JP2016083727A - Rotary positioning socket holder - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a socket holder for performing positioning by abutment means by rotatably adjusting a positioning block in particular.SOLUTION: The rotary positioning socket holder includes a base, a positioning plate, and a plurality of positioning blocks. The base has rails projected on opposing surfaces, a connection plate is installed between the lower sides of the rails, and a positioning recess is formed in the connecting plate. The positioning plate is fitted in the positioning recess of the base, and an abutment part is provided to project between the rails from the lower side. The positioning block is installed on the rail of the base so as to be rotatable and slidable in the longitudinal direction of the rail. The positioning block is brought into contact with the abutment part via a bottom part and with the inner surfaces of the two rails via upper surface both sides, thereby constituting three abutment points. The positioning block is positioned on the base and the positioning plate by the abutment points.SELECTED DRAWING: Figure 1

Description

  In particular, the present invention relates to a socket holder that adjusts a positioning block to be rotatable and performs positioning by contact means.

  The existing socket holder has a rail and a plurality of positioning blocks, and these positioning blocks are slidably installed on the rail, so that the positioning block can be stored so that the socket can be hung, Since the socket can be rotated with respect to the positioning block, the user can turn the socket and check the dimension mark displayed on the outer peripheral surface.

Taiwan Patent No. I395646

  However, since the existing socket holder has a structure in which the positioning blocks are slidably and rotatably installed on the rails, the positioning blocks are not fixed, so if the positioning blocks are moved or contacted There is a possibility that the dimension mark may be shifted due to rotation of the socket. In such a situation, the user has to bother to rotate the positioning blocks so that the dimension marks can be seen and return them to their original positions, which is very inconvenient and needs to be improved.

The rotary positioning socket holder according to the present invention is:
Rails are provided on the inner surfaces facing each other, sliding grooves are formed in the opposing spaces of the two rails, and a lower opening is formed between the two rails. Two side plates provided on the base, and a base having a connecting plate in which both ends are respectively attached to the bottom surface of the rail and a positioning recess is formed between the two rails,
A positioning plate that is an elastic plate that is fitted in the positioning recess of the base and has a protruding contact portion that protrudes into the sliding groove through the lower opening on the upper surface;
A plurality of positioning units each including an adjustment seat and a positioning column provided on the upper surface of the adjustment seat, which are installed on the base so as to be slidable along the longitudinal direction of the rail so as to be rotatably fitted in the sliding groove. And having a block,
Among them, the positioning block is provided with a contact surface that contacts the contact portion of the positioning plate on the bottom surface of the adjustment seat, and both upper surface sides of the adjustment seat are in contact with the inner surfaces of the two rails, Three contact points are configured, and the contact points are positioned on the base and the positioning plate.

On the other hand, the rotary positioning socket holder according to the present invention is:
A base provided with two side plates, each having a rail projecting on the inner surface facing each other, a sliding groove formed in the space between the two rails, and a lower opening formed between the two rails; ,
A positioning plate which is an elongated elastic plate provided integrally with the bottom of the two rails of the base and having a contact portion protruding through the lower opening and protruding into the sliding groove on the upper surface;
A plurality of positioning units each including an adjustment seat and a positioning column provided on the upper surface of the adjustment seat, which are installed on the base so as to be slidable along the longitudinal direction of the rail so as to be rotatably fitted in the sliding groove. And having a block,
Among them, the positioning block is formed with a contact surface that contacts the contact portion of the positioning plate on the bottom surface of the adjustment seat, and both upper surface sides of the adjustment seat contact the inner surfaces of the two rails. Two contact points may be formed and positioned on the base and the positioning plate by the contact points.

In such a rotary positioning socket holder,
Lower contact surfaces are provided on the lower inner surfaces of the two rails,
It is preferable that the contact portion of the positioning plate bends obliquely downward as it goes to both sides from the center portion, and the uppermost portion of the center portion protrudes from the lower contact surface of the rail.

In such a rotary positioning socket holder,
Preferably, a sealing edge extends downward at one end of the positioning plate, and the sealing edge seals one end opening of the rail of the base.

In such a rotary positioning socket holder,
A positioning hole is formed near one side of the connecting plate,
It is preferable that a positioning convex portion protrudes in the vicinity of the sealing edge on the bottom surface of the positioning plate, and the positioning convex portion is engaged with the positioning hole.

In such a rotary positioning socket holder,
It is preferable that the contact surface of the positioning block has a flat shape, a wave shape, or a tooth shape.

In such a rotary positioning socket holder,
It is preferable that a contact protrusion is provided on the bottom surface of the adjustment seat so as to protrude downward, and the contact surface is provided on the bottom surface of the contact protrusion.

