WO2011015361A2

WO2011015361A2 - Handle for a housing for a portable x-ray device

Info

Publication number: WO2011015361A2
Application number: PCT/EP2010/004810
Authority: WO
Inventors: Jan Bressendorff; Casper Lndskov Hansen; Per Buchard Jorgensen
Original assignee: Yxlon International Gmbh
Priority date: 2009-08-06
Filing date: 2010-08-05
Publication date: 2011-02-10
Also published as: WO2011015361A8; WO2011015361A3; RU2012101209A; EP2461946A2; DE102009036399A1; US20120137468A1; CN102712089A; JP2013501327A

Abstract

The invention relates to a handle 17, 21 for a housing 1 for a portable x-ray device having an annular base body comprising a retaining part 18 and a bearing part 19, wherein links 16, 22 are disposed on the retaining part 18 that are used to connect to the housing 1 and a bearing device 10, 20 is designed in the bearing part 19 that comprises two wheels 12, 13 disposed at a distance from one another on a common axis 11, wherein the wheels 12, 13 protrude past the outer contour of the base body and a recess 14 is present between the wheels 12, 13.

Description

Handle for a housing for a portable X-ray device

The invention relates to a handle for a housing for a portable X-ray device.

There are portable X-ray devices are known that can be worn by one or two people and thus can be used outdoors. For example, pipes for cracks or the welds connecting them are checked for their quality. Such portable X-ray devices, such as, for example, the model Y. XPO 225 of the applicant, have a metal housing which is substantially rotationally symmetrical about its longitudinal axis - except for an X-ray exit window and connections for, for example, an external power supply. However, the respective diameter of the housing is variable, depending on which parts are housed in it at which point. At the two ends of the housing in each case a support ring is mounted, which is essentially formed like a steering wheel of a motor vehicle and identifies a circular spar on which the X-ray machine can be well held by the person carrying it. However, the known portable X-ray machines have the disadvantage that they must be raised to spend between two successive examination points of the persons carrying them and at the new location where the next examination point is to be discontinued.

The object of the invention is therefore to design a handle for such a housing in such a way for a portable X-ray machine, that a transfer from a pickup point to another pickup point is more easily possible. This object is achieved by a handle for a housing for a portable X-ray device having the features of patent claim 1. Characterized in that the holding part of the handle is connected to a bearing device in which two spaced-apart wheels are arranged on an axis, the entire X-ray device, on which a handle according to the invention is mounted, no longer be lifted from the ground or the object to be examined, to move it from one pickup point to another, but it can be pulled by the wheels. This is much less effort than lifting and moving. The movement is possible because the wheels protrude beyond the contour of the main body, so that the housing when moving over a surface - at least if it does not have too large steps - does not sit, but the wheels always represent the most outermost part of the overall device , Since the known portable X-ray devices already have a handle on the housing - regularly even at each end one, no additional element to the housing must be attached, but this can be realized by an integration in the already existing handle or the present Hangriffe ,

An advantageous development of the invention provides that in the storage device, a fixing device for fixing the wheels is formed relative to the bearing device. This ensures that the x-ray unit can be fixed in position during a recording (if it is not on a sloping ground). To fix the wheels, all known locking devices can be used, for example, a blockage by engagement of pins in holes in the wheels or by brake shoes that engage the wheels (as in disc brakes). Since the Those skilled in such embodiments are known and according to the invention does not depend on their specific design, it is omitted to provide more examples for this purpose with an accurate embodiment.

A further advantageous development of the invention provides that the fixing device has a fixing handle projecting beyond the bearing device. By such a fixing handle, it is possible in a particularly simple manner to effect the setting of the wheels. In the case of such an embodiment, this can usually even be done with just a single hand, so that the x-ray device can be held in place with the other hand at the same time. A single person is enough for that.

A further advantageous development of the invention provides that the recess between the two wheels is circular arc-shaped. By means of such a circular arc-shaped recess, the bearing device can very advantageously be placed on a tubular body, for example a pipeline pipe. The wheels are then still in contact with the tube shell and the intermediate part of the bearing device does not lie on the tube shell. This ensures that the X-ray machine can be moved along the tubular jacket by means of a rolling movement of the wheels and does not have to be pulled with sliding movement on a part of the bearing device, which would be associated with significantly more force and possibly damage the Röh- ren mantels. It is preferred if the recess does not reach to the axis. It should also be mentioned that, with regard to the radius of the circle used, the recess is directed to the through-hole to be examined with the portable X-ray apparatus. raesser the tubular objects can be tuned. This means that with smaller tube diameters the circular arc-shaped recess cuts deeper in the direction of the axis of the wheels than with larger diameters of tubular objects to be tested. In particular, in coordination with the size of the wheels and their distance to each other thus either tubular objects under investigation with very small diameters - then it makes sense to place the wheels closer to each other or these larger size to dimension - or be examined with a larger diameter.

