CN113171254B - Multifunctional sanatorium equipment for neurology department - Google Patents

Abstract

The invention relates to multifunctional sanatorium equipment, in particular to multifunctional sanatorium equipment for neurology, which comprises a bed position adjusting mechanism, a linkage humidifying fan mechanism and a window noise reduction mechanism, wherein the position of a sickbed in the sanatorium relative to the window can be adjusted by the equipment, the room can be humidified by the equipment, the distance between the humidifying fan and the bed can be adjusted by the equipment, the window can be sealed and filled with noise reduction particles in a sealed space, the bed position adjusting mechanism is connected with the linkage humidifying fan mechanism, and the bed position adjusting mechanism is connected with the window noise reduction mechanism.

Description

Multifunctional sanatorium equipment for neurology department

Technical Field

The invention relates to multifunctional sanitarian equipment, in particular to multifunctional sanitarian equipment for neurology.

Background

When the neurology patient is in recuperation, the recuperation room is often required to have environmental characteristics such as room can fall noise, can humidification, so that the patient is pleasant to mind and body, but no better multifunctional recuperation room equipment is available on the market, so the multifunctional recuperation room equipment for the neurology is designed.

Disclosure of Invention

The multifunctional nursing room equipment for neurology mainly solves the technical problem that the multifunctional nursing room equipment for neurology can adjust positions of sickbeds in the nursing room relative to windows, humidifies the rooms, adjusts the distance between a humidifying fan and the beds, seals the windows and fills noise reduction particles in the sealed space.

In order to solve the technical problems, the invention relates to multifunctional sanatorium equipment, in particular to multifunctional sanatorium equipment for neurology, which comprises a bed position adjusting mechanism, a linkage humidifying fan mechanism and a window noise reduction mechanism, wherein the position of a sickbed in the sanatorium relative to a window can be adjusted by the equipment, the room can be humidified by the equipment, the distance between the humidifying fan and the bed can be adjusted by the equipment, the window can be sealed, and noise reduction particles can be filled in the sealed space by the equipment.

The bed position adjusting mechanism is connected with the linkage humidifying fan mechanism, and the bed position adjusting mechanism is connected with the window noise reduction mechanism.

As a further optimization of the technical scheme, the multifunctional sanatorium equipment for neurology, provided by the invention, comprises an equipment mounting box body, a motor a, a motor shaft a, a belt a, a connecting shaft b, a linkage belt a, a friction wheel a, a connecting shaft c, a traveling wheel limiting plate a, a traveling wheel limiting plate b, a bed body, a lifting backboard, a drying drainage plate, a backboard friction wheel, a connecting shaft d, a motion switching connecting column, a motion switching connecting shaft, a connecting shaft e, a front wheel bearing block, a front wheel connecting shaft and a front wheel, wherein the equipment mounting box body is connected with the motor a, the equipment mounting box body is connected with the connecting shaft a through a bearing, the equipment mounting box body is connected with the connecting shaft b through a bearing, the equipment mounting box body is in sliding connection with the connecting shaft c, the equipment mounting box body is connected with the traveling wheel limiting plate a, the motor a is connected with the motor shaft a, the motor shaft a is in friction connection with the belt a, the belt a is in friction connection with the connecting shaft a, the connecting shaft a is in friction connection with the linkage belt a, the connecting shaft b is in friction connection with the linkage belt a, the linkage belt a is in friction connection with the friction wheel a, the friction wheel a is connected with the connecting shaft c, the connecting shaft c is connected with the travelling wheel limiting plate b, the connecting shaft c is in threaded connection with the bed body, the connecting shaft c is in sliding connection with the travelling wheel limiting plate b, the travelling wheel is in sliding connection with the travelling wheel limiting plate a, the bed body is in sliding connection with the lifting backboard, the bed body is in sliding connection with the connecting shaft d, the bed body is in bearing connection with the connecting shaft e, the lifting backboard is in friction connection with the backboard, the backboard friction wheel is connected with the connecting shaft d, the connecting shaft d is connected with the motion switching connecting column, the motion switching connecting column is connected with the motion switching connecting shaft, the connecting shaft e is connected with a front wheel bearing block, the front wheel bearing block is connected with a front wheel connecting shaft bearing, and the front wheel connecting shaft is connected with a front wheel.

As a further optimization of the technical scheme, the multifunctional spa equipment for neurology provided by the invention comprises a friction wheel b, a first connecting shaft, a second connecting shaft, a connecting pipe air inlet hole, a friction wheel c, an L-shaped sliding rail, an air inlet connecting plate a, an air inlet connecting ring a, an air inlet connecting plate b, an air inlet connecting ring b, an air inlet pipe b, a powered screw, an air outlet pipe, a screw connecting block, an air pipe winding shaft, a torsion spring connecting plate, a torsion spring, an air pipe limiting block and a water tank, wherein the friction wheel b is connected with the connecting shaft in a friction manner, the first connecting shaft is connected with the second connecting shaft, the first connecting shaft is connected with the friction wheel c, the second connecting shaft is connected with the connecting pipe, the second connecting shaft is connected with an air inlet connecting plate a bearing, the second connecting shaft is connected with an equipment mounting box in a sliding manner, the connecting pipe is connected with the connecting plate b bearing, the connecting pipe is connected with the air inlet connecting plate b, the air inlet connecting plate c is connected with the air inlet connecting plate b is connected with the air inlet connecting box, the two sides of the air inlet connecting ring a is connected with the two sides of the connecting plate a, the first connecting plate a is connected with the screw connecting plate b is connected with the upper end of the air inlet connecting plate b, the upper end of the screw is connected with the air inlet connecting plate b, the upper end of the air inlet connecting plate b is communicated with the air inlet connecting plate b is connected with the upper end of the air inlet connecting plate b, and the upper end of the air inlet connecting plate is communicated with the air inlet box is connected with the upper end of the air inlet connecting plate b is communicated with the air inlet box, one part of the air pipe is wound on the second connecting shaft clockwise, the other part of the air pipe is wound on the air pipe winding shaft anticlockwise, the air pipe is connected and communicated with the bed body, the air pipe winding shaft is connected with the torsion spring connecting plate, the air pipe winding shaft is connected with the equipment mounting box body bearing, the torsion spring is sleeved on the air pipe winding shaft and limited on the torsion spring connecting plate and is connected with the equipment mounting box body, the air pipe limiting block is connected with the equipment mounting box body, and the water tank is connected with the equipment mounting box body.

