CN210962722U - Monitoring sickbed for interventional operation - Google Patents

Abstract

The utility model relates to the technical field of medical equipment, in particular to a monitoring sickbed for interventional operation, which comprises a side bracket, a supporting beam and a bed body; the lateral supports on two sides are connected through a supporting beam, the upper part of the supporting beam is provided with a bed body, the lateral support on one side of the bed body is connected with a compression assembly in a sliding way, and the compression assembly comprises a box body, and a lifting hydraulic cylinder, a lifting plate, a rotating shaft, a rotating disc, a vertical plate, a U-shaped chute plate and an air bag mounting seat which are arranged in the box body; the lifting mechanism is characterized in that one side of the box body is connected with the lateral support in a sliding manner, a lifting hydraulic cylinder is fixed at the bottom in the box body, the moving end of the lifting hydraulic cylinder is connected with a lifting plate, the lifting plate is connected with a rotating shaft in a rotating manner, the rotating shaft is fixedly connected with a rotating disc, the upper portion of the rotating disc is vertically connected with two vertical plates which are oppositely arranged, the two vertical plates are respectively connected with two ends of a U-shaped chute plate, and an air bag mounting seat is connected on the U-shaped chute plate in a sliding manner and provided with a pressing assembly which.

Description

Monitoring sickbed for interventional operation

Technical Field

The utility model relates to the technical field of medical equipment, in particular to a monitoring sickbed for interventional operation.

Background

Interventional therapy, which is a third treatment mode concurrent with medical treatment and surgical treatment, is currently applied in many fields by puncturing a blood vessel on the body surface, including a femoral artery, under guidance of an imaging technology, including CT or B-ultrasonic guidance, and then performing corresponding therapy after an interventional guide wire enters a desired target position along the caliber of a treated blood vessel.

Intervene treatment and played an important role in the aspect of patient's cardiovascular disease, at cardiovascular intervention treatment's in-process, the patient bleeds in a large number easily when inserting the intervention seal wire, need pack the hemostasis 24 hours at puncture site pressurization clinically, ordinary sick bed can not satisfy the demand, pressure hemostasis is wasted time and energy, and present current intervene operation with guardianship sick bed, the function is single, it is inconvenient to have brought to the hemostasis of patient, though there are some guardianship beds that have hemostasis constriction device among the prior art, but after accomplishing hemostasis oppression, the device is difficult for dismantling, bring the inconvenience of follow-up use.

Disclosure of Invention

In view of the defects of the prior art, the utility model provides an intervene operation with guardianship sick bed, it has rotatable direction and the oppression subassembly of being convenient for adjust, convenient to use more, can pack up when not using, does not hinder guardianship bed's normal use.

In order to achieve the above purpose, the technical scheme provided by the utility model is a monitoring sickbed for interventional operation, which comprises a side bracket, a supporting beam and a bed body; the lateral supports on two sides are connected through a supporting beam, the upper part of the supporting beam is provided with a bed body, the lateral support on one side of the bed body is connected with a compression assembly in a sliding way, and the compression assembly comprises a box body, and a lifting hydraulic cylinder, a lifting plate, a rotating shaft, a rotating disc, a vertical plate, a U-shaped chute plate and an air bag mounting seat which are arranged in the box body; one side of the box body is connected with the lateral support in a sliding mode, a lifting hydraulic cylinder is fixed to the bottom in the box body, the moving end of the lifting hydraulic cylinder is connected with a lifting plate, the lifting plate is connected with a rotating shaft in a rotating mode, the rotating shaft is fixedly connected with a rotating disc, the upper portion of the rotating disc is perpendicularly connected with two vertical plates which are oppositely arranged, the two vertical plates are respectively connected with two ends of a U-shaped chute plate, and an air bag mounting seat is connected to the U-.

