CN111228057A - Hoisting and transferring device for medical high-position paralytic patient - Google Patents

Abstract

The invention discloses a medical high-position paralytic patient hoisting and transferring device, which belongs to the technical field of medical treatment and comprises a movable base, wherein two ends of the upper part of the movable base are fixedly provided with supporting rods, the top ends of the supporting rods are fixedly provided with a top plate, two sides of the upper surface of the top plate are respectively provided with a driving motor, the outer side of a winding roller is wound with a traction rope, and the part of the traction rope, which is positioned on the upper surface of the top plate, is fixed by a fixing component. The hoisting plate is more stable in the process of hoisting and transferring patients, and accidents are avoided.

Description

Hoisting and transferring device for medical high-position paralytic patient

Technical Field

The invention relates to the technical field of medical treatment, in particular to a hoisting and transferring device for medical treatment of high-position paralytic patients.

Background

Along with the continuous development of society and the continuous progress of medical level, not only people's life is guaranteed, and, the cost of sick hospitalization is also reducing step by step, but, the paralysed patient of high position of face, because it can't move and walk by oneself, need parent or medical personnel to nurse, later stage's expense is also increasing continuously, so, to the patient of high spring, it will be a better choice to shift to the family to nurse, however, at home because there is not the removal bed, it will be more difficult if move to patient, current high spring patient hoists transfer device has following shortcoming when using:

1. after a patient is hoisted by the conventional hoisting device, the patient is directly driven by a motor, and the hoisting height is kept, so that the motor is acted by force for a long time to generate a certain load on the motor, and meanwhile, the hoisted patient is unstable and may fall off due to the fact that the motor cannot bear the load;

2. the existing hoisting is carried out by using a rope, and after the hoisting is carried out, a hoisted patient can shake under the action of the rope in the transferring process, so that the instability is caused, and accidents are easy to happen;

3. the existing hoisting needs to manually carry the patient to a hoisting plate, which is troublesome and may cause damage to the patient;

therefore, there is a need for a medical lifting and transferring device for high paralyzed patients to solve the above problems.

Disclosure of Invention

The invention aims to provide a medical hoisting and transferring device for high-position paralyzed patients, which solves the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: a hoisting and transferring device for medical high-position paralytic patients comprises a movable base, a supporting rod and a top plate;

the lifting device is characterized in that supporting rods are fixedly mounted at two ends above the moving base, a top plate is fixedly mounted at the top end of each supporting rod, driving motors are mounted on two sides of the upper surface of the top plate and used for providing power sources for lifting of the lifting transfer device, a rolling box is mounted at one end of each driving motor, a rolling roller is mounted inside the rolling box and connected with an output shaft of each driving motor in a key mode, a traction rope is wound on the outer side of the rolling roller, a lifting plate is connected to the other end of the traction rope, the lifting plate is used for placing a patient on the patient for lifting, the part, located on the upper surface of the top plate, of the traction rope is fixed through a fixing assembly, the driving motors are prevented from being damaged due to the acting force of the patient lifted on the lifting plate in the lifting process, meanwhile, the patient lifted on the lifting plate can be, the roof upper surface middle part fixed mounting has the controller, the output electric connection driving motor's of controller input, the controller is used for carrying out intelligent control to whole hoist and mount transfer device.

As a preferred technical scheme, the fixing component comprises a fixed pulley, a driving box, a fixing box, a gas pipe and a fixing clamping cone;

the fixed pulley is located roll-up box both sides, the fixed pulley is used for leading the pulling of haulage rope for hoist and mount to the hoist and mount of hoist and mount board more smooth and easy, the drive box is all installed at the fixed pulley both ends, the drive box is used for providing power source for fixed subassembly is to the fixed of haulage rope, fixed pulley below fixed mounting has fixed box, fixed box is used for receiving the power source of drive box and fixes the haulage rope, three fixing clip awl is installed to haulage rope outside equidistance, the fixing clip awl is used for carrying out the block between the fixed box, realizes the fixed to the hoist and mount board, be connected through the gas-supply pipe between drive box and the fixed box, the gas-supply pipe is used for transmitting the power of drive box.

