The present invention proposes a novel stair-climbing vehicle, which is mainly used for transporting goods, can carry 120-150 kg of goods, is supplemented by assisting people, can assist people to reduce the leg strength of about 30-40 kg when climbing the stairs, and can also reduce the physical strength for pulling the vehicle horizontally, thereby benefiting follow-up strong physical operations of people after going upstairs.
In the prior art, the electric stair-climbing vehicles for transporting goods all adopt a single function mode that people walk backwards to pull the vehicle, so people are easy to fall due to low speed, reverse view and backward riding. Because of heavy physical exhaustion, people cannot climb high-rise buildings, thereby affecting follow-up strong physical operations, such as high-rise fire rescue and emergency repair of equipment in case of power failure.
Technical problems to be solved by the present invention are as follows:
1. People adopt a control mode of riding forward.
2. The stair-climbing vehicle has dual functions of mainly transporting goods and assisting about 30-40 kg of lifting force for people at the same time.
3. The reliability of horizontal thrust of the vehicle is improved to reduce the physical strength of people again.
4. The circuit has innovative design, fewer but better switches, multiple functions, easy operation and simple artificial intelligence.
5. A function of fixed low speed is added to reach a set speed accurately by making a simple turn. A fixed speed is the condition of accurately controlling the vehicle.
6. When stopping at a low speed, the range of stopping angles of rotating legs can be set by proximity switches, which is convenient for starting next time.
7. In case of sudden accidents or artificial needs, the vehicle can be powered off automatically and braked immediately to minimize the accidents.
8. An anti-collision function is added to allow a small amount of operation errors without damaging the stair-climbing vehicle.
9. A red light is provided for warning misoperation before starting to go up and downstairs to ensure safety.
10. An innovative structure for assisting people to ride should be reasonable, simple, practical and attractive.
1. Mode for People to Climb the Stairs by Riding Forward:
A dual-function electric stair-climbing vehicle capable of transporting goods and assisting people comprises a vehicle body, rotating legs, a saddle, a front of the vehicle and an electric control platform, wherein when the rotating legs of a stair-climbing vehicle climb up the stair steps, a rolling wheel at a front end part becomes a temporary central fulcrum and forms a seesaw principle with the center of gravity of the whole vehicle and the center of gravity of people, thereby having a lifting force for people, which is set as 30-40 kg. The rotating legs have the lifting force for people and also have reliable horizontal thrust structures, so that the rolling wheels cannot rotate and roll automatically when climbing the stairs. The electric stair-climbing vehicle capable of transporting goods and assisting people has the lifting force and the reliable horizontal thrust for a ride man so that the man can ride forward to control the vehicle; the tilting, lifting and back-and-forth of the saddle can be adjusted; and however, all other electric stair-climbing vehicles for transporting goods adopt a single function mode that people walk backwards to pull the vehicle. A soft bicycle saddle is mounted in front of a stair-climbing vehicle; and the front of the vehicle is low and small (
2. Control Switch and Functional Features:
The dual-function electric stair-climbing vehicle capable of transporting goods and assisting people comprises the electric control platform, which has an innovatively designed steering circuit, fewer but better switches, multiple functions (such as {circle around (1)} light indication to start up and speed up, {circle around (2)} stop at a fixed low speed, {circle around (3)} temporary correction of vehicle state, {circle around (4)} emergency stop in case of an accident; {circle around (5)} control bus connection method, and {circle around (6)} supply of alternating current (AC)), informationalized battery state and simple artificial intelligent circuit.
The dual-function electric stair-climbing vehicle capable of transporting goods and assisting people comprises the vehicle body, the rotating legs, the saddle, the front of the vehicle and the electric control platform, and further comprises a control bus, anti-collision structures, a slide rail, a lithium battery box, a rear electrical box and a direct current (DC) output socket, wherein the electric control platform is arranged on the front of the vehicle; the front of the vehicle is connected with the slide rail; the saddle is also connected with the slide rail; various electric control elements are mounted on the platform; and the control bus passes through a rear hole of a square pipe of the front of the vehicle.
