Patents

Abstract

The application discloses manual magnetic load control and location safety tool relates to direction location transportation technical field, locates the mounting disc of body tip including magnetic path, body and articulated, and the mounting disc includes dead lever and disk body, rotates through the bearing between the two and connects, and the bottom surface of disk body is located to the magnetic path, and the size of magnetic path is less than the diameter of disk body, and the dead lever passes through the separation between lever realization magnetic path and the panel when the unblock, and the technical advantage of this application is: by introducing the magnetic blocks as a load control mode, the magnetic force cannot damage the metal plate, and meanwhile, the requirement of separating from the metal plate at any time can be met; the tube body and the handle have the freedom degree of overturning by 90 degrees forwards and backwards relative to the mounting plate, and when the overturning exceeds 90 degrees, the magnetic unlocking between the mounting plate and the metal plate can be realized by utilizing the lever principle; the first connecting piece and the second connecting piece are arranged to realize detachable connection of all parts, so that later maintenance and replacement are facilitated.

Description

Manual magnetic load control and positioning safety tool

Technical Field

The application relates to the technical field of guiding, positioning and transporting, in particular to a manual magnetic load control and positioning safety tool.

Background

In the process of hoisting and transporting the plates, the angles of the plates sometimes need to be adjusted to meet the transportation requirement. In the hoisting and transporting process of the plates, a guide structure is added to ensure that the plates are kept stable and safe in the transporting process; the plate is hoisted and transported in a suspended state, and is easily influenced by external factors (such as wind power and road jolt), so that the plate slides or shakes. The guide plate can be fixed at a proper position to prevent accidents caused by sliding, and the plate is easy to lose balance in the hoisting process, especially in the process of adjusting the angle or longitudinally inclining. The purpose of the guides is to ensure that the sheet remains balanced, avoiding unpredictable tilting or tipping.

The existing guide structure is not tightly connected with the plate, so that relative movement is easy to occur, and if the guide structure is suddenly separated from the plate, a larger safety accident is easy to occur; if the connecting force of the guiding structure is strong, the connecting force can be more complex during unlocking, so that how to design a set of reasonable guiding structure can make the connecting force stronger and meet the use requirement of quick unlocking at the same time becomes one of the problems which are urgently needed to be solved by the technicians in the field.

Disclosure of Invention

The utility model provides a manual magnetic load control and positioning safety tool, which solves the problems in the background technology, and has the advantages of adjustable, convenient use, high efficiency and strong specialization, and the specific implementation modes are as follows:

a manual magnetic load control and positioning safety tool comprising:

the pipe body and the mounting disc are hinged at the end part of the pipe body, the mounting disc comprises a fixed rod and a disc body, the fixed rod and the disc body are rotationally connected through a bearing, and the pipe body and the fixed rod can circumferentially rotate relative to the disc body;

the magnetic block is arranged on the bottom surface of the disc body, the size of the magnetic block is smaller than the diameter of the disc body, the mounting disc is attracted with the hoisted plate through the magnetic block during guiding, and the fixing rod is used for realizing separation between the magnetic block and the plate through the lever principle during unlocking.

Based on the technical scheme, the selected magnet is a high-magnetic force magnet, can provide enough adsorption force for the metal plate, and the pipe body can provide enough friction force and torque so that the magnet can be separated from the metal plate at any time.

Preferably, the device further comprises a first connecting piece and a handle, wherein the handle is detachably connected with the pipe body through the first connecting piece; the first connecting piece comprises a lower column body and an upper column body which are axially connected into a whole, a plugging hole penetrating through the axis is radially formed in the peripheral side of the upper column body, a third guide hole is axially formed in the top end of the upper column body, and the third guide hole is communicated with the plugging hole.

Preferably, the handle is axially inserted into the inserting hole, and the second screw penetrates through the third guide hole and is in threaded connection with the first screw hole on the periphery of the handle.

Preferably, sponge sleeves are sleeved at the two ends of the handle.

Preferably, the pipe further comprises a first screw, the lower cylinder is radially provided with a second screw hole, the upper part of the pipe body is provided with a first guide hole, and the first screw penetrates through the first guide hole and is connected with the second screw hole in a threaded manner.

Based on above technical scheme, through setting up first connecting piece and realized the detachable connection between first connecting piece and the handle to and the detachable connection between first connecting piece and the body.

Preferably, the pipe body is hinged with the mounting plate through a second connecting piece, and the second connecting piece is composed of an upper block body and a lower block body which are connected into a whole.

Preferably, the pipe body further comprises a third screw, the bottom of the pipe body is provided with a second guide hole, and the third screw penetrates through the second guide hole and is connected with a third screw hole on the upper block body in a threaded mode.

Preferably, the lower block is rotatably connected to the fixed rod, and a pin shaft is arranged at the rotation center of the lower block and the fixed rod.

Preferably, the pin shaft is coaxially connected with a coil spring, and the coil spring is arranged on the lower block or the fixed rod.

