RU190078U9 - STAND WITH MOVABLE CROSSMEMBER FOR DIGITAL X-RAY DETECTOR AND X-RAY EMISSION - Google Patents

Abstract

The utility model relates to medical equipment, namely to devices for the spatial arrangement of x-ray equipment intended for x-ray examinations of patients. The technical result of the proposed utility model is to provide the device with universal fixing elements that would provide the possibility of mounting various X-ray emitters and receivers. The technical result is achieved in a tripod with a movable traverse for a digital x-ray receiver and an x-ray emitter, containing a base with wheels, a vertical stand fixed to the base, fixed to the vertical stand with the possibility of rotation in a vertical plane relative to the axis of rotation, a traverse having an x-ray emitter mount at one end, and at the other end, an x-ray receiver mount, and the axis of rotation of the traverse is located between the ends of the traverse, having an actuator fixed at one end to the vertical stand, and the other end to the end of the traverse with the possibility of turning the traverse, at each end of the traverse there are rods located perpendicular to the plane of rotation of the traverse , at the end of the first rod there is a swivel hinge, consisting of a beam fixed perpendicular to the rod and a swivel bracket, consisting of a plate and two cheeks, the cheeks of the swivel bracket are fixed to the ends of the beam to ensure rotation of the swivel bracket, to the plate On the wall of the swivel bracket, a pressure plate is pressed by a threaded connection with the possibility of installing an X-ray emitter bracket between the pressure plate and the swivel bracket plate, on the second rod, an X-ray receiver mounting clip is fixed, consisting of two brackets, each of which is made in the form of a U-shaped frame, on the crossbar of which parallel plates are fixed, pressed from both sides to the rod by a bolted connection, and threaded clamps are located at the ends of the U-shaped frame, and the threaded clamps of one bracket are directed towards the threaded clamps of the other, and the distance between the brackets is chosen in such a way that an X-ray receiver is placed between them with the possibility of fixing it with the described threaded clamps. 5 ill.

Description

The utility model relates to medical equipment, namely to devices for the spatial arrangement of x-ray equipment intended for x-ray examinations of patients.

An analogue is known - a stand for a fluorographic apparatus - US3617749A, 02.11.1971, containing nodes that are movable about three axes x, y and z, the axis of which is always horizontal, and contains: a frame, a lever extending transversely from the frame element in a fixed orientation, and the lever has in one part a concave curved surface, forming a partial circular arc, which usually opens downwards when the device is installed, the arc has an axis in its center of curvature, a slider made movably along said arc and around the x-axis, a support and an x-ray source on her, i.e. the carriage and the X-ray detector on it, the carriage is slidably connected to the support for supplying the X-ray beam from the source to the detector along the y axis, the hinge around the z axis for connection with the slider of the support, carriage, source and detector assembly, the source and detector are located and relatively positioned at selected distances along the Y axis that intersects the X and Z axes at point P between the source and the detector, with the central beam of the X-ray source coinciding with the specified Y axis, the specified node defining the C-shaped element that rotates through the specified rotary connection around the z-axis, since the z-axis rotates around the x-axes as the slider moves along the arc.

The disadvantage of the analog is a large number of heavy units, which increases the weight of the product and complicates its transportation, reduces the mobility of the entire apparatus for x-ray examination of patients. The presence of a large-sized C-shaped element eliminates the possibility of placing the device in a box for transportation over long distances. A significant drawback is the lack of a universal mount, which would provide the possibility of mounting various receivers and X-ray generators.

The technical task of the utility model is to ensure the versatility of the tripod according to the applied models of the digital X-ray receiver and X-ray emitter.

The technical result of the proposed utility model is to provide the device with universal fixing elements that would provide the possibility of mounting various X-ray emitters and receivers.

The technical result is achieved in a tripod with a movable traverse for a digital x-ray receiver and an x-ray emitter, containing a base with wheels, a vertical stand fixed to the base, fixed to the vertical stand with the possibility of rotation in a vertical plane relative to the axis of rotation, a traverse having an x-ray emitter mount at one end, and at the other end, an X-ray receiver is mounted, and the axis of rotation of the traverse is located between the ends of the traverse, having an actuator fixed at one end to the vertical post, and the other end to the end of the traverse with the possibility of turning the traverse, at each end of the traverse there are rods located perpendicular to the plane of rotation of the traverse, at the end of the first rod there is a swivel hinge, consisting of a beam fixed perpendicular to the rod and a swivel bracket, consisting of a plate and two cheeks, the cheeks of the swivel bracket are fixed to the ends of the beam to ensure rotation of the swivel bracket, to the layer In addition to the swivel bracket, a pressure plate is pressed by a threaded connection with the possibility of installing an X-ray emitter bracket between the pressure plate and the swivel bracket plate, an X-ray receiver mounting clip is fixed on the second rod, consisting of two brackets, each of which is made in the form of a U-shaped frame, on the crossbar of which parallel plates are fixed, pressed from both sides to the rod by a bolted connection, and threaded clamps are located at the ends of the U-shaped frame, and the threaded clamps of one bracket are directed towards the threaded clamps of the other, and the distance between the brackets is chosen in such a way that an X-ray receiver is placed between them with the possibility of fixing it with the described threaded clamps.