A further advantageous embodiment of the invention provides that the holding part is designed as a support ring. This makes it possible that not only between two pickup points a particularly good movement of the X-ray device can take place, but also a good carry-over to the object to be examined or carry away from the object to be examined after completion of the investigation is possible. For example, the X-ray machine can also be carried over uneven ground to a vehicle, where it can then be taken away to its location at the company that uses it.

A further advantageous embodiment of the invention provides that the holding part is formed in a plane. This facilitates the gripping of the handle, as this always leads to the same grip level, regardless of the position of the portable X-ray apparatus on which the handle is located. A further advantageous embodiment of the invention provides that the handle is formed symmetrically to a plane of symmetry, which is perpendicular to the plane and the two wheels have the same distance to her. That's it portable X-ray device on which the handle is arranged, centrally disposed on a tubular body to be examined and lateral slipping on the body to be tested is difficult.

A further advantageous development of the invention provides that the bearing part is not in the plane, and the axis is parallel to the plane. This makes it easier to move the portable X-ray apparatus on which the handle is arranged from one point of the tubular body to be examined to another position of the same body, since, in particular when unilaterally lifting, rolling along in one of two movements that follow the hand Both ends of the housing of the portable X-ray device are attached, is ensured.

A further advantageous embodiment of the invention provides that the handle is mounted on a housing for a portable X-ray machine with a longitudinal axis and a perpendicular to the largest diameter, wherein the axis is aligned perpendicular to the longitudinal axis and the wheels in a projection along the longitudinal axis at least partially protrude beyond the housing at the largest diameter. Characterized in that the axis is aligned perpendicular to the longitudinal axis and thus substantially parallel to the diameter of the housing, the movement along the longitudinal axis can be performed without additional force perpendicular to the longitudinal axis. As a result, a significantly simpler method of the x-ray device compared to wearing the x-ray device can thus take place.

A further advantageous development of the invention provides that the wheels are at the same distance from the longitudinal axis. ben. This ensures that a tilting of the X-ray device during the process as in a only one-sided arrangement of the wheels with respect to the longitudinal axis is prevented. This greatly facilitates the movement of the X-ray machine from one pick-up point to another. It is clear to a person skilled in the art that even a slight deviation of the distances between the wheels and the longitudinal axis has the same effect, and thus the effect according to the invention is also achieved at essentially the same distance.

A further advantageous embodiment of the invention provides that the handle is connected to a first end of the housing with this. This ensures on the one hand that no additional element to the housing of the portable X-ray device must be installed, since the handle is already present anyway. On the other hand, such a handle is always located at one end of the housing, so that by simply grabbing at the other end of the housing to which a second handle is already regularly mounted, the rolling pulling or sliding movement between two receiving points in simple Way can be done by a single person. This is similar to a roller case having at its one lower end two rollers and at its opposite upper end a handle for pulling. Characterized in that at the same time a second inventive handle is connected at a second end of the housing with this, the movement of the X-ray device is further simplified. For the case given here, it is not even necessary in two simple steps for the person who moves the X-ray machine between two pick-up points to lift it on one handle and to roll the X-ray machine only on the two wheels of the other handle, but in the given position Trap it is possible the X-ray machine completely on four wheels, so without any risk of tipping to move. This simplifies handling again. It is particularly advantageous if the axes of the two bearing devices are substantially congruent when viewed in the direction of the longitudinal axis.

A further advantageous embodiment of the invention provides that the recesses of the two bearing devices of the two handles in the direction of the longitudinal axis are congruent. Thus, for tubular test objects having a uniform diameter over the length, such as pipelines, it is ensured that there is no seating on the tube jacket of the object to be examined on a bearing device arranged on the two handles. It is clear to the person skilled in the art that the same effect according to the invention is achieved even if there is only substantial congruence.

Further advantages and details of the invention will be described in more detail with reference to the embodiment shown in FIGS. Show it:

1 shows two handles according to the invention on a housing for a portable X-ray device with storage devices and both ends in an upright position,

FIG. 2 is a perspective view of the handle without housing shown in FIG. 1, shown on a tubular test object; FIG.