Based on above technical scheme, through setting up the detachable connection between second connecting piece and the body to and the detachable connection between second connecting piece and the mounting disc has been realized.

In summary, the present application includes the following beneficial technical effects:

1. according to the utility model, the magnetic blocks are introduced as a load control mode, so that the magnetic force cannot damage the metal plate, and the requirement of separating from the metal plate at any time can be met;

2. according to the utility model, the tube body and the handle have the freedom degree of overturning by 90 degrees forwards and backwards relative to the mounting plate, and when the overturning exceeds 90 degrees, the magnetic unlocking between the mounting plate and the metal plate can be realized by utilizing the lever principle;

3. the utility model has simple structure, realizes the detachable connection of each part by arranging the first connecting piece and the second connecting piece, and is convenient for later maintenance and replacement.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of the explosive structure of the upper half of the present utility model;

FIG. 3 is a schematic diagram of an exploded structure of the upper half of the present utility model;

FIG. 4 is a schematic diagram of the explosive structure of the lower half of the present utility model;

FIG. 5 is a schematic diagram of the explosion structure of the lower half of the present utility model;

FIG. 6 is a schematic illustration of the present utility model during a steering process;

fig. 7 is a schematic diagram of the present utility model in the process of performing magnetic unlocking.

Reference numerals illustrate:

1. the pipe body, 2, the mounting plate, 3, the magnetic block, 4, the handle, 5, the first connecting piece, 6, the second connecting piece, 7, the first screw, 8, the second screw, 9, the third screw, 10, the round pin axle, 11, panel, 12, the magnetic chuck, 13, the hinge, 101, first guide hole, 102, second guide hole, 201, the dead lever, 202, the bearing, 203, the disk body, 401, the sponge sleeve, 402, first screw, 501, the lower cylinder, 502, the upper cylinder, 503, the second screw, 504, the spliced eye, 505, the third guide hole, 601, the upper block, 602, the lower block, 603, the third screw.

Detailed Description

The following describes specific embodiments of the utility model with reference to the drawings and examples:

it should be noted that the structures, proportions, sizes, etc. shown in the drawings are merely for the purpose of understanding and reading the disclosure, and are not intended to limit the scope of the utility model, which is defined by the appended claims.

Also, the terms such as "upper," "lower," "left," "right," "middle," and "a" and the like recited in the present specification are merely for descriptive purposes and are not intended to limit the scope of the utility model, but are intended to provide relative positional changes or modifications without materially altering the technical context in which the utility model may be practiced.

The present application is described in further detail below in conjunction with figures 1-7.

The embodiment of the application discloses a manual magnetic load control and positioning safety tool.

Example 1

Referring to fig. 1 to 7, the present embodiment discloses a manual magnetic load control and positioning safety tool, which comprises a handle 4, a magnetic block 3, a tube body 1 and a mounting plate 2 hinged at the end of the tube body 1, wherein the handle 4 is connected with the tube body 1 through a first connecting piece 5, the tube body 1 is hinged with the mounting plate 2 through a second connecting piece 6, and the magnetic block 3, the tube body 1 and the mounting plate 2 hinged at the end of the tube body 1 are arranged.

The mounting plate 2 comprises a fixing rod 201 and a plate body 203, the fixing rod 201 and the plate body 203 are rotationally connected through a bearing 202, a magnetic block 3 is arranged on the bottom surface of the plate body 203, the size of the magnetic block 3 in the structure is smaller than the diameter of the plate body 203, the bottom of the plate body 203 and the bottom of the magnetic block 3 are positioned on the same plane, and the design is convenient for the plate body 203 to be pried when the plate body 203 is pried, the pried position is the non-magnetic plate body 203, and the magnetic block 3 is more easily separated from the plate 11; the mounting plate 2 and the magnetic block 3 are connected by a strong adhesive structure or other conventional existing connection modes.

The center of the top of the plate 11 is generally connected with an external hinge 13 through a magnetic chuck 12, the hinge 13 provides a translation effect, the plate 11 can rotate circumferentially relative to the magnetic chuck 12 in the process, and the hinge 13 realizes the carrying of the plate 11 through an external hoisting mechanism. In the process of using the positioning tool, the mounting plate 2 is magnetically connected with one end of the plate 11 with the help of the magnetic block 3, and an operator can keep a safe distance with the plate 11 in the process of using due to the certain length of the pipe body 1; in the process of adjusting the direction of the plate 11, an operator pushes or pulls the handle 4 to enable the plate 11 to rotate horizontally at any angle by taking the magnetic chuck 12 as the center of a circle; when the plate 11 is transported to a designated position and then falls down, an operator uses the mounting plate 2 as a center, the pipe body 1 is vertically rotated by 90 degrees with the vertical state as a reference, the magnetic block 3 is easily pried away from the plate 11 by utilizing the lever principle, and then the magnetic unlocking of the positioning tool is realized.

Example 2

Referring to fig. 2 to 5, and based on embodiment 1, this embodiment also provides a manual magnetic load control and positioning safety tool, in which a handle 4 is detachably connected to a tube 1 through a first connector 5, the tube 1 is detachably connected to a mounting plate 2 through a second connector 6, and sponge sleeves 401 are sleeved at both ends of the handle 4.

