CN108245180B - Radiodiagnosis imager - Google Patents

Abstract

The invention discloses a radiodiagnosis imager, which comprises a radiodiagnosis imager body, wherein a radiodiagnosis imager device is fixedly installed on the top side of the radiodiagnosis imager body, a display is fixedly installed on one side of the radiodiagnosis imager device, a base is fixedly installed on one side of the radiodiagnosis imager body, a sliding groove is formed in the base, a first sliding block and a second sliding block are installed in the sliding groove in a sliding mode, supporting columns are fixedly installed on the top sides of the first sliding block and the second sliding block, sliding grooves are formed in the top ends of the supporting columns, supporting rods are installed in the sliding grooves in a sliding mode, the top ends of the supporting rods extend out of the sliding grooves, and the top ends of the two supporting rods are provided with the same examination bed. The height position of the examination bed can be conveniently and stably adjusted, meanwhile, the examination bed can be conveniently buffered when moving, and the examination bed is simple in structure and convenient to use.

Description

Radiodiagnosis imager

Technical Field

The invention relates to the technical field of medical instruments, in particular to a radiodiagnosis imager.

Background

The radiology department is an important auxiliary examination department of a hospital, in the construction of modern hospitals, the radiology department is a department integrating examination, diagnosis and treatment, and many clinical diseases need to be examined through radiology department equipment so as to achieve the purpose of definite diagnosis and auxiliary diagnosis.

The patent with application number 201510073896.0 discloses a radiation-proof radiation diagnosis imager, which belongs to the technical field of medical instruments. The invention discloses a radiation-proof radiation diagnosis imager, which comprises a radiation-proof diagnosis imager main body, an examination bed sliding device and a radiation imaging device, wherein the front end of the radiation-proof diagnosis imager main body is provided with an operation imaging device, the operation imaging device is provided with a display screen fixing frame, an imaging display screen is arranged in the display screen fixing frame, the lower side of the imaging display screen is provided with a fixed operation panel, the fixed operation panel is internally provided with an operation key, and the right side of the fixed operation panel is provided with a bed position rotation adjusting key. The invention has complete functions, convenient use, is scientific, effective, simple, practical, safe, reasonable, time-saving and labor-saving when used for carrying out the radiodiagnosis on the patient, and reduces the working difficulty of medical staff. However, the existing diagnostic imaging instrument is inconvenient for adjusting the height of the examining table when in use, is inconvenient for patients to use, and has certain limitation in use because no buffering acting force is generated when the examining table is pushed.

Disclosure of Invention

Based on the technical problems in the background art, the invention provides a radiodiagnosis imager.

The invention provides a radiodiagnosis imager, which comprises a radiodiagnosis imager body, wherein a radiodiagnosis imager device is fixedly arranged on the top side of the radiodiagnosis imager body, a display is fixedly arranged on one side of the radiodiagnosis imager body, a base is fixedly arranged on one side of the radiodiagnosis imager body, a sliding groove is formed in the base, a first sliding block and a second sliding block are arranged in the sliding groove in a sliding mode, supporting columns are fixedly arranged on the top sides of the first sliding block and the second sliding block respectively, a sliding groove is formed in the top end of each supporting column, a supporting rod is arranged in the sliding groove in a sliding mode, the top ends of the supporting rods extend out of the sliding groove, the top ends of the two supporting rods are provided with the same examination bed, the examination bed is matched with the radiodiagnosis imager device, the supporting rod on the second sliding block is fixedly arranged on the bottom side of, a first sliding chute is arranged on the bottom side of the examination bed, a first sliding block is arranged in the first sliding chute in a sliding manner, the bottom side of the first sliding block is fixedly arranged at the top end of a supporting rod arranged on the first sliding block, a placing groove is arranged on one side of the supporting rod, a rack is fixedly arranged in the placing groove, a rotating groove is arranged on the inner wall of one side of the sliding groove, which is close to the rack, a gear is rotatably arranged in the rotating groove, one side of the gear extends out of the rotating groove, and is meshed with the rack, a rotating motor is fixedly arranged on the inner wall of one side of the rotating groove, a rotating rod is fixedly arranged on an output shaft of the rotating motor, one end of the rotating rod, far away from the rotating motor, is rotatably arranged on the inner wall of one side of the rotating groove, far away from the rotating motor, the gear is fixedly sleeved on the rotating rod, and a buffer mechanism for buffering the examination bed is arranged between the first sliding block and the radioactive diagnosis imager body.