A power supply electric-door lock is located on the left side of a rear electrical box (
If the rotating legs do not stop within a specified angle range and it is too late to adjust positions of proximity switches, the direction can be corrected visually first; a stairs-up and stairs-down selection switch is used for cooperation; and a correction button switch is clicked to correct errors in a forward or reverse direction, so that the stopping angles of the rotating legs reach the range. The range is: rear small wheels of the rotating legs are off the ground, and front small wheels are higher than stair steps (
3. Structure of Slide Rail:
The dual-function electric stair-climbing vehicle capable of transporting goods and assisting people further comprises the slide rail, wherein the slide rail is connected with the vehicle body and also connected with the saddle, the front of the vehicle and the electric control platform; the slide rail comprises a flat square pipe, a flat steel plate and sliding chutes; wide edges of the flat steel plate are inserted in the sliding chutes; and the sliding chutes are welded below the vehicle body.
The slide rail capable of moving back and forth is formed by welding a flat steel plate (100×5×L mm) on a flat square pipe (60×40×L mm) (
4. Mounting Mode of Control Bus in Square Pipe:
The dual-function electric stair-climbing vehicle capable of transporting goods and assisting people has the innovatively designed steering circuit and the function {circle around (5)} of control bus connection method, wherein the control bus goes out from the rear hole of the square pipe of the front of the vehicle, is connected with the socket on the rear channel steel of the saddle, and then is connected with a spiral bus; a straight section is penetrated into the flat square pipe of the slide rail and is connected with another spiral bus in the pipe; an aviation plug of another spiral bus extending from the back of the square pipe is inserted in the front part of the electrical box; and the control bus is a finished product purchased or is customized from the factory.
The control bus runs out of a hole (
5. Setting Mode of Lifting Force for Assisting People:
The lifting force is set as 30-40 kg; during setting, the vehicle leans on the stairs, with the rear of the vehicle resting on a weight scale, supported by channel steel; one person controls the vehicle to make big wheels fly up, while the other one reads the weight scale; the reading is multiplied by a coefficient given by the factory to obtain the lifting force; and positions of containers in the vehicle or goods in the containers can be replaced to change the readings.
The stair-climbing vehicle can carry about 120-150 kg of goods and assist about 30-40 kg for people. When setting the lifting force in advance, the saddle is stretched and adjusted to an actual riding position of people and stays back as far as possible so that the vehicle is easy to make a turn. Then, the vehicle is filled with goods and leans against the stairs; a transverse frame of the rear of the vehicle is placed on a household scale; and a section of channel steel is placed (
6. Adjustment Mode of Saddle:
{circle around (1)} As shown in
{circle around (2)} As shown in
7. Setting of Stopping Angles of Rotating Legs:
Because a cyclist can only look at the front when facing forward to ride, and can only look at the back after stopping, at most half of the stopping angles of the rotating legs meet restarting requirements according to the probability. Artificial correction is time consuming, so it is necessary to mount an automatic device. Therefore, proximity switch structures (
8. Mode for Assisting People with Horizontal Thrust:
The stair-climbing vehicle adopts “Rotating Legs of Electric Stair-climbing Vehicle with Horizontal Thrust”, and comprises soft rubber rolling wheels (
9. Mode for People to get On and Off:
People should get on and off the vehicle on flat ground. If a person gets on the vehicle from the left of the vehicle, the front handle is pulled out to the left first; then the saddle is lowered with the right hand; the person conveniently faces the left and gets on the front handle pulled out, steadily stands on the ground by the left leg, holds the longer left front handle under the middle part with the left hand, keeps pressing the saddle with the right hand, lifts up the right leg to cross the front of the vehicle and land on the right, releases the right hand, and sits on the saddle; the left front handle is retracted halfway; and the person can walk on the flat ground by holding the front handles with both hands and lifting the front of the vehicle, and step on the stairs to prepare to ride upstairs. Similarly, the person can get on the vehicle from the right. The person can get off the vehicle in a reverse order.
10. Mode for Using Stair-Climbing Vehicle to go Upstairs:
The dual-function electric stair-climbing vehicle capable of transporting goods and assisting people has the innovatively designed steering circuit and the function {circle around (1)} of light indication to start up and speed up, wherein red, green and yellow lights indicate before starting to ride; when the speed regulation knob is in a fast substage or the switch is pressed to choose to go downstairs and reverse, if the red light is on, the vehicle is stopped at red light according to the traffic rules; if only the yellow or green light is on, the vehicle is started to go upstairs slowly; and if speed-up is required, the speed regulation knob can be turned.
