CN221242898U - Seat for radiology department of hospital - Google Patents

Abstract

The utility model provides a chair for hospital radiology department, comprising: the seat box is provided with a mounting cavity, and two arc-shaped grooves are formed in the bottom cavity wall of the mounting cavity; the seat board assembly comprises a main seat board and two auxiliary seat boards; the rotation unit comprises two arc blocks, two transmission rods, a first driving piece, two first linkage strips and a first linkage wheel, wherein the two arc blocks are respectively arranged in the two arc grooves in a sliding mode, the two transmission rods are respectively connected with the main seat plate, the first driving piece is arranged on the bottom cavity wall of the installation cavity, the two first linkage strips are respectively sleeved on the two transmission rods, the first linkage wheel is arranged on an output shaft of the first driving piece, and the first linkage wheel is connected with the two first linkage strips in an all-meshed mode. After the utility model is used, the examination angle of the patient can be automatically adjusted without the patient rotating the body, thereby saving the examination time, adjusting the examination angle to be controllable, further improving the examination efficiency of the hospital and ensuring the examination quality.

Description

Seat for radiology department of hospital

Technical Field

The utility model relates to the technical field of medical equipment, in particular to a seat for a radiology department of a hospital.

Background

The radiology department is an important auxiliary examination department of a hospital, in modern hospital construction, the radiology department is an integrated department integrating examination, diagnosis and treatment, and a plurality of diseases in clinical departments need to be clearly diagnosed and auxiliary diagnosed through the examination of radiology department equipment, and along with the continuous updating of the radiology equipment and the expansion of examination contents, the medical imaging (radiology) department needs to implement integral management and unified management of various imaging equipment and diagnosis and treatment business contents. The nursing push chair at present mainly has the following common defects:

When a patient is in a perspective view, a doctor can gradually rotate left or right according to the condition of the patient so as to enable the doctor to perform more accurate examination, however, the current detection seat used in the radiology department cannot automatically control the rotation angle of the patient, and the patient can only rotate left or right to adjust the examination angle according to the requirement of the doctor. So that a lot of time is wasted in the examination, and the examination efficiency of the hospital is reduced. Moreover, the inspection angle is not well controlled, and the quality of inspection is affected. Meanwhile, the patient's body may be painful when rotated, and thus has limitations.

Disclosure of utility model

The present utility model has been made to solve the above-described problems, and an object of the present utility model is to provide a chair for hospital radiology department.

The utility model provides a hospital radiology seat, which has the following characteristics that: the seat box is provided with a mounting cavity, the mounting cavity is arranged along the height direction of the seat box and extends to the top wall of the seat box, and the bottom cavity wall of the mounting cavity is provided with two arc grooves with opposite arc openings and corresponding arrangement; the seat board assembly is arranged at the upper end of the seat box and comprises a main seat board and two auxiliary seat boards, and the two auxiliary seat boards are respectively and movably arranged at the left side and the right side or the front side and the rear side of the main seat board; the rotating unit is arranged in the mounting cavity and comprises two arc-shaped blocks, two transmission rods, a first driving piece, two first linkage strips and a first linkage wheel, wherein the two arc-shaped blocks are respectively arranged in the two arc-shaped grooves in a sliding manner, one ends of the two transmission rods are respectively connected with the two arc-shaped blocks, the other ends of the two transmission rods are respectively connected with the main seat plate, the first driving piece is arranged on the bottom cavity wall of the mounting cavity and between the two arc-shaped grooves, the two first linkage strips are respectively sleeved on the two transmission rods, the first linkage wheel is arranged on an output shaft of the first driving piece, and the first linkage wheel is respectively connected with the two first linkage strips in a meshed manner; the two extension units are arranged in the mounting cavity and are used for respectively controlling the two auxiliary seat boards to be close to or far from the main seat board; and the lifting unit is arranged at the lower end of the seat box and used for controlling the seat box to move up and down.

The hospital radiology seat provided by the utility model can also have the following characteristics: a plurality of concave sliding grooves are formed in the bottom wall of the main seat board, a plurality of convex sliding strips are arranged at one end of the two auxiliary seat boards facing the main seat board, and each convex sliding strip is in sliding connection with one concave sliding groove.

The hospital radiology seat provided by the utility model can also have the following characteristics: each extension unit comprises a second driving piece, a second linkage bar and a second linkage wheel, wherein the second driving piece is arranged on the side cavity wall of the installation cavity, the second linkage bar is arranged on the bottom wall of the corresponding auxiliary seat board, and the second linkage wheel is arranged on the output shaft of the second driving piece and is in meshed connection with the second linkage bar.