Preferably, a second sliding groove is formed in the inner wall of one side, away from the rotating groove, of the sliding groove, a second sliding block is arranged in the second sliding groove in a sliding mode, one side of the second sliding block extends to the outside of the second sliding groove, and the second sliding block is fixedly installed on the supporting rod.

Preferably, a first spring is fixedly mounted on the inner wall of the bottom side of the sliding groove, and the top end of the first spring is fixedly mounted on the bottom end of the supporting rod.

Preferably, buffer gear includes that fixed mounting is close to the buffer block of base one side at the radiodiagnosis imager body, seted up the cavity on the buffer block, seted up the through-hole on the one side inner wall that the radiodiagnosis imager body was kept away from to the cavity, and slidable mounting has first buffer beam in the through-hole, and outside the both ends of first buffer beam all extended to the through-hole, first buffer beam is located support column one side of the outer one end fixed mounting on first sliding block of buffer block, first recess has been seted up to the one end that first buffer beam is located the cavity, slidable mounting has the second buffer beam in the first recess, outside the one end of second buffer beam extended to first recess, and fixed mounting is on one side inner wall that the cavity is close to the radiodiagnosis imager body.

Preferably, the third sliding grooves are formed in the inner walls of the two sides of the first groove, the third sliding blocks are arranged in the third sliding grooves in a sliding mode, one side of each third sliding block extends to the outside of the corresponding third sliding groove, and the third sliding blocks are fixedly arranged on the second buffer rods.

Preferably, one side fixed mounting that the radiodiagnosis imager body was kept away from to the buffer block has the second spring of cup jointing on first buffer beam, and the one end fixed mounting that the buffer block was kept away from to the second spring is on corresponding support column, the one end fixed mounting that first buffer beam is located the cavity has the third spring of cup jointing on the second buffer beam, and the one end fixed mounting that first buffer beam was kept away from to the third spring is on one side inner wall that the cavity is close to the radiodiagnosis imager body.

Preferably, the second recess has all been seted up on the both sides inner wall of cavity, slidable mounting has the movable rod in the second recess, and outside the one end of movable rod extended to the second recess, and rotated through the hinge and installed the connecting rod, the one end that two movable rods were kept away from respectively to two connecting rods rotated respectively and installed on the both sides that first buffer lever is located one end in the cavity.

Preferably, a fourth sliding groove is formed in the inner walls of the two sides of the second groove, a fourth sliding block is arranged in the fourth sliding groove in a sliding mode, one side of the fourth sliding block extends to the outside of the fourth sliding groove, the fourth sliding block is fixedly installed on the movable rod, a fourth spring is fixedly installed on the inner wall of one side, far away from the two second grooves, of the inner wall of one side, and the fourth spring and the movable rod are fixedly connected with one end, located in the second groove.

According to the radiodiagnosis imager, the support column, the sliding groove, the support rod, the placing groove, the rack, the rotating groove, the gear, the second sliding groove, the second sliding block, the first spring, the rotating motor and the rotating rod are matched for use, the rotating motor is started, the rotating motor drives the rotating rod to rotate, the rotating rod drives the gear to rotate, the gear drives the rack to move, the rack drives the support rod to slide in the sliding groove, the support rod drives the second sliding block to slide in the second sliding groove, and therefore the height position of an examination bed can be conveniently and stably adjusted; through the matching use of the buffer block, the cavity, the first buffer rod, the second spring, the first groove, the second buffer rod, the second groove, the movable rod and the connecting rod, when the examination bed is pushed, the examination bed drives the first sliding block and the second sliding block to slide in the sliding groove, the first sliding block drives the supporting column to extrude the first buffer rod, the first buffer rod drives the second buffer rod to slide in the first groove, meanwhile, the first buffer rod drives the connecting rod to move, the connecting rod drives the movable rod to slide in the second groove, and the buffer can be conveniently carried out when the examination bed moves; the height position of the examination bed can be conveniently and stably adjusted, meanwhile, the examination bed can be conveniently buffered when moving, and the examination bed is simple in structure and convenient to use.

