CN218403145U - Simple take-up stand - Google Patents

Abstract

The utility model discloses a simple take-up stand, which comprises a take-up stand main body, a winding part and a rotating handle, wherein the winding part and the rotating handle are arranged on the take-up stand main body; the take-up stand main body comprises a left arm body, a lower arm body, a right arm body and an upper arm body which are sequentially connected, wherein shaft holes extending in the left-right direction are formed in the left arm body and the right arm body; the winding portion is located in the region surrounded by the left arm body, the lower arm body, the right arm body and the upper arm body, the winding portion comprises a winding cross arm and a left side wire blocking arm and a right side wire blocking arm which are connected to the left end and the right end of the winding cross arm respectively, and the upper end and the lower end of the left side wire blocking arm and the right side wire blocking arm respectively exceed the winding cross arm to form an extension arm. When the foldable take-up stand is used, the operation is very convenient, and the size of the folded take-up stand is greatly reduced through the structural design of the main body and the winding part of the take-up stand, so that the folded take-up stand is convenient to store, manage, transport and the like.

Description

Simple take-up stand

Technical Field

The utility model relates to a take-up stand field technique especially indicates a simple and easy take-up stand.

Background

In the field of cable winding technology, winding a cable on a winding frame is a common winding method.

At present, more representative's a power cable take-up stand, it includes connecting plate, supporting baseplate, the perpendicular symmetry fixedly connected with in supporting baseplate top surface supports the grillage, the connecting plate is connected in two tops that support the grillage, two be connected with rotatory take-up shaft between the support grillage, rotatory take-up shaft both ends all are connected in two respectively through the bearing backup pad frame top position, rotatory take-up shaft right-hand member fixedly connected with rocking handle, the rocking handle with rotatory take-up shaft is the integrated into one piece structure, two disc baffles have been cup jointed on rotatory take-up shaft surface, and the design has a plurality of fretwork holes to play the effect of subtracting burden/economize the material on disc baffle usually, when receiving the line, rotates the rocking handle, and the cable rolling is just located between two disc baffles on rotatory take-up shaft. This kind of power cable take-up stand, its supporting baseplate generally present horizontal extension structure, occupy great area transversely (indicate fore-and-aft direction and left and right sides direction), simultaneously, two supporting plate frame and disc baffle also can transversely and vertically all occupy great area (indicate fore-and-aft direction, left and right directions and upper and lower direction), lead to its volume great, be not convenient for transport and deposit the management.

Therefore, a new technical solution is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides a simple wire-rewinding frame, which is convenient for storage, management and transportation by reducing the volume of the wire-rewinding frame after being folded by the structural design of the wire-rewinding frame main body and the wire-winding portion.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a simple take-up stand comprises a take-up stand main body, a winding part and a rotary handle, wherein the winding part and the rotary handle are arranged on the take-up stand main body; the take-up stand main body comprises a left arm body, a lower arm body, a right arm body and an upper arm body which are sequentially connected, wherein shaft holes extending in the left-right direction are formed in the left arm body and the right arm body;

the winding part is positioned in the area surrounded by the left arm body, the lower arm body, the right arm body and the upper arm body, the winding part comprises a winding cross arm and a left wire blocking arm and a right wire blocking arm which are respectively connected to the left end and the right end of the winding cross arm, and the upper end and the lower end of each of the left wire blocking arm and the right wire blocking arm exceed the winding cross arm to form extension arms; the left side wire blocking arm and the right side wire blocking arm are respectively hinged to the corresponding shaft holes.

As an optimal scheme, wire clamping grooves are formed between the left arm body and the right arm body and between the left side wire blocking arm and the right side wire blocking arm, so that two ends of a wire rod can be clamped in the wire clamping grooves on two sides respectively, and loosening is prevented.

Preferably, the number of the winding cross arms is two, the two winding cross arms are arranged at an interval from each other, at least one winding cross arm is provided with a clamping hook, and the clamping hook is arranged towards the other winding cross arm. Through the setting of pothook, hang the local of line in pothook department when being convenient for initial wire winding, be favorable to guaranteeing the steadiness of line on wire winding portion.