The dual-function electric stair-climbing vehicle capable of transporting goods and assisting people has the innovatively designed steering circuit and the function {circle around (2)} of stop at a fixed low speed, wherein positions of proximity switches should be adjusted in advance so that the front small wheels of the rotating legs are higher than an estimated height of the stair steps during normal stopping; to stop normally when climbing the stairs, the knob switch should be turned off first to enter into a fixed slow speed, then the thumb of the right hand for pressing the switch is released, and then the power-off is completed by the proximity switches; and the brake is damped by a worm gearbox.
The dual-function electric stair-climbing vehicle capable of transporting goods and assisting people has the innovatively designed steering circuit and the function {circle around (3)} of temporary correction of vehicle state, wherein the person unlocks the electric door lock first, then gets on the stair-climbing vehicle, and immediately checks static angles of the rotating legs before starting the vehicle. If the static angles of the rotating legs are misaligned, the person should turn on the safety switch, click the correction switch by cooperating with a switch for selecting forward-backward rotation to go upstairs or downstairs so that the rotating legs rotate forward or backward to reach the set range, and then turn off the safety switch. At the moment, the person can hold the front handles to go upstairs, make the big wheel lean against a first stair step (
After checking, if the red light is off and the green light is on, the person can press a button type start-stop switch (
The slow substage of the stair-climbing vehicle is designed at a fixed low speed; and it is safer to start, stop and go downstairs at low speed. If the vehicle is stopped at the fixed low speed, the stopping angles of the rotating legs can reach the standard stably. Another reason is that to go upstairs to rescue as soon as possible, a higher fixed low speed should be set to meet both requirements. In the circuit, resistance values R1 and R2 are selected (
When going upstairs fast and reaching an antepenultimate step on the upper floor, the person must start to slow down; when reaching the penultimate step, the knob switch should be turned off (
11. Mode for Emergency Stop:
The dual-function electric stair-climbing vehicle capable of transporting goods and assisting people has the innovatively designed steering circuit and the function {circle around (4)} of emergency stop in case of an accident, wherein when climbing the stairs fast, if a person slips, the circuit can be powered off immediately to realize emergency stop without delay of the proximity switches. If the person is stumbled or slips when climbing the stairs quickly, the human body will have a conditioned reflex that both hands will instinctively disengage from the switch and the front handles immediately, reach forward and prop up against the ground to form self-protection. In this design, at the fast substage, as long as the thumb of the left hand releases the button switch (
12. Mode for Turning in Narrow Corridor:
When the width of a platform at the corner of stairs is greater than 1.1 m, people can ride up to the top floor without getting off. When the width is less than 1.1 m and greater than 0.9 m, people should get off and turn by a method as follows: the vehicle slowly stops on the steps by one step ahead; after getting off from the left, the person holds an inclined handle (
13. Anti-Collision Protection Mode:
The dual-function electric stair-climbing vehicle capable of transporting goods and assisting people comprises the anti-collision structures, wherein each anti-collision structure comprises a polyurethane anti-collision pad, a saddle solid lifting inner column, anti-collision angle steel and a flat iron inclined handle; the polyurethane anti-collision pad is arranged at the front of the vehicle; the anti-collision angle steel is welded in front of a saddle lifting outer sleeve; and the flat iron inclined handle is welded at the front lower part of a frame.
{circle around (1)} Anti-collision of control platform and square pipe at the front of the vehicle: when going up to the corridor for turning, the vehicle will often slightly hit the wall during normal operation. When people shut down by mistake, the proximity switches will not shut down until the next step, the vehicle will hit the wall heavily. {circle around (2)} If the person is stumbled or slips when climbing the stairs quickly, a saddle-lifting outer sleeve may hit the stair steps heavily. As long as it is hit once, the outer sleeve can only be scrapped and replaced, and cannot be repaired, wherein the replacement workload is very heavy. {circle around (3)} The battery box of the vehicle can only be hung on the left and right, with low sag, but it cannot hit the steps when climbing the stairs normally; and the battery box cannot hit the steps when the person is stumbled.
Therefore, a number of anti-collision protection measures are taken as follows:
A. Anti-collision of the front of the vehicle: a. a polyurethane anti-collision cushion (
B. Anti-collision of telescopic outer sleeve: a. angle steel added in front of the outer sleeve (
C. The outer sleeve is designed to have a certain length to prevent the outer sleeve from hitting the steps when climbing the stairs; and a fixed height should be kept under the vehicle when people fall, so as to avoid damaging the lithium battery box.
