CN114421591B

CN114421591B - Battery storage device with solar power storage assembly for medical instrument and method

Info

Publication number: CN114421591B
Application number: CN202210029253.6A
Authority: CN
Inventors: 邱灿灿; 朱铠毅
Original assignee: Shenzhen Huayuanhong New Material Co ltd
Current assignee: Shenzhen Huayuanhong New Material Co ltd
Priority date: 2022-01-12
Filing date: 2022-01-12
Publication date: 2022-09-13
Anticipated expiration: 2042-01-12
Also published as: CN114421591A

Abstract

The invention relates to the field of battery storage, in particular to a battery storage device provided with a solar energy storage assembly and used for medical instruments, which comprises: the base, the reserve assembly, the electric power storage component, the clearance subassembly, ceiling and the control unit, reserve assembly and electric power storage component are all installed on the base, clearance subassembly and ceiling are convenient to install at base length direction's both ends, the ceiling is installed in the one end of being close to the reserve assembly, the one end that the control unit installed is close to the ceiling at the base, reserve assembly and electric power storage component all are connected with the control unit electricity, the reserve assembly is connected with the electric power storage component electricity, carry out electric energy deposit and utilization through solar energy electric power storage component, utilize reserve assembly warehousing and transportation battery, for medical instrument improves electric power, solve field operations hospital or interim hospital electric power supply problem, it is convenient, fast, green.

Description

Battery storage device with solar power storage assembly for medical instrument and method

Technical Field

The invention relates to the field of battery storage, in particular to a battery storage device provided with a solar energy storage assembly and used for medical equipment.

Background

The medical apparatus refers to instruments, equipment, appliances, in-vitro diagnostic reagents and calibrators, materials and other similar or related articles which are directly or indirectly used for the human body, and comprises required computer software; the effect is mainly obtained by physical and other ways, not by pharmacological, immunological or metabolic ways, or is only assisted although the ways are involved; for the purpose of diagnosis, prevention, monitoring, treatment, or amelioration of a disease; diagnosis, monitoring, treatment, mitigation, or functional compensation of injury; examination, replacement, regulation or support of a physiological structure or physiological process; support or maintenance of life; controlling pregnancy; by examining a sample from a human body, information is provided for medical or diagnostic purposes.

The power supply and the power reserve of medical equipment in a hospital are both communicated with a power grid, and in an emergency situation, once power failure and power failure occur, equipment is easily stopped, the life safety of a patient is harmed, and the power supply problem of the medical equipment of a field hospital or a temporary disaster relief hospital built due to war or natural disasters is not easy to solve, the power grid needs to be built, and the energy consumption is time-consuming.

Disclosure of Invention

To solve the above technical problems.

The application provides a medical instrument is with battery storage device who is equipped with solar energy power storage component, includes: the storage component and the electric storage component are both arranged on the base, the cleaning component and the ceiling are conveniently arranged at two ends of the base in the length direction, the ceiling is arranged at one end close to the storage component, the control unit is arranged at one end of the base close to the ceiling, the storage component and the electric storage component are both electrically connected with the control unit, and the storage component is electrically connected with the electric storage component;

the solar panel is mounted on the plate frame, the plate frame is mounted on the fixing frame through the manual presetting assembly, the fixing frame is mounted on the base through the automatic adjusting assembly, the light intensity sensors are fixedly mounted on two sides of the fixing frame, and the solar panel, the automatic adjusting assembly and the light intensity sensors are all connected with the control unit;

the automatic regulating assembly comprises an electric rotary table, a first electric push rod, a supporting rod, a regulating frame, a rotary electric cylinder, a second electric push rod, a fixed seat, a connecting seat and a mounting seat, the electric rotary table is installed on the base, the first electric push rod is installed at the output end of the electric rotary table, the supporting rod is fixedly installed at the top of the output end of the first electric push rod, the rotary electric cylinder is hinged to the top of the supporting rod through the fixed seat, the regulating frame is fixedly connected with the output end of the rotary electric cylinder, the regulating frame is fixedly connected with a fixing frame, the fixed seat is installed at the top of the supporting rod, the connecting seat is fixedly installed at the bottom of the rotary electric cylinder and hinged to the output end of the second electric push rod, the second electric push rod is fixed on the fixed seat through the mounting seat, the electric rotary table, the first electric push rod, the rotary electric cylinder and the second electric push rod are all connected with the control unit.