The rotary positioning socket holder according to the present invention can provide the following effects by the structure.
Since the positioning block is fitted into the sliding groove via the adjustment seat, the contact surface comes into contact with the contact portion of the positioning plate, and both upper surfaces of the adjustment seat come into contact with the inner surfaces of the two rails. When the three positions are in contact, the positioning block can be positioned on the base and the positioning plate. Therefore, if the user rotates or slides the positioning block and adjusts the positioning block to an appropriate position, the positioning block is positioned, so that it does not slide or rotate with respect to the base and the positioning plate.

  Further, the positioning plate may be formed integrally with the base in order to reduce the production cost, but it is detachably attached to the base. When the positioning plate is detachably attached to the base, the positioning member can be removed from the base and replaced when the positioning plate is elastically fatigued or damaged. Therefore, the user can freely select any type of rotary positioning socket holder according to the situation.

1 is a perspective view of a first embodiment of a rotary positioning socket holder according to the present invention. 1 is a partially exploded perspective view of a first embodiment of a rotary positioning socket holder according to the present invention. 1 is a partially exploded perspective view of a first embodiment of a rotary positioning socket holder according to the present invention. FIG. 4 is a cross-sectional view taken along line 4-4 of FIG. FIG. 5 is a cross-sectional view taken along line 5-5 of FIG. In the first embodiment of the rotary positioning socket holder according to the present invention, it is a partial perspective view showing an operation of rotating the socket so that the dimension mark can be seen by hanging the socket on the positioning block. In the first embodiment of the rotary positioning socket holder according to the present invention, it is a partial cross-sectional view showing the operation of rotating the socket so that the dimension mark can be seen by hanging the socket on the positioning block. It is a partial exploded perspective view of the second embodiment of the rotary positioning socket holder according to the present invention. It is sectional drawing of the 2nd Example of the rotary positioning socket holder which concerns on this invention. FIG. 6 is a partial exploded perspective view of a third embodiment of the rotary positioning socket holder according to the present invention. FIG. 9 is a partial exploded perspective view of a fourth embodiment of the rotary positioning socket holder according to the present invention. It is sectional drawing of the 5th Example of the rotary positioning socket holder which concerns on this invention.

  As shown in FIGS. 1 to 5, the first embodiment of the rotary positioning socket holder according to the present invention includes a base 10, a positioning plate 20, and a plurality of positioning blocks 30.

As shown in FIGS. 1 and 2, the base 10 is made of an aluminum extruded material, has an elongated shape, and includes two side plates 11 and a connecting plate 12.
The two side plates 11 are provided so as to face each other with a gap therebetween, and rails 111 project from the inner surfaces facing each other, and an upper contact surface 1110 is provided above the inner surface of the rail 111. A lower abutting surface 1113 is provided on the lower side of the inner surface, and sliding grooves 112 are formed in the opposing spaces of the two rails 111 along the longitudinal direction of the base 10, respectively. An upper opening 113 communicating with the sliding groove 112 is formed, and a lower opening 114 communicating with the two sliding grooves 112 and the upper opening 113 is formed at the lower center of the side plate 11.

  The connecting plate 12 has a U-shaped cross section, two upper ends of the U-shape are connected to the bottom surface of the rail 111, a positioning recess 121 is formed between the two rails 111, and an engagement hole is formed in the vicinity of one side. 122 is formed. In this embodiment, the width of the short side of the upper opening 113 is shorter than the width of the short side of the sliding groove 112, and the width of the short side of the lower opening 114 is shorter than the width of the short side of the positioning recess 121. Is preferred.

  As shown in FIGS. 2 to 4, the positioning plate 20 is a plate made of plastic steel having an elongated shape, and is fitted into the positioning recess 121 of the base 10, and the sealing edge 21 extends downward at one end thereof. A positioning projection 22 is provided in the vicinity of the sealing edge 21 on the bottom surface. The positioning projection 22 is engaged with the positioning hole 122 of the base 10 and further abuts on the center of the top surface of the positioning plate 20. The portion 23 is projected, and the corresponding contact portion 23 extends along the longitudinal direction of the positioning plate 20 and is curved obliquely downward as it goes from the center of the upper surface of the positioning plate 20 to both sides. The portion 23 is fitted into the positioning recess 121 of the base 10 so as to pass through the lower opening 114 and protrude into the sliding groove 112. In the present embodiment, it is preferable that the uppermost portion at the center of the contact portion 23 protrudes from the contact portion of the rail 111.

  When the positioning plate 20 is attached to the base 10, the positioning plate 20 is inserted from the opening on the positioning hole 122 side of the base 10, the positioning protrusion 22 is engaged with the positioning hole 122 of the base 10, and the sealing edge 21 When the one side opening of the base 10 is sealed, the positioning plate 20 is firmly attached to the base 10.