As a preferred scheme, rotatory handle is including the spiral arm that extends from top to bottom and connect respectively in the upper and lower movable handle of spiral arm, coupling portion passes the shaft hole of the left arm body and connects on the arm of left side stop line, the left side of the left arm body is provided with the location shrinkage pool, the upper end of the relative spiral arm of activity handle can control the displacement setting for the movable handle can turn right the displacement and stretch into the location shrinkage pool and hide. Further reducing the space occupied by the take-up stand.

As a preferred scheme, the coupling portion includes a cylindrical section and a fastening section, the left end of the cylindrical section is connected to the right side of the lower end of the spiral arm, the left end of the fastening section is connected to the right side of the cylindrical section, the cylindrical section is adapted to the shaft hole, and the fastening section is fastened and positioned in the fastening hole of the left-side line-blocking arm.

As a preferred scheme, the fastening section is square, a first elastic fastening arm is arranged on the peripheral surface of the fastening section, and after the fastening section is inserted into the fastening hole, the first elastic fastening arm abuts against the inner wall surface of the fastening hole to achieve positioning.

Preferably, the radial arm and the coupling portion are an integral injection molding piece.

As a preferred scheme, the right end of activity hand (hold) is provided with the second elasticity buckle arm that a plurality of circumference intervals were arranged, second elasticity buckle arm supports in the internal face of location shrinkage pool.

As a preferred scheme, the upper end of the spiral arm is provided with a movable hole which is communicated left and right, the inner annular surface of the movable hole is provided with a stop boss, and after the movable handle is separated from the positioning concave hole to the left, the second elastic buckling arm is limited on the right side of the stop boss.

As a preferred scheme, the winding frame is further provided with a hook, the hook is provided with an installation part and a hook part connected to the front side of the installation part, and the upper arm body or the lower arm body of the winding frame main body is hung on the hook part.

Compared with the prior art, the utility model obvious advantage and beneficial effect have, particularly, can know by above-mentioned technical scheme, it is mainly: through the structural design of the take-up stand main body and the winding part, when the take-up stand is used, the upper arm body and the lower arm body of the take-up stand main body can have the functions of a handle and a support, one end of the upper arm body and one end of the lower arm body can be used as the handle and the other end of the upper arm body and the lower arm body can be used as the support when the take-up stand is used, the upper arm body and the lower arm body are supported on the ground or the body (such as the belly) of an operator, the handle is rotated by hand to drive the winding part to rotate to take up the wire, after the wire winding is completed, the winding part is rotated to be in an X shape with the take-up stand main body, and the lower arm body and the extension arm at the lower end are used as the support legs to be placed and positioned, so that the operation is very convenient; particularly, the volume of the folded take-up stand is greatly reduced, and the storage, management, transportation and the like are facilitated.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a perspective view of a simple wire-rewinding frame according to an embodiment of the present invention;

FIG. 2 is a front view of the simple wire-rewinding frame (the movable handle is hidden to the right) according to the embodiment of the present invention;

fig. 3 is a front view of the simple wire-rewinding frame according to the embodiment of the present invention (the movable handle is pulled out to the left);

FIG. 4 is an exploded view of the simple wire-rewinding frame according to the embodiment of the present invention;

fig. 5 is a cross-sectional view of the simple wire-rewinding frame according to the embodiment of the present invention;

FIG. 6 is a detailed exploded view of the simple wire-rewinding frame according to the embodiment of the present invention;

FIG. 7 is another exploded view of the simple wire-rewinding frame according to the embodiment of the present invention;

FIG. 8 is a diagram illustrating a state of the simple wire-rewinding rack according to the embodiment of the present invention;

fig. 9 is a view illustrating a winding and folding state of the simple wire take-up stand according to an embodiment of the present invention.

