DE2016352A1 - Pipe wrench - Google Patents

Description

Pipe wrenches The invention relates to pipe wrenches.

The known pipe wrenches are very difficult to handle and have a number of disadvantages-on. There is a difficulty with the known pipe wrenches in that the worker must manually bring the base into a position in which the slot is so that the key comes out of the tube after the work is finished the device can be removed.

The present invention seeks to provide a tremendous one adaptable drive device from one drive source to the driven one Base and differs from the known devices essentially by their continuous shooting style. The present invention also discloses a device for automatically resetting the open end of the screw base in an initial position when the drive source is turned off, so that the It is much easier to wrench off the pipe or extension link deducted to which it was assigned.

The drawing shows in Fig. 1 a section through a key vessel of the present invention; Fig. 2 is a plan view of the key according to Fig. 1; Figure 3 is a view taken generally along line 3-3 of Figure 1; Fig. Figure 4 is a view taken generally along line 4-4 of Figure 1; Fig. 5 is an enlarged Left view of the key according to FIG. 2 with partially broken lines Parts for reproducing the driving engagement of the base member; Fig. 6 one of the Fig. 5 similar view to the reproduction of the base member in a different rotational position with respect to the housing; and in FIG. 7 a view along the line 7-7 of FIG. 1 on a slightly enlarged scale.

The pipe wrench according to the present invention is generally with denotes the reference numeral 20 and contains, as can be seen from the drawing can, a housing 20 having first and second end portions 34 and 35, respectively. The housing consists essentially of a base plate 24 with first and second side walls 25 and 26, which are formed in one piece with the base plate and are at right angles to extend to. A cover plate 29 serves to close off the base plate 24 and the side walls 25 and 2b of limited cavity. The housing 22 contains on second end part 35 a gear and motor housing 31, which in a united manner there is attached.

The first end part «4 of the housing 22 is provided with a wall, which delimits a slot 37, which is essentially in in the longitudinal direction ~ a short distance into the housing 22 in the direction of the second end part 35 of the housing 22 extends.

The slot 37- extends into a circular opening leading to the rotatable mounting of an annular nut drive base member 39 is used. This Base member 39 is with base engaging walls 41 on the inner surface. Mistake. In the particular embodiment shown, these walls have the shape a hexagon for receiving and handling a hexagon nut. Nan can be different Sizes of hexagon bases and different shapes to accommodate the most diverse Use sizes and types of nuts. The base member 39 is also with walls provided defining a slot 44 which sicb generally radially through the Wall of the base member 39 extends and approximately the width of the slot 37 in Housing 22 has. The base member 39 is distributed with a plurality of over the circumference Gear teeth 46 are provided on the outer periphery, and these gear teeth 46 extend extends completely over the circumference of the base member 39 with the exception of the slot 44, as can be seen most clearly from FIG.

First and second idler gears 48 and 49, respectively, are rotatable in the housing 22 is mounted on pins 50 and their teeth are in driving engagement with the teeth 46 on base member 39.

The circumferential distance between the tips or areas of drive engagement of the first and second intermediate gear 48 and 49 with the teeth 46 is larger than the width of the slot 44 so that at least one of the idler gears 48 respectively.

49 in engagement with the teeth 46 of the base 39 at some point stands.

The gear and motor housing 31 is used to accommodate a drive device, indicated generally by the reference numeral 51 and a hoof drive motor (not drawn) includes, which is used to drive a buagangsspindel 52 is used, which in turn drives a pinion 53 which drives a drive spindle 55. As can be seen most clearly from FIG. 3, the drive spindle 55 also works a main drive gear 57 together and is used to rotate the same with the aid a drive pin 59, which with a drive lug 62 on the main drive gear 57 cooperates. The approach 62 includes first and second stops 63 and 64, respectively Arrangement of drive pin 59 and drive attachment 62 allows a limited Relative rotation (less than 3600) between the drive spindle 55 and the main drive gear 57. As can be seen most clearly from Fig. 4, an energy storage device surrounds for example a clock spring 67, the lower end of the drive spindle 55 tsergl. Fig. 1) and is with one end 68 on the drive spindle 55 and with the other End 69 attached to the main drive gear 57. This clock spring is up to a certain one Extent pulled forward to the drive pin 59 against the stop 63 of the drive attachment 62 (see Fig. 3) prior to the initial movement of the motor.

How can you most clearly. Fig. 2 can be seen are the first and second drive gear trains 72 and 73, respectively, rotatable by housing 22 in driving engagement assembled together. The first gear 72 is in driving engagement with the first and second idler gears 48 and 49 and the second gear 73 in driving engagement with the main drive gear 57.