As shown in FIGS. 2, 3, and 5, the positioning block 30 is installed in the base 10 so as to be slidable along the longitudinal direction of the rail 111 by being fitted into the sliding groove 112 so as to be rotatable. . Each positioning block 30 includes an adjustment seat 31 and a hanging column 32. The adjustment seat 31 is fitted in the slide groove 112 so as to be rotatable and slidable, and is a flat disc body. It may be a disc body having a step. The adjustment seat 31 in the present embodiment is a two-stage disc body (as shown in FIG. 5), and an upper step portion 311 is provided at the upper portion, a lower step portion 312 is provided at the lower portion, and the diameter of the lower step portion 312 is provided. Is larger than the diameter of the upper step portion 311, the diameter of the lower step portion 312 is smaller than the width of the short side of the sliding groove 112, and the diameter of the upper step portion 311 is smaller than the width of the short side of the upper opening 113. Further, a flat contact surface 313 is formed on the bottom surface of the adjustment seat 31, and the hanging column 32 is a hollow rectangular block, and is integrally formed on the upper surface of the upper step portion 311 of the adjustment seat 31. A locking projection 321 is projected on one outer peripheral surface, and the socket can be fixed by engaging the locking projection 321 with the inner peripheral surface of the socket.

  As shown in FIGS. 6 and 7, when the first embodiment of the rotary positioning socket holder according to the present invention is used, the sockets 40 of different sizes are attached to the positioning blocks 30, respectively, If the adjacent socket 40 is positioned at an appropriate interval while rotating the dimension mark 41 facing the user side, the user can directly see the dimension mark 41 of the socket 40 and remove the socket 40. Easy to use.

  Further, by fitting the adjustment seat 31 of the positioning block 30 into the sliding groove 112, the contact surface 313 comes into contact with the contact portion 23 of the positioning plate 20, and both upper surfaces of the lower step portion 312 have two rails 111. Since the upper contact surface 1110 is contacted, the positioning block 30 can be positioned on the base 10 and the positioning plate 20 by the contact of these three portions. According to this configuration, when the user adjusts the positioning block 30 and the socket 40 to an appropriate position by rotating or sliding the positioning block 30 and the socket 40, the positioning block 30 and the socket 40 are positioned to the base 10 and the positioning plate 20. It does not slide or rotate.

  On the other hand, when the user lowers the socket 40 or the positioning block 30 downward and moves away from the rail 111, the positioning block 30 can be adjusted to be rotatable or slidable. According to this configuration, if the user fits the socket 40 in the positioning block 30 and adjusts it to an appropriate position, the socket 40 or the positioning block 30 will not slide or collide, so there is no need to readjust. . Further, when the positioning plate 20 is damaged due to elastic fatigue or due to an external force, the positioning plate 20 may be changed.

  As shown in FIGS. 8 and 9, the second embodiment of the rotary positioning socket holder according to the present invention is almost the same as the first embodiment, but the positioning block 30A is different. That is, as shown in FIG. 9, the contact projection 314 is provided on the bottom surface of the adjustment seat 31 </ b> A of the positioning block 30 </ b> A in this embodiment so as to protrude downward, and the contact surface on the bottom surface of the contact projection 314. 313 is provided, and the corresponding contact surface 313 contacts the contact portion 23 of the positioning plate 20. In addition, since the usage method of a present Example is the same as 1st Example, description is abbreviate | omitted.

  As shown in FIG. 10, the third embodiment of the rotary positioning socket holder according to the present invention is almost the same as the first embodiment, but the positioning block 30B is different. That is, the contact surface 313B of the positioning block 30B in the present embodiment has a smooth wavy surface, that is, a plurality of concave portions and convex portions are alternately and annularly arranged. According to this configuration, when the contact surface 313B of the positioning block 30B comes into contact with the contact portion 23 of the positioning plate 20, the frictional force increases, and the positioning effect of the positioning block 30B is enhanced. In addition, since the usage method of a present Example is the same as 1st Example, description is abbreviate | omitted.

  As shown in FIG. 11, the fourth embodiment of the rotary positioning socket holder according to the present invention is almost the same as the first embodiment, but the positioning block 30C is different. That is, in the contact surface 313C of the positioning block 30C in the present embodiment, a plurality of peaks and valleys are alternately and annularly arranged. According to this configuration, when the contact surface 313C of the positioning block 30C comes into contact with the contact portion 23 of the positioning plate 20, the frictional force increases, and the positioning effect of the positioning block 30C is enhanced. In addition, since the usage method of a present Example is the same as 1st Example, description is abbreviate | omitted.

