SE467425B - DEVICE FOR IMMEDIATE LOADING OF TWO RELATIVELY EACH RELEASE CONTROLLED ELEMENTS - Google Patents

Description

ISLAND\ - <1 NJ GW pierces holes in one telescopic element and abuts against end of the other. The telescopic installation is further on its own end provided with an abutment element for abutment against the wall, ceiling or floor in question and this abutment element is connected to one telescopic element via a threaded device by means of which the final tension can be performed.

This known telescopic device suffers from the disadvantage that the assembly work becomes relatively cumbersome and time consuming due to the need to hold hands and in applicable holes introduce the locking pins.

SUMMARY OF THE INVENTION The object of the present invention is to provide a simple and efficiently functioning device for mutual locking of two relatively slidably controlled elements, in particular shovel element.

This object is achieved by giving the device the features which appears from the following patent claims and then primarily the claim l. which through the abutment against the first element takes care of the lock function.

Hereby the locking means acquires the character of a clamping locking means, It is preferred that the device has a needle forcibly movement of the locking member relative to the second element therein first direction during carrying, if the locking means is in its locking position, of the first element. Thereby can themselves the locking means is used for forced relative movement of the elements.

BRIEF DESCRIPTION OF THE DRAWINGS 467 425 With reference to the accompanying drawings, one follows a more detailed description of an exemplary embodiment of the invention.

On the drawings are Fig. 1 is a schematic view illustrating a practical application of the device according to the invention, Fig. 2 is a partially cut, enlarged view of a part of the device according to Fig. 1, and Fig. 3 is a view of the locking member according to Fig. 2 viewed from above.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Fig. 1 illustrates a telescopic device comprising two relatively telescopically displaceably guided elements 1, 2. These elements are meant in the example to have a substantially square cross-section, wherein at least the element 2 is preferably also the element 1. is hollow. However, it should be understood that also other polygonal as well as round cross-sectional shapes are possible.

As will be described below, 'telescopic equipment 1, 2 is intended to be clamped between two fixed points or surfaces, such as floors and ceilings. in a building. Telescopic right- is intended to form a carrier and trajectory for a carriage or slide 3, which is movable along the telescopic element 2, e.g. pelvis in that it later has a toothed path 4 engaging with a drive gear arranged on the carriage 3. At the carriage 3 can be attached one. carrying device 5 for a. drilling machine, by which holes can be made in parts of the building in which set up. 467 425 The telescopic element 1 has at its outer end an abutment means 6 for supporting abutment against a solid surface, eg the roof.

The telescopic element 2 is illustrated in the example as connected to a basic abutment means 7 intended to abut against another solid surface, eg a floor.

The telescopic device includes a device 8 for interconnection locking of the telescopic elements 1, 2 relative to each other. As will be described in the following, furthermore the device 8 is so performed that by means of the same telescopic elements lq 2 forcibly can be displaced relative to each other in order to extend the telescopic device and consequently in and for clamping of the establishment between two solid surfaces.

As most clearly shown in Fig. 2, the device 8 has a tiltable locking means 9, which has a locking effect locking portions 10, 11, which are arranged to abut from different directions against an intermediate portion of the first telescopic element 1.

Furthermore, the device has a member 12 arranged to support the locking means 9 relative to the element 2 and an actuating means 13 arranged to resiliently actuate the locking means for tilting thereby bringing the locking portions 10, 11 into locking contact. towards the outside of the element 1. The locking means 9 is arranged to i its locking position allow displacement movement of the element 1 relative to the element 2 in a first direction (arrow 14) but block against such displacement movement in. the opposite direction and also block against displacement of the element 2 relative to the element 1 in the direction indicated by the arrow 14. In the locking member 9 position, the locking portions 10, 11 are oriented in a plane or along a line 15 extending obliquely in relation to the longitudinal direction of the telescopic device.

The actuating means 13 acts between a point on the locking means 9 and a point on the element 2. It is preferred that the the gear 13 consists of a spring, in particular a tension spring. Thereby 467 425 a simple and robust design is obtained if the tension spring is constituted of an annular rubber body laid around a hook 16 on the locking member and a hook 17 arranged on the outside of the element 2.

The support member 12 forms a rocker center \ 18 for the locking member 9.

Furthermore, the support means 12 and the actuating means 13 are arranged on opposite sides of the element 1.

The device 8 has a needle for forcibly moving the locking means 9 relative to the element 2 in the direction of the arrow 14 during carrying, if the locking means 9 is in its locking position, of element 1. In the example, these means of transport are realized in that the support member 12 has a thread 19 which engages with a corresponding thread 20 of the locking member 9. By mutual screwing of the support member 12 and the locking member 9 can consequently the latter is moved away from the adjacent end of element 2.