Based on above-mentioned technical scheme, the U type chute board that utilizes lifter plate and the carousel that can take place rotary displacement each other to realize crossing the sick bed width rotates to setting up along sick bed length, later reduces the lifter plate through hydraulic cylinder, with inside whole oppression subassembly income box, when needing, recycles hydraulic cylinder and rises the lifter plate, rotates the carousel on its upper portion, makes U type chute board cross the sick bed. Adjust the position (sick bed length direction) that oppresses the subassembly and slide in order to adjust U type chute board on it on the lateral part support of bed body one side, sliding connection gasbag mount pad on the U type chute board for adjust the position (sick bed width direction) of gasbag mount pad on U type chute board, adjust suitable position, adjust lift cylinder, make on the gasbag mount pad inflate, and the puncture point that the patient need oppress is oppressed to the gasbag that pressure is suitable.

Further, the lateral part support comprises two stand columns and an upper connecting beam and a lower connecting beam between the two stand columns, a first motor is fixedly mounted on the lateral part support, a first motor output shaft is connected with a first lead screw, the first lead screw is connected with the box body in a threaded mode, and two ends of the first lead screw are respectively connected with the lateral part support in a rotating mode.

Based on the technical scheme, the box body is driven to slide on the side support on one side of the bed body by utilizing the principle of the ball screw in the prior art. Specifically, the first motor drives the first lead screw to rotate, and drives the box body in threaded connection to slide on the upper connecting beam and the lower connecting beam. The mode is higher in adjusting precision, and the longitudinal position of the compression of the air bag is more conveniently positioned.

According to the other technical scheme, a first hydraulic cylinder is fixedly installed on the side support, and the moving end of the first hydraulic cylinder is connected with the box body.

It should be noted that the side bracket includes two columns and an upper connection beam and a lower connection beam between the two columns, and the driving manner of the box body sliding on the upper connection beam and the lower connection beam may also be a manner of using a hydraulic cylinder in the common knowledge.

Furthermore, the box body is respectively provided with an upper guide groove and a lower guide groove at the connecting positions of the upper connecting beam and the lower connecting beam, the upper guide groove is matched with the upper connecting beam, and the lower guide groove is matched with the lower connecting beam.

Based on above-mentioned technical scheme, upper portion and lower part are led simultaneously for the motion of box is more reliable and more stable.

Furthermore, a connecting plate is arranged between the vertical plates, a second motor is installed on the rotary table and connected with a second lead screw, the second lead screw is in threaded connection with the air bag installation seat, one end of the second lead screw is rotatably connected to the connecting plate, and the other end of the second lead screw is rotatably connected with the bottom beam of the U-shaped chute plate.

Based on the technical scheme, the air bag mounting seat is driven to move on the U-shaped sliding groove plate by utilizing the principle of a ball screw in the prior art. Specifically, the second motor drives the second screw rod to rotate, and drives the air bag mounting seats in threaded connection to slide on the U-shaped chute plates on the two sides. The mode is higher in adjusting precision, and the transverse position of the air bag compression is more conveniently positioned.

According to the other technical scheme, a connecting plate is arranged between the vertical plates, a second hydraulic cylinder is installed on the rotary table, and the moving end of the second hydraulic cylinder is connected with the air bag installation seat.

The airbag mounting seat may be driven to slide on the U-shaped chute plates on both sides by a conventional hydraulic cylinder.

Furthermore, strip-shaped convex blocks embedded into the sliding grooves of the U-shaped sliding groove plates are respectively arranged on two sides of the air bag mounting seat.

Based on the technical scheme, the grooves are dug towards the inner side of the air bag mounting seat on the U-shaped sliding groove plate in a common knowledge mode, and the sliding grooves of the U-shaped sliding groove plate are matched with the strip-shaped convex blocks on the air bag mounting seat, so that the U-shaped sliding groove plate has a better guiding effect.

Furthermore, an air bag is arranged on the air bag mounting seat, and an inflation inlet is arranged on the air bag mounting seat.

The inflation is carried out in a manner known in the art.

