JP3202590U - Improvement of magnetic attraction structure at tool connection end - Google Patents

Abstract

The present invention provides an improved magnetic attraction structure for a tool connecting end for rapidly rotating an assembly member.
A magnetic attraction structure improvement comprises a drive unit 10, a rotary drive unit 20, a magnetic ring cover unit 30, a magnetic attraction member 40, and a magnetic induction gap. According to this novel and unique design, the position limiting chamber 32 inside the magnetic ring cover unit 30 can quickly slide and displace to the ring assembly edge 22 of the drive unit 10 in accordance with the change of the magnetic attraction interval distance. The radial width of the magnetic ring cover unit 30 is such that it can be stored in a counterbore hole of a general fixing member.
[Selection] Figure 2

Description

  The present invention relates to an improvement in a magnetic attracting structure at a tool connection end, and more particularly, to a novel structural design that enables use of an assembly member for rapidly rotating an assembly member.

  Generally, according to the improvement of the positioning structure of the driver head of the conventional Taiwan Utility Model Application No. 104202910, the structure is mainly provided with a driving end at one end of the connecting rod and a driver head at the other end. A positioning sleeve is provided at the front end of the head, the driver head is provided with a position limiting ring, a sliding step is formed between the driver end, and the positioning sleeve is a hollow cover A hook portion that slides on the sliding step portion, and at least two dividing grooves are provided in the hook portion. A magnetic component having a through hole is provided in the other end of the positioning sleeve, and a convex portion is provided around the inner wall surface of the cover body. A sliding groove is formed between the driver and the other side, and the other side provides contact and position restriction of the magnetic component, the driver head is penetrated by the positioning sleeve, and passes through the through hole; and The driver head is exposed from the positioning sleeve even when the hook portion is positioned at any one of the sliding step portions. However, the cover body portion in the conventional structure still requires complicated processing of a large number of hook portions and dividing grooves, and its sliding positioning still cannot overcome the abrasion caused by long-term use.

Taiwan Utility Model Application No. 10420910

  For this reason, it is indeed the consumer's desire to develop a more ideal and practical novel structure for the problems existing in the conventional structure described above, or It is also the goal and direction that related companies have to research and develop. In light of this, the inventor has made a detailed design and evaluation on the above-mentioned goals based on his many years of experience in manufacturing, developing and designing related products. A device was devised.

  That is, the main object of the present invention is to provide an improved magnetic attraction structure at the tool connection end. The problem to be solved by the present invention is that the cover body portion in the conventional structure still requires complicated processing of a large number of hook portions and dividing grooves, and the sliding positioning still suffers from abrasion caused by long-term use. To improve and break through problems that cannot be overcome.

  Thus, as a technical feature for solving these problems, the present invention mainly includes a drive unit, a rotary drive unit, a magnetic ring cover unit, and a magnetic induction gap. The drive body has a drive end, the rotary drive unit has a neck extension step, the neck extension step is axially installed at one end of the drive body, and A ring-shaped magnetic induction surface is formed at one end of the cervical extending step opposite to the driving body, and the magnetic induction surface is made of a material having magnetic attraction, A ring assembly edge is provided at the other end, a rotational drive end is provided at one end of the ring assembly edge, and the magnetic ring cover unit has a sleeve body that is hollow in the axial direction, and one end of the sleeve body. Position restriction around the inner edge wall A position limiting chamber in the form of a circumferential space is provided on the side adjacent to the position limiting ring mounting portion, and the axial depth and the radial depth of the position limiting chamber are: The magnetic ring cover has a radial width larger than an axial length and a radial width of the position-restricting ring assembly portion and the ring assembly edge of the drive unit, and the neck-shaped extending step portion of the drive unit has a radial width. Smaller than the radial width of the position limiting ring assembly portion of the unit, so that the position limiting ring assembly portion is subjected to the relative assembly of the ring assembly edge of the drive unit and then the ring assembly. The edge is detached from the position restricting ring assembly portion and is allowed to enter the position restricting chamber, and the ring assembly edge has an engagement position restriction relative to the position restricting ring assembly portion, and the magnetic At the other end of the ring cover unit An accommodation space that communicates with the position restriction chamber is provided, a magnetic attraction member is placed in the accommodation space, and a hollow portion is provided in the center of the magnetic attraction member, and the hollow portion is formed on the rotation drive unit. The rotational driving end is provided so as to be just inserted therein, and a magnetic induction gap is defined between the magnetic attraction member and the ring assembly edge, and the magnetic attraction member and the ring assembly edge The magnetic induction gap is generated by the magnetic induction surface abutting against one end of the magnetic ring cover unit.