The first connecting piece 5 comprises a lower column body 501 and an upper column body 502 which are axially connected into a whole, a plugging hole 504 penetrating through the axis is radially formed in the peripheral side of the upper column body 502, a third guide hole 505 is axially formed in the top end of the upper column body 502, the third guide hole 505 is communicated with the plugging hole 504, in the structure, the handle 4 is axially inserted into the plugging hole 504, the second screw 8 penetrates through the third guide hole 505 and is connected with the first screw hole 402 in the peripheral side of the handle 4 in a threaded manner, the second screw hole 503 is radially formed in the lower column body 501, the first guide hole 101 is formed in the upper portion of the tube body 1, and the first screw 7 penetrates through the first guide hole 101 and is connected with the second screw hole 503 in a threaded manner.

The second connecting piece 6 is composed of an upper block 601 and a lower block 602 which are connected into a whole, the bottom of the pipe body 1 is provided with a second guide hole 102, a third screw 9 passes through the second guide hole 102 and is connected with a third screw hole 603 on the upper block 601 in a threaded manner, the lower block 602 is connected with the fixing rod 201 in a rotating manner, and the rotation centers of the upper and lower blocks are provided with pin shafts 10.

Example 3

Referring to fig. 1 to 5, and based on the above embodiment, the present embodiment further provides a manual magnetic load control and positioning safety tool, the pin shaft 10 is coaxially connected with a coil spring, the coil spring is mounted on the lower block 602 or the fixing rod 201, the coil spring is in a relaxed state when the pipe body 1 vertically corresponds to the mounting plate 2 in the present structure, and when the mounting plate rotates leftwards or rightwards relative to the pipe body 1, the coil spring is compressed or stretched, so that the mounting plate 2 can automatically reset after use.

Many other changes and modifications may be made without departing from the spirit and scope of the utility model. It is to be understood that the utility model is not to be limited to the specific embodiments, but only by the scope of the appended claims.

Claims (9)

1. A manual magnetic load control and positioning safety tool comprising:

the pipe body (1) and the mounting disc (2) are hinged to the end part of the pipe body (1), the mounting disc (2) comprises a fixed rod (201) and a disc body (203), the fixed rod and the disc body are rotationally connected through a bearing (202), and the pipe body (1) and the fixed rod (201) can circumferentially rotate relative to the disc body (203);

the magnetic block (3), magnetic block (3) are located the bottom surface of disk body (203), just the size of magnetic block (3) is less than the diameter of disk body (203), mounting disc (2) are through magnetic block (3) and the panel (11) actuation of hoist and mount when the direction, when the unblock dead lever (201) are realized through lever principle separation between magnetic block (3) with panel (11).

2. A manual magnetic load control and positioning safety tool according to claim 1, further comprising a first connector (5) and a handle (4), said handle (4) being detachably connected to said tubular body (1) by means of the first connector (5);

the first connecting piece (5) is composed of a lower column body (501) and an upper column body (502) which are axially connected into a whole, an inserting hole (504) penetrating through the axis is radially formed in the peripheral side of the upper column body (502), a third guide hole (505) is axially formed in the top end of the upper column body (502), and the third guide hole (505) is communicated with the inserting hole (504).

3. A manual magnetic load control and positioning safety tool according to claim 2, further comprising a second screw (8), said handle (4) being axially inserted into said insertion hole (504), said second screw (8) passing through said third guide hole (505) and being screwed with a first screw hole (402) on the peripheral side of said handle (4).

4. A manual magnetic load control and positioning safety tool according to claim 3, characterized in that the two ends of the handle (4) are sleeved with sponge sleeves (401).

5. The manual magnetic load control and positioning safety tool according to claim 2, further comprising a first screw (7), wherein the lower cylinder (501) is radially provided with a second screw hole (503), the upper portion of the pipe body (1) is provided with a first guide hole (101), and the first screw (7) passes through the first guide hole (101) and is screwed to the second screw hole (503).

6. A manual magnetic load control and positioning safety tool according to claim 1, further comprising a second connection (6), through which second connection (6) the tubular body (1) is hinged to the mounting plate (2), the second connection (6) being constituted by an upper block (601) and a lower block (602) which are connected in one piece.

7. The manual magnetic load control and positioning safety tool according to claim 6, further comprising a third screw (9), wherein a second guide hole (102) is provided in the bottom of the pipe body (1), and the third screw (9) passes through the second guide hole (102) and is screwed to a third screw hole (603) in the upper block body (601).

8. A manual magnetic load control and positioning safety tool according to claim 7, characterized in that the lower block (602) is rotatably connected to the fixed rod (201) with a pin (10) in the centre of rotation.

9. A manual magnetic load control and positioning safety tool according to claim 8, characterized in that said pin (10) is coaxially connected with a coil spring mounted on said lower block (602) or on said fixed rod (201).