Drawings

Fig. 1 is a schematic structural diagram of a radiodiagnostic imager according to the present invention;

FIG. 2 is a schematic view of a portion A of the radiodiagnostic imager of the present invention shown in FIG. 1;

FIG. 3 is a schematic side view of a support column of a radiodiagnostic imager according to the present invention;

FIG. 4 is a schematic structural diagram of a portion B of a radiodiagnostic imager in FIG. 1 according to the present invention;

fig. 5 is a schematic structural diagram of a part B1 in fig. 4 of a radiodiagnostic imager according to the present invention.

In the figure: the radiographic imaging device comprises a radiographic diagnostic imager body, a radiographic imaging device, a display, a base 4, a sliding groove 5, a first sliding block 6, a second sliding block 7, an examination bed 8, a first sliding chute 9, a first sliding block 10, a supporting column 11, a sliding groove 12, a supporting rod 13, a placing groove 14, a rack 15, a rotating groove 16, a gear 17, a second sliding chute 18, a second sliding block 19, a first spring 20, a rotating motor 21, a rotating rod 22, a buffer block 23, a cavity 24, a first buffer rod 25, a second spring 26, a first groove 27, a second buffer rod 28, a second groove 29, a movable rod 30 and a connecting rod 31.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Examples are given.

Referring to fig. 1-5, a radiodiagnosis imager comprises a radiodiagnosis imager body 1, a radiodiagnosis imager 2 is fixedly installed on the top side of the radiodiagnosis imager body 1, a display 3 is fixedly installed on one side of the radiodiagnosis imager 2, a base 4 is fixedly installed on one side of the radiodiagnosis imager body 1, a sliding groove 5 is formed on the base 4, a first sliding block 6 and a second sliding block 7 are slidably installed in the sliding groove 5, supporting columns 11 are fixedly installed on the top sides of the first sliding block 6 and the second sliding block 7, a sliding groove 12 is formed in the top end of each supporting column 11, supporting rods 13 are slidably installed in the sliding grooves 12, the top ends of the supporting rods 13 extend out of the sliding grooves 12, the same examination bed 8 is installed on the top ends of the two supporting rods 13, the examination bed 8 is matched with the radiodiagnosis imager 2, the supporting rods 13 on the second sliding block 7 are fixedly installed on the bottom side, a first sliding chute 9 is arranged on the bottom side of the examining bed 8, a first sliding block 10 is arranged in the first sliding chute 9 in a sliding manner, the bottom side of the first sliding block 10 is fixedly arranged at the top end of a supporting rod 13 arranged on the first sliding block 6, a placing groove 14 is arranged on one side of the supporting rod 13, a rack 15 is fixedly arranged in the placing groove 14, a rotating groove 16 is arranged on the inner wall of one side of the sliding groove 12 close to the rack 15, a gear 17 is rotatably arranged in the rotating groove 16, one side of the gear 17 extends out of the rotating groove 16, and mesh with rack 15 mutually, fixed mounting has rotation motor 21 on the inner wall of one side of rotation groove 16, and fixed mounting has dwang 22 on the output shaft of rotation motor 21, and the one end that rotation motor 21 was kept away from to dwang 22 rotates to be installed on the inner wall of one side that rotation groove 16 kept away from to rotate motor 21, and gear 17 is fixed to be cup jointed on dwang 22, is equipped with the buffer gear that cushions inspection bed 8 between first sliding block 6 and the radiation diagnosis imager body 1. Through the matching use of 11 support columns, 12 sliding grooves, 13 support rods, 14 placement grooves, 15 racks, 16 rotating grooves, 17 gears, 18 second sliding grooves, 19 second sliding blocks, 20 first springs, 21 rotating motors and rotating rods 22, the rotating motors 21 are started, the rotating motors 21 drive the rotating rods 22 to rotate, the rotating rods 22 drive the gears 17 to rotate, the gears 17 drive the racks 15 to move, the racks 15 drive the support rods 13 to slide in the sliding grooves 12, and the support rods 13 drive the second sliding blocks 19 to slide in the second sliding grooves 18, so that the height position of the examination bed 8 can be conveniently and stably adjusted; through the cooperation of the buffer block 23, the cavity 24, the first buffer rod 25, the second spring 26, the first groove 27, the second buffer rod 28, the second groove 29, the movable rod 30 and the connecting rod 31, when the examining bed 8 is pushed, the examining bed 8 drives the first sliding block 6 and the second sliding block 7 to slide in the sliding groove 5, the first sliding block 6 drives the supporting column 11 to extrude the first buffer rod 25, the first buffer rod 25 drives the second buffer rod 28 to slide in the first groove 27, meanwhile, the first buffer rod 25 drives the connecting rod 31 to move, the connecting rod 31 drives the movable rod 30 to slide in the second groove 29, and the buffer can be conveniently carried out when the examining bed 8 moves; the height position of the examination bed 8 can be conveniently and stably adjusted, meanwhile, the examination bed 8 can be conveniently buffered when moving, and the examination bed is simple in structure and convenient to use.