  According to this novel and unique design, the present invention allows the position limiting chamber inside the magnetic ring cover unit to quickly slide on the ring assembly edge of the drive unit according to the change of magnetic attraction distance. Since the radial width of the magnetic ring cover unit of the present invention is just large enough to be stored in a counterbore hole of a general fixing member, the assembly member can be rotated quickly. Because it enables the use of driving, a convenient practical progress in use can be achieved.

It is a perspective view which shows the magnetic attraction structure improvement of the tool connection end concerning this invention. It is a disassembled perspective view which shows the magnetic attraction structure improvement of the tool connection end concerning this invention. It is a disassembled sectional view which shows the magnetic attraction structure improvement of the tool connection end concerning this invention. It is the schematic diagram 1 which shows the operation | movement of the magnetic attraction | suction structure improvement of the tool connection end concerning this invention. FIG. 5 is a local enlarged view of FIG. 4 showing an improved magnetic attraction structure at the tool connection end according to the present invention. It is the schematic diagram 2 which shows the operation | movement of the magnetic attraction structure improvement of the tool connection end concerning this invention. It is a figure which shows another Example of the magnetic attraction structure improvement of the tool connection end which concerns on this invention. It is a figure which shows another Example of the magnetic attraction structure improvement of the tool connection end which concerns on this invention. It is a figure which shows another Example of the magnetic attraction structure improvement of the tool connection end concerning this invention. It is a figure which shows another Example of the magnetic attraction structure improvement of the tool connection end which concerns on this invention. It is a figure which shows another Example of the magnetic attraction structure improvement of the tool connection end concerning this invention.

  Please refer to FIG. 1 to FIG. These drawings show a preferred embodiment for improving the magnetic attraction structure of the tool connection end according to the present invention. However, these examples are used only for convenience of explanation, and are not limited to this structure in the utility model registration application. The present invention includes a drive unit (10), a rotary drive unit (20), a magnetic ring cover unit (30), and a magnetic induction gap (a).

  The drive unit (10) has a drive body (11), and the drive body (11) has a drive end (12).

  The rotary drive unit (20) has a neck-like stretching step (23), the neck-like stretching step (23) is axially installed at one end of the drive body (11), and the neck-like stretching step (23). A ring-shaped magnetic induction surface (24) is formed at one end of the extending step (23) facing the drive body (11), and the magnetic induction surface (24) is made of a metal material having magnetic attraction. In addition, a ring assembly edge (22) is provided at the other end of the neck-like extension step (23), and a rotational drive end (21) is provided at one end of the ring assembly edge (22). The ring assembly edge (22) of the rotary drive unit (20) may be in the form of an annular convex edge, and annular inclined surfaces (221) are provided at both end edges of the ring assembly edge (22). Provided. In this embodiment, the rotation drive end (21) of the rotation drive unit (20) has a cross-shaped driver end shape, and a positioning bead groove (13) at a predetermined position of the drive body (11). Is provided.

  The magnetic ring cover unit (30) has a sleeve body (31) that is hollow in the axial direction, and a position limiting ring assembly portion (33) is provided around the inner edge wall of one end of the sleeve body (31). In addition, a position limit chamber (32) in the form of a circumferential space is provided on the side adjacent to the position limit ring assembly (33), and the axial depth (W2) and radial direction of the position limit chamber (32) are provided. The depth (H2) is larger than the axial length (w1) and the radial width (h1) of the position limiting ring assembly portion (33) and the ring assembly edge (22) of the drive unit (10). And the radial width of the neck-like extension step (23) of the drive unit (10) is the radial width (h1) of the position limiting ring assembly (33) of the magnetic ring cover unit (30). Smaller than the magnetic ring cover unit ( The position limiting ring assembly part (33) of 0) may be in the form of an elastic stopper, and the position limiting ring assembly part (33) includes the annular inclined surface of the ring assembly edge (22). (221) is provided with a guide inclined surface (331) that is slidably inserted correspondingly, and a dividing groove (332) is formed on both sides of the position limiting ring assembly portion (33). After the ring assembling edge (22) is just inserted into the position restricting ring assembling part (33), the position restricting ring assembling part (33) is in an elastic contact state, and the ring When the assembly edge (22) tries to penetrate the position limit ring assembly (33), the position limit ring assembly (33) is restored to the elastic position, and the ring assembly edge (22) is applied. Therefore, the position limiting ring assembly (33) After the relative assembly of the ring assembly edge (22) of the knit (10), the ring assembly edge (22) is detached from the position restriction ring assembly portion (33) and the position restriction chamber. (32) and the ring assembly edge (22) is restricted in engagement position relative to the position restriction ring assembly (33), and the magnetic ring cover unit (30) An accommodation space (34) communicating with the position restriction chamber (32) is provided at the other end, a magnetic attraction member (40) is placed in the accommodation space (34), and the magnetic attraction member (40) A hollow portion (41) is provided in the center, and the hollow portion (41) is provided so that the rotational drive end (21) of the rotational drive unit (20) is just inserted therein, The magnetic ring cover unit (30) is an elastic-plastic material. Produced from the fee.