14. Battery Box Structure and Lithium Battery (
Because the saddle slide rail of the stair-climbing vehicle is placed in the middle, the battery can only be divided into two same parts on the left and right. During implementation, two market finished lithium batteries 48V×15ah are purchased and used in parallel (
15. Mounting Mode of Lithium Battery Boxes:
The dual-function electric stair-climbing vehicle capable of transporting goods and assisting people further comprises the lithium battery box, wherein finished lithium batteries are purchased and put in battery boxes with appropriate spaces reversed at the rear parts of the boxes; two double-core wires led out from the electrical box are connected with two lithium battery plugs in the battery boxes by sockets; and the battery boxes are connected to the left, right, front and lower parts of the vehicle body by screws.
16. Structure and Mounting Mode of Electrical Box:
The dual-function electric stair-climbing vehicle capable of transporting goods and assisting people further comprises the electrical box, which is a semi-built-in iron box body and is fixed at the rear of the vehicle by four screws, wherein the another spiral bus is connected to the front of the electrical box by the aviation plug socket; four holes are formed beside the socket, are sleeved with rubber protective rings; two double-core battery wires are led out from two holes; single-strand bus is penetrated into one hole; a single-strand double-core wire of the proximity switch is penetrated into one hole; and the inner diameter of the protective ring is greater than that of the wire.
The dual-function electric stair-climbing vehicle capable of transporting goods and assisting people has the innovatively designed steering circuit and the function {circle around (6)} of supply of AC, wherein a DC output socket is arranged on the right of the electrical box, which is connected with an AC inverter when loading so as to output 220v or 110v AC for subsequent operations.
The electrical box is a special semi-built-in electrical box. The four sides of the chassis are 50 mm high and 35 mm exposed. Two straight sides are turned up with four right-angle flanges (width 15×height 20 mm), with holes φ4.5 mm in the middle (
17. Wiring Diagram of Circuit:
The design of the circuit requires fewer but better switches, multiple functions and simple artificial intelligence. Compared with the original electrical components of similar stair-climbing vehicles, only two small relays (19, 21), one miniature button switch (12), one proximity switch (10) and one negative booster (7) are added. The original start switch is replaced with two button switches (11, 13) with red lights; and the original potentiometer is replaced with a type (14R1+14K) with switch. The original potentiometer is changed into a combination of two components: one resistor and one novel potentiometer with switch. The speed regulation is divided into two substages in a new way: a fixed resistor (15R2) in charge of the slow substage; a novel potentiometer with switch (14R1+14K) in charge of fast substage of stepless speed change; R1+R2=R original; and the total resistance value is unchanged. The switch 14k is in charge of the fast stairs-up and stairs-down warning red lights (red lights carried by 11 and 13), wherein the light conforms to the traffic rules: the vehicle should stop when the red light is on, and the vehicle can be slowly started when green and yellow lights are on. The knob is turned clockwise to enter into the required fast substage (14R1). (If the fast substage cannot meet the demand, the factory may be required to change the model). The vehicle should be reduced to the slow substage (15R2) before going upstairs to stop. The power-off time of the slow substage should be in a lifting stage of the last step of stairs on the floor; and the thumb is released from the start-stop button switch (11) to power off. The following procedure is operated by the proximity switches (10), and is continued to the selected position to power off, shut down and damp the brake. If the vehicle is loaded heavily or lightly, the rotating legs are stopped incorrectly, and it is too late to adjust temporarily, the correction switch can be used for temporary correction (12). It is stated in the first three lines of paragraph 9. In case of emergency, the circuit can be stopped immediately without going through the procedure of the proximity switches (10), thereby minimizing the accidents. If the red light is on when going downstairs, the slow substage (13, 15R2) should be selected before operation. As every second counts for fire rescue, a relatively fast slow substage (15R2) should be set, which is determined by the buyer in the practice and modified by the factory.
18. When going downstairs, people do not ride the vehicle, stand in front of the saddle, hold the front handles with both hands, pay attention to the red lights, and turn to the slow substage to go downstairs.
19. In subsequent use or practice, on the premise of ensuring the ability of people to control the vehicle, the lifting force for assisting people can be increased as much as possible.
20. The vehicle can also walk on the flat ground, e.g., the vehicle goes out of a transport vehicle and onto the ground, and then walks to the stairs on the first floor. The vehicle can be pushed and pulled by virtue of two big wheels.