As a further optimization of the technical scheme, the multifunctional sanatorium equipment for neurology comprises a motor mounting plate, a motor b, a motor shaft b, a belt I, a threaded connection shaft a, a belt II, a threaded connection shaft b, an internal thread sliding seal groove, a mounting plate a, a belt III, a linkage friction column a, a mounting plate b, a connection friction column b, a transmission shaft a, a mounting plate c, a mounting plate d, a belt IV, a transmission shaft b, a linkage friction wheel, a transmission shaft c, a transmission screw, a transmission connecting ring, a transmission connecting plate, a transmission connecting pipe, a noise reduction particle box, a window, a feed pipe a, a feed pipe b and a feed pipe c, wherein the motor mounting plate is connected with the motor b, the motor mounting plate is connected with an equipment mounting box, the motor b is connected with the motor shaft b, the motor shaft b is in friction connection with the belt I, the belt I is in friction connection with the threaded connection shaft a, the threaded connection shaft a is in friction connection with the second belt, the threaded connection shaft a is in friction connection with the internal thread sliding seal groove, the threaded connection shaft a is in bearing connection with the mounting plate a, the threaded connection shaft a is in bearing connection with the mounting plate c, the second belt is in friction connection with the threaded connection shaft b, the threaded connection shaft b is in threaded connection with the internal thread sliding seal groove, the threaded connection shaft b is in bearing connection with the mounting plate a, the threaded connection shaft b is in bearing connection with the mounting plate c, the internal thread sliding seal groove is in bearing connection with the mounting plate b, the internal thread sliding seal groove is in bearing connection with the equipment mounting box, the mounting plate a is in sliding connection with the linkage friction column a, the mounting plate a is in bearing connection with the transmission shaft a, the third belt is in friction connection with the linkage friction column a, the linkage friction column a is in bearing connection with the mounting plate b, the connection friction column b is connected with a mounting plate d bearing, the transmission shaft a is connected with the mounting plate d bearing, the mounting plate c is connected and communicated with the feeding pipe b, the mounting plate c is connected with the equipment mounting box body, the mounting plate d is connected with the transmission shaft b bearing, the belt is in friction connection with the transmission shaft b, the belt is in friction connection with the linkage friction wheel, the linkage friction wheel is connected with the transmission shaft c, the transmission shaft c is connected with the transmission screw, the transmission shaft c is connected with the transmission connecting plate bearing, the transmission connecting ring is connected with the transmission connecting plate, the transmission connecting ring is connected with the equipment mounting box body, one end of the transmission connecting pipe is connected and communicated with the transmission connecting pipe, the other end of the transmission connecting pipe is connected and communicated with the noise reduction particle box, the noise reduction particle box is connected with the equipment mounting box body, the window is connected with the equipment mounting box body, one end of the feeding pipe a is connected with a hole on the equipment mounting box body, the other end of the feeding pipe b is connected and communicated with the feeding pipe c.

The multifunctional sanatorium equipment for neurology has the beneficial effects that:

the multifunctional sanatorium equipment for neurology can adjust the position of a sickbed in the sanatorium relative to a window, humidify the room, adjust the distance between a humidifying fan and the bed, seal the window and fill noise reduction particles in the sealed space.

Drawings

The invention will be described in further detail with reference to the accompanying drawings and detailed description.

Fig. 1 is a schematic structural view of a multifunctional nursing home device for neurology department according to the present invention.

Fig. 2 is a schematic diagram of a multifunctional nursing home device for neurology department according to the second embodiment of the invention.

Fig. 3 is a schematic view of a bed position adjusting mechanism 1 of a multifunctional nursing home device for neurology according to the present invention.

Fig. 4 is a schematic view showing the structure of a device mounting case 1-1 of a multifunctional nursing home device for neurology department according to the present invention.

Fig. 5 is a schematic diagram of a bed position adjusting mechanism 1 of a multifunctional nursing home device for neurology according to the second embodiment of the invention.

Fig. 6 is a schematic diagram of a bed position adjusting mechanism 1 of a multifunctional nursing home device for neurology department according to the third embodiment of the invention.

Fig. 7 is a schematic structural view of the bed body 1-13 of the multifunctional nursing home device for neurology according to the present invention.

Fig. 8 is a schematic diagram showing a bed position adjusting mechanism 1 of a multifunctional nursing home device for neurology department according to the present invention.

Fig. 9 is a schematic diagram showing a bed position adjusting mechanism 1 of a multifunctional nursing home device for neurology department according to the present invention.

Fig. 10 is a schematic diagram showing a bed position adjusting mechanism 1 of a multifunctional nursing home device for neurology department according to the present invention.

Fig. 11 is a schematic structural diagram of a coordinated humidification fan mechanism 2 of a multifunctional nursing home device for neurology department according to the present invention.

Fig. 12 is a schematic diagram of a second structure of a coordinated humidification fan mechanism 2 of a multifunctional nursing home device for neurology department according to the present invention.

Fig. 13 is a schematic diagram of a structure of a coordinated humidification fan mechanism 2 of a multifunctional nursing home device for neurology department according to the present invention.

Fig. 14 is a schematic structural diagram of a coordinated humidification fan mechanism 2 of a multifunctional nursing home device for neurology department according to the present invention.

Fig. 15 is a schematic view of a window noise reduction mechanism 3 of a multifunctional nursing home device for neurology according to the first embodiment of the present invention.

Fig. 16 is a second schematic structural view of a window noise reduction mechanism 3 of a multifunctional nursing home device for neurology department according to the present invention.

Fig. 17 is a schematic view of a window noise reduction mechanism 3 of a multifunctional nursing home device for neurology according to the third embodiment of the present invention.