The hospital radiology seat provided by the utility model can also have the following characteristics: two through holes are formed in the side cavity wall of the mounting cavity, and the two through holes are respectively and correspondingly arranged with the two second linkage bars and are used for enabling the corresponding second linkage bars to reciprocate.

The hospital radiology seat provided by the utility model can also have the following characteristics: the lifting unit comprises a bottom plate and a plurality of electric push rods, the bottom plate is arranged at the lower end of the seat box, one ends of the electric push rods are connected with the bottom wall of the seat box, and the other ends of the electric push rods are connected with the bottom plate.

The hospital radiology seat provided by the utility model can also have the following characteristics: soft cushions are arranged on the main seat board and the two auxiliary seat boards.

The hospital radiology seat provided by the utility model can also have the following characteristics: the first linkage bar and the second linkage bar in the stretching unit are racks, synchronous belts or lead screws.

The hospital radiology seat provided by the utility model can also have the following characteristics: the first linkage wheel and the second linkage wheel in the extension unit are gears.

Effects and effects of the utility model

According to the hospital radiology seat, the seat board assembly is arranged at the upper end of the seat box, and the rotating unit capable of controlling the seat board assembly to rotate is arranged in the seat box, so that when an inspection angle needs to be adjusted, a first driving piece in the rotating unit operates, and a first linkage wheel on an output shaft of the first driving piece drives two first linkage bars to move. At this time, the moving directions of the two first linkage bars are opposite. Then, the two first linkage bars drive the corresponding transmission rods to move. Then, the two transmission rods can respectively drive the two arc blocks to slide in the corresponding arc grooves. Finally, under the condition that the arc-shaped block is affected by the radian of the arc-shaped groove and continuously slides, the two transmission rods can drive the seat plate assembly to rotate, so that a patient does not need to rotate the body, the checking angle of the patient can be automatically adjusted, the checking time is saved, the checking angle is adjusted to be controllable, the checking efficiency of a hospital is improved, the checking quality is ensured, and the pain of the patient in adjusting the checking angle is avoided.

Drawings

FIG. 1 is a schematic view of a chair for hospital radiology department in an embodiment of the present utility model;

FIG. 2 is a schematic view of the interior of the seat box at a first view angle in accordance with an embodiment of the present utility model;

FIG. 3 is a schematic view of the interior of the seat box at a second view angle in accordance with an embodiment of the present utility model;

Fig. 4 is a schematic view of the structure of the seat plate assembly after being extended in the embodiment of the present utility model.

10. A seat box; 11. a mounting cavity; 12. an arc-shaped groove; 13. a through hole; 20. a seat plate assembly; 21. a main seat board; 211. a concave chute; 22. an auxiliary seat board; 221. a convex slide; 23. a soft cushion; 30. a rotation unit; 31. an arc-shaped block; 32. a transmission rod; 33. a first driving member; 34. a first linkage bar; 35. a first linkage wheel; 40. an extension unit; 41. a second driving member; 42. a second linkage bar; 43. a second coupling wheel; 50. a lifting unit; 51. a bottom plate; 52. an electric push rod.

Detailed Description

In order to make the technical means, the creation features, the achievement of the purpose and the effect of the present utility model easy to understand, the present utility model is specifically described below with reference to the accompanying drawings.

Examples

Fig. 1 is a schematic structural view of a seat for a radiology department of a hospital according to the present utility model, fig. 2 is a schematic structural view of an interior of a seat box at a first view angle according to the present utility model, fig. 3 is a schematic structural view of an interior of a seat box at a second view angle according to the present utility model, and fig. 4 is a schematic structural view of a seat plate assembly after being extended according to the present utility model.

As shown in fig. 1 to 3, the present embodiment provides a hospital radiological chair including a seat box 10, a seat plate assembly 20, a rotating unit 30, an extending unit 40, and a lifting unit 50.

As shown in fig. 2 and 3, the seat box 10 has a mounting cavity 11, and the mounting cavity 11 is provided in the height direction of the seat box 10 and extends to the top wall of the seat box 10. Two arc grooves 12 which are opposite in arc opening and are correspondingly arranged are formed in the bottom cavity wall of the installation cavity 11. Wherein two through holes 13 are arranged on the side cavity wall of the installation cavity 11.