21. The dimension (length×width×height) of the frame is about 1200×550×380 mm.
1. Bicycle saddle; 2. Reformed channel steel (80×30×L mm); 2.1. Square pipe (80×60×L×2-3 mm wall thickness); 2.10. Switch platform (See
3.1. Saddle-lifting outer sleeve [φ30 (outer)×φ25 (inner)×L mm]; 3.2. Thumb screw with handle (M8×12-20 mm; Hereinafter referred to as big head screw); 3.3. Anti-collision angle steel (25×25×L mm); 3.4. Round iron cushion block (φ25±1×6-8 mm); 3.5. Bottom reinforcing rib (3 mm thick); 3.6. Vertical reinforcing rib (3 mm thick); 3.7. Reinforcing rib backing plate (3 mm thick); 4.1. Flat steel plate of slide rail (100×5×L mm); 4.2. Flat square pipe of slide rail (60×40×L×3-3.5 mm wall thickness); 4.3. Sealing iron plate (58×38×2 mm); 4.4. Positioning hole (φ 8 mm×10); 4.41. (Left) and 4.42. (Right) front support plates of the slide rail (See 11: 5.11; 5.21); 4.5. Front telescopic limit screw (hexagon socket M6×10 mm); 4.51. (Left) and 4.52. (Right) rear support plate assemblies of the slide rail (see
10.1. Channel steel (60×40×250 mm); and 00. Rope hooks (12 in total).
1.1., 1.2., 1.3. and 1.4. Containers; 2.1 and 2.2 Rope tighteners; 3. Control bus; 4. Aviation plug and socket; 5. Charging socket (Video RCA, type 3A); 6. DC output socket (25A); 7. Electrical box chassis; 8.1. and 8.2. Steel backing plate of the rear of the vehicle.
1.1. and 1.2. Containers; 2.1., 2.2. and 2.3. Rope tighteners.
1. Movable saddle; 2. Seat plate; 3.1. and 3.2. Positioning ropes; 4. Container; 4.1. and 4.2. Rope tighteners.
1. Switch platform; 1.1. Self-tapping screws (M3×6 mm; 8); 2. Front handle [capable of sliding left and right; Hard solid aluminum rod (φ 20×350 mm)]; 2.1 (Left) and 2.2 (Right) polyurethane stoppers (φ30×mm, 2); 2.21. Flat machine screws (M4×20 mm; 4); 3. Flat square pipe (80×60×L×2-3 mm wall thickness); 4. Reformed channel steel (80×30×L mm); 5. Safety switch (two groups of toggle switches with four pins; 5A); 6. 48V lithium battery power and voltage display (yellow); 7. Button type start-stop switch (for going upstairs) (No self-locking function; With red light; 12V; φ 12 mm); 8. Safety switch light (Green; 12V; φ 6 mm); 9. Light for warning to reverse downstairs (Red; 12V; (φ 6 mm); 10. Fast stepless speed regulation knob (With switch for controlling red lights of button switches 7 and 12); 10.1. Green convex strip; 11. Miniature button type correction switch (No self-locking function; φ 6 mm); 12. Button type start-stop switch (for going downstairs) (With red light; 12V; With self-locking function; φ 12 mm); 13. Stairs-up and stairs-down selection switches (Two groups of rocker switches with 4-6 pins; 5A); 14. Polyurethane anti-collision cushion (φ 25×75 mm); 14.1. Pan head screws (M5×12-16 mm; 3); 15. Anti-collision cushion base iron plate (78×25×6 mm; Tapping screws M5×3); 16. Outlet behind the square pipe of the control bus (φ 12-15 mm) (φ 12-15 mm); 17.1. (Left) and 17.2. (Right) triangular reinforcing ribs (3 mm thick).
1. Turbine box; 2.1. (Left) and 2.2. (Right) rotating leg frames; 3.1., 3.11., 3.2. and 3.21. Rolling wheels; 4. Motor connecting seat; 5. Proximity switch (DC; 12V; Normally closed type); 6. Mounting bracket (reformed from angle iron 25×25×L mm); 5′ and 6′ Standby mounting positions.