Furthermore, the both ends of base length direction are installed respectively and are pushed away frame and baffle, and the universal wheel is installed to the base lower extreme, pushes away and goes up fixed mounting and have a block seat subassembly, and the clearance unit mount just is located block seat subassembly top on pushing away the frame, and the ceiling is installed in the upper end of baffle, and the block seat subassembly can joint reserve solar cell panel.

Further, the storage assembly comprises a storage box, a heat dissipation fan, a clamping mechanism and a battery pack box, the storage box is fixedly mounted on the base, the heat dissipation fan is mounted on a box body of the storage box, the battery pack box is clamped in the storage box through the clamping mechanism, the heat dissipation fan and the battery pack box are both connected with the control unit, and the battery pack box is connected with the power storage assembly.

Further, the clearance subassembly includes inserted bar, horizontal pole, sponge box and clearance sponge, and the inserted bar is inserted and is established in the both sides that push away the frame, and the horizontal pole passes through the bayonet socket joint on the top of inserted bar, and the sponge box cup joints on the horizontal pole, and clearance sponge joint is in the sponge box, and the clearance sponge can with reserve solar cell panel's top butt.

Further, the card seat subassembly includes cardboard, bottom plate, slide and first spring, cardboard fixed mounting pushes away the both sides of frame, bottom plate fixed mounting has seted up the draw-in groove in the bottom of cardboard at the bottom of cardboard, the spout has been seted up to the bottom of cardboard, slide and spout sliding connection, first spring passes through spring holder fixed mounting on the bottom plate, the upper end and the slide fixed connection of first spring, reserve solar cell panel joint is in the draw-in groove, the upper end of slide and reserve solar cell panel's lower extreme butt.

Further, solid mechanism of card includes supporting seat, the solid seat of card, card frame, bull stick, second spring and colludes the spring, and supporting seat fixed mounting is in the bottom of storage box, and the solid seat of card is installed in the both sides of supporting seat, and the card frame articulates on the bull stick, and the bull stick passes through the pole groove to be installed on solid seat of card, the second spring install in the pole groove and with the bull stick butt, be connected through colluding the spring between the lower extreme of card frame and the solid seat of card.

Further, manual preset subassembly is including adjusting seat and locking head, adjusts seat fixed mounting on the mount, and the locking head is installed on adjusting the seat through adjusting the rail groove, and the one end of locking head is passed and is adjusted the seat and insert the grillage and pass through activity groove sliding connection with the grillage, and the activity groove is seted up in the both sides of grillage.

Further, the method comprises the following implementation steps:

the method comprises the following steps: the solar panel cleaning device has the advantages that the device is convenient for personnel to move and transport through the matching of the pushing frame and the universal wheels, the device is moved to an area with sufficient illumination, the standby solar panel is fixed through the clamping seat assembly, the standby solar panel is clamped in the clamping groove of the clamping plate, the standby solar panel is supported and buffered through the sliding seat and the first spring, meanwhile, the standby solar panel can be pressed on the sliding seat through the matching of the transverse rods, the sponge box and the cleaning sponge, the elasticity of the cleaning sponge is utilized, the standby solar panel is prevented from being damaged due to bumping and shaking during moving and transporting, workers clean the solar panel through the cleaning sponge, and the solar panel can be cleaned only by lifting the transverse rods and taking out the sponge box;

step two: the solar cell panel and the panel frame are arranged on the fixing frame through the adjusting seat and the locking head, and the tightness of the locking head and the adjusting seat is changed by rotating the locking head, so that the solar cell panel is conveniently rotated, and the angle of the solar cell panel is preliminarily adjusted;

step three: the position and the height of the fixing frame are changed through the electric rotary table and the first electric push rod, the position and the angle of the fixing frame and the solar cell panel are changed through the rotary electric cylinder and the second electric push rod, the illumination intensity is fed back to the control unit through the light intensity sensor, the control unit controls the electric rotary table to rotate, the first electric push rod is driven to rotate, the height of the supporting rod is changed through controlling the first electric push rod, the height and the angle of the rotary electric cylinder and the second electric push rod are changed, the angle of the rotary electric cylinder and the fixing seat is changed through controlling the second electric push rod, the horizontal angle of the fixing frame is changed, and the rotation angle of the fixing frame is changed through controlling the rotation of the rotary electric cylinder.

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

1. this application has realized the medical instrument's of field operations hospital or interim relief of disaster hospital that builds energy supply and electric power deposit through solar energy power storage component, and the maximum efficiency utilizes solar energy, reduces supply pressure, green.