In this embodiment, the outer wall of the seat box 10 can be provided with armrests and/or back panels so that the patient can lean against the seat box when sitting on the utility model, thereby improving the comfort and practicality of the utility model during use.

As shown in fig. 1 to 4, the seat plate assembly 20 is provided at the upper end of the seat box 10, and the seat plate assembly 20 includes a main seat plate 21 and two sub seat plates 22, the two sub seat plates 22 being movably provided at the left and right sides or the front and rear sides of the main seat plate 21, respectively. Wherein, a plurality of concave sliding grooves 211 are provided on the bottom wall of the main seat board 21, a plurality of convex sliding strips 221 are provided on one end of the two auxiliary seat boards 22 facing the main seat board 21, and each convex sliding strip 221 is slidably connected with one concave sliding groove 211. The seat plate assembly 20 can thus be adapted to patients of different hip sizes by telescoping, thereby improving the applicability of the present utility model.

In the present embodiment, the male sliding bar 221 and the female sliding groove 211 are preferably provided in two, and the two male sliding bars 221 and the corresponding two female sliding grooves 211 are respectively provided on both sides of the seat plate assembly 20. In addition, a limiting groove is disposed on the outer wall of the two convex sliding strips 221 along the axial direction, and the limiting groove extends to one end of the convex sliding strip 221. And, the two concave sliding grooves 211 are respectively provided with a limit screw, and the two limit screws are respectively connected with the two limit grooves in a sliding way, so that the convex sliding strips 221 are prevented from sliding out of the corresponding concave sliding grooves 211, and the stability of the utility model in the use process is improved.

In this embodiment, the main seat plate 21 and the two sub seat plates 22 are provided with cushions 23. Among them, the cushion 23 is preferably made of rubber. The patient can be more comfortable when sitting on the seat plate assembly 20, further enhancing the comfort of the present utility model during use.

In this embodiment, the bottom walls of the main seat board 21 and the two auxiliary seat boards 22 are attached to the upper wall of the seat box 10, so as to prevent external impurities from entering the installation cavity 11 to affect the operation of the rotating unit 30 and the extending unit 40, and further indirectly improve the stability of the utility model in the use process.

As shown in fig. 2 to 4, the rotating unit 30 is disposed in the mounting cavity 11, and the rotating unit 30 includes two arc-shaped blocks 31, two transmission rods 32, a first driving member 33, two first linkage bars 34, and a first linkage wheel 35. The two arc-shaped blocks 31 are slidably arranged in the two arc-shaped grooves 12 respectively. One end of each of the two transmission rods 32 is connected with the two arc-shaped blocks 31, and the other end is connected with the main seat board 21. The first driving member 33 is provided on the bottom wall of the mounting chamber 11 between the two arcuate slots 12. The two first linkage bars 34 are respectively sleeved on the two transmission rods 32. The first linkage wheel 35 is disposed on the output shaft of the first driving member 33, and the first linkage wheel 35 is engaged with the two first linkage bars 34.

As shown in fig. 2 and 3, two extension units 40 are provided in the installation cavity 11 for controlling the two sub-seat plates 22 to be close to or far from the main seat plate 21, respectively. Each extension unit 40 includes a second driving member 41, a second linkage bar 42, and a second linkage wheel 43, where the second driving member 41 is disposed on a side wall of the mounting cavity 11, the second linkage bar 42 is disposed on a bottom wall of the corresponding auxiliary seat plate 22, and the second linkage wheel 43 is disposed on an output shaft of the second driving member 41 and is engaged with the second linkage bar 42. The two second linkage bars 42 are respectively corresponding to the two through holes 13, so that the linkage bars are not affected by the wall of the mounting cavity 11 when in reciprocating movement, and the stability of the utility model in the use process is further improved.

In the present embodiment, the first driving member 33 and the second driving member 41 are each preferably a motor.

In the present embodiment, the first linkage bar 34 and the second linkage bar 42 in the extension unit 40 are racks, timing belts, or lead screws.

In the present embodiment, the first coupling wheel 35 and the second coupling wheel 43 in the extension unit 40 are gears.

In the present embodiment, the first coupling wheel 35 and the two first coupling bars 34, and the second coupling wheel 43 and the second coupling bar 42 are always in an engaged relationship.