A second sliding groove 18 is arranged on the inner wall of one side of the sliding groove 12 far away from the rotating groove 16, a second sliding block 19 is arranged in the second sliding groove 18 in a sliding manner, one side of the second sliding block 19 extends out of the second sliding groove 18 and is fixedly arranged on the supporting rod 13, a first spring 20 is fixedly arranged on the inner wall of the bottom side of the sliding groove 12, the top end of the first spring 20 is fixedly arranged on the bottom end of the supporting rod 13, the buffering mechanism comprises a buffering block 23 fixedly arranged on one side of the radioactive diagnosis imager body 1 close to the base 4, a cavity 24 is arranged on the buffering block 23, a through hole is arranged on the inner wall of one side of the cavity 24 far away from the radioactive diagnosis imager body 1, a first buffering rod 25 is arranged in the through hole in a sliding manner, two ends of the first buffering rod 25 extend out of the through hole, one end of the first buffering block 25, which is positioned outside the, one end of the first buffer rod 25, which is positioned in the cavity 24, is provided with a first groove 27, a second buffer rod 28 is slidably mounted in the first groove 27, one end of the second buffer rod 28 extends out of the first groove 27 and is fixedly mounted on the inner wall of one side of the cavity 24, which is close to the radiodiagnosis imager body 1, both inner walls of both sides of the first groove 27 are provided with third sliding grooves, third sliding blocks are slidably mounted in the third sliding grooves, one side of each third sliding block extends out of the third sliding groove and is fixedly mounted on the second buffer rod 28, one side of the buffer block 23, which is far away from the radiodiagnosis imager body 1, is fixedly mounted with a second spring 26 sleeved on the first buffer rod 25, one end of the second spring 26, which is far away from the buffer block 23, is fixedly mounted on the corresponding support column 11, one end of the first buffer rod 25, which is positioned in the cavity 24, is fixedly mounted with a third spring sleeved on the second buffer, one end of the third spring, which is far away from the first buffer rod 25, is fixedly arranged on the inner wall of one side of the cavity 24, which is close to the radiodiagnosis imager body 1, the inner walls of the two sides of the cavity 24 are both provided with second grooves 29, a movable rod 30 is slidably arranged in the second grooves 29, one end of the movable rod 30 extends out of the second grooves 29, and is rotatably provided with a connecting rod 31 through a hinge, one end of the two connecting rods 31 respectively far away from the two movable rods 30 is respectively rotatably arranged on two sides of one end of the first buffer rod 25 positioned in the cavity 24, the inner walls of two sides of the second groove 29 are respectively provided with a fourth sliding chute, a fourth sliding block is slidably arranged in the fourth sliding chute, one side of the fourth sliding block extends out of the fourth sliding chute, and fixed mounting is on movable rod 30, and equal fixed mounting has the fourth spring on the one side inner wall that two second recesses 29 kept away from each other, and the fourth spring is located the one end fixed connection in second recess 29 with movable rod 30. Through the matching use of 11 support columns, 12 sliding grooves, 13 support rods, 14 placement grooves, 15 racks, 16 rotating grooves, 17 gears, 18 second sliding grooves, 19 second sliding blocks, 20 first springs, 21 rotating motors and rotating rods 22, the rotating motors 21 are started, the rotating motors 21 drive the rotating rods 22 to rotate, the rotating rods 22 drive the gears 17 to rotate, the gears 17 drive the racks 15 to move, the racks 15 drive the support rods 13 to slide in the sliding grooves 12, and the support rods 13 drive the second sliding blocks 19 to slide in the second sliding grooves 18, so that the height position of the examination bed 8 can be conveniently and stably adjusted; through the cooperation of the buffer block 23, the cavity 24, the first buffer rod 25, the second spring 26, the first groove 27, the second buffer rod 28, the second groove 29, the movable rod 30 and the connecting rod 31, when the examining bed 8 is pushed, the examining bed 8 drives the first sliding block 6 and the second sliding block 7 to slide in the sliding groove 5, the first sliding block 6 drives the supporting column 11 to extrude the first buffer rod 25, the first buffer rod 25 drives the second buffer rod 28 to slide in the first groove 27, meanwhile, the first buffer rod 25 drives the connecting rod 31 to move, the connecting rod 31 drives the movable rod 30 to slide in the second groove 29, and the buffer can be conveniently carried out when the examining bed 8 moves; the height position of the examination bed 8 can be conveniently and stably adjusted, meanwhile, the examination bed 8 can be conveniently buffered when moving, and the examination bed is simple in structure and convenient to use.