FIG. 3 is a front view of that shown in FIG

Handle from a downward direction in Figure 1, shown on a tubular test object, 4 is the rear view of the handle of Figure 3,

5 shows the view of the handle in the direction from below in Figure 3,

6 shows the view of the handle from above in FIG. 3 and FIG. 7 shows the view of the handle from the left in FIG. 3. FIG. 1 shows two handles 17, 21 according to the invention in FIG

Connection shown with a housing 1 for a portable X-ray device. Both attached to its first end 2 first handle 17 and attached to its second end 3 second handle 21 each have a holding part 18 and a bearing part 19. The two holding parts 18 are each formed as a support ring. The two bearing parts 19 are equipped with a first bearing device 10 and second bearing device 20. The housing 1 has a longitudinal axis 4 (in FIG. 1 the central longitudinal axis of the housing 1 is drawn in) and two sections with different diameters 5. Due to the design, there are portable X-ray devices whose housing 1 throughout the same

Diameter 5 have. In the illustrated embodiment, the housing 1 in the upper region of the second end 3, which is connected to the second bearing device 20, its largest diameter 5. The different ones

Diameter 5 along the longitudinal axis 4 of the housing 1 are due to the well-known in the art type of X-ray tube, which is included in the housing 1, due. Since these (just as little as the x-ray tube per se) are not essential to the invention, will not be discussed in more detail below. The same applies to any existing on the housing 1 Connections for example a power supply for the high voltage generation integrated in the housing.

In the region of the housing 1, which has a smaller diameter 5, is following the first end 2 a

X-ray window 6 through which the X-ray tube contained in the housing 1 emits its X-rays during operation. The first bearing device 10 according to the invention is connected to the first end 2 of the housing 1 via two connecting straps 16 (only one stylized one can be seen - the specific embodiment can be seen in FIGS. 2 to 7). This is a detachable connection, for example by screws. However, since the manner of attachment of the connection tabs 16 to the housing 1 is not essential to the invention and is well known to the person skilled in the art, it will not be discussed in more detail below. The first bearing device 10 has a first wheel 12 and a second wheel 13, between which an arc-shaped recess 14 is formed. The two wheels 12, 13 and the recess 14 are integrated as components of the first bearing device 10 in a first handle 17. Further details on the design of the first bearing device 10 within the first handle 17 can be found below with reference to Figures 2 to 7, in which this is better seen. At the opposite second end 3 of the housing 1, the second bearing device 20 is connected via connecting straps 22 to the housing 1. The second bearing device 20 is integrated in a second handle 21. The design of the Second storage device 20, their integration into the second handle 21 and its connection to the housing 1 is substantially the same as in the first storage device 10. It will therefore be omitted below to describe the detailed design of the second storage device 20, but it will to the analogous embodiments to the first bearing device 10 within the first handle 17 - as described in FIGS. 2 to 7 described below.

FIGS. 2 to 4 each show an illustration of the entire first handle 17 with holding part 18 and bearing part 19 under different viewing directions and its interaction with a tube 30 to be examined. FIG. 2 shows a perspective view, FIG. 3 shows a front view from the direction away from the housing 1 (see FIG. 1) - ie seen from below in FIG. 1 - and FIG. 4 shows a rear view from the opposite direction as FIG in Figure 1 seen from above. The housing 1 is not shown in these figures in order to better illustrate the essential elements of the invention. In the following, the figures 2 to 4 and the features recognizable therein will be described together. The first handle 17 is designed over long distances like a circular ring with a circular cross section. If this circular ring were made entirely as such, one would obtain a support ring, as is well known in the art, to allow the portable X-ray apparatus to be easily handled by one or two persons (depending on size and weight) Place to be worn to another. In contrast to the handles known from the prior art, a part of the invention is th handle 17 - this is the bearing part - not suitable for wearing, but designed as a first bearing device 10. The illustration shows the lower region of the first handle 17. The first bearing device 10 has an axle 11 about which a first wheel 12 and a second wheel 13 rotate. Under an axis 11 in the context of the invention is any kind of axes - ie both fixed and rotating axes - but also to understand all types of waves. The axle 11 also does not have to be formed continuously over the entire width, but can be formed separately, for example, for each individual wheel 12, 13. The storage of the axle 11 and the wheels 12, 13 on the axle 11 are not essential to the invention and known to those skilled in the art; All known types of storage can be used.