As a preferred technical scheme, the driving box further comprises a driving air bag, an extrusion cam, an air inlet electromagnetic valve, a first one-way valve and a driving roller;

the driving airbag is mounted on two sides inside the driving box and used for providing gas for the fixed box, an extrusion cam connected with one end of a fixed pulley is further arranged inside the driving box and is oval and used for indirectly extruding the driving airbag, the driving airbag realizes air inlet through an air inlet electromagnetic valve, the output end of the controller is electrically connected with the input end of the air inlet electromagnetic valve, a first one-way valve is mounted on the air pipe, the direction of the first one-way valve is that the driving airbag leads to the fixed box, and a driving roller is rotatably mounted on the long shaft distance of the extrusion cam, so that the friction force between the extrusion cam and the driving airbag can be effectively reduced, and the driving airbag can be extruded more smoothly;

the fixing box also comprises a fixing hole, a sliding groove, an expansion air bag, a sliding clamping block, an exhaust pipe and an exhaust electromagnetic valve;

a fixing hole is vertically arranged in the fixing box in a penetrating way and is used for the traction rope to pass through, meanwhile, the fixing box is also used for fixing the traction rope, a sliding groove is transversely arranged in the fixing box, two ends in the sliding groove are respectively provided with an expansion air bag, the expansion air bag is used for receiving the gas transmitted by the driving air bag through the gas transmission pipe to expand, a sliding fixture block is slidably mounted on one side of the expansion air bag, the sliding fixture block slides in the sliding groove through the expansion of the expansion air bag to block the fixing hole, thereby realizing the clamping and fixing of the traction rope, one side of the expansion air bag is provided with an exhaust pipe which is used for exhausting the gas in the expansion air bag, exhaust solenoid valve is installed to blast pipe one end, exhaust solenoid valve is used for controlling the inside gaseous emission of inflation gasbag, the output electric connection exhaust solenoid valve's of controller input.

Preferably, the driving air bag is in a hill shape with two low ends and a high middle, so that the extrusion cam can extrude the driving air bag more smoothly.

As a preferred technical scheme, the hoisting plate comprises a first hoisting plate, a second hoisting plate and a fastening assembly;

the first hoisting plate and the second hoisting plate are clamped with each other to form a hoisting plate for hoisting a high-position paralytic patient, the high-position paralytic patient is more conveniently hoisted through the arrangement of the first hoisting plate and the second hoisting plate, the whole patient does not need to be lifted and placed on the hoisting plate, a plurality of fastening assemblies are arranged in the first hoisting plate at equal intervals, and the fastening assemblies are used for fixing the first hoisting plate and the second hoisting plate after splicing, so that the separation phenomenon between the first hoisting plate and the second hoisting plate is avoided.

According to the technical scheme, one side, close to the second hoisting plate, of the first hoisting plate is provided with a fixing clamping plate, the lower end of one side of the fixing clamping plate is provided with a fixing clamping block, one side, close to the first hoisting plate, of the second hoisting plate is provided with a fixing sliding groove, the bottom end inside the fixing sliding groove is provided with a fixing clamping groove, the fixing clamping plate and the fixing sliding groove are used for achieving pre-installation of splicing the first hoisting plate and the second hoisting plate, and the fixing clamping block and the fixing clamping groove are used for achieving fixing clamping between the first hoisting plate and the second hoisting plate after splicing.

As a preferred technical scheme, the thickness of the fixing clamping plate and the width of the fixing clamping block are equal to the width of the fixing sliding groove, so that the fixing clamping plate and the fixing clamping block can more smoothly enter the fixing sliding groove.