Furthermore, four lifting hydraulic cylinders are arranged and respectively support four corners of the lifting plate.

Based on above-mentioned technical scheme, it is more stable to go up and down, needs to explain that, four hydraulic cylinder effects are the same and synchronous motion.

Furthermore, the upper part of the U-shaped sliding groove plate is connected with an object placing plate in a sliding mode.

Based on above-mentioned technical scheme, utilize U type chute board can also realize putting the support of thing board, when needs use its placing object article or have a dinner, can regard it as the support to use, make things convenient for disease and medical personnel's guardianship more.

Furthermore, two ends of the U-shaped chute plate are detachably mounted on the vertical plate through screws respectively.

Furthermore, a turntable bearing is arranged between the lifting plate and the turntable, a plurality of positioning blind holes are formed in the lifting plate, a locking through hole is formed in the turntable, and one positioning blind hole and the locking through hole are locked through a positioning pin.

Based on above-mentioned technical scheme, utilize the locating pin to adjust lifter plate and carousel to the suitable angle after lock, avoid adjusting to the device of suitable angle and scraping together.

Preferably, the number of the positioning blind holes is two, and the two positioning blind holes are mutually 90 degrees.

The utility model discloses a use method: the lifting plate is lifted by the lifting hydraulic cylinder, and the turntable on the upper part of the lifting hydraulic cylinder is rotated, so that the U-shaped chute plate spans across the sickbed, and the rotation angle is arbitrary and is usually 90 degrees. The adjusting compression component slides on the side support on one side of the bed body to adjust the position (length direction of the sickbed) of the U-shaped chute plate on the adjusting compression component, the U-shaped chute plate is connected with the air bag installation seat in a sliding manner and used for adjusting the position (width direction of the sickbed) of the air bag installation seat on the U-shaped chute plate to be adjusted to a proper position, namely, the air bag is aligned to the part to be compressed of the patient, the lifting cylinder is adjusted, so that the air bag installation seat is inflated, and the air bag with proper pressure compresses the puncture point to be compressed of the patient. After the compression is completed, the lifting cylinder can be lifted, the turntable rotates to drive the U-shaped sliding chute plate to rotate back to the position along the length direction of the sickbed, and the lifting cylinder is adjusted again, so that the lifting plate descends, and the internal structure of the whole compression assembly is retracted into the box body.

The utility model has the advantages that: the compression assembly is provided with a rotatable direction and is convenient to adjust, is more convenient to use and can be folded when not used.

Drawings

Fig. 1 is a schematic structural view of the present invention (compression assembly retracted);

FIG. 2 is a side view of the present invention (compression assembly retracted);

FIG. 3 is a schematic view of the present invention (with the compression assembly raised and not rotated);

fig. 4 is a schematic structural view of the compression assembly of the present invention;

FIG. 5 is a partial enlargement of portion B of FIG. 4;

FIG. 6 is a partial cross-sectional view A-A of FIG. 4;

FIG. 7 is a top view of the compression assembly;

figure 8 is a top view of the present invention (with the compression assembly raised and rotated 90 degrees);

FIG. 9 is a schematic view of a lifting configuration of the compression assembly;

fig. 10 is a schematic view of the structure of embodiment 2 (compression assembly retracted);

FIG. 11 is a top view of the pressing member in embodiment 2;

in the figure: 1. the device comprises a side support, 1.1, a stand column, 1.2, an upper connecting beam, 1.3, a lower connecting beam, 1.4, a first motor, 1.5, a first lead screw, 1.6, a first hydraulic cylinder, 2, a supporting beam, 3, a bed body, 4, a pressing component, 4.1, a box body, 4.1.1, an upper guide groove, 4.1.2, a lower guide groove, 4.2, a lifting hydraulic cylinder, 4.3, a lifting plate, 4.4, a rotating shaft, 4.5, a rotating disc, 4.6, a vertical plate, 4.7, a U-shaped sliding groove plate, 4.8, an air bag mounting seat, 4.9, a connecting plate, 4.10, a second motor, 4.11, a second lead screw, 4.12, an air bag, 4.13, an air charging port, 4.14, a screw, 4.15, a rotating disc bearing, 4.16, a positioning blind hole, 4.17, a locking through hole, 4.18, a positioning pin, 4.19, a storage plate, 4.20 and a second hydraulic cylinder.