2. This application has realized solar cell panel's altitude mixture control and angle modulation through manual preset subassembly and automatically regulated subassembly, utilizes light intensity sensor and the control unit to realize "chasing after one's day", improves the solar energy utilization ratio.

3. The safe storage and transportation of the battery pack are achieved through the storage assembly.

4. This application has realized laying and safe storage of reserve solar cell panel through the card seat subassembly.

5. This application has realized the clearance to solar cell panel through the clearance subassembly, and guarantee solar cell panel is clean.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a side view of the present invention;

FIG. 4 is a top view of the present invention;

FIG. 5 is a front view of the present invention;

FIG. 6 is a first perspective view of a portion of the mechanism of the present invention;

FIG. 7 is an exploded view of a portion of the mechanism of the present invention;

FIG. 8 is a second perspective view of a portion of the mechanism of the present invention;

FIG. 9 is a third perspective view of a portion of the mechanism of the present invention;

FIG. 10 is a first schematic structural view of a reservoir assembly of the present invention;

FIG. 11 is a second schematic structural view of the dispenser assembly of the present invention;

FIG. 12 is a third schematic structural view of the dispenser assembly of the present invention;

fig. 13 is an exploded view of the reservoir assembly of the present invention.

The reference numbers in the figures are: 1-a base; 1 a-a pushing frame; 1 b-a baffle; 1 c-a universal wheel; 1 d-a cartridge assembly; 1d 1-card; 1d 2-card slot; 1d 3-bottom plate; 1d 4-chute; 1d 5-slide; 1d6 — first spring; 1d 7-spring seat;

2-a reservoir assembly; 2 a-a reserve tank; 2 b-a heat dissipation fan; 2 c-a clamping mechanism; 2c 1-support seat; 2c 2-clamping seat; 2c 3-card holder; 2c 4-turn bar; 2c5 — second spring; 2c 6-bar slot; 2c 7-hook spring; 2 d-battery box;

3-an electrical storage component; 3 a-solar panel; 3 b-a plate frame; 3 c-manual preset components; 3c 1-adjustment seat; 3c 2-locking head; 3c 3-adjusting rail groove; 3c 4-active slot; 3 d-an automatic adjustment assembly; 3d 1-electric turntable; 3d2 — first electric putter; 3d 3-support bar; 3d 4-adjusting bracket; 35-rotating electric cylinder; 3d 6-second electric push rod; 3d 7-fixed seat; 3d 8-connecting seat; 3d 9-mount; 3 e-a fixed mount; 3 f-light intensity sensor;

4-cleaning the assembly; 4 a-a plunger; 4a 1-bayonet; 4 b-a cross-bar; 4 c-a sponge box; 4 d-cleaning sponge;

5-ceiling;

6-a control unit.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

As shown in fig. 1 to 5, the following preferred technical solutions are provided:

a battery reserve apparatus provided with a solar power storage module for a medical instrument, comprising: base 1, storage assembly 2, electric power storage assembly 3, clearance subassembly 4, ceiling 5 and the control unit 6, storage assembly 2 and electric power storage assembly 3 are all installed on base 1, clearance subassembly 4 and ceiling 5 are conveniently installed at the both ends of 1 length direction of base, ceiling 5 is installed in the one end that is close to storage assembly 2, the control unit 6 is installed in the one end that base 1 is close to ceiling 5, storage assembly 2 and electric power storage assembly 3 all are connected with the control unit 6 electricity, storage assembly 2 is connected with electric power storage assembly 3 electricity.

Specifically, in order to solve the technical problem of power supply of medical equipment of a field hospital or a temporary disaster relief hospital which is set up due to war or natural disasters, the solar energy storage assembly 3 is used for storing and utilizing electric energy, the storage assembly 2 is used for storing and transporting batteries, the electric power is improved for the medical equipment, and the problem of power supply of the field hospital or the temporary hospital is solved.

As shown in fig. 6, the following preferred technical solutions are provided:

the both ends of 1 length direction of base are installed respectively and are pushed away frame 1a and baffle 1b, and universal wheel 1c is installed to 1 lower extreme of base, pushes away and goes up fixed mounting of frame 1a and have cassette subassembly 1d, and clearance subassembly 4 is installed and is just located cassette subassembly 1d top on pushing away frame 1a, and ceiling 5 is installed in the upper end of baffle 1b, and cassette subassembly 1d can joint reserve solar cell panel 3 a.

