KR200169563Y1 - A tightening lever structure for vise - Google Patents

Abstract

The present invention has a structure in which the tightening lever for tightening and releasing the vice is formed into a structure that can be operated by selecting a power transmission direction. It is about a tightening lever structure.

Conventionally, when rotating the rotating shaft of the vise using a rotating rod to tighten and loosen, but the rotating rod can be rotated up to 180 ° at a time, not only the tightening operation is very slow, but also the rotating rod is a lot of flow from the hole does not perform the tightening operation properly If there is an obstacle in the vicinity, there is a disadvantage in that tightening operation becomes more difficult due to interference by the interference.

Therefore, the present invention forms a shaft end 16 of the tightening shaft 15 of the vise 12 in a polygonal shape, and combines a tightening lever that can arbitrarily adjust the power transmission direction, such as a two-way wrench, to the shaft end 16. After selecting the direction, simply repeat the reciprocating motion at regular intervals to conveniently rotate the rotating shaft in the desired direction, so that the workpiece can be fixed easily with a vise within a short time, and there is no interference even when there is an interference in the surroundings. Tightening operation can be performed.

Description

A tightening lever structure for vise

The present invention relates to the structure of the tightening lever of the vise, in particular, the tightening lever to loosen and loosen the vise to form a structure that can be operated by selecting the power transmission direction, select the direction during operation and rotate the tightening shaft in the desired direction and vise It is about the structure of the tightening lever of the vise to tighten and loosen the.

In general, the vise 12 is a tool used to fix the workpiece, and the body consisting of the fixing tank 13 and the moving tank 14 is firmly fixed to the die 10 to tighten the tightening shaft 15 to the tightening lever. The workpiece is fixed by rotating the movable tank 14 to the fixed tank.

In particular, the tightening lever penetrates the hole 17 at the end of the tightening shaft 16 and inserts the rotary rod 18 into the hole to form a T shape, and then rotates the tightening shaft 15. At this time, since the rotary rod 18 is loosely inserted into the hole 17, when one side is interfered with by the peripheral article, the rotary rod 18 moves to the uninterrupted side and rotates.

However, when rotating the rotating shaft, only a maximum of 180 ° can be rotated at a time by using the rotating rod, so the tightening operation is very slow, and the rotating rod has a great flow from the hole, and thus, the tightening operation cannot be performed properly, and there is an interference in the surroundings. There is a disadvantage that the operation is more difficult to receive the interference to the interference.

The present invention has been devised to solve such a conventional disadvantage, the purpose is to install a tightening lever arbitrarily adjustable in the rotational direction, such as a two-way wrench on the shaft end to select the desired rotational direction and to repeatedly perform the reciprocating motion at a regular cycle By simply rotating the rotating shaft in the desired direction, it is possible to easily fix the workpiece in a vise within a short time and to provide a tightening lever structure of the vise that is not disturbed by surrounding interference.

1 is a perspective view showing the structure of a vise according to the prior art,

Figure 2 is an exploded perspective view showing the structure of the vise according to the present invention,

Figure 3 is a perspective view of the main portion of the vise according to the present invention,

4 is a sectional view of main parts of the present invention;

5 is a perspective view of the shaft end according to another embodiment of the present invention,

6 is a cross-sectional view of the tightening lever coupled to the shaft end of FIG.

*** Explanation of symbols for the main parts of the drawing ***

10-Die 12-Vise 13-Fixture

14-Transfer tank 15-Tightening shaft 19-Shaft end

20-Tightening lever 21-Body 22-Bracket

23-Drive gear 24-Insertion hole 25-Gear groove

30-Stationary selection lever 31-Hinge shaft 32a, 32b-Operating wing

33a, 33b-Reverse Ratchet 34-Protrusion 35-Stopper

36-Spring 37-Ball 41-Stop Ball

42-Spring 43-Groove

Means of the present invention for achieving the above object, in the tightening lever for forward and reverse rotation of the tightening shaft for moving the movement tank of the vise, the shaft end of the tightening lever is formed in a polygon, the shaft end in the rotation direction of the tightening shaft This is achieved by combining a tightening lever that can be selected and rotated.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing the structure of a vise according to the prior art, Figure 2 is an exploded perspective view showing the structure of the vise according to the present invention.

As shown in the figure, the fixing tank 13 and the moving tank 14 are provided, and the moving tank 14 is connected to the tightening shaft 15 so that the vise 12 installed to be movable is firmly installed on the die 10. have.

In such a vise 12, the end of the tightening shaft 15 exposed toward the fixed shaft is formed into a hexagon (polygon).