As shown in FIG. 12, the fifth embodiment of the rotary positioning socket holder according to the present invention is almost the same as the first embodiment, except that the base 10D and the positioning plate 20D are integrally formed. That is, the base 10D in the present embodiment includes two side plates 11D, and these side plates 11D are provided so as to face each other with a gap therebetween, and rails 111D project from one side facing each other. The positioning plate 20D is an elongated elastic plate, and both side edges in the longitudinal direction are integrally provided at the bottom of the rails 111D on both sides.
According to the above-described structure, it is not necessary to form the positioning recess 121 in the base 10D of this embodiment, and the production cost can be reduced by the integrally formed base 10D and the positioning plate 20D, which is extremely useful.

10, 10D base 11, 11D side plate 111, 111D rail 1110 upper contact surface 1113 lower contact surface 112 sliding groove 113 upper opening 114 lower opening 12 connecting plate 121 positioning recess 122 positioning hole 20, 20D positioning plate 21 sealing edge 22 Positioning convex portion 23 Abutting portion 30, 30A, 30B, 30C Positioning block 31, 31A Adjustment seat 311 Lower step portion 312 Lower step portion 313, 313B, 313C Abutting surface 314 Abutting projection portion 32 Hanging column 321 Locking projection portion 40 Socket 41 Dimension mark

Claims (10)

Rails are provided on the inner surfaces facing each other, sliding grooves are formed in the opposing spaces of the two rails, and a lower opening is formed between the two rails. Two side plates provided on the base, and a base having a connecting plate in which both ends are respectively attached to the bottom surface of the rail and a positioning recess is formed between the two rails,
A positioning plate that is an elastic plate that is fitted in the positioning recess of the base and has a protruding contact portion that protrudes into the sliding groove through the lower opening on the upper surface;
A plurality of positioning units each including an adjustment seat and a positioning column provided on the upper surface of the adjustment seat, which are installed on the base so as to be slidable along the longitudinal direction of the rail so as to be rotatably fitted in the sliding groove. And having a block,
Among them, the positioning block is provided with a contact surface that contacts the contact portion of the positioning plate on the bottom surface of the adjustment seat, and both upper surface sides of the adjustment seat are in contact with the inner surfaces of the two rails, A rotary positioning socket holder comprising three contact points and positioning on a base and a positioning plate by the contact points. Lower contact surfaces are provided on the lower inner surfaces of the two rails,
The abutting portion of the positioning plate is curved obliquely downward as it goes to both sides from the central portion, and the uppermost portion of the central portion protrudes from the lower abutting surface of the rail. 2. The rotary positioning socket holder according to 1.   The rotary positioning socket holder according to claim 2, wherein a sealing edge extends downward at one end of the positioning plate, and the sealing edge seals one end opening of the rail of the base. A positioning hole is formed near one side of the connecting plate,
The rotary positioning socket holder according to claim 3, wherein a positioning projection is provided in the vicinity of the sealing edge on the bottom surface of the positioning plate, and the positioning projection is engaged with the positioning hole.   The rotary positioning socket holder according to any one of claims 1 to 4, wherein the contact surface of the positioning block has a flat shape, a wave shape, or a tooth shape.   6. The rotary positioning socket holder according to claim 5, wherein a contact protrusion is provided on the bottom surface of the adjustment seat so as to protrude downward, and the contact surface is provided on a bottom surface of the contact protrusion. . A base provided with two side plates, each having a rail projecting on the inner surface facing each other, a sliding groove formed in the space between the two rails, and a lower opening formed between the two rails; ,
A positioning plate which is an elongated elastic plate provided integrally with the bottom of the two rails of the base and having a contact portion protruding through the lower opening and protruding into the sliding groove on the upper surface;
A plurality of positioning units each including an adjustment seat and a positioning column provided on the upper surface of the adjustment seat, which are installed on the base so as to be slidable along the longitudinal direction of the rail so as to be rotatably fitted in the sliding groove. And having a block,
Among them, the positioning block is formed with a contact surface that contacts the contact portion of the positioning plate on the bottom surface of the adjustment seat, and both upper surface sides of the adjustment seat contact the inner surfaces of the two rails. A rotary positioning socket holder comprising two contact points and positioning on a base and a positioning plate by the contact points. Lower contact surfaces are provided on the lower inner surfaces of the two rails,
The abutting portion of the positioning plate is curved obliquely downward as it goes to both sides from the central portion, and the uppermost portion of the central portion protrudes from the lower abutting surface of the rail. The rotary positioning socket holder according to claim 7.   The rotary positioning socket holder according to claim 7 or 8, wherein the contact surface of the positioning block has a flat shape, a wave shape, or a tooth shape.   The rotary positioning socket holder according to claim 9, wherein a contact projection is provided on the bottom surface of the adjustment seat so as to protrude downward, and the contact surface is provided on a bottom surface of the contact projection. .

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