Specifically, in order to conveniently move and convey the device, the device can be placed in a place with sufficient illumination, the base 1 serves as an installation base body, a person can conveniently move and convey the device through the matching of the pushing frame 1a and the universal wheels 1c, and the standby solar cell panel 3a is fixed through the clamping seat assembly 1 d.

As shown in fig. 6 to 8, the following preferred technical solutions are provided:

reserve assembly 2 includes reserve tank 2a, heat dissipation fan 2b, the solid mechanism of card 2c and battery pack case 2d, and reserve tank 2a fixed mounting is on base 1, and heat dissipation fan 2b installs on the box of reserve tank 2a, and battery pack case 2d is through the solid mechanism of card 2c card solid in reserve tank 2a, and heat dissipation fan 2b and battery pack case 2d all are connected with control unit 6, and battery pack case 2d is connected with electric power storage component 3.

Specifically, in order to solve the technical problem of battery storage, the battery pack box 2d stores electric power, the battery pack box 2d is clamped and fixed in the storage box 2a through the clamping and fixing mechanism 2c, the battery pack box 2d is convenient to detach, and the heat dissipation fan 2b is used for performing heat dissipation treatment on the battery pack box 2d to prevent overhigh stability.

As shown in fig. 7 and 8, the following preferred solutions are provided:

electric power storage component 3 includes solar cell panel 3a, grillage 3b, manual preset subassembly 3c, automatic regulating component 3d, mount 3e and light intensity sensor 3f, solar cell panel 3a installs on grillage 3b, grillage 3b installs on mount 3e through manual preset subassembly 3c, mount 3e installs on base 1 through automatic regulating component 3d, light intensity sensor 3f fixed mounting is in mount 3e both sides, solar cell panel 3a, automatic regulating component 3d and light intensity sensor 3f all are connected with battery pack case 2d and the control unit 6.

Specifically, in order to supply energy to the device by using the solar cell panel 3a and solve the technical problem of illumination angle adjustment of the solar cell panel 3a, the solar cell panel 3a is used for storing energy, the angle of the solar cell panel 3a is adjusted by using the manual preset component 3c and the automatic adjusting component 3d, the automatic adjusting component 3d is controlled by the light intensity sensor 3f and the control unit 6 to adjust the angle of the fixing frame 3e, the angle of the solar cell panel 3a is further controlled, and sufficient illumination is realized.

As shown in fig. 7, the following preferred technical solutions are provided:

clearance subassembly 4 includes inserted bar 4a, horizontal pole 4b, sponge box 4c and clearance sponge 4d, and inserted bar 4a inserts and establishes the both sides that push away frame 1a, and horizontal pole 4b passes through bayonet socket 4a1 joint on the top of inserted bar 4a, and sponge box 4c cup joints on horizontal pole 4b, and clearance sponge 4d joint is in sponge box 4c, and clearance sponge 4d can with reserve solar cell panel 3 a's top butt.

Specifically, because the solar cell panel 3a needs to be placed outdoors and the surface needs to be kept clean, the solar cell panel 3a is cleaned by the cleaning sponge 4d by personnel, the sponge box 4c only needs to be pulled out by lifting the cross rod 4b when the solar cell panel cleaning device is used, and meanwhile, the standby solar cell panel 3a can be clamped and pressed in the clamping seat assembly 1d through the cooperation of the cross rod 4b, the sponge box 4c and the cleaning sponge 4d, and the safety of the standby solar cell panel 3a in the moving and conveying processes of the device is protected by the elasticity of the cleaning sponge 4 d.

As shown in fig. 9, the following preferred technical solutions are provided:

the clamping seat assembly 1d comprises a clamping plate 1d1, a bottom plate 1d3, a sliding seat 1d5 and a first spring 1d6, the clamping plate 1d1 is fixedly installed on two sides of the push frame 1a, the bottom plate 1d3 is fixedly installed at the bottom of the clamping plate 1d1, a clamping groove 1d2 is formed in the clamping plate 1d1, a sliding groove 1d4 is formed in the bottom of the clamping plate 1d1, the sliding seat 1d5 is in sliding connection with the sliding groove 1d4, the first spring 1d6 is fixedly installed on the bottom plate 1d3 through a spring seat 1d7, the upper end of the first spring 1d6 is fixedly connected with the sliding seat 1d5, a spare solar cell panel 3a is clamped in the clamping groove 1d2, and the upper end of the sliding seat 1d5 is abutted to the lower end of the spare solar cell panel 3 a.