As a preferred technical scheme, a plurality of fastening sliding grooves are formed in the upper surface of the fixing clamping plate, which is positioned on one side of the first hoisting plate, fastening sliding blocks are slidably mounted in the fastening sliding grooves, the fastening sliding blocks are inserted into the fixing sliding grooves to realize the splicing and fixing of the first hoisting plate and the second hoisting plate, a pressing rod is slidably mounted on the upper surface of the first hoisting plate and used for realizing the pressing under the action of a hoisted patient, when the hoisted patient walks on the hoisting plate, the pressing of the pressing rod is automatically realized, a squeezing plate is arranged at one end of the pressing rod, a squeezing air bag is arranged below the squeezing plate and fixedly connected with the squeezing air bag, so that the squeezing air bag can be driven to restore to the original state when the squeezing plate moves upwards, a return spring is sleeved on the outer side of the pressing rod and used for controlling the pressing rod to restore after the hoisted patient is transferred from the hoisting plate, the extrusion gasbag is used for providing power source for the removal of fastening slider, extrusion gasbag one side is connected with the bellows through the connecting pipe, the bellows is used for extending when the extrusion gasbag extrudees, bellows one end fixed connection fastening slider for can drive the fastening slider when the bellows shrink and take in the fastening spout, make the separation to first hoist and mount board and second hoist and mount board of convenient realization.

As a preferred technical scheme, each apex angle department of hoist and mount board all installs spacing slide bar, the roof lower surface corresponds spacing slide bar position department and is provided with spacing slide tube, spacing slide tube and spacing slide bar are used for being hoisted up the back when patient, fix the hoist and mount board, avoid the hoist and mount board to take place to rock under the effect of haulage rope for hoist and mount transfer more stable, spacing slide tube internally mounted has extrusion spring, the sliding plate is installed to extrusion spring one end, extrusion spring and sliding plate are used for providing decurrent effort for spacing slide bar, make the hoist and mount board be unlikely to reciprocate, make the hoist and mount of hoist and mount board more stable.

Compared with the prior art, the invention has the beneficial effects that:

1. the device is provided with a fixing component, in the process of hoisting the hoisting plate by the traction rope, the controller controls the opening of the exhaust electromagnetic valve, so that gas at the beginning can not drive the expansion air bag to expand, when the driving motor rotates for a certain number of turns, the exhaust electromagnetic valve is closed after the fixing clamp cone passes through the fixing hole, the gas in the driving air bag is input into the expansion air bag through the gas pipe, the expansion air bag is driven to expand, and then the sliding clamping block is driven to slide in the sliding groove to block the fixing hole, at the moment, the power supply of the driving motor is cut off, the fixing clamp cone can not pass through the fixing hole under the action of the sliding clamping block, the fixing of the fixing clamp cone is realized, on one hand, the weight of a patient on the hoisting plate is prevented from directly acting on the driving motor, the load is caused on the driving motor, the service life, the lifting plate is prevented from rotating reversely by itself, so that the lifting plate moves downwards, and the threat to the patient on the lifting plate is avoided, so that the lifting plate is more stable in the process of lifting and transferring the patient, and the occurrence of accidents is avoided.

2. Utilize the haulage rope to pull in-process drive fixed pulley pivoted effort and act on the drive gasbag for do not need additionally to provide the power source to the fixed of haulage rope, reduced hoist and mount transfer device's cost input, more energy-concerving and environment-protective.

3. Through the design of first hoist and mount board and second hoist and mount board, make the hoist and mount board can realize the concatenation, make at the in-process that hoists the transfer to patient, need not whole the moving of patient, and simultaneously, also avoided causing unnecessary injury to patient in to patient handling, make the hoist and mount to high position paralysed patient shift more convenience, and, through the concatenation in advance of fixed cardboard and fixed spout, it is fixed with fixed slot's secondary to utilize fixed fixture block, it is fixed once more that patient's self gravity drive fastening slider inserts the inside of fixed spout, make concatenation and dismantlement between first hoist and mount board and the second hoist and mount board all more convenient.

4. Utilize spacing slide tube and spacing slide bar, can be so that patient by hoist and mount after, can realize the fixed to the hoisting plate, avoided leading to the hoisting plate to rock at the in-process that shifts under the effect of haulage rope for utilize hoist and mount transfer device to hoist more stable when shifting high-order paralysed patient.

