CN109259945B

CN109259945B - Bidirectional shifting-out multifunctional operation carrying bed

Info

Publication number: CN109259945B
Application number: CN201811072963.7A
Authority: CN
Inventors: 时振国; 朱小娟; 李志军; 韩青江; 王晓辉; 郑鹏毅; 李会兵
Original assignee: First Affiliated Hospital of Henan University of Science and Technology
Current assignee: First Affiliated Hospital of Henan University of Science and Technology
Priority date: 2018-09-14
Filing date: 2018-09-14
Publication date: 2020-05-12
Anticipated expiration: 2038-09-14
Also published as: CN109259945A

Abstract

The invention relates to a bidirectional moving-out multifunctional operation carrying bed which comprises a bed board, a sliding type shovel board and a shovel board push-pull assembly, wherein the sliding type shovel board is arranged above the bed board and comprises two end plates and two belt conveying assemblies arranged between the two end plates, the end plates can move out or move back the bed board along a sliding rail, the two belt conveying assemblies are arranged between the two end plates in parallel from top to bottom, the shovel board push-pull assembly comprises a lead screw, a lead screw motor and a sliding block sleeved on the lead screw, a long strip-shaped through groove is formed in the back surface of the bed board corresponding to the lead screw, the lower portion of the sliding block is sleeved on the lead screw, the upper portion of the sliding block is clamped in the long strip-shaped through groove, a linkage groove is formed in the upper end surface of the sliding block, through holes penetrating from top to bottom. The carrying bed of the invention can easily transfer patients from a sickbed to the carrying bed or transfer patients from the carrying bed to the carrying bed.

Description

Bidirectional shifting-out multifunctional operation carrying bed

Technical Field

The invention relates to the technical field of medical auxiliary instruments, in particular to a bidirectional moving-out multifunctional operation carrying bed.

Background

At present, in the medical treatment process, when a patient is moved from a sickbed to an operation flat car or from the operation flat car to the sickbed or an operation table, a plurality of people are often required to lift up simultaneously, on one hand, the labor intensity of medical staff is overlarge, more importantly, the position of the patient is greatly changed, the pain of the patient is increased, and the patient is possibly aggravated, particularly, the patient with major operation, serious trauma, cervical vertebra or thoracolumbar vertebra fracture and the like is carelessly moved, the injury is aggravated, the fracture is aggravated, the broken end is displaced, the nerve, blood vessels, spinal cord and other soft tissues are stabbed, even shock is caused, and the life of the patient is threatened.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a bidirectional moving-out multifunctional operation carrying bed, which can easily transfer a patient from a sickbed to the carrying bed or transfer the patient from the carrying bed to the carrying bed through a smart structural design.

In order to solve the technical problems, the invention provides the following technical scheme: a bidirectional shifting-out multifunctional operation carrying bed comprises a bed plate and four supporting legs, universal wheels are arranged at the lower ends of the supporting legs, the carrying bed further comprises a sliding type shovel plate arranged above the bed plate and a shovel plate push-pull assembly arranged below the bed plate, the sliding type shovel plate comprises two end plates and two belt conveying assemblies arranged between the two end plates, the two end plates are respectively arranged at two ends of the length direction of the bed plate, a long strip-shaped through groove is formed in the bed plate and below the corresponding end plate, slide rails are arranged on two sides of the long strip-shaped through groove, the lower ends of the end plates are clamped on the slide rails, the end plates can be shifted out or shifted back to the bed plate along the slide rails, and the two;

the shovel plate push-pull assembly comprises a screw rod, a screw rod motor and a slide block sleeved on the screw rod, the back surface of the bed plate is provided with a strip-shaped through groove corresponding to the screw rod, the lower part of the slide block is sleeved on the screw rod, the upper part of the slide block is clamped in the strip-shaped through groove, and the upper end surface of the slide block is provided with a linkage groove, the two ends of the end plate are respectively provided with a through hole which is communicated from top to bottom, a control rod is arranged in the through hole in a penetrating way, the lower end of the control rod can be arranged in the linkage groove of the slide block, the upper end of the control rod extends out of the through hole, the outer wall symmetry of control lever is provided with two flanks, and the inner wall symmetry of through-hole is equipped with two spouts that set up along its length direction, and two flanks of control lever are arranged in two spouts respectively, and the inner wall of through-hole is located the upper and lower both ends of spout and still is provided with spacing annular respectively, and spacing annular communicates each other with the spout, makes the flank of control lever can slide into in the spacing annular.