In the figure: a bed position adjusting mechanism 1; the equipment is arranged in a box body 1-1; a motor a1-2; a motor shaft a1-3; belts a1-4; a connecting shaft a1-5; a connecting shaft b1-6; a linkage belt a1-7; friction wheels a1-8; a connecting shaft c1-9; traveling wheels 1-10; travelling wheel limiting plates a1-11; traveling wheel limiting plates b1-12; 1-13 parts of a bed body; lifting the backboard 1-14; 1-15 parts of dry drainage plates; back plate friction wheels 1-16; a connecting shaft d1-17; motion switching connection columns 1-18; motion switching connecting shafts 1 to 19; connecting shafts e1-20; front wheel bearing blocks 1-21; front wheel connecting shafts 1-22; front wheels 1-23; a linkage humidifying fan mechanism 2; friction wheel b2-1; 2-2 parts of a connecting shaft; 2-3 of a connecting shaft II; 2-4 of connecting pipes; 2-5 of connecting pipe air inlet holes; friction wheels c2-6; 2-7 of L-shaped slide rails; intake connection plates a2-8; air inlet connecting rings a2-9; 2-10 of air inlet pipes; 2-11 parts of an air inlet connecting plate; 2-12 parts of an air inlet connecting ring; the air inlet pipe b2-13; 2-14 parts of a powered propeller; 2-15 parts of water outlet pipe; 2-16 parts of propeller connecting blocks; 2-17 parts of air pipes; 2-18 parts of air pipe winding shaft; torsion spring connecting plates 2-19; 2-20 parts of torsion springs; 2-21 of air pipe limiting blocks; 2-22 parts of a water tank; a window noise reduction mechanism 3; a motor mounting plate 3-1; a motor b3-2; a motor shaft b3-3; 3-4 of a belt I; a threaded connection shaft a3-5; 3-6 parts of a second belt; a threaded connection shaft b3-7; 3-8 of an internal thread sliding seal groove; mounting plates a3-9; 3-10 of a belt III; a linkage friction column a3-11; 3-12 of mounting plates; connecting friction columns b3-13; drive shafts a3-14; mounting plates c3-15; mounting plates d3-16; belt IV 3-17; 3-18 of transmission shafts; 3-19 of linkage friction wheels; 3-20 parts of transmission shafts; conveying propellers 3-21; 3-22 of a transmission connection ring; 3-23 of a conveying connection plate; 3-24 of a transmission connecting pipe; 3-25 parts of noise reduction particle box; 3-26 of windows; feeding pipes a3-27; feed tube b3-28; feed tubes c3-29.

Detailed Description

The first embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and more specifically, to a multifunctional nursing home device for neurology, which includes a bed position adjusting mechanism 1, a linkage humidifying fan mechanism 2, and a window noise reducing mechanism 3, wherein the device can adjust a position of a sickbed in the nursing home relative to a window, the device can humidify a room, the device can adjust a distance between the humidifying fan and the bed, and the device can seal the window and be filled with noise reducing particles in the sealed space.

The bed position adjusting mechanism 1 is connected with the linkage humidifying fan mechanism 2, and the bed position adjusting mechanism 1 is connected with the window noise reduction mechanism 3.

The second embodiment is as follows:

in the following description of the first embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, and 17, the bed position adjusting mechanism 1 includes a device mounting case 1-1, a motor a1-2, a motor shaft a1-3, a belt a1-4, a connecting shaft a1-5, a connecting shaft b1-6, a linking belt a1-7, a friction wheel a1-8, a connecting shaft c1-9, a traveling wheel 1-10, a traveling wheel limiting plate a1-11, a traveling wheel limiting plate b1-12, a bed body 1-13, a lifting back plate 1-14, a drying drainage plate 1-15, a back plate friction wheel 1-16, a connecting shaft d1-17, a motion switching connecting column 1-18, a motion switching connecting shaft 1-19, a connecting shaft e1-20, a front wheel bearing block 1-21, a front wheel connecting shaft 1-22, and a front wheel 1-23, the equipment installation box body 1-1 is connected with the motor a1-2, the equipment installation box body 1-1 is connected with the connecting shaft a1-5 through a bearing, the equipment installation box body 1-1 is connected with the connecting shaft b1-6 through a bearing, the equipment installation box body 1-1 is connected with the connecting shaft c1-9 in a sliding manner, the equipment installation box body 1-1 is connected with the travelling wheel limiting plate a1-11, the motor a1-2 is connected with the motor shaft a1-3, the motor shaft a1-3 is in friction connection with the belt a1-4, the belt a1-4 is in friction connection with the connecting shaft a1-5, the connecting shaft a1-5 is in friction connection with the linkage belt a1-7, the connecting shaft b1-6 is in friction connection with the linkage belt a1-7, the linkage belt a1-7 is in friction connection with the friction wheel a1-8, the friction wheel a1-8 is connected with the connecting shaft c1-9, the connecting shaft c1-9 is connected with the travelling wheel 1-10, the connecting shaft c1-9 is connected with the travelling wheel limiting plate b1-12, the connecting shaft c1-9 is in threaded connection with the bed body 1-13, the connecting shaft c1-9 is in sliding connection with the travelling wheel limiting plate b1-12, the travelling wheel 1-10 is in sliding connection with the travelling wheel limiting plate a1-11, the bed body 1-13 is in sliding connection with the lifting backboard 1-14, the bed body 1-13 is connected with the drying drainage plate 1-15, the bed body 1-13 is in sliding connection with the connecting shaft d1-17, the bed body 1-13 is connected with a connecting shaft e1-20 through bearings, the lifting backboard 1-14 is in friction connection with the backboard friction wheel 1-16, the backboard friction wheel 1-16 is connected with a connecting shaft d1-17, the connecting shaft d1-17 is connected with a motion switching connecting column 1-18, the motion switching connecting column 1-18 is connected with a motion switching connecting shaft 1-19, the connecting shaft e1-20 is connected with a front wheel bearing block 1-21, the front wheel bearing block 1-21 is connected with a front wheel connecting shaft 1-22 through bearings, the front wheel connecting shaft 1-22 is connected with a front wheel 1-23, the position of a sickbed in a sanatorium relative to a window can be adjusted through equipment, a motor a1-2 works, the motor a1-2 works to drive a motor shaft a1-3 to rotate, the motor shaft a1-3 rotates to drive the connecting shaft a1-5 to rotate through the belt a1-4, the connecting shaft a1-5 rotates to drive the linkage belt a1-7 to move through the three connecting shafts b1-6, the friction wheel a1-8 is driven to rotate when the linkage belt a1-7 moves, the friction wheel a1-8 rotates to drive the connecting shaft c1-9 to rotate, the travelling wheel 1-10 is driven to rotate when the connecting shaft c1-9 rotates, the travelling wheel 1-10 rotates to drive the bed body 1-13 to move along the Y direction, the movement switching connecting shaft 1-19 moves to drive the connecting shaft d1-17 to rotate through the movement switching connecting post 1-18 when the movement switching connecting shaft 1-19 rotates, the connecting shaft d1-17 rotates to drive the lifting backboard 1-14 to ascend or descend through the backboard friction wheel 1-16, when the lifting backboard 1-14 descends, the pressing equipment is installed on the bottom plate at the lower part of the box body 1-1, at the moment, the relative position of the bed body 1-13 is limited, the Y direction of the bed body 1-13 is greatly limited and the X direction is less limited under the action of the lifting backboard 1-14, at the moment, the motor a1-2 continues to work, the connecting shaft c1-9 can drive the bed body 1-13 to press the X direction to move when rotating, and the relative position relation between the bed body 1-13 and the window 3-26 can be adjusted when the bed body 1-13 moves, so that a patient can accept a good lighting effect.