More specifically, the support member 12 is constituted by a screw, one of which end abuts freely and loosely against the element 2, in practice against a support surface 21 formed below a wide one. the outside of the tube element 2 fixed. bracket 22, forming the tilt center 18 and whose other end 23 is designed to cooperate with an operating means 24, by means of which the screw 12 is rotatable. The actuator 24 has a handle 25 shaped like a shaft 25. The actuator 24 may in practice have the character of a wrench.

As can be seen from Fig. 3, the locking member 9 can have the character of the pipe element 1 enclosing bracket or sleeve with an interior space 26 having a shape corresponding to the outer cross-sectional the shape of the tube element 1 but with a slightly larger width than the tube element the outer dimensions of the element 1 so that the latter with some play is receptive in the inner space of the locking member 9. Locking portions 10 and 11 consists of edge portions of the inner surfaces of the locking member 9 which limits its inner space 26. To get the locking portion 11 on suitable height in relation to the locking portion 10 can as shown 4-67 425 of Fig. 2 a recess 27 is made in one of the interiors of the locking member 9 space 26 limiting wall sections. As can be seen from Fig. 3 can the screw 12 at its end 23 have a suitable design for torsionally rigid interaction with a corresponding design on a head 28 of the actuator 24. In the example, this design is constituted on the screw 12 of a non-circular recess 29 in the upper end surface of the screw, i which depression has a corresponding non-round portion of the control the head 28 of the gan is intended to be received. In the example, this is round recess and this non-round projection designed with polygonal and more precisely four-sided cross-section.

It is further preferred that the actuator 24 be in such engagement with. screw 12 to the actuator 24 by moving the handle 25 in the direction of the arrow 30, i.e. downwards. in Fig. 2, capable of transmitting such a motion to the screw 12 that it and the locking device connected thereto by means of the threaded connection 19, 20 ganet 19 performs such a tilting movement around the tilting center 18 that the reading abutment of the locking member 9 against the pipe element 1. is canceled. Although it is preferred that the control handle 24 be releasable from the screw 23 with a simple hand grip it would also be possible to design the actuator 24 as more or less fixed connected to the screw 12.

It is expedient for the actuator 24 to have one when rotating keys commonly occurring regulator as in a first position allows the screw 12 to be driven in a first direction of rotation while the actuator 24 is rotated back and forth and in a second position allows the screw 12 to rotate in the second the direction. while the actuator 22 in an analogous manner moved in a reciprocating rotational motion.

As can be seen from Fig. 2, it can be inserted into the pipe element 2 end of the pipe element 1 be inserted a plastic plug 31 intended to even out the gap between the tubular elements. Inside the locking device the proximal end of the pipe element 2 can be arranged gap-absorbing spacers 32. 467 425 The described device operates as follows: The screw 12 is set approximately in the position that illustrated in Fig. 2, i.e. so that the screw 12 abuts against the support surface 21 and holds the locking member 9 at some distance from the moving member. upper end of the unit 2. The actuating means 13 tends to tilt the locking means 9 so that its locking portions 10, 11 come into contact with the pipe element 1. In this situation, the pipe element 1 of the the tube element is displaced relative to the tube element 2 in the direction of the arrow 14 without the locking means 9 preventing such displacement. Instead obtains the locking means 9 through the contact with the pipe element 1 tendency to tilt in such a direction that the locking the grip during the displacement of the pipe element 1 is released. So soon the pipe element 1 has been moved to the desired position, the operator can release the same, the actuating means 13 immediately pulling the locking means 9 for locking cooperation with the pipe element 1 below some tendency to tilt the locking member. At the same time the screw 12 supporting against the support surface 21 so that the pipe element 1 is kept in the set position relative to the pipe element 2. If desired, can now the operator by means of the actuator 24 turn the screw 12 so that the engagement between the threads 19 and 20 down to the locking means 9 while carrying the locking tube element 1 therewith, moved in the direction of the arrow 14 relative to the element 2. nom can further clamp the tube elements 1 and 2 between two surfaces are obtained. Upon such rotation of the screw 12 is increased further the locking clamp of the locking element 9 against the pipe element 1 partly by the eccentric arrangement of the screw 12 relatively the locking member 9 and the pipe element 1, partly by thereby pulling the spring 13 is further tightened.

When the operator then wants to displace the pipe element 1 in the direction opposite the arrow 14 relative to the element 2, the operator, possibly after some rotation of the screw 12 in the opposite direction actuating the handle 25 of the actuator downwards in the direction of the arrow 30- which causes the locking member 9 to be tilted around rocker centerx 18 in the release direction. By correctly tune the downward force on the handle 25 can the operator 467 425 achieve controlled, braked lowering of the pipe element l due to the effect of gravity thereon.