Figure 1 shows a side view (main view) of a tripod with a movable traverse for a digital x-ray receiver and x-ray emitter.

Figure 2 shows a top view of a tripod with a movable traverse for a digital x-ray receiver and x-ray emitter.

Figure 3 shows the mounting of the x-ray emitter.

Figure 4 shows a section A-A from the main view, which shows the mounting of the x-ray emitter.

Figure 5 shows the mounting of the x-ray receiver.

Figure 6 shows the position of the traverse in a vertical position.

A tripod with a movable traverse for a digital x-ray receiver and an x-ray emitter contains a base 1 with wheels 2, as shown in figure 1, fixed to the base 1 vertical stand 3, fixed to the vertical stand 3 with the possibility of rotation in a vertical plane relative to the axis of rotation 4 traverse 5 having at one end the attachment of the x-ray emitter 6, and at the other end the attachment of the x-ray receiver 7, and the axis of rotation 4 of the traverse 5 is located between the ends of the traverse 5, the actuator 8, fixed at one end to the vertical stand 3, and the other end to the end of the traverse 5 with the possibility rotation of the traverse, at each end of the traverse 5 there are rods 9, 10, as shown in figure 2, located perpendicular to the plane of rotation of the traverse, at the end of the first rod 9 there is a rotary hinge 11, consisting of a bar 12 fixed perpendicular to the rod 9 and a swivel bracket 13, as shown in figure 3, consisting of a plate 14 and two cheeks 15, cheeks 15 rotary the brackets 13 are fixed to the ends 16 of the beam 12 to ensure the rotation of the swivel bracket 13, to the plate 14 of the swivel bracket 13, the clamping plate 18 is pressed by a threaded connection 17 with the possibility of installing the bracket 19 of the x-ray emitter 6 between the clamping plate 18 and the plate 14 of the swivel bracket 13, as shown in figure 4, on the second rod 10 is fixed clip 20 mounting x-ray receiver 7, consisting of two brackets 21, each of which is made in the form of a U-shaped frame 22, as shown in figure 1, 2, 5, on the crossbar 23 which are fixed parallel plates 24 pressed from both sides to the rod 10 by a bolted connection 25, and at the ends of the U-shaped frame 22 there are threaded clamps 26, and the threaded clamps 26 of one bracket 21 are directed towards the threaded clamps 26 of the other, and the distance A shown in Fig. 1, between the brackets 21 is chosen in such a way that an X-ray receiver 7 is placed between them with the possibility of fixing it with the described threads clamps 26.

Consider an example of a specific implementation of a tripod with a movable traverse for a digital X-ray receiver and an X-ray emitter. Base 1, vertical post 3, vertical post 3, traverse 5, brackets 21 are made of shaped pipes of square and rectangular section by welding. Traverse 5 is rotatable about axis 4 by means of actuator 8. Swivel bracket 13, consisting of plate 14, two cheeks 15 is made of sheet steel. The mounting of the x-ray emitter 6 provides the possibility of mounting various emitters 6 due to the fact that the bracket 19 of the emitter 6 is clamped between the pressure plate 18 and the plate 14 of the swivel bracket 13, without requiring precise mounting dimensions and at the same time providing the required angular location of the emitters 6 due to the swivel joint 13. Clip 20 of mounting the x-ray receiver 7, consisting of two brackets 21, provides fastening of x-ray receivers having different overall dimensions, due to the possibility of changing the distance A simply by rearranging the brackets 21 along the rod 10. The x-ray receiver 7 is fixed by clamping it with threaded clamps 26. Rotation traverse 5 is used for X-ray examination of patients in various positions - lying, in the position of the traverse shown in Fig.1, standing in the position of the traverse shown in Fig.6.

Claims (1)

A tripod with a movable traverse for a digital x-ray receiver and an x-ray emitter, containing a base with wheels, a vertical stand fixed to the base, fixed to the vertical stand with the possibility of rotation in a vertical plane relative to the axis of rotation, a traverse having an x-ray emitter mount at one end, and at the other end - fastening of the x-ray receiver, and the axis of rotation of the traverse is located between the ends of the traverse, having an actuator fixed at one end to the vertical stand, and the other - to the end of the traverse with the possibility of turning the traverse, characterized in that at each end of the traverse there are rods located perpendicular to the plane of rotation traverse, at the end of the first rod there is a swivel joint, consisting of a beam fixed perpendicular to the rod and a swivel bracket, consisting of a plate and two cheeks, the cheeks of the swivel bracket are fixed to the ends of the beam to ensure the rotation of the swivel bracket, to the plate turn clamping plate is pressed by a threaded connection with the possibility of installing the X-ray emitter bracket between the clamping plate and the plate of the rotary bracket, the X-ray receiver mounting clip is fixed on the second rod, consisting of two brackets, each of which is made in the form of a U-shaped frame, on the crossbar of which are fixed parallel plates pressed from both sides to the rod by a bolted connection, and threaded clamps are located at the ends of the U-shaped frame, and the threaded clamps of one bracket are directed towards the threaded clamps of the other, and the distance between the brackets is chosen so that an X-ray receiver is placed between them with the possibility fixing it with the described screw clamps.

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