As a further optimization of the bi-directional removal multifunctional surgical transport bed of the present invention: the surface of drive roller and backing roll is provided with the netted anti-skidding line that prevents the belt and skid.

As a further optimization of the bi-directional removal multifunctional surgical transport bed of the present invention: the supporting legs are telescopic supporting legs, and the height of the bed board can be adjusted through the telescopic supporting legs.

Advantageous effects

The operation carrying bed is provided with the sliding type shovel plate capable of moving out/back the bed plate, so that a patient can be easily transferred from a sickbed to the carrying bed or transferred from the carrying bed to the carrying bed, and the sliding type shovel plate can be moved out in two directions, namely, both sides of the carrying bed can be butted with an operating table or the sickbed, so that the structure is more flexible in the using process and can adapt to the complex carrying environment of a hospital. At the transfer in-process, the health below of disease can be stretched into to slidingtype shovel board to the structure that slidingtype shovel board constitutes for two belt conveyor subassemblies, stretch into the in-process of disease health below at the shovel board, the conveyer anticlockwise rotation of top, the conveyer clockwise rotation of below, make shovel board itself produce the power of boring forward, stretch into disease health below with the shovel board very easily, when the disease is located the shovel board completely, close conveyer, then with on the shovel board moves back the bed board can.

Drawings

FIG. 1 is a perspective view of a surgical transport bed according to the present invention;

FIG. 2 is a schematic diagram of a patient transfer preparation stage during use of the surgical carrier bed of the present invention;

FIG. 3 is a schematic structural view illustrating the movement of the blade toward the patient bed during the operation of the present invention;

FIG. 4 is a partial schematic view of the connection between the end plate and the bed body of the present invention;

FIG. 5 is a schematic view of the construction of the blade push-pull assembly of the present invention in a surgical transport bed;

FIG. 6 is a schematic view of the drive connection of the belt conveyor assembly of the present invention;

FIG. 7 is a schematic view of the belt conveyor assembly of the present invention;

FIG. 8 is a schematic view of the position of the control rod of the blade pushing and pulling assembly (with the control rod inserted into the slide) in the present invention;

FIG. 9 is a schematic view of the position of the control rod of the blade push-pull assembly (with the control rod not inserted into the slide) in the present invention;

FIG. 10 is a schematic view showing the position relationship between the sliding grooves and the limiting ring grooves on the inner wall of the through hole on the end plate of the operation carrying bed according to the present invention;

the labels in the figure are: 1. the novel multifunctional electric shovel comprises a bed board, 101, an elongated through groove, 102, a sliding rail, 2, supporting legs, 3, universal wheels, 4, a sliding shovel board, 401, an end plate, 4011, a through hole, 4012, a control rod, 4013, a side wing, 4014, a sliding groove, 4015, a limiting ring groove, 402, a belt conveying assembly, 4021, a driving roller, 4022, a supporting roller, 4023, a conveying belt, 4024, a driving motor, 4025, a driving bevel gear, 4026, a driven bevel gear, 4027, a transmission gear, 5, a shovel board push-pull assembly, 501, a screw rod, 502, a screw rod motor, 503, a sliding block, 5031 and a linkage groove.

Detailed Description

The following detailed description of the preferred embodiments will be made with reference to the accompanying drawings.

As shown in the figure: the utility model provides a two-way multi-functional operation transport bed that shifts out, includes bed board 1 and four

landing legs

2, and 2 lower extremes of landing legs are provided with universal wheel 3, the removal of the transport bed of being convenient for. In addition to above-mentioned main part, the transport bed is including setting up slidingtype shovel board 4 and the shovel board push-and-pull subassembly 5 of setting in the bed board 1 below in bed board 1 top, and slidingtype shovel board 4 plays main transport effect, and patient's health below can be arranged in to slidingtype shovel board 4, can follow the sick bed with the patient through push-and-pull slidingtype shovel board 4 and transfer to the operating table. The shovel plate push-pull assembly 5 is a driving device for controlling the sliding shovel plate 4 to move out or back to the bed plate 1. Sliding shovel plate 4 includes two end plates 401 and sets up two belt conveyor assembly 402 between two end plates 401, and two end plates 401 set up respectively at bed board 1 length direction's both ends, and the length direction mutually perpendicular of end plate 401's direction of setting and bed board 1. A strip-shaped through groove 101 is formed in the bed plate 1 below the end plate 401, and the width of the strip-shaped through groove 101 is smaller than the thickness of the end plate 401, so that the end plate 401 cannot fall into the strip-shaped through groove 101. The both sides that rectangular shape led to groove 101 are provided with slide rail 102, and the card of end plate 401 lower extreme is established on slide rail 102, specifically can be: the lower end surface of the end plate 401 is correspondingly provided with two parallel grooves, the two grooves of the end plate 401 can be respectively clamped on the slide rails 102 of the bed plate 1, so that the end plate 401 can move along the slide rails 102, and the end plate 401 can move out of or back to the bed plate 1 along the slide rails 102. Two belt conveyor assemblies 402 are arranged in parallel from top to bottom between the two end plates 401.