The attached drawings indicate the following:

the take-up stand comprises a take-up stand main body 10, a left arm body 11, a positioning concave hole 111, a lower arm body 12, a right arm body 13, an upper arm body 14, a winding part 20, a winding cross arm 21, a left wire blocking arm 22, a right wire blocking arm 23, an extension arm 201, a hook 202, a buckling hole 203, a wire clamping groove 204, a rotary handle 30, a rotary arm 31, a movable hole 311, a stopping boss 312, a movable handle 32, a second elastic buckling arm 321, a shaft connecting part 33, a cylindrical section 331, a buckling section 332, a first elastic buckling arm 333, an injection molding connecting piece 40 and a hook 50.

Detailed Description

Fig. 1 to 9 show a specific structure of an embodiment of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "left", "right", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.

A simple take-up stand comprises a take-up stand main body 10, a winding portion 20 and a rotary handle 30, wherein the winding portion 20 and the rotary handle 30 are installed on the take-up stand main body 10, and the rotary handle 30 can drive the winding portion 20 to rotate to take up wires.

The take-up stand main body 10 comprises a left arm body 11, a lower arm body 12, a right arm body 13 and an upper arm body 14 which are sequentially connected, wherein the upper arm body 14 is connected between the upper ends of the left arm body 11 and the right arm body 13, the lower arm body 12 is connected between the lower ends of the left arm body 11 and the right arm body 13, and shaft holes 101 extending in the left-right direction are formed in the left arm body 11 and the right arm body 13;

the winding part 20 is positioned in the area surrounded by the left arm body 11, the lower arm body 12, the right arm body 13 and the upper arm body 14, the winding part 20 comprises a winding cross arm 21 and a left wire blocking arm 22 and a right wire blocking arm 23 which are respectively connected with the left end and the right end of the winding cross arm 21, and the upper end and the lower end of each of the left wire blocking arm 22 and the right wire blocking arm 23 exceed the winding cross arm 21 to form an extension arm 201; the left wire blocking arm 22 and the right wire blocking arm 23 are respectively hinged to the corresponding shaft holes 101. When the wire winding frame is used, the upper arm body 14 and the lower arm body 12 of the wire winding frame main body 10 can have a holding handle and a supporting function, one end of the wire winding frame main body can be used as a holding handle and the other end of the wire winding frame main body can be used as a support when the wire is wound, the wire winding frame main body is supported on the ground or the body (such as a belly) of an operator, the hand-operated rotating holding handle 30 drives the wire winding part 20 to rotate to wind the wire, after the wire winding is completed, the wire winding part 20 is rotated to be in an X shape with the wire winding frame main body 10, the lower arm body 12 and the extension arm 201 at the lower end are used as supporting legs for placing and positioning, and the operation is very convenient; particularly, through the structural design of the take-up stand main body 10 and the winding part 20, the volume of the folded take-up stand is greatly reduced, which can be about 30% of the volume of the traditional take-up stand, and the storage, management, transportation and the like are convenient. Wire clamping grooves 204 are formed between the left arm body 11 and the right arm body 13 and between the left wire blocking arm 22 and the right wire blocking arm 23, so that two ends of a wire rod can be clamped in the wire clamping grooves 204 on two sides (as shown in fig. 9) conveniently, and loosening is prevented.

The number of the winding cross arms 21 is two, the two are arranged at an interval from each other, at least one winding cross arm 21 is provided with a clamping hook 202, and the clamping hook 202 faces the other winding cross arm 21. The two winding crossarms 21 are arranged at a distance from each other, the hooks 202 are located between the distances, and the sides of the two winding crossarms 21 facing away from each other serve as winding surfaces, for example: during winding, the wire is wound upwards from the lower side surface of the lower winding cross arm 21, and is wound downwards after being wound from the upper side surface of the upper winding cross arm 21. Through the setting of pothook 202, be convenient for hang the local of line in pothook 202 department during initial wire winding, be favorable to guaranteeing the steadiness of line on wire winding portion 20.