As can be seen most clearly from Figure 7, there is a locking device 76 in the form of a multiple leaf spring mounted transversely in the housing 22 so that they extends over the upper part of the gear 72, as shown in FIG. the Detent spring 76 is on the inner surface of lid 29 by means of a pair Clay consoles 77 attached. A spring latch 78 is on the upper surface of the Gear 72 attached, as can be seen from Fig. 1, in the radial distance of the Gear axle so that the latch 78 on the locking spring 76 strikes when the gear 72 rotates. The extent of the trap required for the passage required deflection, the distance tldft in Fig. 7, is chosen such that the force of the clock spring 67 is not sufficient to the locking spring 76 around this Bend piece, as will be explained in more detail below. One recognises, that another equivalent trap or friction device in place of trap 78 and the spring 76 can be used.

The device according to the invention works as follows. Suppose that the tool is in its starting position according to FIGS. 2 and 5, wherein the drive device 51 is not in operation. In this state, at with the slot 44 aligned with the slot 37, the tool is handled by the worker in such a way that that the slots 37 and 44 slide over a piece of pipe to the pipe within the Boundaries of the socket engagement walls 41 to be arranged. The tool is then along the Pipe axis moved to the hexagon socket walls 41 in engagement with a non to bring drawn hexagon nut, which are either tightened or loosened target. When the drive device 51 is put into operation, the drive spindle rotates 55 counterclockwise according to FIG. 3, whereby the drive pin 59 engages with the knock 64 comes what a rotation of the main drive wheel 57 with corresponding Rotation of the other gears 73 and 72 and 48 and 49 and a rotation of the annular Nut drive socket 39 has the consequence. When initially operating the power source 51 causes the relative movement of the drive spindle 55 when running into the position according to Fig. 3 for engagement with the stop 64, a further winding of the clock spring 67, but no movement of the drive train because the wiping force between Trap 78 and locking spring 76 is sufficient to keep the gear train in the given position to keep. An engagement of the drive pin 59 with the stop 64, however, overcomes the Locking spring 76 and leads to a rotation of the drive train.

After the nut is tightened and the driving force 51 is switched off is, the base member can remain recognizable in any angular position. For example, it can assume the position according to FIG. 6. The tool will then subtracted in the axial direction from the tube to the hexagonal walls 41 of the tightened Mother release. However, this is the case when the base member is in the position according to FIG. 6 39 obviously impossible to pull the tool off the pipe. The pre-wound clock spring However, 67 provides sufficient force to keep the main drive wheel 57 moving to rotate, with the gears 73, 72, 48, 49 and the base member 39 keep walking.

This rotational movement continues until the latch 78 hits the locking spring 76 hits. Here the mechanism stops in the one shown in FIGS. 1 to 5 and 7 Position because the clock spring 67 no longer has sufficient force to move the locking spring 76 bend over the necessary piece "d" to continue the movement, like it was explained above. The drive device 51 delivers when it stops in operation, sufficient resistance to resist an opposite movement to secure, in which the drive spring 67, the main drive gear 57 and the rest Drive train wants to continue. This position comes into effect when the base member has reached the position of FIGS. 2 and 5, which is the starting position of the tool, in which the tool can be withdrawn from the pipe.

It will be apparent to those skilled in the art that the base member 39 normally in a given direction by the drive device for tightening or loosening a nut is turned.

To the direction of rotation of the nut with the same rotation of the base member to reverse, you only need to turn the tool by 1800 around its longitudinal axis, to face the other side of the base member of the nut.

It can be seen that through the use of the drive train and in particular through the interaction of the intermediate gears 48 and 49 with the base teeth 39 an adaptable drive of the base member 39 is possible. The setting the idler gears 48 and 49 is such that they the width of the slot 44 bridged in the base member 39, ensuring that not more than one of the intermediate gears in the space of the slot 44 when the base member 39 rotates sits. The energy storage device in this embodiment, preferably in FIG Shape of the clock spring 37 inserted into the gear train and between the gear train and the housing acts, serves in combination with the latch 78 and the locking spring 76 for the automatic return of the base member 39 to the starting position the-Fig. 2 and 5.

Claims

Claims (8)