Specifically, in order to solve the problem of placing and fixing the standby solar panel 3a, the standby solar panel 3a is clamped and fixed through the clamping plate 1d1 and the clamping groove 1d2, and is supported and buffered by the sliding seat 1d5 and the first spring 1d6, so that the standby solar panel 3a is prevented from being damaged due to bumping and shaking during moving and conveying.

As shown in fig. 10 to 13, the following preferred technical solutions are provided:

the clamping mechanism 2c comprises a supporting seat 2c1, a clamping seat 2c2, a clamping frame 2c3, a rotating rod 2c4, a second spring 2c5 and a hook spring 2c7, wherein the supporting seat 2c1 is fixedly installed at the bottom of the storage box 2a, the clamping seat 2c2 is installed at two sides of the supporting seat 2c1, the clamping frame 2c3 is hinged to the rotating rod 2c4, the rotating rod 2c4 is installed on the clamping seat 2c2 through a rod groove 2c6, the second spring 2c5 is installed in the rod groove 2c6 and is abutted against the rotating rod 2c4, and the lower end of the clamping frame 2c3 is connected with the clamping seat 2c2 through the hook spring 2c 7.

Specifically, in order to solve the technical problem of mounting and fixing the battery pack box 2d for storing batteries, the battery pack box 2d is supported by the supporting seat 2c1, the battery pack box 2d is automatically clamped by the clamping frame 2c3, when the battery pack box 2d is placed in the storage box 2a, the battery pack box 2d pushes the clamping frame 2c3 to rotate around the rotating rod 2c4, so that the clamping end of the clamping frame 2c3 is clamped with the battery pack box 2d, meanwhile, the battery pack box 2d pushes the clamping frame 2c3 and the rotating rod 2c4 to compress the second spring 2c5 under the action of gravity, and the second spring 2c5 buffers the battery pack box to prevent the battery pack box 2d from being damaged due to bumping and vibration during moving and conveying.

As shown in fig. 3, the following preferred technical solutions are provided:

manual preset subassembly 3c includes regulation seat 3c1 and locking head 3c2, adjusts seat 3c1 fixed mounting on mount 3e, and locking head 3c2 is installed on regulation seat 3c1 through adjusting rail groove 3c3, and one end of locking head 3c2 passes regulation seat 3c1 and inserts grillage 3b and pass through activity groove 3c4 sliding connection with grillage 3b, and activity groove 3c4 sets up the both sides at grillage 3 b.

Specifically, in order to manually pre-adjust the solar cell panel 3a, change the angle of the solar cell panel 3a and facilitate the automatic adjustment of the automatic adjustment assembly 3d, the solar cell panel 3a and the plate frame 3b are mounted on the fixing frame 3e through the adjustment seat 3c1 and the locking head 3c2, and the tightness of the locking head 3c2 and the adjustment seat 3c1 is changed by rotating the locking head 3c2, so that the solar cell panel 3a is conveniently rotated.

As shown in fig. 8 and 9, the following preferred solutions are provided:

the automatic adjusting assembly 3d comprises an electric rotary table 3d1, a first electric push rod 3d2, a support rod 3d3, an adjusting bracket 3d4, a rotary electric cylinder 35, a second electric push rod 3d6, a fixed seat 3d7, a connecting seat 3d8 and a mounting seat 3d9, the electric rotary table 3d1 is mounted on the base 1, the first electric push rod 3d2 is mounted at the output end of the electric rotary table 3d1, the support rod 3d3 is fixedly mounted at the top of the output end of the first electric push rod 3d2, the rotary electric cylinder 35 is hinged at the top of the support rod 3d3 through the fixed seat 3d7, the adjusting bracket 3d4 is fixedly connected with the output end of the rotary electric cylinder 35, the adjusting bracket 3d4 is fixedly connected with the fixed seat 3e, the fixed seat 3d7 is mounted at the top of the support rod 3d3, the connecting seat 3d8 is fixedly mounted at the bottom of the rotary electric cylinder 35 and hinged with the output end of the second electric push rod 3d6, the second electric push rod 3d 828653 is fixedly mounted on the fixed seat 3d7, the electric turntable 3d1, the first electric push rod 3d2, the rotary electric cylinder 35, and the second electric push rod 3d6 are all connected to the control unit 6 and the battery pack case 2 d.