The shovel plate push-pull assembly 5 comprises a screw rod 501, a screw rod motor 502 and a sliding block 503 sleeved on the screw rod 501, the shovel plate push-pull assembly 5 is actually common screw rod transmission in the prior art and converts rotary motion into linear motion, the rotary motion in the shovel plate push-pull assembly 5 is provided by the screw rod motor 502, the rotary motion is converted into the linear motion of the sliding block 503 through a screw rod structure, the sliding block 503 is fixedly connected with an end plate 401, the linear motion of the sliding block 503 is finally converted into the linear motion of the sliding shovel plate 4, and therefore push-pull control of the sliding shovel plate 4 is achieved. The back of the bed board 1 is provided with a strip-shaped through groove 101 corresponding to the screw rod 501, the lower part of the slide block 503 is sleeved on the screw rod 501, the upper part of the slide block 503 is clamped in the strip-shaped through groove 101, and the upper end face of the sliding block 503 is provided with a linkage groove 5031, two ends of the end plate 401 are respectively provided with a through hole 4011 which is through from top to bottom, a control rod 4012 penetrates through the through hole 4011, the lower end of the control rod 4012 can be placed in the linkage groove 5031 of the sliding block 503, the upper end of the control rod 4012 extends out of the through hole, the outer wall symmetry of control lever 4012 is provided with two flanks 4013, and the inner wall symmetry of through-hole 4011 is equipped with two spout 4014 that set up along its length direction, and two flanks 4013 of control lever 4012 are arranged in two spout 4014 respectively, and the upper and lower both ends that the inner wall of through-hole 4011 is located spout 4014 still are provided with spacing annular 4015 respectively, and spacing annular 4015 communicates with spout 4014 each other, makes the flank 4013 of control lever 4012 can slide in the spacing annular 4015. Two limit ring grooves 4015 represent two states of the control rod 4012, when the side wing 4013 of the control rod 4012 slides into the limit ring groove 4015 at the lower end, the control rod 4012 is inserted into the linkage groove 5031 of the slide block 503, when the side wing 4013 of the control rod 4012 slides into the limit ring groove 4015 at the upper end, the control rod 4012 leaves the linkage groove 5031 of the slide block 503, when the two control rods 4012 both leave the linkage groove 5031 of the slide block 503, the lead screw motor 502 is started, and because the upper part of the slide block 503 is clamped in the elongated through groove 101, the slide block 503 can move along the lead screw 501 to adjust the position of the slide block 503. The structural principle that the shovel plate push-pull assembly 5 can realize bidirectional shifting of the sliding shovel plate 4 is as follows: the connection of the different ends of the end plate 401 to the slide 503 can be achieved by means of two end levers 4012 on the end plate 401. Defining the two ends of the end plate 401 as an end a and an end B, respectively, when the blade pushing and pulling assembly 5 needs to be moved out in the direction of the end a, the control rod 4012 at the end B of the end plate 401 needs to be moved downward, so that the lower end of the control rod 4012 is inserted into the linkage groove 5031 of the slider 503 to connect the end plate 401 and the slider 503, at this time, the lead screw motor 502 is started to move the slider 503 in the direction of the end a, and similarly, when the blade pushing and pulling assembly 5 needs to be moved out in the direction of the end B, the control rod 4012 at the end a of the end plate 401 needs to be moved downward, so that the lower end of the control rod 4012 is inserted into the linkage groove 5031 of the slider 503 to connect the end plate 401 and the slider 503, at this time, the lead screw motor 502 is started to move the slider 503 in.