On the two wheels 12, 13 acts a fixing device (of which only a fixing handle 15 is shown), which serves to block the rotation of the wheels 12, 13. Such fixing devices are well known to those skilled in the art - for example in the form of a disc brake or the engagement of a pin in openings within the wheels 12, 13 - so that does not need to be discussed on the detailed design. The Festlegevor- direction is operated in the embodiment by a Festlegehandgriff 15, which protrudes over the first bearing device 10 toward the center of the first handle 17 inwardly. By means of this fixing handle 15, the fixing device can be operated in a simple manner with a single hand, so that the x-ray device, while being held at the desired position with one hand by the operator, fixed with the other hand by operating the fixing handle 15 can be. The two wheels 12, 13 are spaced apart from each other and have the same distance to the longitudinal axis 4 of the housing 1 (not shown in Figure 2). This has the consequence that the longitudinal axis 4 of the housing 1 is arranged after placing the first bearing device 10 on the tube 30 centrally above the longitudinal axis of the tube 30. Thereby, a tilting of the X-ray device on the tube 30 compared to an arrangement of the wheels 12, 13, in which the second wheel 13 would be arranged, for example, directly on the connecting line between the longitudinal axis 4 of the housing 1 and the longitudinal axis of the tube 30 is reduced.

From FIGS. 2 to 4, a recess 14 between the two wheels 12, 13 can also be seen well. This recess 14 has in its plan view (that is, FIGS. 3 and 4) a circular arc shape. As a result of the depth of the first bearing device 10, this means that the recess 14 is cylindrical-jacket-shaped, although in the exemplary embodiment, the inclination of the first bearing device 10 is different for the front and rear sides (see FIGS. 3 and 4). The recess 14 causes - as can be clearly seen in Figures 2 to 4 - the first bearing device 10 is not seated on the tube 30 when the two wheels 12, 13 sit on the pipe surface. This means that the first handle 17 and thus also the entire x-ray device can be pushed or pulled over the tube 30 on the wheels 12, 13, without loosening the first bearing device 10 on the tube 30. As a result, a very small force is required to move the X-ray device on the tube 30; In addition, the surface of the tube 30 is protected in a move, since there is no rubbing, as in a sliding movement of the first bearing device 10.

The shape of the recess 14 (in particular its radius of curvature US) must be chosen so that depending on the diameter of the wheels 12, 13 and their distance from each other on the axis 11 a free movement without Aufsitzen the first bearing device 10 on the pipe to be examined 30 is guaranteed. At a constant distance between the two wheels 12, 13 and constant diameter of these wheels 12, 13, this means that with smaller diameters of the tube to be examined 30, the radius of curvature of the recess 14 must be smaller, resulting in a deeper recess 14 (in the Figures 3 and 4 thus a further upwardly projecting recess 14) leads. It should be noted that the recess 14 in a continuous axis 11 can not extend beyond the lower end of the shaft 11 upwards, otherwise the shaft 11 is exposed and this would touch down on the surface of the tube 30. In a subdivided axis 11, this problem does not exist since no axis 11 is then formed in the area between the two wheels 12, 13.

In addition, in the figures 2 to 4 nor the arrangement of the two connecting straps 16 and their concrete configuration can be seen. These start from the inner surface of the first handle 17 and then swing at its end in an arc substantially parallel to the housing 1. In the region of their end holes are provided, via which they can be connected to the housing 1, for example by screwing. FIG. 5 shows, on an enlarged scale, the view of the first handle 17 from below on the bearing part 19 (with reference to FIGS. 3 and 4). Here, the recess 14 between the two wheels 12, 13 can be seen and the various inclinations in the direction of the housing 1 (not shown) downwards or away from this upward. The axis 11 is indicated by dashed lines only in the region of the second wheel 13. Furthermore, the two opposing, formed on the first handle 17 connecting tabs 16 can be seen.

Figure 6 is a view of the holding part 18 of the first handle 17 with the first bearing device 10 from the opposite direction as shown in Figure 5 (ie from above in Figures 3 and 4). Here, the upper curvature of the trained as a support ring first handle 17 is clearly visible, on the bottom of the wheels 12, 13, which are mounted in the first bearing device 10, stand out.