Detailed Description

The features and principles of the present invention will be described in detail below with reference to the accompanying drawings, and the illustrated embodiments are only for explaining the present invention, and do not limit the scope of the present invention.

Example 1

A monitoring sickbed for interventional operation comprises a side bracket 1, a supporting beam 2 and a bed body 3; the lateral supports 1 on two sides are connected through a supporting beam 2, the bed body 3 is installed on the upper portion of the supporting beam 2, the compression assembly 4 is connected on the lateral support 1 on one side of the bed body 3 in a sliding mode, and the compression assembly 4 comprises a box body 4.1, a lifting hydraulic cylinder 4.2, a lifting plate 4.3, a rotating shaft 4.4, a rotary table 4.5, a vertical plate 4.6, a U-shaped sliding chute plate 4.7 and an air bag installation seat 4.8, wherein the lifting hydraulic cylinder is arranged inside the box body 4.1; the utility model discloses a bed, including box 4.1, the lateral part support 1 sliding connection of box 4.1 one side and bed body one side, 4.2 of the fixed hydraulic cylinder in bottom in the box, 4.2 removal ends of hydraulic cylinder connect lifter plate 4.3, lifter plate 4.3 rotates with pivot 4.4 to be connected, pivot 4.4 fixed connection carousel 4.5, two risers 4.6 of relative setting are connected perpendicularly on 4.5 upper portions of carousel, two risers 4.6 connect U type spout board 4.7 both ends respectively, sliding connection gasbag mount pad 4.8 on U type spout board 4.7.

Further, the lateral part support 1 of 3 one sides of the bed body includes two stands 1.1 and two upper tie-beams 1.2 and lower tie-beams 1.3 between the stand 1.1, the first motor 1.4 of fixed mounting on the lateral part support 1, the first lead screw 1.5 of first motor 1.4 output shaft, threaded connection box 4.1 on the first lead screw 1.5, first lead screw 1.5 both ends rotate with lateral part support 1 respectively and are connected.

Furthermore, the positions where the box body 4.1 is connected with the upper connecting beam 1.2 and the lower connecting beam 1.3 are respectively provided with an upper guide groove 4.1.1 and a lower guide groove 4.1.2, the upper guide groove 4.1.1 is matched with the upper connecting beam 1.2, and the lower guide groove 4.1.2 is matched with the lower connecting beam 1.3.

Furthermore, a connecting plate 4.9 is arranged between the vertical plates 4.6, a second motor 4.10 is mounted on the rotary table 4.5, the second motor 4.10 is connected with a second lead screw 4.11, the second lead screw 4.11 is in threaded connection with an air bag mounting seat 4.8, one end of the second lead screw 4.11 is rotatably connected to the connecting plate 4.9, and the other end of the second lead screw is rotatably connected with the bottom beam of the U-shaped chute plate 4.7.

Furthermore, strip-shaped convex blocks embedded into the sliding grooves of the U-shaped sliding groove plates are respectively arranged on two sides of the 4.8 airbag mounting seat.

Further, an air bag 4.12 is arranged on the air bag mounting seat 4.8, and an inflation inlet 4.13 is arranged on the air bag mounting seat.

Furthermore, four lifting hydraulic cylinders 4.2 are arranged and respectively support four corners of the lifting plate 4.3.

Furthermore, the upper part of the U-shaped chute plate 4.7 is connected with an object placing plate 4.19 in a sliding way.