And a third specific embodiment:

in the following description of the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, the linked humidifying fan mechanism 2 includes a friction wheel b2-1, a connecting shaft 2-2, a connecting shaft 2-3, a connecting pipe 2-4, a connecting pipe intake hole 2-5, a friction wheel c2-6, an L-shaped slide rail 2-7, an intake connecting plate a2-8, an intake connecting ring a2-9, an intake pipe a2-10, an intake connecting plate b2-11, an intake connecting ring b2-12, an intake pipe b2-13, a powered propeller 2-14, an outlet pipe 2-15, a propeller connecting block 2-16, an air pipe 2-17, an air pipe winding shaft 2-18, a torsion spring connecting plate 2-19, a torsion spring 2-20, an air pipe stopper 2-21, and a water tank 2-22, the friction wheel b2-1 is connected with the first connecting shaft 2-2, the friction wheel b2-1 is in friction connection with the linkage belt a1-7, the first connecting shaft 2-2 is connected with the second connecting shaft 2-3, the first connecting shaft 2-2 is connected with the friction wheel c2-6, the second connecting shaft 2-3 is connected with the connecting pipe 2-4, the second connecting shaft 2-3 is in bearing connection with the air inlet connecting plate a2-8, the second connecting shaft 2-3 is in sliding connection with the equipment mounting box body 1-1, the connecting pipe 2-4 is connected with the friction wheel c2-6, the connecting pipe 2-4 is in bearing connection with the air inlet connecting plate b2-11, the air inlet hole 2-5 of the connecting pipe is arranged on the connecting pipe 2-4, the friction wheel c2-6 is connected with the L-shaped sliding rail 2-7 in a sliding way, the L-shaped sliding rail 2-7 is connected with the equipment mounting box body 1-1, the air inlet connecting plate a2-8 is connected with two sides of the air inlet connecting ring a2-9, one air inlet connecting plate a2-8 is connected and communicated with one end of the air pipe 2-17, the air inlet pipe a2-10 is connected and communicated with one air inlet connecting plate b2-11, the air inlet pipe a2-10 is connected with a hole on the propeller connecting block 2-16, the air inlet connecting plate b2-11 is connected and communicated with two sides of the air inlet connecting ring b2-12, one air inlet connecting plate b2-11 is connected and communicated with the air inlet pipe b2-13, the air inlet pipe b2-13 is connected with a hole on the propeller connecting block 2-16, the powered screw propeller 2-14 is connected with a screw propeller connecting block 2-16 through a bearing, the upper part of a water outlet pipe 2-15 is connected and communicated with a water tank 2-22, the lower part of the water outlet pipe is connected and communicated with a connecting pipe 2-4, the screw propeller connecting block 2-16 is connected with a device mounting box body 1-1, one part of an air pipe 2-17 is clockwise wound on a connecting shaft 2-3, the other part of the air pipe 2-17 is anticlockwise wound on an air pipe winding shaft 2-18, the air pipe 2-17 is connected and communicated with a bed body 1-13, the air pipe winding shaft 2-18 is connected with a torsion spring connecting plate 2-19, the air pipe winding shaft 2-18 is connected with the device mounting box body 1-1 through a bearing, a torsion spring 2-20 is sleeved on the air pipe winding shaft 2-18 and limited on the torsion spring connecting plate 2-19 and the device mounting box body 1-1, the air pipe limiting block 2-21 is connected with the equipment mounting box body 1-1, the water tank 2-22 is connected with the equipment mounting box body 1-1, the equipment can humidify a room, the equipment can regulate the distance between a humidifying fan and a bed, the friction wheel b2-1 is driven to rotate when the linkage belt a1-7 moves, the friction wheel b2-1 rotates to drive the connecting shaft I2-2 to rotate and slide along a groove on the equipment mounting box body 1-1, the connecting shaft I2-2 is driven to drive the connecting shaft II 2-3 to move with the connecting pipe 2-4, the connecting pipe 2-4 moves to drive the friction wheel c2-6 to move under the limit of the L-shaped sliding rail 2-7, the friction wheel c2-6 moves on the L-shaped sliding rail 2-7, at the moment, the bed body 1-13 moves opposite to the motor shaft a1-3, the first connecting shaft 2-2, the second connecting shaft 2-3 and the connecting pipe 2-4 are driven to drive the propeller connecting block 2-16 to move when moving, the propeller connecting block 2-16 is driven to drive the powered propeller 2-14 to move, the distance between the humidifying fan and the bed is adjusted at the moment, when the powered propeller 2-14 works, the powered propeller 2-14 is in a rotating state, the powered propeller 2-14 can blow air downwards to suck air upwards when rotating, the powered propeller 2-14 sucks air to the air inlet pipe a2-10 and the air inlet pipe b2-13, the air suction in the direction of the air inlet pipe b2-13 is that the water in the water tank 2-22 is sucked to the water tank 2-22 through the air inlet hole 2-5 of the connecting pipe, the connecting pipe 2-4 and the water outlet pipe 2-15, because the water outlet pipe 2-15 is a rubber pipe which is relatively soft and has smaller inner diameter, the water outlet pipe 2-15 can not leak downwards when the power screw propeller 2-14 does not rotate, the water is absorbed to the water tank 2-22 through the water outlet pipe 2-15 and discharged downwards when the power screw propeller 2-14 rotates, the water is scattered into water mist under the action of the power screw propeller 2-14, the air in the air inlet pipe a2-10 at the other end is absorbed, and the air is absorbed to the gap between the bed body 1-13 and the lifting backboard 1-14 through the air pipe 2-17, and the process can carry out drying treatment on the bed body 1-13, so that the moisture generated by the bed body 1-13 during use is absorbed.