  A magnetic induction gap (a) is defined between the magnetic attraction member (40) and the ring assembly edge (22), and between the magnetic attraction member (40) and the ring assembly edge (22). The magnetic induction gap (a) is generated by the magnetic induction surface (24) coming into contact with one end of the magnetic ring cover unit (30).

  4 to 6, as shown in these drawings, the rotation drive end (21) of the rotation drive unit (20) has a rotation drive unit (51) that does not attract any screw assembly member (50). ), The magnetic attraction member (40) is attracted to the magnetic induction surface (24) of the rotary drive unit (20), and at the same time, the position restricting chamber (32) of the sleeve body (31). The front end is displaced and attached to the front end edge of the ring assembly edge (22) to expose a relatively large portion of the rotational drive end (21), and the rotational drive end (21) is exposed to the screw assembly member. When the magnetic drive member (50) is attracted to the rotational drive end (21), the magnetic attractive distance between the magnetic attractive member (40) and the screw assembly member (50) is the magnetic value of the rotational drive unit (20). Smaller than the guide surface (24) As the position limiting chamber (32) of the sleeve body (31) is displaced toward the screw assembly member (50), the outer edge of the rotational drive end (21) of the screw assembly member (50) is It is attracted to the periphery of the magnetic attraction member (40).

  Please refer to FIG. This drawing shows another embodiment according to the present invention, in which the drive body (10A) of the drive unit (10) may have a hexagonal cross section and is positioned at the outer edge of the surface. The fitting groove (11A) is circularly provided.

  Please refer to FIG. This drawing shows still another embodiment according to the present invention, in which the drive unit (10B) may be provided with a drive body (11B) in the form of a rod having an L shape, A rotational drive unit (20) is provided at each end.

  See FIG. This drawing shows still another embodiment of the present invention, in which the drive unit (10C) has a drive end (12C) having a grip pattern, and the drive end (12C). ) Is extended from one end of the drive main body (11C) in the form of a straight bar, and the rotary drive unit (20) is connected to the end of the drive main body (11C).

  Please refer to FIG. This drawing shows another embodiment according to the present invention, in which the driving unit (10D) may include a sleeve-shaped driving body (11D), and the driving body (11D) A non-circular engagement groove (13D) is provided at one end, and the rotary drive unit (20) is locked and attached to the engagement groove (13D), and a cross handle is attached to the other end of the drive body (11D). A drive end (12D) having a form is provided.

  Please refer to FIG. This drawing shows still another embodiment of the present invention, in which the drive unit (10E) may include a drive body (11E) in the form of a twin driver head, and the rotational drive. The unit (20) is provided at both end positions of the drive unit (10E), and the rotation drive ends (21) at both ends of the rotation drive unit (20) are cross-shaped and one-shaped driver end portions, respectively. It is a form.

  Thereby, according to the present invention, the position limiting chamber inside the magnetic ring cover unit can be quickly slidably displaced to the ring assembly edge of the drive unit according to the change of the magnetic attraction interval distance, The radial width of the magnetic ring cover unit of the present invention is just large enough to be accommodated in a counterbore hole of a general fixing member, so that the assembly member can be used for rapid rotation driving. Therefore, it is possible to achieve practical practical convenience that is convenient for use.

  To summarize the above description, according to the above structural design of the present invention, the disadvantages faced in the conventional device can be effectively overcome, and further, it has many advantages and practical values described above. Since the present invention is a new idea with excellent creativity, and the same or similar product ideas are not found in the same technical field or are not publicly used, the present invention is already a utility model patent. It will meet the requirements of “novelty” and “inventive step” related to, and apply in accordance with the law.