Claims Driven pipe wrench, g e k e n n n z e i c h -ne t through the combination of the following features an elongated housing (22) having first and second end portions (34 and 35, respectively); at the first end part (34) of the Housing (22) located walls to limit a is generally in In the longitudinal direction of the housing (22) a short distance in the direction of the second end part (35) slot (37) extending into the housing (22); an annular screw base (39) rotatably mounted in the housing (22) at the first end portion (34) of the housing (22) and having gripping means (41) on its inner surface; Walls that make one in substantially radially extending base slot (44) in the annular screw base (39) limit the teeth over its circumference up to the slot boundaries (46) is occupied; a first and a second intermediate gear (48 and 49, respectively), which are connected to the Housing (22) are rotatably mounted and with the teeth (46) on the base member (39) in Are engaged, wherein the circumferential distance between the drive engagement points of the first and second intermediate gear (48 and 49, respectively) with the teeth (46) on the Base member (39) is greater than the width of the base slot (44); one in the second End part (35) of the housing (22) arranged drive device (51) with a a drive spindle (55) connectable motor for driving the spindle (55) in a Direction; a main gear (57) coaxial with the spindle (55); an «on the spindle (55) seated drive pin (59); a drive attachment seated on the main gear (57) (62) which can come into engagement with the drive pin (59) and a relative rotation less than 3600 between the drive spindle (55) and the main gear (57) enables; a spring (67) with your one end (68) on the Drive spindle (55) and the other end (69) connected to the main gear (57) and the main gear (57) biases in the direction of rotation of the spindle (55); a Intermediate gear set (72,73), which connects the main gear (57) with the intermediate gear wheels (48,49) connects; a locking device (76) between the housing (22), and the intermediate gear (72) acts and when engaged in the inactive position of the Key socket and housing slots (37 and 44) are aligned, with the barrel of the drive motor (51) rotates the drive spindle (55) in one direction and the spring (67) continues to tension until the drive pin (59) and drive attachment (62) to the Drive of the main gear (57), the intermediate gear wheel (72,73) and the intermediate gear wheels (48, 49) touch each other, and when stopping the drive (51) and removing of the base (39) from the nut the spring (67) under drive of the main gear (57), the idler gear set (72,73), the idler gears (48p49) and the base (-39) unwinds in the same one direction until the locking device (76) the spring movement stops and the base and housing slots (37, 44) join together cursing. 2. Powered wrench, not marked by the combination of the following features: an elongated housing (22) with a rotary drive source (51) at one end (35) and a rotatable base (39) for releasable connection with the fastening device to be rotated at the other end (35), with base and housing each have an open slot (37,44) which when in alignment through rotation of the base creates a passage into the base (39) from outside the housing deliver; Driving devices for connecting the rotatable base (39) and, the Rotary drive source (51), - wherein upon rotation of the drives source in one direction the base rotates in one direction ;. a first driven member which in one direction by the Drive device revolves; a second, coaxial with the first driven member driven member; a locking device and a lug on the first and second driven member in interlocking position to enable relative rotation of less than 360 a tendon (76) between the first and second driven ones Member that drives the second member in one direction relative to the first Limb presses; by idler gears to connect the second driven member with the rotatable base (39) and the locking device (1) that the movement the intermediate gear wheels in a certain angular position corresponding to the alignment between the base and housing slots stops when the idler gear stops by itself the pretensioner is moved, but (2) the idler gear does not stop can bring when it is driven thereby the revolving drive source, wherein the rotation of the drive device through the drive source in one direction continuously rotates the base (39) in one direction and wherein when the drive source comes to a standstill and the resistance to further rotation of the base in the one direction ends, the pretensioner (67) the second driven Link that rotates the idler gears and the base in the same direction until the drretiervorrichtung stops this movement. 3. Pipe wrench according to claim 2, characterized in that g e k e n n -z e i c h n e t that the drive source is a pressure medium motor whose jusgangsvelle with the first driven link is to be brought into connection. 4. Pipe wrench according to claim 2, characterized in that g e k e n n -z e i c h n e t that the locking device is a relative to the housing (22) fixed and so arranged link (76) is that it is the free rotation of the Interfering gear in a certain angular position, the disturbing force is sufficient for a further rotation of the intermediate gear over the predetermined angular position to prevent out if it is only moved by the pretensioner (67), however, it is insufficient when the drive source drives the drive device. 5. Pipe wrench according to claim 4, characterized in that g e k e n n -z e i c h n e, t that the member fixed relative to the housing is a spring preloading element is that generates a disturbance force that the driving force of the pretensioner (67) overcomes, but not to overcome the driving force of the rotating drive source able. 6. Pipe wrench according to claim 2, characterized in that g e k e n n -z e i c h n e t that the pretensioner is driven between the first and second Link is a spiral spring (67), the opposite ends (68,69) of which on the first and second driven member, respectively, are attached and which is arranged so that they the second driven member is driven in one direction of rotation of the first Pretensioned limb. 7. Pipe wrench according to claim 2, g e k e n n z e i c h -. n e t further by a pair of intermediate gears (48, 49) for connection the intermediate gear train (72,73) and the rotatable base (39) which are in driving engagement stand with the outer circumference of the base and a distance measured along the circumference of the base, which is larger than the width of the Sockelßchlitzes. 8. Pipe wrench for screwed-on fastening devices and with drive by an air drive motor, g e -k e n n z e i c h n e t by the Combination of the following features: a housing with an air rotor (51) and an annular, rotatable base (39) in one end of the housing is rotatably mounted, this one end of the housing and the base respectively an open slot (37,44) extending radially into the socket interior; a drive device for connecting the air motor (51) to the rotatable base (39), whereby by rotating the drive motor in one direction the base in which goes around one direction; and auxiliary equipment in the drive facilities for automatic further rotation of the base (39) in this one direction in one Position in which its slot (44) is in alignment with the housing slot (37) when stopped the rotation of the air motor and the detachment of the base (39) from the one to be driven Fastening device stands.