The specific embodiment IV is as follows:

in the following description of the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, and 17, the window noise reduction mechanism 3 includes a motor mounting plate 3-1, a motor b3-2, a motor shaft b3-3, a belt one 3-4, a threaded connection shaft a3-5, a belt two 3-6, a threaded connection shaft b3-7, an internally threaded sliding seal groove 3-8, a mounting plate a3-9, a belt three 3-10, a linkage friction column a3-11, a mounting plate b3-12, a connection friction column b3-13, a transmission shaft a3-14, a mounting plate c3-15, a mounting plate d3-16, a belt four 3-17, a transmission shaft b3-18, a friction wheel 3-19, a transmission shaft c3-20, a transmission screw 3-21, a transmission connection ring 3-22, a transmission connection plate 3-23, a transmission connection plate 3-24, a transmission box 3-25, a feed pipe 3-25, a window feed pipe 3-28, the motor mounting plate 3-1 is connected with the motor b3-2, the motor mounting plate 3-1 is connected with the equipment mounting box body 1-1, the motor b3-2 is connected with the motor shaft b3-3, the motor shaft b3-3 is in friction connection with the belt A3-4, the belt A3-4 is in friction connection with the threaded connecting shaft a3-5, the threaded connecting shaft a3-5 is in friction connection with the belt B3-6, the threaded connection shaft a3-5 is in threaded connection with the internal thread sliding seal groove 3-8, the threaded connection shaft a3-5 is in bearing connection with the mounting plate a3-9, the threaded connection shaft a3-5 is in bearing connection with the mounting plate c3-15, the belt II 3-6 is in friction connection with the threaded connection shaft b3-7, the threaded connection shaft b3-7 is in threaded connection with the internal thread sliding seal groove 3-8, the threaded connection shaft b3-7 is in friction connection with the belt III 3-10, the threaded connection shaft b3-7 is in bearing connection with the mounting plate a3-9, the threaded connection shaft b3-7 is in bearing connection with the mounting plate c3-15, the internal thread sliding seal groove 3-8 is in bearing connection with the mounting plate b3-12, the internal thread sliding seal groove 3-8 is in sliding connection with the equipment mounting box 1-1, the mounting plate a3-9 is connected with the equipment mounting box body 1-1, the mounting plate a3-9 is connected with the linkage friction column a3-11 in a sliding manner, the mounting plate a3-9 is connected with the transmission shaft a3-14 in a bearing manner, the belt three 3-10 is connected with the linkage friction column a3-11 in a friction manner, the linkage friction column a3-11 is connected with the mounting plate b3-12 in a bearing manner, the connecting friction column b3-13 is connected with the mounting plate d3-16 in a bearing manner, the transmission shaft a3-14 is connected with the mounting plate d3-16 in a bearing manner, the mounting plate c3-15 is connected and communicated with the feeding pipe b3-28 in a bearing manner, the mounting plate c3-15 is connected with the equipment mounting box body 1-1, the mounting plate d3-16 is connected with the transmission shaft b3-18 in a bearing manner, the belt four 3-17 is connected with the transmission shaft b3-18 in a friction manner, the belt IV 3-17 is in friction connection with the linkage friction wheel 3-19, the linkage friction wheel 3-19 is connected with the transmission shaft c3-20, the transmission shaft c3-20 is connected with the transmission screw 3-21, the transmission shaft c3-20 is in bearing connection with the transmission connecting plate 3-23, the transmission connecting ring 3-22 is connected with the equipment mounting box body 1-1, one end of the transmission connecting pipe 3-24 is connected and communicated with the transmission connecting pipe 3-24, the other end is connected and communicated with the noise reduction particle box 3-25, the noise reduction particle box 3-25 is connected with the equipment mounting box body 1-1, the window 3-26 is connected with the equipment mounting box body 1-1, one end of the feed pipe a3-27 is connected with a hole on the equipment mounting box body 1-1, the other end is connected with a feed pipe c3-29, a feed pipe b3-28 is connected and communicated with the feed pipe c3-29, the device can seal a window and is filled with noise reduction particles in a sealed space, a motor b3-2 works, the motor b3-2 works to drive a motor shaft b3-3 to rotate, the motor shaft b3-3 rotates through a belt I3-4 threaded connection shaft a3-5, the threaded connection shaft a3-5 rotates through a belt II 3-6 to drive a threaded connection shaft b3-7 to rotate, the internal thread sliding seal groove 3-8 is driven to transversely move when the threaded connection shaft a3-5 and the threaded connection shaft b3-7 rotate, the internal thread sliding seal groove 3-8 also drives a linkage friction column a3-11 to move through a mounting plate b3-12, when the internal thread sliding seal groove 3-8 moves to the direction of the mounting plate c3-15, the mounting plate c3-15 and the internal thread sliding seal groove 3-8 form a relatively airtight space with the equipment mounting box body 1-1 when the internal thread sliding seal groove 3-8 moves to be in contact with the mounting plate c3-15, at the moment, the linkage friction column a3-11 is in contact with the connecting friction column b3-13 and in friction connection relation, the linkage friction column a3-11 is driven to rotate through the belt three 3-10 when the threaded connecting shaft b3-7 rotates, the linkage friction column a3-11 rotates to drive the transmission shaft a3-14 to rotate through the connecting friction column b3-13, the transmission shaft a3-14 rotates to drive the transmission shaft b3-18 to rotate through the belt four 3-17, the linkage friction wheel 3-19 rotates to drive the transmission screw 3-21 through the transmission shaft c3-20, the transmission screw 3-21 rotates to adsorb air to the transmission screw 3-24, noise reduction particles in the noise reduction particle box 3-25 at the other end of the transmission 3-24 are adsorbed to the transmission screw 3-24, and the noise reduction particles in the transmission screw 3-25 are adsorbed to the transmission screw 3-27 b, and the transmission screw 3-21 is arranged in the transmission screw 3-20 is arranged in the feeding pipe 3-3 and the feeding pipe and the sliding seal box 1 is arranged in the feeding pipe 1.