Drawings

FIG. 1 is a schematic structural diagram of a lifting and transferring device for high paralytic patients for medical treatment according to the present invention;

FIG. 2 is a schematic structural diagram of a fixing component of a hoisting and transferring device for high paralyzed patients in medical treatment of the present invention;

FIG. 3 is a schematic structural diagram of a driving box of a hoisting transfer device for high paralyzed patients in medical treatment according to the present invention;

FIG. 4 is a schematic structural diagram of a fixing box of a hoisting and transferring device for high paralyzed patients for medical treatment according to the present invention;

FIG. 5 is a schematic structural view of a lifting plate of the medical high-position paralytic patient lifting and transferring device of the present invention;

FIG. 6 is a right side view of a lifting plate of the medical high-position paralytic patient lifting and transferring device of the present invention;

FIG. 7 is a schematic structural view of the area A in FIG. 5 of the lifting and transferring device for high paralyzed patients in medical treatment of the present invention;

FIG. 8 is a schematic structural diagram of a fastening assembly of a hoisting and transferring device for high paralyzed patients in medical treatment according to the present invention;

fig. 9 is a schematic structural diagram of a limiting slide pipe and a limiting slide rod of the hoisting and transferring device for the high paralyzed patient for medical treatment of the invention.

1. Moving the base; 2. a support bar; 3. a top plate; 4. a drive motor; 5. a coiling box; 6. a hauling rope;

7. a fixing assembly; 701. a fixed pulley;

702. a drive cartridge; 7021. driving the air bag; 7022. an extrusion cam; 7023. an air inlet solenoid valve; 7024. a first check valve; 7025. a drive roller;

703. a fixing box; 7031. a fixing hole; 7032. a sliding groove; 7033. inflating the balloon; 7034. sliding the clamping block; 7035. an exhaust pipe; 7036. an exhaust solenoid valve;

704. a gas delivery pipe; 705. fixing the clamping cone;

801. a first hoisting plate; 8011. fixing the clamping plate; 8012. fixing the fixture block;

802. a second hoisting plate; 8021. fixing the chute; 8022. fixing the clamping groove;

803. a fastening assembly; 8031. fastening the chute; 8032. a pressing lever; 8033. a pressing plate; 8034. a return spring; 8035. extruding the air bag; 8036. a connecting pipe; 8037. a bellows; 8038. fastening the sliding block;

9. a limiting sliding pipe; 10. a limiting slide bar; 11. a compression spring; 12. a sliding plate.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b): as shown in fig. 1 to 9, a lifting and transferring device for medical treatment of high paralytic patients comprises a movable base 1, a support rod 2 and a top plate 3;

the device comprises a movable base 1, supporting rods 2, a top plate 3, a driving motor 4, a winding box 5, a winding roller, a traction rope 6, a hoisting plate and a fixing assembly 7, wherein the supporting rods 2 are fixedly installed at two ends above the movable base 1, the top end of each supporting rod 2 is fixedly provided with the top plate 3, the two sides of the upper surface of each top plate 3 are respectively provided with the driving motor 4, the driving motors 4 are used for providing a power source for hoisting of a hoisting transfer device, one end of each driving motor 4 is provided with the winding box 5, the winding roller is installed inside the winding box 5 and is in key connection with an output shaft of the driving motor 4, the outer side of the winding roller;

the fixing component 7 comprises a fixed pulley 701, a driving box 702, a fixing box 703, an air pipe 704 and a fixing clamping cone 705;

the fixed pulleys 701 are positioned at two sides of the furling box 5, the fixed pulleys 701 are used for guiding traction of the traction rope 6, the driving boxes 702 are mounted at two ends of each fixed pulley 701, the driving boxes 702 are used for providing power sources for fixing the traction rope 6 by the fixing component 7, and each driving box 702 further comprises a driving air bag 7021, an extrusion cam 7022, an air inlet electromagnetic valve 7023, a first one-way valve 7024 and a driving roller 7025;