The belt conveying assembly 402 in this embodiment includes driving rollers 4021 disposed at both ends, a plurality of supporting rollers 4022 disposed between the two driving rollers 4021, and a conveying belt 4023 wrapped around the driving rollers 4021 and the supporting rollers 4022, which is similar to the structure of the belt conveying device in the prior art, the driving rollers 4021 provide power for belt operation, the supporting rollers 4022 are driven rollers and mainly function as supporting belts, and the outer surfaces of the driving rollers 4021 and the supporting rollers 4022 are provided with mesh anti-slip threads for preventing the belt from slipping. The driving roller 4021 and the supporting roller 4022 are both inserted between the two end plates 401 through bearings, and the driving roller 4021 and the supporting roller 4022 can rotate freely. In this embodiment, only the upper belt conveyor assembly 402 is equipped with the driving motor 4024, the two driving rollers 4021 of the upper belt conveyor assembly 402 are respectively connected with the driving motor 4024, the driving roller 4021 of the lower belt conveyor assembly 402 is in transmission connection with the driving roller 4021 of the upper belt conveyor assembly 402 through the transmission gear, the driving rollers 4021 of the two belt conveyor assemblies 402 are respectively sleeved with the transmission gear, the upper and lower driving rollers 4021 are connected with each other through the transmission gear, so as to realize the power transmission of the two driving rollers, and the power transmission structure can realize the rotation of the upper and lower belt conveyor assemblies 402 in the same time direction, when the upper belt 4023 rotates counterclockwise, the lower belt 4023 rotates clockwise, which is a forward drilling state.

The driving motor 4024 of the belt feeding assembly 402 in this embodiment is connected to the driving roller 4021 through a transmission assembly, and if the driving motor 4024 is directly axially abutted to the driving roller 4021, the driving motor 4014 is very abrupt in structure and affects the use of the carry bed. Therefore, the bevel gear transmission is adopted in the embodiment to solve the problem, the transmission assembly is composed of a driving bevel gear 4025 connected to an output shaft of a driving motor 4024 and a driven bevel gear 4026 connected to a driving roller 4021, the driving motor 4024 is fixedly arranged on the end plate 401, the output shaft of the driving motor 4024 is parallel to the end plate 401, and the driving bevel gear 4025 and the driven bevel gear 4026 have axes which are perpendicular to each other and are meshed together. The driving motor 4024 is attached to the end plate 401 along the length direction, transmission of two shafts perpendicular to each other can be achieved through bevel gears, and in order to prevent exposed gears from causing injury to people in the rotating process, a protective cover is covered outside the transmission assembly.

On the other hand, in consideration of the complex application environment of hospitals, the height of the bed body moved out and the height of the bed body moved in during the transfer process of patients may not be consistent with the height of the bed board of the carrying bed, therefore, the support legs can also be telescopic support legs, the height of the bed board can be adjusted through the telescopic movement of the support legs, and the specific structure of the telescopic support legs can adopt the technical scheme mature in the prior art, such as the structures in the published patents CN204542642U and CN 207220949U.

In addition to the above-mentioned mechanical structure, the carrying bed of the present invention further includes necessary electric control components, which can control the operation of the belt conveying assembly and the shovel plate push-pull assembly, specifically, the control is realized by sending instructions to the driving motor and the lead screw motor, the control can be realized in a specific form by arranging corresponding buttons at appropriate positions on the carrying bed, or in a wireless remote control manner and by using a remote controller, and the electric control structure and the mode are not the innovation points of the present invention.

The using method of the operation carrying bed comprises the following steps:

defining two sides of the carrying bed as A side and B side respectively

When only one-way moving-out is needed

If a patient needs to be transferred from a hospital bed to an operating bed, the A side of the carrying bed is moved to one side of the hospital bed, the height of the bed board is adjusted to enable the sliding shovel board to extend between the patient and the hospital bed, the control rod on the side of the end plate B is inserted into the groove of the sliding block through operation (if the sliding block is not positioned under the control rod, the screw motor is started to move the sliding block to the position under the control rod, then the belt conveying components are controlled to operate, the belt above the sliding shovel board rotates anticlockwise, the belt below the sliding shovel board rotates clockwise, then the shovel board pushing and pulling components are controlled to operate, the sliding shovel board is pushed to move towards the direction of the hospital bed, in the process, the two belt conveying components of the sliding shovel board have the function of drilling forwards, the sliding shovel board can easily drill under the patient, when most of the sliding shovel board is positioned under the patient, the belt conveying components are stopped to operate, and the sliding shovel plate is moved back to the bed plate by controlling the shovel plate push-pull assembly, so that the patient is transferred from the sickbed to the carrying bed.