The working principle of the equipment is as follows: the device can adjust the position of a sickbed in a sanatorium relative to a window, a motor a1-2 works, the motor a1-2 works to drive a motor shaft a1-3 to rotate, the motor shaft a1-3 rotates to drive a connecting shaft a1-5 to rotate through a belt a1-4, the connecting shaft a1-5 rotates to drive a linkage belt a1-7 to move through three connecting shafts b1-6, when the linkage belt a1-7 moves, a friction wheel a1-8 is driven to rotate, the friction wheel a1-8 rotates to drive a connecting shaft c1-9 to rotate, when the connecting shaft c1-9 rotates to drive a travelling wheel 1-10 to rotate, the travelling wheel 1-10 rotates to drive a bed body 1-13 to move along a Y direction, when the connecting shaft 1-19 is switched in a rotating mode, the connecting shaft 1-19 is driven to rotate through a motion switching connecting column 1-18, the connecting shaft d1-17 rotates to drive the lifting backboard 1-14 to ascend or descend through the backboard friction wheel 1-16, when the lifting backboard 1-14 descends, the pressing equipment is arranged on the bottom plate at the lower part of the box body 1-1, at the moment, the relative position of the bed body 1-13 is limited, the Y direction of the bed body 1-13 is greatly limited and the X direction is less limited under the action of the lifting backboard 1-14, at the moment, the motor a1-2 continues to work, the connecting shaft c1-9 can drive the bed body 1-13 to press the X direction to move when rotating, the relative position relation between the bed body 1-13 and the window 3-26 can be adjusted when the bed body 1-13 moves, so that a patient can accept a better lighting effect, the equipment can humidify a room, the device can adjust the distance between the humidifying fan and the bed, when the linkage belt a1-7 moves, the friction wheel b2-1 is driven to rotate, the friction wheel b2-1 drives the first connecting shaft 2-2 to rotate and slide along the groove on the device mounting box body 1-1, the first connecting shaft 2-2 is driven to also drive the second connecting shaft 2-3 and the connecting pipe 2-4 to move, the connecting pipe 2-4 is driven to drive the friction wheel c2-6 to move under the limit of the L-shaped slide rail 2-7, the friction wheel c2-6 moves on the L-shaped slide rail 2-7, at the moment, the bed body 1-13 moves opposite to the motor shaft a1-3, the first connecting shaft 2-2, the second connecting shaft 2-3 and the connecting pipe 2-4 are driven to drive the propeller connecting block 2-16 to move, the propeller connecting block 2-16 moves to drive the powered propeller 2-14 to move, at the moment, the distance between the humidifying fan and the bed is adjusted, when the powered propeller 2-14 works, the powered propeller 2-14 is in a rotating state, when the powered propeller 2-14 rotates, air can be blown downwards to suck air upwards, at the moment, the powered propeller 2-14 sucks air into the air inlet pipe a2-10 and the air inlet pipe b2-13, the air suction in the direction of the air inlet pipe b2-13 is that the water in the water tank 2-22 is sucked into the water tank 2-22 through the air inlet hole 2-5 of the connecting pipe, the connecting pipe 2-4 and the water outlet pipe 2-15, because the water outlet pipe 2-15 is a rubber pipe which is relatively soft and has smaller inner diameter, the water outlet pipe 2-15 cannot leak downwards when the powered propeller 2-14 does not rotate, the power screw propeller 2-14 absorbs water to the water tank 2-22 through the water outlet pipe 2-15 and discharges downwards, the water is dispersed into water mist under the action of the power screw propeller 2-14, the air in the air inlet pipe a2-10 at the other end is absorbed in the same way, and the air is absorbed to the gap between the bed body 1-13 and the lifting backboard 1-14 through the air pipe 2-17, the process can dry the bed body 1-13, moisture generated when the bed body 1-13 is used is absorbed, the device can seal windows and is filled with noise reduction particles in the sealed space, the motor b3-2 works to drive the motor shaft b3-3 to rotate, the motor shaft b3-3 rotates through the belt one 3-4 thread connecting shaft a3-5 to rotate, the threaded connection shaft a3-5 rotates to drive the threaded connection shaft b3-7 to rotate through the belt II 3-6, the internal thread sliding seal groove 3-8 is driven to transversely move when the threaded connection shaft a3-5 rotates with the threaded connection shaft b3-7, the internal thread sliding seal groove 3-8 is driven to drive the linkage friction column a3-11 to move through the mounting plate b3-12, when the internal thread sliding seal groove 3-8 moves towards the mounting plate c3-15, and moves to be in contact with the mounting plate c3-15, the mounting plate c3-15 and the internal thread sliding seal groove 3-8 form a relatively airtight space with the equipment mounting box body 1-1, at the moment, the linkage friction column a3-11 is in contact with the connecting friction column b3-13 and generates friction connection relation, when the threaded connection shaft b3-7 rotates, the linkage friction column a3-11 is driven to rotate through the belt three 3-10, the linkage friction column a3-11 rotates to drive the transmission shaft a3-14 to rotate through the connection friction column b3-13, the transmission shaft a3-14 rotates and drives the transmission shaft b3-18 to rotate through the belt four 3-17, the linkage friction wheel 3-19 is driven to rotate through the belt four 3-17 to drive the transmission screw 3-21 to rotate through the transmission shaft c3-20, the transmission screw 3-21 rotates to absorb air to the transmission connecting pipe 3-24, noise reduction particles in the noise reduction particle box 3-25 at the other end of the transmission connecting pipe 3-24 are absorbed into the feeding pipe a3-27, and the space formed by the mounting plate c3-15, the internal thread sliding seal groove 3-8 and the equipment mounting box 1-1 is filled under the guidance of the feeding pipe b3-28 and the feeding pipe c3-29.