the driving airbag 7021 is mounted on two sides inside the driving box 702, the driving airbag 7021 is used for providing gas for the fixed box 703, the driving airbag 7021 is in a shape of a hill with two low ends and a high middle part, an extrusion cam 7022 connected with one end key of the fixed pulley 701 is further arranged inside the driving box 702, the extrusion cam 7022 is in an oval shape and used for indirectly extruding the driving airbag 7021, the driving airbag 7021 realizes air inlet through an air inlet electromagnetic valve 7023, the output end of the controller 13 is electrically connected with the input end of the air inlet electromagnetic valve 7023, a first one-way valve 7024 is mounted on the air delivery pipe 704, the direction of the first one-way valve 7024 is used for driving the airbag 7021 to access the fixed box 703, and a driving roller 7025 is rotatably mounted on the long axial distance;

a fixing box 703 is fixedly arranged below the fixed pulley 701, the fixing box 703 is used for receiving a power source of the driving box 702 to fix the traction rope 6, and the fixing box 703 further comprises a fixing hole 7031, a sliding groove 7032, an expansion airbag 7033, a sliding fixture block 7034, an exhaust pipe 7035 and an exhaust electromagnetic valve 7036;

a fixing hole 7031 is vertically arranged in the fixing box 703 in a penetrating manner, the fixing hole 7031 is used for the traction rope 6 to pass through, and meanwhile, the fixing box is also used for fixing the traction rope 6, a sliding groove 7032 is transversely arranged in the fixing box 703, two ends in the sliding groove 7032 are respectively provided with an expansion air bag 7033, the expansion air bag 7033 is used for receiving and driving the air bag 7021 to expand through the gas transmitted by the gas transmission pipe 704, a sliding fixture block 7034 is slidably arranged on one side of the expansion air bag 7033, the sliding fixture block 7034 slides in the sliding groove 7032 through the expansion of the expansion air bag 7033, so that the fixing hole 7031 is blocked, the traction rope 6 is clamped and fixed, an exhaust pipe 7035 is arranged on one side of the expansion air bag 7033, the exhaust pipe 7035 is used for exhausting the gas in the expansion air bag 7033, an exhaust electromagnetic valve 7036 is arranged at one end of the exhaust pipe 7035, and the exhaust electromagnetic valve, the output of the controller 13 is electrically connected to the input of the exhaust solenoid 7036.

Three fixing clamping cones 705 are installed on the outer side of the traction rope 6 at equal intervals, the fixing clamping cones 705 are used for clamping the fixing boxes 703 to fix the hoisting plate, the driving box 702 is connected with the fixing boxes 703 through an air pipe 704, and the air pipe 704 is used for transmitting power of the driving box 702.

The controller 13 is fixedly installed in the middle of the upper surface of the top plate 3, the output end of the controller 13 is electrically connected with the input end of the driving motor 4, and the controller 13 is used for intelligently controlling the whole hoisting transfer device.

The hoisting plate comprises a first hoisting plate 801, a second hoisting plate 802 and a fastening assembly 803;

the first hoisting plate 801 and the second hoisting plate 802 are clamped with each other to form a hoisting plate for hoisting a high-position paralyzed patient, a fixing clamping plate 8011 is arranged on one side, close to the second hoisting plate 802, of the first hoisting plate 801, a fixing clamping block 8012 is arranged at the lower end of one side of the fixing clamping plate 8011, a fixing sliding groove 8021 is formed on one side, close to the first hoisting plate 801, of the second hoisting plate 802, a fixing clamping groove 8022 is formed in the bottom end inside the fixing sliding groove 8021, the fixing clamping plate 8011 and the fixing sliding groove 8021 are used for pre-mounting of the first hoisting plate 801 and the second hoisting plate 802 in a splicing mode, and the fixing clamping block 8012 and the fixing clamping groove 8022 are used for fixedly clamping the first hoisting plate 801 and the second hoisting plate 802 after splicing. A plurality of fastening assemblies 803 are equidistantly installed in the first hoisting plate 801, the fastening assemblies 803 are used for fixing the spliced first hoisting plate 801 and the second hoisting plate 802, the upper surface of the fixing clamping plate 8011 is provided with a plurality of fastening chutes 8031 on one side of the first hoisting plate 801, the fastening chutes 8031 are internally provided with fastening sliders 8038 in a sliding manner, the fastening sliders 8038 are inserted into the fixing chutes 8021 to realize the splicing and fixing between the first hoisting plate 801 and the second hoisting plate 802, the upper surface of the first hoisting plate 801 is provided with a pressing rod 8032 in a sliding manner, the pressing rod 8032 is used for realizing the pressing under the action of a hoisted patient, when the hoisted patient walks on the hoisting plate, the pressing rod 8032 is automatically realized to be pressed, one end of the pressing rod 8032 is provided with a pressing plate 8033, the lower part of the pressing plate 8033 is provided with an extruding airbag 8035, the pressing plate 8033 is fixedly connected with the extruding airbag 8035, and the outer side of the pressing rod 8032 is sleeved with a return spring 8034, the return spring 8034 is used for controlling the pressing rod 8032 to realize return after a hoisted patient is transferred from the hoisting plate, the extrusion air bag 8035 is used for providing a power source for movement of the fastening sliding block 8038, one side of the extrusion air bag 8035 is connected with a corrugated pipe 8037 through a connecting pipe 8036, the corrugated pipe 8037 is used for extending when the extrusion air bag 8035 is extruded, and one end of the corrugated pipe 8037 is fixedly connected with the fastening sliding block 8038.