The invention comprises the following steps: the rotating motor 21 is started, the rotating motor 21 drives the rotating rod 22 to rotate, the rotating rod 22 drives the gear 17 to rotate, the gear 17 drives the rack 15 to move, the rack 15 drives the supporting rod 13 to slide in the sliding groove 12, and the supporting rod 13 drives the second sliding block 19 to slide in the second sliding groove 18, so that the purpose of stably adjusting the height position of the examination bed 8 is achieved; when promoting inspection bed 8, inspection bed 8 drives first sliding block 6 and second sliding block 7 and slides in sliding tray 5, first sliding block 6 drives support column 11 and extrudes first buffer bar 25, first buffer bar 25 drives second buffer bar 28 and slides in first recess 27, and simultaneously, first buffer bar 25 drives connecting rod 31 and removes, and connecting rod 31 drives movable rod 30 and slides in second recess 29, reaches the purpose of buffering when being convenient for remove inspection bed 8.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (3)

1. The utility model provides a radiodiagnosis imager, includes radiodiagnosis imager body (1), its characterized in that, the top side fixed mounting of radiodiagnosis imager body (1) has radiation imaging device (2), fixed mounting has display (3) on one side of radiation imaging device (2), one side fixed mounting of radiodiagnosis imager body (1) has base (4), sliding tray (5) have been seted up on base (4), slidable mounting has first sliding block (6) and second sliding block (7) in sliding tray (5), the equal fixed mounting in top side of first sliding block (6) and second sliding block (7) has support column (11), sliding groove (12) have been seted up on the top of support column (11), slidable mounting has bracing piece (13) in sliding groove (12), and the top of bracing piece (13) extends outside sliding groove (12), the top ends of the two support rods (13) are provided with the same examination bed (8), the examination bed (8) is matched with the radiation imaging device (2), the support rod (13) on the second sliding block (7) is fixedly arranged on the bottom side of the examination bed (8), the bottom side of the examination bed (8) is provided with a first sliding chute (9), the first sliding chute (9) is internally provided with a first sliding block (10) in a sliding manner, the bottom side of the first sliding block (10) is fixedly arranged at the top end of the support rod (13) arranged on the first sliding block (6), one side of the support rod (13) is provided with a placing groove (14), a rack (15) is fixedly arranged in the placing groove (14), the inner wall of one side of the sliding groove (12) close to the rack (15) is provided with a rotating groove (16), a gear (17) is rotatably arranged in the rotating groove (16), and one side of the gear (17) extends out of the rotating groove, and is meshed with the rack (15), a rotating motor (21) is fixedly installed on the inner wall of one side of the rotating groove (16), a rotating rod (22) is fixedly installed on an output shaft of the rotating motor (21), one end of the rotating rod (22), which is far away from the rotating motor (21), is rotatably installed on the inner wall of one side of the rotating groove (16), which is far away from the rotating motor (21), a gear (17) is fixedly sleeved on the rotating rod (22), a buffer mechanism for buffering the examination bed (8) is arranged between the first sliding block (6) and the radiation diagnosis imager body (1), the buffer mechanism comprises a buffer block (23) which is fixedly installed on one