DESCRIPTION OF SYMBOLS 10 Drive unit 11 Drive main body 12 Drive end 20 Rotation drive unit 21 Rotation drive end 22 Ring assembly edge 23 Neck-shaped extending step part 24 Magnetic induction surface 30 Magnetic ring cover unit 31 Sleeve main body 32 Position restriction chamber 33 Position restriction ring assembly Part 34 housing space 40 magnetic attraction member 41 hollow part 50 assembly member 51 rotation drive part 13 positioning bead groove 221 annular inclined surface 331 guide inclined surface 332 dividing groove 10A driving main body 11A positioning fitting groove 10B driving unit 11B driving main body 10C driving unit 11C Drive body 12C Drive end 10D Drive unit 11D Drive body 12D Drive end 13D Engaging groove 10E Drive unit 11E Drive body a Magnetic induction gap

Claims (6)

A magnetic attraction structure improvement of a tool connection end including a drive unit, a rotary drive unit, a magnetic ring cover unit, and a magnetic induction gap;
The drive unit has a drive body, the drive body has a drive end;
The rotary drive unit has a neck-like stretching step, and the neck-like stretching step is axially installed at one end of the drive body, and the neck-like stretching step is at one end facing the drive body. A ring-shaped magnetic induction surface is formed, the magnetic induction surface is made of a magnetically attractable material, and a ring assembly edge is provided at the other end of the neck-shaped extending step, and the ring assembly A rotational drive end is provided at one end of the rim,
The magnetic ring cover unit has a sleeve body that is hollow in the axial direction, a position restriction ring assembly portion is provided around an inner edge wall of one end of the sleeve body, and is adjacent to the position restriction ring assembly portion. A position limiting chamber in the form of a circumferential space is provided on the side, and the axial depth and the radial depth of the position limiting chamber are the axis of the position limiting ring mounting portion and the ring mounting edge of the drive unit. The radial length of the neck-shaped extending step portion of the drive unit is smaller than the radial length of the position limiting ring assembly portion of the magnetic ring cover unit. The position limiting ring assembly portion is configured to move the ring assembly edge away from the position limiting ring assembly portion after the relative guide mounting of the ring assembly edge of the drive unit, and to enter the position limiting chamber. Let in At the same time, the ring assembly edge has an engagement position restriction relative to the position restriction ring assembly portion, and an accommodation space communicating with the position restriction chamber is provided at the other end of the magnetic ring cover unit. The magnetic attraction member is placed in the accommodating space, and a hollow portion is provided in the center of the magnetic attraction member, and the rotation driving end of the rotation driving unit is just inserted through the hollow portion. Served as
The magnetic induction gap is defined between the magnetic attraction member and the ring assembly edge, and the magnetic induction gap between the magnetic attraction member and the ring assembly edge is such that the magnetic induction surface is magnetic. A magnetic attraction structure improvement of a tool connection end, which is generated by abutting against one end of a ring cover unit.   The ring assembly edge of the rotational drive unit is in the form of an annular convex edge, and annular inclined surfaces are provided at both end edges of the ring assembly edge, and the position limiting ring assembly part of the magnetic ring cover unit Is an elastic stopper configuration, and the position limiting ring assembly portion is provided with a guide inclined surface that is slidably inserted in a corresponding manner relative to the annular inclined surface of the ring assembly edge. In addition, after the groove for cutting is opened on both sides of the position limiting ring assembly portion and the ring assembly edge is just inserted into the position limiting ring assembly portion, the position limiting ring assembly portion is elastic. When the ring assembly edge comes into contact and the ring assembly edge attempts to penetrate the position restriction ring assembly part, the position restriction ring assembly part is restored to an elastic position and stops the ring assembly edge. The construction of claim 1 Magnetic attraction structure improved connection end.   The magnetic attraction structure improvement of the tool connection end according to claim 1, wherein the rotation drive end of the rotation drive unit has a cross-shaped driver end shape or a non-circular driver end shape. The drive body and the drive end of the drive unit are in the form of a driver head having a hexagonal cross section;
Subsequently, the drive unit includes an L-shaped rod body, and rotational drive units are provided at both ends,
Further, the drive unit has a drive end having a grip pattern shape, a drive main body having a straight bar shape is extended from one end of the drive end, and a rotary drive unit is continuously provided at an end of the drive main body. And
Subsequently, the drive unit has a drive body in the form of a sleeve, a non-circular engagement groove is provided at one end of the drive body, and the rotary drive unit is latched and attached to the engagement groove. A drive end having a cross handle shape is provided at the other end of the drive body;
Further, the drive unit has a drive body in the form of a twin driver head, the rotary drive units are respectively provided at both end positions of the drive unit, and the rotary drive ends at both ends of the rotary drive unit are respectively The magnetic attraction structure improvement of the tool connection end according to claim 1, wherein the improvement is in the form of a cross-shaped or single-shaped driver end.   The magnetic attraction structure improvement of the tool connection end according to claim 1, wherein the magnetic induction surface of the rotary drive unit is made of a metal material having magnetic attraction.   The magnetic attraction structure improvement of the tool connection end according to claim 1, wherein the magnetic ring cover unit is made of an elastic-plastic material.

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