Specifically, in order to fully utilize solar light for electric power storage and automatically adjust the angle and the position of the solar cell panel 3a according to the illumination intensity, the invention changes the position and the height of the fixing frame 3e through the electric rotary table 3d1 and the first electric push rod 3d2, changes the position and the angle of the fixing frame 3e and the solar cell panel 3a through the rotary electric cylinder 35 and the second electric push rod 3d6, firstly feeds the illumination intensity back to the control unit 6 through the light intensity sensor 3f, the control unit 6 controls the electric rotary table 3d1 to rotate so as to drive the first electric push rod 3d2 to rotate, changes the height of the supporting rod 3d3 through controlling the first electric push rod 3d2, further changes the height and the angle of the rotary electric cylinder 35 and the second electric push rod 3d6, and changes the angle of the rotary electric cylinder 35 and the fixing seat 3d7 through controlling the second electric push rod 3d6, further, the horizontal angle of the holder 3e is changed, and the rotation angle of the holder 3e is changed by controlling the rotation of the rotary electric cylinder 35.

As shown in fig. 1 to 13, the following preferred technical solutions are provided:

the method comprises the following implementation methods:

the method comprises the following steps: the device is convenient for personnel to move and transport by matching the push frame 1a and the universal wheel 1c, the device is moved to an area with sufficient illumination, the spare solar cell panel 3a is fixed by the clamping seat component 1d, the spare solar cell panel 3a is clamped in the clamping groove 1d2 of the clamping plate 1d1, the sliding seat 1d5 and the first spring 1d6 are used for supporting and buffering the device, meanwhile, the standby solar cell panel 3a can be clamped and pressed on the sliding seat 1d5 by matching the cross rod 4b, the sponge box 4c and the cleaning sponge 4d, the standby solar cell panel 3a is prevented from being damaged due to bumping and vibration during moving and conveying by the elasticity of the cleaning sponge 4d, a worker cleans the solar cell panel 3a by using the cleaning sponge 4d, and the solar cell panel 3a can be cleaned by only lifting the cross rod 4b and extracting the sponge box 4c during use;

step two: the solar cell panel 3a and the plate frame 3b are arranged on the fixing frame 3e through the adjusting seat 3c1 and the locking head 3c2, and the tightness of the locking head 3c2 and the adjusting seat 3c1 is changed by rotating the locking head 3c2, so that the solar cell panel 3a can be conveniently rotated, and the angle of the solar cell panel can be preliminarily adjusted;

step three: the position and the height of the fixed frame 3e are changed through the electric rotary table 3d1 and the first electric push rod 3d2, the positions and the angles of the fixed frame 3e and the solar cell panel 3a are changed through the rotary electric cylinder 35 and the second electric push rod 3d6, firstly, the illumination intensity is fed back to the control unit 6 through the light intensity sensor 3f, the control unit 6 controls the electric rotary table 3d1 to rotate, then the first electric push rod 3d2 is driven to rotate, the height of the supporting rod 3d3 is changed through controlling the first electric push rod 3d2, then the heights and the angles of the rotary electric cylinder 35 and the second electric push rod 3d6 are changed, the angle between the rotary electric cylinder 35 and the fixed seat 3d7 is changed through controlling the second electric push rod 3d6, then the horizontal angle of the fixed frame 3e is changed, and the rotation angle of the fixed frame 3e is changed through controlling the rotation of the rotary electric cylinder 35.

The foregoing shows and describes the general principles, principal features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A battery storage device provided with a solar power storage module for a medical apparatus, comprising: the device comprises a base (1), a storage assembly (2), an electric power storage assembly (3), a cleaning assembly (4), a ceiling (5) and a control unit (6), wherein the storage assembly (2) and the electric power storage assembly (3) are installed on the base (1), the cleaning assembly (4) and the ceiling (5) are conveniently installed at two ends of the base (1) in the length direction, the ceiling (5) is installed at one end close to the storage assembly (2), the control unit (6) is installed at one end, close to the ceiling (5), of the base (1), the storage assembly (2) and the electric power storage assembly (3) are electrically connected with the control unit (6), and the storage assembly (2) is electrically connected with the electric power storage assembly (3);