The rotary handle 30 comprises a rotary arm 31 extending up and down, and a movable handle 32 and an axle connecting part 33 connected to the upper end and the lower end of the rotary arm 31 respectively, wherein the axle connecting part 33 penetrates through an axle hole 101 of the left arm body 11 and is connected to the left wire blocking arm 22, a positioning concave hole 111 is formed in the left side of the left arm body 11, the movable handle 32 can be arranged in a left-right displacement mode relative to the upper end of the rotary arm 31, and the movable handle 32 can be hidden in the positioning concave hole 111 in a right-right displacement mode. When the rotary grip 30 is rotated for use, the movable handle 32, the swing arm 31, and the coupling portion 33 form a Z-shape and can be rotated by 360 degrees. Through designing the handle as the movable handle 32, when needing to take up the line operation, pull out the left side that the protrusion is exposed in the spiral arm 31 with movable handle 32, as taking up the line handle and holding and using, after taking up the line and accomplishing and setting up winding portion 20 and rotating to the X-shaped contained angle with take-up stand main part 10, push movable handle 32 to the right into location shrinkage pool 111 and hide again, play the effect of location current winding portion 20 position, prevent to rotate, if the take-up stand is in the idle state, also can push movable handle 32 to the right into location shrinkage pool 111 and hide after folding up, further reduce take-up stand occupation space. Of course, after winding, the winding portion 20 may be rotated to a folded state, and the movable handle 32 may be pushed to the right to be hidden, as shown in fig. 9. The shaft connecting portion 33 includes a cylindrical section 331 and a fastening section 332, a left end of the cylindrical section 331 is connected to a right side of a lower end of the radial arm 31, a left end of the fastening section 332 is connected to a right side of the cylindrical section 331, the cylindrical section 331 is adapted to the shaft hole 101, and the fastening section 332 is fastened and positioned in the fastening hole 203 of the left-side cable arm 22. The fastening section 332 is square, a first elastic fastening arm 333 is arranged on the circumferential surface of the fastening section 332, and after the fastening section 332 is inserted into the fastening hole 203, the first elastic fastening arm 333 abuts against the inner wall surface of the fastening hole 203 to achieve positioning. Through whole buckle design, need not extra screw fixation, the buckle mode, easily production preparation and equipment exempt from the screw design, also make this admission machine adopt the injection molding preparation can, do not contain metal accessories, the waste classification of the old and useless admission machine of being convenient for handles. Generally, the radial arm 31 and the coupling portion 33 are integrally molded, the movable handle 32 is another molded part, the take-up frame body 10 and the winding portion 20 are respectively separate molded parts, the right arm body 13 and the right wire retaining arm 23 are connected by the injection molding connector 40, the structure of the injection molding connector 40 is substantially the same as that of the coupling portion 33, only the injection molding connector 40 is a separate molded part, and therefore, the whole take-up frame comprises 5 molded parts, and the assembly is convenient.

The right end of the movable handle 32 is provided with a plurality of second elastic buckling arms 321 which are circumferentially arranged at intervals, and the second elastic buckling arms 321 abut against the inner wall surface of the positioning concave hole 111. Form disconnected groove between the adjacent second elasticity buckle arm 321 of activity hand (hold) 32, make a plurality of second elasticity buckle arms 321 be petal form like this and arrange, because the knot point of second elasticity buckle arm 321 generally can design for guide structure, the design that the right-hand member diminishes promptly, be convenient for activity hand (hold) 32 card go into in the location shrinkage pool 111. Therefore, when the right end of the movable handle 32 is inserted into the positioning recess hole 111, the positioning is achieved by elastic interference fit, and after the movable handle 32 is pulled out to the left and separated from the positioning recess hole 111, the stop table 312 is used for limiting, so as to prevent the movable handle 32 from being separated from the upper end of the swing arm 31. The upper end of the radial arm 31 is provided with a movable hole 311 which is through from left to right, the inner ring surface of the movable hole 311 is provided with a stopping boss 312, and after the movable handle 32 is separated from the positioning concave hole 111 from left, the second elastic buckling arm 321 is limited to the right side of the stopping boss 312.

Further, a hook 50 is further provided, the hook 50 has an installation part and a hook part connected to the front side of the installation part, and the upper arm body or the lower arm body of the take-up stand main body 10 is hung on the hook part. The hook 50 is typically mounted to a wall or other surface to facilitate hanging the take-up stand from the hook 50.