Figure 3 is a perspective view of the main part of the vise according to the present invention, Figure 4 is a sectional view of the main part of the present invention, reference numeral 20 is a tightening lever. The tightening lever 20 formed a double-layered bracket 22 spaced apart at regular intervals on the upper end of the long body 21 and made a hole therein to build the drive gear 23. The drive gear 23 has an insertion hole 24 to which the shaft end 19 of the tightening shaft 15 is fitted in its inner diameter and a drive gear 23 having a gear groove 25 formed on the outer circumference thereof. Further, between the body 21 and the gear, a forward and reverse selection lever 30 for selecting and controlling the rotational direction of the drive gear 23 is pivotally coupled to the hinge shaft 31. The stationary selection lever 30 is a stationary region inserted into the gear groove 25 of the drive gear 23 at the upper end of each of the operation blades 32a and 32b and the operation blades 32a and 32b exposed to the outside on both sides. The ratchet 33a, 33b is formed, the protrusion 34 is formed in the center lower part, and the stopper 35 is provided in the upper center part of the body 21 corresponding to the protrusion 34. As shown in FIG. The stopper 35 has a spring 36 installed inside the ball groove, and the ball 37 is installed at the top thereof with the ball 37 protruding to the upper portion of the ball groove, thereby inclining the protrusion 34 of the stationary selection lever 30 to one side. It is supposed to stay true.

By this structure, the present invention, when the shaft end 19 of the tightening shaft 15 is inserted into the drive gear 23 of the tightening lever 20, the tightening lever 20 and the shaft end 19 is rotated integrally.

In the case where the workpiece 14 is to be tightened by moving the moving tank 14 to the vise 12, the operating blades 32a and 32b of the stationary selection lever 30 are operated to adjust the gears of the driving gear 23. After inserting into the groove 25, the tightening lever 20 is rotated. When the forward gear, i.e., in the tightening direction is rotated by this operation, the drive gear 23 is not rotated but is fixed by the forward ratchet 33a, so the shaft ends 19 of the tightening shaft 15 rotate together. Do it. On the contrary, when the reverse rotation is performed, the drive gear 23 rotates while lifting the forward ratchet 33a, so that the rotation is free, and thus, the drive gear 23 turns away from the shaft end 19. For this reason, power is not transmitted and shaft end 19 does not rotate. By this operation, the tightening shaft 15 is rotated so that the movable tank 14 firmly fixes the workpiece to the fixed tank 13.

On the other hand, when the machining operation of the workpiece is completed and must be dismantled, by operating the operating blades (32a) and (32b) of the stationary selection lever 30 to move the forward ratchet (33a) from the gear groove 25 and reverse ratchet ( 33b) is inserted into the gear groove 25. In this state, when the tightening lever 20 is rotated, the above-described opposite phenomenon occurs, and the moving tank 14 is separated from the fixing tank 13 and the workpiece fixed to the vise 12 is disassembled.

Rotating lever 20 of this structure can be used to apply to all of the articles used to be fixed to the support, such as a vise 12 as well as a stand.

Figure 5 is a perspective view of the shaft end portion according to another embodiment of the present invention, Figure 6 is a cross-sectional view of the tightening lever is coupled to the shaft end portion of FIG.

As shown in the drawing, a stop ball 41 is installed at the shaft end 19 so that the tightening lever 20 is not easily removed after being inserted into the shaft end. That is, the groove 43 is formed on one side of the shaft end 41, the spring 42 is elastically installed therein, and the upper end of the stop ball 41 is protruded thereon.

By inserting the tightening lever 20 by applying the force in the axial direction by this structure, the stop ball 41 is inserted into the groove 43 while compressing the spring 42, and the tightening lever 20 is easily mounted. Once the insertion is completed, it is protruded by the elastic force of the spring 42 again to support the rear end of the tightening lever 20, so that it does not fall back unless a large force is applied, and thus it can be used stably. 20 is always stored coupled to the shaft end 19.

In addition, when detached from the shaft end 19 by applying a force in the same way as when combined to remove easily.

On the other hand, the tightening lever 20 of the present invention can be used to loosen or tighten other bolts or nuts in addition to the vise.

As such, the present invention has a fastening lever of a structure that can be selectively adjusted in the direction of power transmission and is installed at the shaft end of the tightening shaft of the vise. It can be effective.

In addition, even if there is an interference in the vicinity, the tightening lever can freely change its position, so it can be manipulated in a state in which the position is moved to a section which is not interfered with by the interference.

Claims (2)

In the tightening lever for forward and reverse rotation of the tightening shaft 15 for moving the movable tank 14 of the vise 12 to the fixed tank 13, the shaft end 19 of the tightening lever is formed in a polygon, and the shaft end ( The fastening lever 20 is coupled to the fastening lever 20, and the fastening lever 20 forms a double-layered bracket 22 at the upper end of the long body 21, and a hole is formed in the upper portion thereof so that the shaft end 19 is formed therein. A drive gear 23 having an insertion hole 24 to be fitted and a gear groove 25 around the periphery is constructed, and both operation blades 32a and 32b and a drive gear at an upper end between the body 21 and the gear. A forward / lower ratchet (33a) (33b) inserted into the gear groove (25) of the (23) and a lower / lower selector (30) pivoted by a hinge shaft (31) with a projection (34) at the lower center; Fastening lever of the vise, characterized in that the stopper 35 is installed to maintain the angle of the forward and backward ratchet (33a, 33b) by intermittent the projection 34 in the upper center of the body (21) Article. The method of claim 1, wherein the groove 43 is formed on one side of the shaft end 41, the spring 42 is elastically installed therein, and the stop ball 41 at the upper end thereof to the outside of the groove 43. Tightening lever structure of the vise, characterized in that to be installed so as to protrude to maintain a stable coupling of the tightening lever (20).