As shown in fig. 1, a lifting unit 50 is provided at the lower end of the seat box 10 for controlling the seat box 10 to move up and down. The lifting unit 50 includes a bottom plate 51 and a plurality of electric push rods 52, the bottom plate 51 is disposed at the lower end of the seat box 10, one ends of the plurality of electric push rods 52 are connected with the bottom wall of the seat box 10, and the other ends are connected with the bottom plate 51. In the present embodiment, the number of the electric pushers 52 is preferably four, and are provided at four corners of the seat box 10 and the bottom plate 51, respectively. Thus, the seat box 10 can be stably driven to lift, and the practical effect of the utility model is improved.

When a patient is examined using the chair of the present utility model for a hospital radiology department, first, a doctor adjusts the size of the seat plate assembly 20 according to the patient's hip circumference. Specifically, the doctor operates the second driving member 41 to rotate the second driving member 41 to drive the second coupling wheel 43, and moves the two sub-seat plates 22 toward or away from the main seat plate 21 via the second coupling bar 42 engaged with the second coupling wheel 43, thereby adjusting the size of the seat plate assembly 20. At the same time, the doctor adjusts the height of the seat box 10 according to the height and the examination position of the patient. Specifically, the doctor operates the electric push rod 52, so that the electric push rod 52 drives the seat box 10 to ascend or descend, thereby completing the work of adjusting the height of the seat box 10. Then, when the examination angle of the patient needs to be adjusted, the doctor adjusts the examination angle of the patient again through the rotation unit 30. Specifically, the doctor operates the first driving member 33, so that the first driving member 33 drives the first linkage wheel 35 to rotate, and the first linkage wheel drives the two first linkage bars 34 to move. At this time, the moving directions of the two first interlocking strips 34 are opposite. Then, the two first linkage bars 34 drive the corresponding transmission rods 32 to move. Then, the two transmission rods 32 drive the two arc blocks 31 to slide in the corresponding arc grooves 12 respectively. Finally, under the condition that the arc-shaped block 31 is affected by the radian of the arc-shaped groove 12 and continuously slides, the two transmission rods 32 can drive the seat plate assembly 20 to rotate, so that a patient on the seat plate assembly 20 rotates, and the work of adjusting the checking angle of the patient is completed.

Effects and effects of the examples

According to the hospital radiology seat according to the embodiment, the seat board assembly is arranged at the upper end of the seat box, and the rotating unit capable of controlling the seat board assembly to rotate is arranged in the seat box, so that when the inspection angle needs to be adjusted, the first driving piece in the rotating unit operates, and the first linkage wheel on the output shaft drives the two first linkage bars to move. At this time, the moving directions of the two first linkage bars are opposite. Then, the two first linkage bars drive the corresponding transmission rods to move. Then, the two transmission rods can respectively drive the two arc blocks to slide in the corresponding arc grooves. Finally, under the condition that the arc-shaped block is affected by the radian of the arc-shaped groove and continuously slides, the two transmission rods can drive the seat plate assembly to rotate, so that a patient does not need to rotate the body, the checking angle of the patient can be automatically adjusted, the checking time is saved, the checking angle is adjusted to be controllable, the checking efficiency of a hospital is improved, the checking quality is ensured, and the pain of the patient in adjusting the checking angle is avoided.

Further, since the outer wall of the seat box in the hospital radiology seat of the present utility model can be provided with armrests and/or backboard, patients can lean on when sitting on the present utility model, thereby improving the comfort and practicality of the present utility model during use.

Furthermore, because the bottom wall of the main seat board in the hospital radiology department seat is provided with the plurality of concave sliding grooves, one end of the two auxiliary seat boards facing the main seat board is provided with the plurality of convex sliding strips, and each convex sliding strip is in sliding connection with one concave sliding groove, the seat board assembly can be suitable for patients with different hip circumferences through expansion and contraction, and therefore the applicability of the hospital radiology department seat is improved.

Furthermore, because the outer walls of the convex sliding strips in the hospital radiology seat are provided with the limit grooves along the axial direction, the limit grooves extend to one end corresponding to the convex sliding strips. And the concave sliding grooves are internally provided with limit screws, and each limit screw is in sliding connection with one limit groove, so that the convex sliding strips can be prevented from sliding out of the corresponding concave sliding grooves, and the stability of the utility model in the use process is improved.

Further, because of the present utility model in the hospital radiology department seat.

Furthermore, because the main seat board and the two auxiliary seat boards in the hospital radiology seat are respectively provided with the soft cushions, patients can feel more comfortable when sitting on the seat board assembly, and therefore the comfort in the use process of the hospital radiology seat is further improved.