The utility model is mainly designed, through the structural design of the take-up stand main body 10 and the winding part 20, when in use, the upper arm body 14 and the lower arm body 12 of the take-up stand main body 10 can have a handle and a supporting function, one end of the handle can be used as one end of the handle to be supported on the ground or the body (such as the belly) of an operator when in take-up, the handle 30 is rotated by hand to drive the winding part 20 to rotate to take-up, after winding is completed, the winding part 20 is rotated to be in an X shape with the take-up stand main body 10, the lower arm body 12 and the extension arm 201 at the lower end are used as supporting legs to be placed and positioned, and the operation is very convenient; particularly, the volume of the folded take-up stand is greatly reduced, and the storage, management, transportation and the like are convenient.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a simple and easy take-up stand, is including the take-up stand main part and install wire winding portion, the rotatory handle in the take-up stand main part, rotatory handle can drive wire winding portion and rotate and receive line, its characterized in that:

the take-up frame main body comprises a left arm body, a lower arm body, a right arm body and an upper arm body which are sequentially connected, wherein shaft holes extending in the left-right direction are formed in the left arm body and the right arm body;

the winding part is positioned in the area surrounded by the left arm body, the lower arm body, the right arm body and the upper arm body, the winding part comprises a winding cross arm and a left wire blocking arm and a right wire blocking arm which are respectively connected to the left end and the right end of the winding cross arm, and the upper end and the lower end of each of the left wire blocking arm and the right wire blocking arm exceed the winding cross arm to form extension arms; the left side wire blocking arm and the right side wire blocking arm are respectively hinged to the corresponding shaft holes.

2. The simple take-up stand of claim 1, wherein: wire clamping grooves are formed between the left arm body and the right arm body and the corresponding left wire blocking arm and the right wire blocking arm.

3. The simple take-up stand of claim 1, wherein: the winding cross arm is provided with two, and both are arranged at an interval from top to bottom, and at least one of the winding cross arms is provided with a clamping hook, and the clamping hook is arranged towards the other winding cross arm.

4. The simple take-up stand according to claim 1, wherein: rotatory handle is including the spiral arm that extends from top to bottom and connect activity hand (hold), the coupling portion of connecting respectively in upper and lower end of spiral arm, coupling portion pass the shaft hole of the left arm body and connect on left side stop line arm, the left side of the left arm body is provided with the location shrinkage pool, the relative upper end of spiral arm of activity hand (hold) can control the displacement setting for the activity hand (hold) can be moved right and stretched into the location shrinkage pool and hide.

5. The simple take-up stand of claim 4, wherein: the shaft connecting part comprises a cylindrical section and a buckle section, the left end of the cylindrical section is connected to the right side of the lower end of the spiral arm, the left end of the buckle section is connected to the right side of the cylindrical section, the cylindrical section is adaptive to the shaft hole, and the buckle section is buckled and positioned in the buckle hole of the line blocking arm on the left side.

6. The simple take-up stand according to claim 5, wherein: the buckle section is square, a first elastic buckle arm is arranged on the surface of the peripheral side of the buckle section, and after the buckle section is inserted into the buckle hole, the first elastic buckle arm is abutted against the inner wall surface of the buckle hole to achieve positioning.

7. The simple take-up stand of claim 5, wherein: the spiral arm and the coupling part are integrated injection molding parts.

8. The simple take-up stand according to claim 5, wherein: the right-hand member of activity hand (hold) is provided with the second elasticity buckle arm that a plurality of circumference intervals were arranged, second elasticity buckle arm supports in the internal face of location shrinkage pool.

9. The simple take-up stand of claim 8, wherein: the upper end of spiral arm is provided with about the activity hole that link up, the interior anchor ring in activity hole is provided with the backstop boss, activity hand (hold) is after deviating from the location shrinkage pool to a left side, second elasticity buckle arm is restricted in the right side of backstop boss.

10. The simple take-up stand of claim 1, wherein: still be provided with the couple, the couple has the installation department and connects in the hook portion of installation department front side, the upper arm body or the lower arm body of take-up stand main part are hung and are located hook portion.

Images