Of course, the above description is not intended to limit the invention, but rather the invention is not limited to the above examples, and variations, modifications, additions or substitutions within the spirit and scope of the invention will be within the scope of the invention.

Claims (1)

1. The utility model provides a department of neurology is with multi-functional sanatorium equipment, includes bed position adjustment mechanism (1), linkage humidification fan mechanism (2), window mechanism of making an uproar (3), its characterized in that: the bed position adjusting mechanism (1) is connected with the linkage humidifying fan mechanism (2), and the bed position adjusting mechanism (1) is connected with the window noise reduction mechanism (3);

the bed position adjusting mechanism (1) comprises a device mounting box body (1-1), a motor a (1-2), a motor shaft a (1-3), a belt a (1-4), a connecting shaft a (1-5), a connecting shaft b (1-6), a linkage belt a (1-7), a friction wheel a (1-8), a connecting shaft c (1-9), a traveling wheel (1-10), a traveling wheel limiting plate a (1-11), a traveling wheel limiting plate b (1-12), a bed body (1-13), a lifting backboard (1-14), a drying drainage plate (1-15), a backboard friction wheel (1-16), a connecting shaft d (1-17), a motion switching connecting column (1-18), a motion switching connecting shaft (1-19), a connecting shaft e (1-20), a front wheel bearing block (1-21), a front wheel connecting shaft (1-22) and a front wheel (1-23), the device mounting box body (1-1) is connected with the motor a (1-2), the device mounting box body (1-1) is connected with the connecting shaft a (1-5), the device mounting box body (1-5) is connected with the bearing (1-6), the equipment installation box body (1-1) is in sliding connection with the connecting shaft c (1-9), the equipment installation box body (1-1) is connected with the travelling wheel limiting plate a (1-11), the motor a (1-2) is connected with the motor shaft a (1-3), the motor shaft a (1-3) is in friction connection with the belt a (1-4), the belt a (1-4) is in friction connection with the connecting shaft a (1-5), the connecting shaft a (1-5) is in friction connection with the linkage belt a (1-7), the connecting shaft b (1-6) is in friction connection with the linkage belt a (1-7), the linkage belt a (1-7) is in friction connection with the friction wheel a (1-8), the friction wheel a (1-8) is connected with the connecting shaft c (1-9), the connecting shaft c (1-9) is connected with the travelling wheel (1-10), the connecting shaft c (1-9) is connected with the travelling wheel limiting plate b (1-12), the connecting shaft c (1-9) is in friction connection with the bed body (1-9) and the travelling wheel limiting plate (1-12), the linkage belt a (1-7) is in friction connection with the travelling wheel limiting plate a (1-8), the bed body (1-13) is connected with the lifting backboard (1-14) in a sliding manner, the bed body (1-13) is connected with the drying drainage plate (1-15), the bed body (1-13) is connected with the connecting shaft d (1-17) in a sliding manner, the bed body (1-13) is connected with the connecting shaft e (1-20) in a bearing manner, the lifting backboard (1-14) is connected with the backboard friction wheel (1-16) in a friction manner, the backboard friction wheel (1-16) is connected with the connecting shaft d (1-17), the connecting shaft d (1-17) is connected with the motion switching connecting column (1-18), the motion switching connecting column (1-18) is connected with the motion switching connecting shaft (1-19), the connecting shaft e (1-20) is connected with the front wheel bearing block (1-21), the front wheel bearing block (1-21) is connected with the front wheel connecting shaft (1-22) in a bearing manner, and the front wheel connecting shaft (1-22) is connected with the front wheel (1-23);