Furthermore, two ends of the U-shaped chute plate 4.7 are detachably mounted on the vertical plate 4.6 through screws 4.14 respectively.

Furthermore, a turntable bearing 4.15 is arranged between the lifting plate 4.3 and the turntable 4.5, a plurality of positioning blind holes 4.16 are arranged on the lifting plate 4.3, a locking through hole 4.17 is arranged on the turntable 4.5, and one positioning blind hole 4.16 and one locking through hole 4.17 are locked through a positioning pin 4.18.

Preferably, two positioning blind holes 4.16 are provided, and the two positioning blind holes 4.16 are at an angle of 90 degrees with each other.

Example 2

A monitoring sickbed for interventional operation comprises a side bracket 1, a supporting beam 2 and a bed body 3; the lateral supports 1 on two sides are connected through a supporting beam 2, the bed body 3 is installed on the upper portion of the supporting beam 2, the compression assembly 4 is connected on the lateral support 1 on one side of the bed body 3 in a sliding mode, and the compression assembly 4 comprises a box body 4.1, a lifting hydraulic cylinder 4.2, a lifting plate 4.3, a rotating shaft 4.4, a rotary table 4.5, a vertical plate 4.6, a U-shaped sliding chute plate 4.7 and an air bag installation seat 4.8, wherein the lifting hydraulic cylinder is arranged inside the box body 4.1; the utility model discloses a bed, including box 4.1, the lateral part support 1 sliding connection of box 4.1 one side and bed body one side, 4.2 of the fixed hydraulic cylinder in bottom in the box, 4.2 removal ends of hydraulic cylinder connect lifter plate 4.3, lifter plate 4.3 rotates with pivot 4.4 to be connected, pivot 4.4 fixed connection carousel 4.5, two risers 4.6 of relative setting are connected perpendicularly on 4.5 upper portions of carousel, two risers 4.6 connect U type spout board 4.7 both ends respectively, sliding connection gasbag mount pad 4.8 on U type spout board 4.7.

Further, the lateral support 1 on one side of the bed body 3 comprises two columns 1.1, an upper connecting beam 1.2 and a lower connecting beam 1.3 between the two columns 1.1, a first hydraulic cylinder 1.6 is fixedly mounted on the lateral support 1, and the moving end of the first hydraulic cylinder 1.6 is connected with the box body 4.1.

Furthermore, the positions where the box body 4.1 is connected with the upper connecting beam 1.2 and the lower connecting beam 1.3 are respectively provided with an upper guide groove 4.1.1 and a lower guide groove 4.1.2, the upper guide groove 4.1.1 is matched with the upper connecting beam 1.2, and the lower guide groove 4.1.2 is matched with the lower connecting beam 1.3.

Furthermore, a connecting plate 4.9 is arranged between the vertical plates 4.6, a second hydraulic cylinder 4.20 is mounted on the rotary table 4.5, and the moving end of the second hydraulic cylinder 4.20 is connected with an air bag mounting seat 4.8.

Furthermore, strip-shaped convex blocks embedded into the sliding grooves of the U-shaped sliding groove plates are respectively arranged on two sides of the 4.8 airbag mounting seat.

Further, an air bag 4.12 is arranged on the air bag mounting seat 4.8, and an inflation inlet 4.13 is arranged on the air bag mounting seat.

Furthermore, four lifting hydraulic cylinders 4.2 are arranged and respectively support four corners of the lifting plate 4.3.

Furthermore, the upper part of the U-shaped chute plate 4.7 is connected with an object placing plate 4.19 in a sliding way.

Furthermore, two ends of the U-shaped chute plate 4.7 are detachably mounted on the vertical plate 4.6 through screws 4.14 respectively.

Furthermore, a turntable bearing 4.15 is arranged between the lifting plate 4.3 and the turntable 4.5, a plurality of positioning blind holes 4.16 are arranged on the lifting plate 4.3, a locking through hole 4.17 is arranged on the turntable 4.5, and one positioning blind hole 4.16 and one locking through hole 4.17 are locked through a positioning pin 4.18.