the solar energy storage module (3) comprises a solar cell panel (3 a), a plate frame (3 b), a manual pre-adjusting module (3 c), an automatic adjusting module (3 d), a fixing frame (3 e) and a light intensity sensor (3 f), the solar cell panel (3 a) is installed on the plate frame (3 b), the plate frame (3 b) is installed on the fixing frame (3 e) through the manual pre-adjusting module (3 c), the fixing frame (3 e) is installed on the base (1) through the automatic adjusting module (3 d), the light intensity sensor (3 f) is fixedly installed on two sides of the fixing frame (3 e), and the solar cell panel (3 a), the automatic adjusting module (3 d) and the light intensity sensor (3 f) are all connected with the control unit (6);

the automatic adjusting assembly (3 d) comprises an electric rotary table (3 d 1), a first electric push rod (3 d 2), a support rod (3 d 3), an adjusting frame (3 d 4), a rotary electric cylinder (35), a second electric push rod (3 d 6), a fixed seat (3 d 7), a connecting seat (3 d 8) and a mounting seat (3 d 9), the electric rotary table (3 d 1) is mounted on the base (1), the first electric push rod (3 d 2) is mounted at the output end of the electric rotary table (3 d 1), the support rod (3 d 3) is fixedly mounted at the top of the output end of the first electric push rod (3 d 2), the rotary electric cylinder (35) is hinged at the top of the support rod (3 d 3) through the fixed seat (3 d 7), the adjusting frame (3 d 4) is fixedly connected with the output end of the rotary electric cylinder (35), the adjusting frame (3 d 4) is fixedly connected with the fixed frame (3 e), the fixed seat (3 d 7) is mounted at the top of the support rod (3 d 3), connecting seat (3 d 8) fixed mounting just articulates with the output of second electric putter (3 d 6) in the bottom of rotatory electric jar (35), and second electric putter (3 d 6) are fixed on fixing base (3 d 7) through mount pad (3 d 9), and electric revolving stage (3 d 1), first electric putter (3 d 2), rotatory electric jar (35) and second electric putter (3 d 6) all are connected with control unit (6).

2. The battery storage device provided with the solar energy and power storage assembly and used for the medical equipment is characterized in that a pushing frame (1 a) and a baffle (1 b) are respectively installed at two ends of the base (1) in the length direction, universal wheels (1 c) are installed at the lower end of the base (1), a clamping seat assembly (1 d) is fixedly installed on the pushing frame (1 a), a cleaning assembly (4) is installed on the pushing frame (1 a) and located above the clamping seat assembly (1 d), a ceiling (5) is installed at the upper end of the baffle (1 b), and the clamping seat assembly (1 d) can be clamped with a standby solar cell panel (3 a).

3. The battery storage device provided with the solar power storage component and used for the medical instrument according to claim 1, wherein the storage component (2) comprises a storage box (2 a), a heat dissipation fan (2 b), a clamping mechanism (2 c) and a battery pack box (2 d), the storage box (2 a) is fixedly installed on the base (1), the heat dissipation fan (2 b) is installed on a box body of the storage box (2 a), the battery pack box (2 d) is clamped in the storage box (2 a) through the clamping mechanism (2 c), the heat dissipation fan (2 b) and the battery pack box (2 d) are both connected with the control unit (6), and the battery pack box (2 d) is connected with the power storage component (3).

4. The battery storage device provided with the solar energy storage assembly and used for the medical instrument is characterized in that the cleaning assembly (4) comprises an inserting rod (4 a), a cross rod (4 b), a sponge box (4 c) and a cleaning sponge (4 d), the inserting rod (4 a) is inserted into two sides of the pushing frame (1 a), the cross rod (4 b) is clamped at the top end of the inserting rod (4 a) through a bayonet (4 a 1), the sponge box (4 c) is sleeved on the cross rod (4 b), the cleaning sponge (4 d) is clamped in the sponge box (4 c), and the cleaning sponge (4 d) can be abutted to the top of the standby solar cell panel (3 a).

5. The battery storage device provided with a solar energy storage module for the medical instrument according to claim 2, the solar cell panel pushing device is characterized in that the card seat assembly (1 d) comprises a card board (1 d 1), a bottom plate (1 d 3), a sliding seat (1 d 5) and a first spring (1 d 6), the card board (1 d 1) is fixedly installed on two sides of the pushing frame (1 a), the bottom plate (1 d 3) is fixedly installed at the bottom of the card board (1 d 1), a card slot (1 d 2) is formed in the card board (1 d 1), a sliding groove (1 d 4) is formed in the bottom of the card board (1 d 1), the sliding seat (1 d 5) is connected with the sliding groove (1 d 4) in a sliding mode, the first spring (1 d 6) is fixedly installed on the bottom plate (1 d 3) through a spring seat (1 d 7), the upper end of the first spring (1 d 6) is fixedly connected with the sliding seat (1 d 5), a) is clamped in the card slot (1 d 2), and the upper end of the battery panel (1 d 5) is abutted to the lower end of a spare solar cell.