the linkage humidifying fan mechanism (2) comprises a friction wheel b (2-1), a first connecting shaft (2-2), a second connecting shaft (2-3), a connecting pipe (2-4), a connecting pipe air inlet hole (2-5), a friction wheel c (2-6), an L-shaped sliding rail (2-7), an air inlet connecting plate a (2-8), an air inlet connecting ring a (2-9), an air inlet pipe a (2-10), an air inlet connecting plate b (2-11), an air inlet connecting ring b (2-12), an air inlet pipe b (2-13), a powered screw propeller (2-14), a water outlet pipe (2-15), a screw propeller connecting block (2-16), an air pipe (2-17), an air pipe winding shaft (2-18), a torsion spring connecting plate (2-19), a torsion spring (2-20), an air pipe limiting block (2-21) and a water tank (2-22), wherein the friction wheel b (2-1) is connected with the first connecting shaft (2-2), the friction wheel b (2-1) is in friction connection with the linkage belt a (1-7), the first connecting shaft (2-3) is connected with the second connecting shaft (2-3), the first connecting shaft (2-6), the connecting shaft II (2-3) is connected with the connecting pipe (2-4), the connecting shaft II (2-3) is connected with an air inlet connecting plate a (2-8) through a bearing, the connecting shaft II (2-3) is connected with the equipment mounting box body (1-1) through a sliding mode, the connecting pipe (2-4) is connected with a friction wheel c (2-6), the connecting pipe (2-4) is connected with an air inlet connecting plate b (2-11) through a bearing, an air inlet hole (2-5) of the connecting pipe is formed in the connecting pipe (2-4), the friction wheel c (2-6) is connected with an L-shaped sliding rail (2-7) through a sliding mode, the L-shaped sliding rail (2-7) is connected with the equipment mounting box body (1-1), the air inlet connecting plate a (2-8) is connected with two sides of an air inlet connecting ring a (2-9), one air inlet connecting plate a (2-8) is connected and communicated with one end of an air pipe (2-17), the air inlet pipe a (2-10) is connected and communicated with one air inlet connecting plate b (2-11), the air inlet pipe a (2-10) is connected with two sides of an air inlet connecting plate b (2-12) through an air inlet connecting plate b (16), an air inlet connecting plate b (2-11) is connected and communicated with an air inlet pipe b (2-13), the air inlet pipe b (2-13) is connected and communicated with a hole on a propeller connecting block (2-16), a powered propeller (2-14) is connected and communicated with a propeller connecting block (2-16) through a bearing, the upper part of an water outlet pipe (2-15) is connected and communicated with a water tank (2-22), the lower part of the water outlet pipe is connected and communicated with a connecting pipe (2-4), the propeller connecting block (2-16) is connected and communicated with a device mounting box body (1-1), one part of an air pipe (2-17) is wound on a connecting shaft II (2-3) clockwise, the other part of the air pipe (2-17) is wound on an air pipe winding shaft (2-18) anticlockwise, the air pipe (2-17) is connected and communicated with a bed body (1-13), the air pipe winding shaft (2-18) is connected with a torsion spring connecting plate (2-19), the air pipe winding shaft (2-18) is connected with a device mounting box body (1-1) through a bearing, the torsion spring (2-20) is sleeved on the air pipe winding shaft (2-18) and is connected with a limiting block (1-19) through a torsion spring (1-1), the water tank (2-22) is connected with the equipment installation box body (1-1);

the window noise reduction mechanism (3) comprises a motor mounting plate (3-1), a motor b (3-2), a motor shaft b (3-3), a belt I (3-4), a threaded connecting shaft a (3-5), a belt II (3-6), a threaded connecting shaft b (3-7), an internal threaded sliding seal groove (3-8), a mounting plate a (3-9), a belt III (3-10), a linkage friction column a (3-11), a mounting plate b (3-12), a connecting friction column b (3-13), a transmission shaft a (3-14), a mounting plate c (3-15), a mounting plate d (3-16), a belt IV (3-17), a transmission shaft b (3-18), a linkage friction wheel (3-19), a transmission shaft c (3-20), a transmission screw (3-21), a transmission connecting ring (3-22), a transmission connecting plate (3-23), a transmission connecting pipe (3-24), a noise reduction particle box (3-25), a window (3-26), a (3-27), a feeding pipe b (3-28) and a feeding pipe c (3-29), wherein the motor mounting plate (3-1) is connected with the feeding pipe b (3-2), the motor mounting plate (3-1) is connected with the equipment mounting box body (1-1), the motor b (3-2) is connected with the motor shaft b (3-3), the motor shaft b (3-3) is in friction connection with the first belt (3-4), the first belt (3-4) is in friction connection with the threaded connecting shaft a (3-5), the threaded connecting shaft a (3-5) is in friction connection with the second belt (3-6), the threaded connecting shaft a (3-5) is in threaded connection with the internal thread sliding seal groove (3-8), the threaded connecting shaft a (3-5) is in bearing connection with the mounting plate a (3-9), the threaded connection shaft a (3-5) is in bearing connection with the mounting plate c (3-15), the second belt (3-6) is in friction connection with the threaded connection shaft b (3-7), the threaded connection shaft b (3-7) is in threaded connection with the internal thread sliding seal groove (3-8), the threaded connection shaft b (3-7) is in friction connection with the third belt (3-10), the threaded connection shaft b (3-7) is in bearing connection with the mounting plate a (3-9), the threaded connection shaft b (3-7) is in bearing connection with the mounting plate c (3-15), the internal thread sliding seal groove (3-8) is in bearing connection with the mounting plate b (3-12), the internal thread sliding seal groove (3-8) is in sliding connection with the equipment mounting box body (1-1), the mounting plate a (3-9) is connected with the equipment mounting box body (1-1), the mounting plate a (3-9) is in sliding connection with the linkage friction column a (3-11), the mounting plate a (3-9) is in bearing connection with the transmission shaft a (3-14), the belt three (3-10) is in friction connection with the linkage friction column a (3-11), the linkage friction column a (3-11) is in bearing connection with the mounting plate b (3-12), the connection friction column b (3-13) is in bearing connection with the mounting plate d (3-16), the transmission shaft a (3-14) is in bearing connection with the mounting plate d (3-16), the mounting plate c (3-15) is in bearing connection and communication with the feeding pipe b (3-28), the mounting plate c (3-15) is in bearing connection with the equipment mounting box body (1-1), the mounting plate d (3-16) is in bearing connection with the transmission shaft b (3-18), the belt four (3-17) is in friction connection with the transmission shaft b (3-17), the belt four (3-17) is in friction wheel connection with the transmission shaft b (3-17), the four belt four (3-17) is in friction wheel connection with the transmission shaft b (3-17) is in friction connection with the friction wheel (3-19), the transmission shaft c (3-20) is connected with the transmission propeller (3-21), the transmission shaft c (3-20) is connected with the transmission connecting plate (3-23) through a bearing, the transmission connecting ring (3-22) is connected with the transmission connecting plate (3-23), the transmission connecting ring (3-22) is connected with the equipment installation box body (1-1), one end of the transmission connecting pipe (3-24) is connected and communicated with the transmission connecting pipe (3-24), the other end of the transmission connecting pipe is connected and communicated with the noise reduction particle box (3-25), the noise reduction particle box (3-25) is connected with the equipment installation box body (1-1), the window (3-26) is connected with the equipment installation box body (1-1), one end of the feed pipe a (3-27) is connected with a hole in the equipment installation box body (1-1), the other end of the feed pipe a (3-29) is connected and the feed pipe b (3-28) is connected and communicated with the feed pipe c (3-29).