The thickness of the fixing clip plate 8011 plus the width of the fixing clip 8012 is equal to the width of the fixing slide 8021.

Each apex angle department of hoist and mount board all installs limit slide bar 10, and 3 lower surfaces of roof correspond limit slide bar 10 position departments and are provided with limit slide 9, and limit slide 9 and limit slide bar 10 are used for fixing the hoist and mount board after patient is hoisted up, and limit slide 9 internally mounted has extrusion spring 11, and sliding plate 12 is installed to extrusion spring 11 one end, and extrusion spring 11 and sliding plate 12 are used for providing decurrent effort for limit slide bar 10.

The working principle is as follows: when the lifting transfer device is used, firstly, the lifting transfer device is moved to the bedside of a patient by using the movable base 1, then, the driving motor 4 is used for rotating, the lifting plate is put down, and the lifting plate is disassembled into the first lifting plate 801 and the second lifting plate 802;

the first hoisting plate 801 and the second hoisting plate 802 are respectively placed on two sides of a patient bed, then a high-position paralyzed patient is turned over to lie on the second hoisting plate 802 in a side manner, then the fixing clamping plate 8011 of the first hoisting plate 801 is aligned with the fixing chute 8021 of the second hoisting plate 802, the fixing clamping plate 8011 is inserted into the fixing chute 8021, after the fixing clamping plate 8011 is completely inserted into the fixing clamping groove 8022, the fixing clamping plate 8011 is moved downwards to clamp the fixing clamping block 8012 into the fixing clamping groove 8022, at the moment, the patient lies on the whole hoisting plate, at the moment, as the patient lies on the whole, the pressing rod 8032 is pressed to drive the pressing rod 8032 to press the pressing air bag 8035, at the moment, gas in the pressing air bag 8035 is transmitted to the corrugated tube 8037 through the connecting tube 8036 to extend the corrugated tube 8037, the fastening slide block 8038 is driven to slide out of the fastening chute 8031 by the extension of the corrugated tube 8037, at this time, the fastening slider 8038 is clamped into a gap between the fixing chute 8021 and the fixing clamping plate 8011, so that the fixing clamping block 8012 is firmly clamped in the fixing clamping groove 8022, and the assembly of the first hoisting plate 801 and the second hoisting plate 802 is completed;