The described device can also be used upside down position in relation to that shown in Fig. 2, i.e. that then it inner tube element 1. will extend downward, while it outer will extend upward from the area of the locking device. 8. When the operator in such an inverted use case should displace the outer tube element 2 upwards he has to at the same time as he pushes the tube 2 upwards, push the handle 25 in the same direction, ie upwards so that the locking member 9 is released relatively the inner tube element 1. As soon as the operator releases the handle 25, the locking member 9 will, by the action of the tension spring 13 immediately return to the locking position.

From the above description it appears that the illustrated art the operation is simple and easy and gives the user great flexibility. tet. Although the above device has been described as forming one between two separate fixed points or surfaces by extension clampable pillars for, for example, drilling machines or others work tools should be understood that the device can also be accessed use in other situations. As an example it can be mentioned that the device according to the invention could be used as vault stamp for the construction industry or for others similar support purposes. It may further be pointed out that it is not at all necessary to use the described locking device 8 only in such situations where the pipe elements 1, 2 extend substantially vertically. Horizontal orientations as well as orientations vertical and horizontal connections are possible.

Nor in any other way is the described device limited sat to the illustrated example. Thus, it can be mentioned that it is not absolutely necessary that the elements 1 and 2 are telescopically coordinated with each other. Further do not need necessarily the support means 12 or other analogous means be so designed that the position of the locking member 9 relative to the pipe element 2 is O' 467 425 adjustable. Finally, it should be pointed out that as an additional security measure the locking means 9 could be provided with an shaping that interlocking with a corresponding design element 1 in order to avoid accidental slipping of the element 1 relative to the locking member 9. Such designs could, for example, include a protrusion on that side of the locking means 9 having the locking portion 10 and this projection would be intended to intervene in one of several on element 1 arranged recesses. In doing so, it may be appropriate to design the protrusion as a pin while the recesses could survive of a plurality in a row parallel to the longitudinal direction of the element 1 holes provided. The pin could then be arranged to received in one of these holes, the operator selecting it as is closest to the intended end position of the locking member 9. The pin could, for example, be spring-loaded and arranged to pulled out of the hole in the element 1 by the operator so that he with the pin extended can move the locking member 9 to another position and cause the pin to enter another of the holes. Such a pin or analog design would mean that the locking means 9 by form locking is associated with element 1 in addition to through the clamping effect with the portions 10 and 11. Would the squeezing effect for some reason will inadvertently cease therefore, the pin still poses an obstacle to uncontrolled lowering the element 1. Other modifications are also possible within the scope of the inventive concept.

Claims (10)

467 425/0 Patent Claim Device for mutually locking two relatively slidably controlled elements (1, 2), which device comprises a tiltable locking means (9), which has a locking effect (10, 11) producing a locking effect, which are arranged to move from different directions. abut against a portion of a first (1) of the elements, a means (12) arranged to support the locking means (9) relative to the second element (2) and an actuating means (13) arranged to resiliently actuate the locking means for tilting to thereby bring the locking portions (10, 11) for reading abutment against the first element (1), wherein the locking means (9) is arranged to allow in its reading position displacement movement of the first element (1) relative to the second element (2) in a first direction (the arrow 14) but block against such displacement movement in the opposite direction and also block against displacement of the second element (2) relative to the first. in the first direction, characterized in that it has means (12, 19, 20) for forcibly moving the locking member (9) relative to the second element (2) in the first direction (arrow 14) during entrainment, if the locking means (9) is in its reading position, by the first element (1). Device according to claim 1, characterized in that the actuating means (13) acts between a point on the locking means (9) and a point on the second element (2). Device according to claim 2, characterized in that the actuating means consists of at least one tension spring (13). Device according to claim 3, characterized in that the tension spring (13) consists of a suitably annular rubber body U (J) I / laid around a hook (16) on the locking member (9) and a hook (17) on the the second element (2). Device according to any one of the preceding claims, characterized in that the support member (12) forms a rocking center (18) for the locking member (9). Device according to any one of claims 1-4, characterized in that said means consists of the support member (12) and a thread (19) arranged thereon, which engages with a corresponding thread (20) formed on the locking member (9). . Device according to claims 5 and 6, characterized in that the support member (12) consists of a screw, one end of which abuts the other element (2) to form the rocker center and the other end (23) of which is formed for co-operation with an actuator (24), for example a wrench. Device according to any one of the preceding claims, characterized in that the support means (12) and the actuating means (13) are arranged on opposite sides of the first element (1). Device according to one of the preceding claims, characterized in that the elements (1, 2) are telescopically coordinated with one another. Device according to claim 9, characterized in that the locking means (9) in its locking position is arranged to allow the first element (1) to be displaced relative to the second element (2) in order to extend the telescopic device but block against displacement in and for shortening the telescopic device.