Finally, FIG. 7 shows a side view (from the left in FIG. 3) of the first handle 17. Here, it can be clearly seen that the connecting lug 16 is formed on the holding part 18 symmetrically to the longitudinal axis 4 of the housing 1 (not shown). In addition, it is recognized that the first handle 17 is slightly bent in the region of the bearing part 19, where the first bearing device 10 is formed. The bend has out of the plane which is spanned by the (partial) ring shape of the first handle 17 in the direction of the housing 1 (ie, to the left in Figure 7) out. The bending is so strong that the front edge of the first wheel 12 (in the figure on the right - pointing away from the housing 1) approximately in the escape with the first handle 17 is formed. The first wheel 12 rotates about the axis 11.

As already explained above, the second bearing device 20 in the second handle 21 according to the invention is essentially the same as the first bearing device 10 in the first handle 17. This results in that the longitudinal axis 4 of the housing 1 is parallel to the surface of the tube 30 when the X-ray device on the wheels 12, 13 (in total there are four wheels) rests on the tube 30. As a result, a particularly simple and energy-saving movement of the X-ray device on the tube 30 is ensured. This can easily by a person or possibly two persons - if the X-ray machine must be placed in a position in which it is not on the tube 30, but laterally thereto (for example, at 90 ° to the illustration in Figure 3) are attached must be done to perform an investigation there - done. In such a lateral position, the X-ray device then still has to be fixed by suitable means to the tube 30, for example by a tape (which the person skilled in the art, however, is quite common and therefore need not be described) so that it does not fall down.

Reference sign list

casing

first end

second end

longitudinal axis

diameter

X-ray window first bearing device

axis

first bike

second wheel

recess

Locking handle

connecting strap

first move

holding part

Bearing part second bearing device

second handle

Connecting strap pipe

Claims

claims

First handle (17, 21) for a housing (1) for a portable X-ray device

with an annular base body, which has a holding part (18) and a bearing part (19),

wherein on the holding part (18) connecting straps (16, 22) are arranged, which serve for connection to the housing (1),

and in the bearing part (19) a bearing device (10, 20) is formed, which has two spaced-apart on a common axis (11) arranged wheels (12, 13),

wherein the wheels (12, 13) protrude beyond the outer contour of the base body and between the wheels (12, 13) has a recess (14) is present.

Second handle (17, 21) according to claim 1, characterized in that in the bearing device (10, 20) a fixing device for fixing the wheels (12, 13) relative to the bearing device (10, 20) is formed.

3. handle (17,21) according to claim 2, characterized in that the fixing device has a on the bearing device (10, 20) protruding fixing handle (15).

4. handle (17, 21) according to any one of the preceding claims, characterized in that the recess (14) between the two wheels (12, 13) is circular arc-shaped.

5. handle (17, 21) according to claim 4, characterized in that the recess (14) does not extend to the axis (11).

6. Handle (17) according to any one of the preceding claims, characterized in that the holding part (18) is designed as a support ring.

7. handle (17, 21) according to one of the forthcoming patent claims, characterized in that the holding part

(18) is formed in a plane.

8. handle (17, 21) according to claim 7, characterized in that it is formed symmetrically to a Symmetrieebe- ne, which is perpendicular to the plane and the two wheels (12, 13) have the same distance from her.

9. handle (17,21) according to claim 7 or 8, characterized in that the bearing part (19) is not located in the plane and the axis (11) extends parallel to the plane.

10. handle (17, 21) according to any one of the preceding patent claims, characterized in that it is mounted on a housing (1) for a portable X-ray machine with a longitudinal axis (4) and a perpendicular to the largest diameter (5), wherein the axis (11) is aligned perpendicular to the longitudinal axis (4) and the wheels (12, 13) project in a projection along the longitudinal axis (4) at least partially over the housing (1) at the largest diameter (5).

11. Handle (17, 21) according to claim 10, characterized in that the wheels (12, 13) have the same distance from the longitudinal axis (4).

12. First handle (17) according to one of the preceding claims, characterized in that it is connected at a first end (2) of the housing (1) with this, and at a second end (3) of the housing (1) has a second Handle (21) according to one of the preceding patent claims is arranged.

13. First handle (17) according to claim 12, characterized in that the axes (11) of the two bearing devices (10, 20) of the two handles (17, 21) in the direction of the longitudinal axis (4) are congruent.

14. First handle (17) according to one of the claims 12 or 13, characterized in that the recesses (14) of the two bearing devices (10, 20) of the two handles (17, 21) in the direction of the longitudinal axis (4) are congruent ,