6. The battery storage device provided with the solar energy storage component for the medical instrument according to claim 3, wherein the fastening mechanism (2 c) comprises a supporting seat (2 c 1), a fastening seat (2 c 2), a fastening frame (2 c 3), a rotating rod (2 c 4), a second spring (2 c 5) and a hook spring (2 c 7), the supporting seat (2 c 1) is fixedly installed at the bottom of the storage box (2 a), the fastening seat (2 c 2) is installed at two sides of the supporting seat (2 c 1), the fastening frame (2 c 3) is hinged on the rotating rod (2 c 4), the rotating rod (2 c 4) is installed on the fastening seat (2 c 2) through a rod groove (2 c 6), the second spring (2 c 5) is installed in the rod groove (2 c 6) and abuts against the rotating rod (2 c 4), and the lower end of the fastening frame (2 c 3) is connected with the fastening seat (2 c 2) through the hook spring (7 c 362).

7. The battery storage device provided with the solar energy storage module for the medical instrument is characterized in that the manual presetting module (3 c) comprises an adjusting seat (3 c 1) and a locking head (3 c 2), the adjusting seat (3 c 1) is fixedly installed on a fixed frame (3 e), the locking head (3 c 2) is installed on an adjusting seat (3 c 1) through an adjusting rail groove (3 c 3), one end of the locking head (3 c 2) penetrates through the adjusting seat (3 c 1) to be inserted into the plate frame (3 b) and is in sliding connection with the plate frame (3 b) through a movable groove (3 c 4), and the movable groove (3 c 4) is formed in two sides of the plate frame (3 b).

8. The battery storage device provided with the solar energy storage assembly for the medical apparatus and instruments according to claims 1-7 is characterized by comprising the following implementation methods:

the method comprises the following steps: the device is convenient for personnel to move and transport through the matching of the pushing frame (1 a) and the universal wheel (1 c), the device is moved to an area with sufficient illumination, the spare solar cell panel (3 a) is fixed by the clamping seat component (1 d), the spare solar cell panel (3 a) is clamped in the clamping groove (1 d 2) of the clamping plate (1 d 1), the spare solar cell panel (3 a) can be supported and buffered by the sliding seat (1 d 5) and the first spring (1 d 6), meanwhile, the spare solar cell panel (3 a) can be clamped and pressed on the sliding seat (1 d 5) by the matching of the cross rod (4 b), the sponge box (4 c) and the cleaning sponge (4 d), the spare solar cell panel (3 a) is prevented from being damaged due to bumping and shaking during moving and transporting, and a worker cleans the solar cell panel (3 a) by the cleaning sponge (4 d), when in use, the solar cell panel (3 a) can be cleaned only by lifting the cross rod (4 b) and drawing out the sponge box (4 c);

step two: the solar cell panel (3 a) and the plate frame (3 b) are arranged on the fixed frame (3 e) through the adjusting seat (3 c 1) and the locking head (3 c 2), and the tightness of the locking head (3 c 2) and the adjusting seat (3 c 1) is changed by rotating the locking head (3 c 2), so that the solar cell panel (3 a) is conveniently rotated, and the angle of the solar cell panel is preliminarily adjusted;

step three: the position and the height of a fixed frame (3 e) are changed through an electric rotary table (3 d 1) and a first electric push rod (3 d 2), the positions and the angles of the fixed frame (3 e) and a solar panel (3 a) are changed through a rotary electric cylinder (35) and a second electric push rod (3 d 6), firstly, the illumination intensity is fed back to a control unit (6) through a light intensity sensor (3 f), the control unit (6) controls the electric rotary table (3 d 1) to rotate so as to drive the first electric push rod (3 d 2) to rotate, the height of a supporting rod (3 d 3) is changed through controlling a first electric push rod (3 d 2), further, the heights and the angles of the rotary electric cylinder (35) and a second electric push rod (3 d 6) are changed, the angle of the rotary electric cylinder (35) and a fixed seat (3 d 7) is changed through controlling a second electric push rod (3 d 6), and further, the horizontal angle of the fixed frame (3 e) is changed, the rotation angle of the fixed frame (3 e) is changed by controlling the rotation of the rotary electric cylinder (35).