Preferably, two positioning blind holes 4.16 are provided, and the two positioning blind holes 4.16 are at an angle of 90 degrees with each other.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It should be understood by those skilled in the art that the present invention is not limited to the above embodiments, and the description of the above embodiments and the description is only illustrative of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the present invention, and these changes and modifications are intended to fall within the scope of the present invention as claimed. The protection scope of the utility model is enclosed by the attached.

Claims (10)

1. The utility model provides a intervene operation with guardianship sick bed which characterized in that: comprises a side bracket, a supporting beam and a bed body; the lateral supports on two sides are connected through a supporting beam, the upper part of the supporting beam is provided with a bed body, the lateral support on one side of the bed body is connected with a compression assembly in a sliding way, and the compression assembly comprises a box body, and a lifting hydraulic cylinder, a lifting plate, a rotating shaft, a rotating disc, a vertical plate, a U-shaped chute plate and an air bag mounting seat which are arranged in the box body; one side of the box body is connected with the lateral support in a sliding mode, a lifting hydraulic cylinder is fixed to the bottom in the box body, the moving end of the lifting hydraulic cylinder is connected with a lifting plate, the lifting plate is connected with a rotating shaft in a rotating mode, the rotating shaft is fixedly connected with a rotating disc, the upper portion of the rotating disc is perpendicularly connected with two vertical plates which are oppositely arranged, the two vertical plates are respectively connected with two ends of a U-shaped chute plate, and an air bag mounting seat is connected to the U-.

2. The monitoring hospital bed for interventional operation as set forth in claim 1, wherein: the lateral part support comprises two stand columns and an upper connecting beam and a lower connecting beam between the two stand columns, a first motor is fixedly mounted on the lateral part support, a first motor output shaft is connected with a first lead screw, the first lead screw is connected with the box body in a threaded mode, and two ends of the first lead screw are respectively connected with the lateral part support in a rotating mode.

3. The monitoring hospital bed for interventional operation as set forth in claim 2, wherein: the box body is connected with the upper connecting beam and the lower connecting beam through the upper guide groove and the lower guide groove respectively, the upper guide groove is matched with the upper connecting beam, and the lower guide groove is matched with the lower connecting beam.

4. The monitoring hospital bed for interventional operation as set forth in claim 1, wherein: the connecting plate is arranged between the vertical plates, the second motor is installed on the rotary table and connected with the second lead screw, the second lead screw is in threaded connection with the air bag installation seat, one end of the second lead screw is rotatably connected to the connecting plate, and the other end of the second lead screw is rotatably connected with the bottom beam of the U-shaped chute plate.

5. The monitoring hospital bed for interventional operation as set forth in claim 4, wherein: and strip-shaped convex blocks embedded into the sliding grooves of the U-shaped sliding groove plates are respectively arranged on two sides of the air bag mounting seat.

6. The monitoring hospital bed for interventional operation as set forth in claim 1, wherein: the air bag mounting seat is provided with an air bag which is provided with an inflation inlet.

7. The monitoring hospital bed for interventional operation as set forth in claim 1, wherein: the upper part of the U-shaped sliding groove plate is connected with the object placing plate in a sliding mode.

8. The monitoring hospital bed for interventional operation as set forth in claim 1, wherein: and two ends of the U-shaped chute plate are detachably arranged on the vertical plate through screws respectively.

9. The monitoring hospital bed for interventional operation as set forth in claim 1, wherein: a turntable bearing is arranged between the lifting plate and the turntable, a plurality of positioning blind holes are formed in the lifting plate, a locking through hole is formed in the turntable, and one positioning blind hole and the locking through hole are locked through a positioning pin.

10. The monitoring hospital bed for interventional operation as set forth in claim 9, wherein: the location blind hole sets up two, and two location blind holes are 90 degrees each other.

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