then the controller 13 controls the driving motor 4 to rotate, the furling roller is driven to rotate by the rotation of the driving motor 4, and the hauling rope 6 is wound on the furling roller, so as to realize the hoisting of the hoisting plate, at the moment, the hoisting plate is cut off in the first half of the rising, the controller 13 controls the exhaust electromagnetic valve 7036 to be opened, namely, the expansion air bag 7033 can not expand, and further the sliding fixture block 7034 can not be driven to slide in the sliding groove 7032, so that the fixing fixture cone 705 can not be clamped in the rising process, when the driving motor 4 rotates for a certain number of turns, so that the fixing fixture cone 705 moves to the upper part of the fixing box 703, the exhaust electromagnetic valve 7036 is closed, at the moment, the continuous rotation of the fixed pulley 701 can drive the extrusion cam 7022 to rotate, the extrusion of the driving air bag 7021 is realized by the rotation of the extrusion cam 7022, so that the air in the driving air bag 7021 is conveyed to the interior of the expansion, at the moment, the expansion air bag 7033 expands, the expansion air bag 7033 is used for driving the sliding fixture block 7034 to slide in the sliding groove 7032, the sliding fixture block 7034 is used for blocking the fixing hole 7031, at the moment, the driving motor 4 is controlled to rotate reversely, so that the fixing fixture cone 705 falls on the sliding fixture block 7034 in the fixing hole 7031, the power supply of the driving motor 4 is disconnected, and the lower hoisting plate can be fixed through the sliding fixture block 7034;

when the hoisting is finished, the limiting slide rod 10 is inserted into the limiting slide pipe 9 and extrudes the extrusion spring 11 inside the limiting slide pipe 9, at the moment, the limiting slide pipe 9 and the limiting slide rod 10 are utilized to fix the hoisting plate, and the hoisting plate is prevented from shaking due to the traction rope 6;

when a patient is lifted to a specified position, firstly, the driving motor 4 is rotated forwardly to enable the fixing clamping cone 705 on the driving motor 4 to rise to a certain height, then the exhaust solenoid valve 7036 is controlled to exhaust to enable the expansion air bag 7033 to contract, the sliding clamping block 7034 is driven to slide towards the inner side of the sliding groove 7032, the fixing hole 7031 is not blocked any more, at the moment, the driving motor 4 is rotated reversely again to enable the lifting plate to fall slowly, when the lifting plate stably falls on a bed, the body of the patient is turned over to enable the patient to lie on the side, at the moment, the lateral lying of the patient can lead the pressing rod 8032 to extend out under the action of the return spring 8034, at the moment, the extending pressing rod 8032 drives the extrusion air bag 8035 to absorb the gas in the corrugated pipe 8037 to shorten the corrugated pipe 8037, at the moment, the shortened corrugated pipe 8037 drives the fastening sliding block 8038 to slide into the fastening sliding groove 8031, then the first lifting plate 801 is pulled out by a small section, and, the whole hoisting plate is disassembled conveniently and quickly, and the second hoisting plate 802 is taken down, so that the process of hoisting and transferring the high paralyzed patient is completed.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. The utility model provides a be used for high-order paralysed patient hoist and mount transfer device of medical treatment which characterized in that: the hoisting transfer device comprises a movable base (1), a support rod (2) and a top plate (3);

remove base (1) top both ends fixed mounting have bracing piece (2), bracing piece (2) top fixed mounting has roof (3), driving motor (4) are all installed to roof (3) upper surface both sides, roll-up box (5) are installed to driving motor (4) one end, roll-up box (5) internally mounted has the roll-up roller, the roll-up roller is connected with driving motor (4) output shaft key, the winding of roll-up roller outside has haulage rope (6), haulage rope (6) other end is connected with hoisting plate, the part that haulage rope (6) are located roof (3) upper surface is fixed through fixed subassembly (7), roof (3) upper surface middle part fixed mounting has controller (13), the input of the output electric connection driving motor (4) of controller (13).

2. The hoisting and transferring device for the medical treatment of the high paralyzed patient in claim 1, which is characterized in that: the fixing component (7) comprises a fixed pulley (701), a driving box (702), a fixing box (703), an air pipe (704) and a fixing clamping cone (705);

the fixed pulley (701) is located furling box (5) both sides, drive box (702) are all installed at fixed pulley (701) both ends, fixed pulley (701) below fixed mounting has fixed box (703), three fixing clip awl (705) are installed to haulage rope (6) outside equidistance, be connected through gas-supply pipe (704) between drive box (702) and the fixed box (703).