Furthermore, because the bottom walls of the main seat board and the two auxiliary seat boards in the hospital radiology seat are attached to the upper wall of the seat box, external sundries can be prevented from entering the installation cavity to influence the operation of the rotating unit and the extending unit, and therefore the stability of the hospital radiology seat in the use process is indirectly improved.

Furthermore, because the two second linkage bars in the hospital radiology seat are respectively arranged corresponding to the two through holes, the linkage bars cannot be influenced by the cavity wall of the mounting cavity when the linkage bars reciprocate, so that the stability of the hospital radiology seat in the use process is further improved.

Furthermore, because the first linkage bar and the second linkage bar in the stretching unit in the hospital radiology department seat are racks, synchronous belts or lead screws, and the first linkage wheel and the second linkage wheel in the stretching unit are gears, when the first linkage wheel and the second linkage wheel rotate, the two arc-shaped blocks and the two auxiliary seat boards can be respectively and stably driven to move by the two first linkage bars and the two second linkage bars, so that the working effect of the hospital radiology department seat is ensured.

Furthermore, because the plurality of electric push rods are arranged between the base plate and the seat box in the seat for the hospital radiology department, the electric push rods can drive the seat box to lift, so that the practical effect of the seat box is improved.

The above embodiments are preferred examples of the present utility model, and are not intended to limit the scope of the present utility model.

Claims (8)

1. A hospital radiology seat comprising:

The seat box is provided with a mounting cavity, the mounting cavity is arranged along the height direction of the seat box and extends to the top wall of the seat box, and the bottom cavity wall of the mounting cavity is provided with two arc grooves with opposite arc openings and corresponding arrangement;

The seat board assembly is arranged at the upper end of the seat box and comprises a main seat board and two auxiliary seat boards, and the two auxiliary seat boards are respectively and movably arranged at the left side and the right side or the front side and the rear side of the main seat board;

the rotating unit is arranged in the mounting cavity and comprises two arc-shaped blocks, two transmission rods, a first driving piece, two first linkage strips and a first linkage wheel,

The two arc-shaped blocks are respectively and slidably arranged in the two arc-shaped grooves, one end of each transmission rod is respectively connected with the two arc-shaped blocks, the other end of each transmission rod is connected with the main seat plate, the first driving piece is arranged on the bottom cavity wall of the mounting cavity and positioned between the two arc-shaped grooves, the two first linkage strips are respectively sleeved on the two transmission rods, the first linkage wheels are arranged on the output shafts of the first driving pieces, and the first linkage wheels are respectively connected with the two first linkage strips in a meshed mode;

The two extension units are arranged in the mounting cavity and are used for respectively controlling the two auxiliary seat boards to be close to or far away from the main seat board;

And the lifting unit is arranged at the lower end of the seat box and used for controlling the seat box to move up and down.

2. The hospital radiology seat according to claim 1, wherein:

The bottom wall of the main seat board is provided with a plurality of concave sliding grooves, one end of the auxiliary seat board, which faces the main seat board, is provided with a plurality of convex sliding strips, and each convex sliding strip is in sliding connection with one concave sliding groove.

3. The hospital radiology seat according to claim 1, wherein:

wherein each stretching unit comprises a second driving piece, a second linkage bar and a second linkage wheel,

The second driving piece is arranged on the side cavity wall of the installation cavity,

The second linkage strips are arranged on the bottom wall of the corresponding auxiliary seat board,

The second linkage wheel is arranged on the output shaft of the second driving piece and is connected with the second linkage bar in a meshed mode.

4. A hospital radiology seat as defined in claim 3 wherein:

Two through holes are formed in the side cavity wall of the mounting cavity, and the two through holes are respectively arranged corresponding to the two second linkage bars and used for enabling the corresponding second linkage bars to reciprocate.

5. The hospital radiology seat according to claim 1, wherein:

wherein the lifting unit comprises a bottom plate and a plurality of electric push rods,

The bottom plate is arranged at the lower end of the seat box,

One end of each of the plurality of electric push rods is connected with the bottom wall of the seat box, and the other end of each of the plurality of electric push rods is connected with the bottom plate.

6. The hospital radiology seat according to claim 1, wherein:

Wherein, the main seat board and the two auxiliary seat boards are respectively provided with a soft cushion.

7. The hospital radiology seat according to claim 1, wherein:

the first linkage bar and the second linkage bar in the stretching unit are racks, synchronous belts or lead screws.

8. The hospital radiology seat according to claim 1, wherein:

Wherein the first linkage wheel and the second linkage wheel in the extension unit are gears.