side of the radiation diagnosis imager body (1), which is close to the base (4), a cavity (24) is formed on the buffer block (23), and a through hole is formed on the inner wall of one side of the radiation diagnosis imager body (1) which is far away from the cavity (, and a first buffer rod (25) is arranged in the through hole in a sliding manner, two ends of the first buffer rod (25) extend out of the through hole, one end of the first buffer rod (25) positioned outside the buffer block (23) is fixedly arranged at one side of a support column (11) on a first sliding block (6), one end of the first buffer rod (25) positioned in the cavity (24) is provided with a first groove (27), a second buffer rod (28) is arranged in the first groove (27) in a sliding manner, one end of the second buffer rod (28) extends out of the first groove (27), and is fixedly arranged on the inner wall of one side of the cavity (24) close to the radiodiagnosis imager body (1), third sliding grooves are arranged on the inner walls of two sides of the first groove (27), a third sliding block is arranged in the third sliding groove in a sliding manner, one side of the third sliding block extends out of the third sliding groove, and is fixedly arranged on the second buffer rod (28), one side of the buffer block (23) far away from the radiodiagnosis imager body (1) is fixedly provided with a second spring (26) sleeved on a first buffer rod (25), one end of the second spring (26) far away from the buffer block (23) is fixedly arranged on a corresponding support column (11), one end of the first buffer rod (25) located in the cavity (24) is fixedly provided with a third spring sleeved on a second buffer rod (28), one end of the third spring far away from the first buffer rod (25) is fixedly arranged on one side inner wall of the cavity (24) close to the radiodiagnosis imager body (1), the inner walls of two sides of the cavity (24) are respectively provided with a second groove (29), a movable rod (30) is slidably arranged in the second groove (29), one end of the movable rod (30) extends out of the second groove (29), and a connecting rod (31) is rotatably arranged through a hinge, one end that two movable rods (30) were kept away from respectively in two connecting rod (31) rotates respectively and installs on the both sides that first buffer lever (25) is located one end in cavity (24), the fourth spout has all been seted up on the both sides inner wall of second recess (29), and slidable mounting has the fourth slider in the fourth spout, and outside one side of fourth slider extended to the fourth spout, and fixed mounting was on movable rod (30), and equal fixed mounting has the fourth spring on the one side inner wall of keeping away from each other in two second recesses (29), and the fourth spring is located the one end fixed connection in second recess (29) with movable rod (30).

2. The radiodiagnostic imager as claimed in claim 1, characterized in that a second sliding groove (18) is formed in an inner wall of the sliding groove (12) on a side away from the rotating groove (16), a second sliding block (19) is slidably mounted in the second sliding groove (18), and a side of the second sliding block (19) extends out of the second sliding groove (18) and is fixedly mounted on the supporting rod (13).

3. A radiodiagnostic imager in accordance with claim 1, characterized in that the sliding groove (12) has a first spring (20) fixedly mounted on its bottom inner wall, the top end of the first spring (20) being fixedly mounted on the bottom end of the support bar (13).

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