3. The hoisting and transferring device for the medical treatment of the high paralyzed patient as claimed in claim 2, wherein: the driving box (702) further comprises a driving air bag (7021), an extrusion cam (7022), an air inlet electromagnetic valve (7023), a first one-way valve (7024) and a driving roller (7025);

the air bag type air inlet and outlet device is characterized in that driving air bags (7021) are installed on two sides inside the driving box (702), an extrusion cam (7022) connected with one end key of a fixed pulley (701) is further arranged inside the driving box (702), the extrusion cam (7022) is oval, air inlet of the driving air bags (7021) is achieved through an air inlet electromagnetic valve (7023), the output end of the controller (13) is electrically connected with the input end of the air inlet electromagnetic valve (7023), a first one-way valve (7024) is installed on the air conveying pipe (704), the driving air bags (7021) are led to the fixed box (703) in the direction of the first one-way valve (7024), and driving rollers (7025) are installed on the long axial distance of the extrusion cam (7022) in a;

the fixing box (703) further comprises a fixing hole (7031), a sliding groove (7032), an expansion air bag (7033), a sliding clamping block (7034), an exhaust pipe (7035) and an exhaust electromagnetic valve (7036);

fixed box (703) inside vertical the running through seted up fixed orifices (7031), sliding tray (7032) have transversely been seted up to fixed box (703) inside, inflation gasbag (7033) are all installed at the inside both ends of sliding tray (7032), inflation gasbag (7033) one side slidable mounting has slip fixture block (7034), blast pipe (7035) are installed to inflation gasbag (7033) one side, exhaust solenoid valve (7036) are installed to blast pipe (7035) one end, the input of the output electric connection exhaust solenoid valve (7036) of controller (13).

4. The hoisting and transferring device for the medical high paralyzed patient in claim 3, which is characterized in that: the driving air bag (7021) is in a hill shape with two low ends and a high middle.

5. The hoisting and transferring device for the medical high paralyzed patient in claim 4, which is characterized in that: the hoisting plate comprises a first hoisting plate (801), a second hoisting plate (802) and a fastening assembly (803);

the first hoisting plate (801) and the second hoisting plate (802) are mutually clamped to form a hoisting plate, and a plurality of fastening assemblies (803) are equidistantly arranged in the first hoisting plate (801).

6. The hoisting and transferring device for the medical high paralyzed patient in claim 5, which is characterized in that: the fixing clamp plate (8011) is arranged on one side, close to the second hoisting plate (802), of the first hoisting plate (801), a fixing clamp block (8012) is arranged at the lower end of one side of the fixing clamp plate (8011), a fixing sliding groove (8021) is formed in one side, close to the first hoisting plate (801), of the second hoisting plate (802), and a fixing clamping groove (8022) is formed in the bottom end of the inside of the fixing sliding groove (8021).

7. The hoisting and transferring device for the medical treatment of the high paralyzed patient in claim 6, which is characterized in that: the thickness of the fixing clamping plate (8011) and the width of the fixing clamping block (8012) are equal to the width of the fixing sliding groove (8021).

8. The hoisting and transferring device for the medical treatment of the high paralyzed patient in claim 7, which is characterized in that: the fixing clamp plate (8011) is characterized in that the upper surface of the fixing clamp plate (8011) is located on one side of a first hoisting plate (801) and is provided with a plurality of fastening chutes (8031), fastening sliders (8038) are slidably mounted inside the fastening chutes (8031), pressing rods (8032) are slidably mounted on the upper surface of the first hoisting plate (801), one ends of the pressing rods (8032) are provided with extrusion plates (8033), extrusion air bags (8035) are arranged below the extrusion plates (8033), the extrusion plates (8033) are fixedly connected with the extrusion air bags (8035), reset springs (8034) are sleeved on the outer sides of the pressing rods (8032), one sides of the extrusion air bags (8035) are connected with corrugated pipes (8037) through connecting pipes (8036), and one ends of the corrugated pipes (8037) are fixedly connected with the fastening sliders (8038).

9. The hoisting and transferring device for the medical treatment of the high paralyzed patient in claim 8, which is characterized in that: each apex angle department of hoist and mount board all installs limit slide bar (10), roof (3) lower surface corresponds limit slide bar (10) position department and is provided with spacing slide tube (9), spacing slide tube (9) internally mounted has extrusion spring (11), sliding plate (12) are installed to extrusion spring (11) one end.

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