The side A of the carrying bed is moved to one side of the operating bed, the height of the bed board is adjusted to enable the sliding shovel plate to extend to the operating bed, then the shovel plate push-pull assembly is controlled to operate to push the sliding shovel plate to move towards the operating bed or the examining bed, when the position of a patient is completely located above the operating bed or the examining bed, the shovel plate push-pull assembly is controlled to move the sliding shovel plate back to the bed board, the shovel plate is pulled out from the lower part of the patient, and therefore the patient is transferred to the operating bed or the examining bed from the sickbed.

Secondly, when the bidirectional moving-out is needed

The side B of the carrying bed is moved to one side of the operating bed, the height of the bed board is adjusted to enable the sliding shovel board to extend to the operating bed, the control rod on the side B of the end plate is operated to leave the groove of the sliding block, the control rod on the side A of the end plate is inserted into the groove of the sliding block (if the sliding block is not located under the control rod on the side A, a screw motor is started to move the sliding block to be located under the control rod firstly), then the shovel board push-pull assembly is controlled to operate, the sliding shovel board is pushed to move towards the operating bed or the examining bed, when the position of a patient is completely located above the operating bed or the examining bed, the shovel board push-pull assembly is controlled to move the sliding shovel board back to the bed board, the shovel board is pulled out from the position under the patient, and the work of.

The whole working process does not need medical staff to spend a lot of effort, as long as the operation method of carrying the bed is learned, a comparatively delicate female compulsory staff is timely, the transfer work of the patient can be completed independently, the practicability is strong, and the working efficiency of the medical staff can be greatly improved.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a two-way multi-functional operation transport bed that shifts out, includes bed board (1) and four landing legs (2), and landing leg (2) lower extreme is provided with universal wheel (3), its characterized in that: the carrying bed further comprises a sliding type shovel plate (4) arranged above the bed plate (1) and a shovel plate push-pull assembly (5) arranged below the bed plate (1), the sliding type shovel plate (4) comprises two end plates (401) and two belt conveying assemblies (402) arranged between the two end plates (401), the two end plates (401) are respectively arranged at two ends of the bed plate (1) in the length direction, a strip-shaped through groove (101) is formed in the bed plate (1) and below the end plates (401), slide rails (102) are arranged on two sides of the strip-shaped through groove (101), the lower end of each end plate (401) is clamped on the corresponding slide rail (102), the end plates (401) can be moved out or moved back to the bed plate (1) along the corresponding slide rail (102), and the two belt conveying assemblies (402) are arranged between the two end plates (401) in parallel;

the shovel plate push-pull assembly (5) comprises a screw rod (501), a screw rod motor (502) and a sliding block (503) sleeved on the screw rod (501), wherein a long-strip-shaped through groove (101) is formed in the back face of the bed plate (1) corresponding to the screw rod (501), the lower portion of the sliding block (503) is sleeved on the screw rod (501), the upper portion of the sliding block (503) is clamped in the long-strip-shaped through groove (101), a linkage groove (5031) is formed in the upper end face of the sliding block (503), through holes (4011) which are communicated from top to bottom are formed in two ends of the end plate (401), a control rod (4012) penetrates through the through hole (4011), the lower end of the control rod (4012) can be placed in the linkage groove (5031) of the sliding block (503), the upper end of the control rod (4012) extends out of the through hole, two side wings (4013) are symmetrically arranged on the outer wall of the control rod (4012), two flanks (4013) of the control rod (4012) are respectively arranged in two sliding grooves (4014), the upper end and the lower end of the inner wall of the through hole (4011) which is located on the sliding grooves (4014) are respectively provided with a limit ring groove (4015), the limit ring grooves (4015) are communicated with the sliding grooves (4014), and the flanks (4013) of the control rod (4012) can slide into the limit ring grooves (4015).

2. The multi-functional surgical transfer bed of claim 1, wherein: the outer surfaces of the driving roller (4021) and the supporting roller (4022) in the belt conveying assembly (402) are provided with net-shaped anti-slip patterns for preventing a belt from slipping.

3. The multi-functional surgical transfer bed of claim 1, wherein: the supporting legs (2) are telescopic supporting legs, and the height of the bed board (1) can be adjusted through the telescopic supporting legs.