1. Spindle; 1.1. Spindle center hole; 1.2. Keyway; 2.1. and 2.2. Left and right side plates; 3.1. and 3.2. Reinforcing plates; 4.1. and 4.2. Rubber wheels; 4.11. and 4.21. Nylon or metal hubs; 5.1. and 5.2. Bolts; 5.11. and 5.21. Self-locking nuts; 6.1. and 6.2. Stop screws; 6.11. and 6.21. Self-locking Nuts.
1. Flat steel plate (100×5×L mm); 1.1. Ten positioning holes (φ 8 mm); 1.2 Front limit screws (inner hexagon M6×10 mm); 1.21. M6 nuts; 1.3. Rear limit screw hole (φ 6.1 mm).
2. Flat square pipe (60×40×L×3-3.5 mm wall thickness); 2.1. Sealing steel plate (58×38×2 mm); 3. Saddle-lifting outer sleeve (φ30 (outer)×φ25 (inner)×L mm); 3.1. M8 nut; 3.2. Big head screw (M8×12-16 mm); 3.3. Anti-collision angle steel (25×25×L mm); 3.4. Round iron cushion block (φ 25±1×6-8 mm); 3.5. Bottom reinforcing rib (3 mm thick); 3.6. Vertical reinforcing rib (3 mm thick); 3.7. Reinforcing rib backing plate (3 mm thick); 4. Fastening clip (which is loosely assembled so that the wire can slide); 4.1. Flat machine screws (M3×10-15 mm containing nuts, 2 sets); 5. Aviation plugs behind the saddle (15; Opening 20 mm); 5.10. Wire hole (φ 10-15 mm); 5.1. Control bus (12-15 wires); 511. Plastic sleeve; 5.12. Chemical fiber rope (φ 2-3 mm); 5.13. Wire clamp (see
1. Flat steel plate of the slide rail (100×5×L mm); 1.1. Positioning holes (φ 8 mm×10); 2. Flat square pipe (60×40×L×3-3.5 mm wall thickness); 3. First transverse frame of the frame (40×20×L×wall thickness 2 mm); 3.1. and 3.2. Left and right side frames of the frame (40×20×L×2 mm wall thickness); 4. Positioning and anti-collision structure of the slide rail (reformed from angle steel 30×30×L mm); 4.1. and 4.2. Wing nuts (M6; 2); 4.11. and 4.21. Big head screws (M6×16-18 mm; 2); 5.1. and 5.2. Impact force-dispersing flat iron inclined handle (6 mm thick); 5.11. and 5.21. Right and left front support plates of the slide rail (3-6 mm thick); 5.12. and 5.22. Right and left rear support plates of the slide rail (6 mm thick); 5.121. and 5.221. Right and left rear backing plates of the slide rail (6 mm thick); 6.1. and 6.2. Right and left lithium battery boxes; 6.11., 6.12., 6.21. and 6.22. Angle iron (on the boxes) mounted and connected on the right and left lithium battery boxes (20+5×20+5×L mm); 6.13. and 6.23. Screws (M5×12 mm; 8); 7. Third transverse frame of the frame (40×20×L×2 mm wall thickness); 7.1. and 8.1. Angle iron (on the vehicle) mounted and connected on the right and left lithium battery boxes (20+5×20+5×L mm); 8. Fourth transverse frame of the frame (40×20×L×2 mm wall thickness); 00. Rope hook; and 01. Reinforcing hook (See
A: Positioning and anti-collision structure of the slide rail: 1. Angle steel (30×30×L mm); 2. Reinforcing rib (3 mm thick); 3.1. and 3.2. Round positioning holes (φ 6.5 mm).
B: 1. Solid lifting column: the large diameter is about 25 mm, which is slidably matched with the outer sleeve; and the small diameter is matched with the saddle. 2. Positioning cavities (φ 9 mm; 5); 45# steel; and heat treatment quenching and tempering for HRC at 40°±5°.
C: Strengthening hook (reformed from round steel φ 4 mm).
D: Rope hook (reformed from round steel φ 6-7 mm).
E. Wire clamp: 1. Stainless steel strip (10×1.0×L mm; the diameter of the ring is matched with the control bus); 2. Round hole (φ 3.5 mm); 3. Control bus; 4. Chemical fiber rope (φ 2-3 mm); and 5. Double nut-locked screw (M3×12 mm).
A: Lithium battery box: 1. Metal trunk body (270+30×75+15×140+20×1.0+0.2 mm); 1.1. and 1.2. Angle iron (on the boxes) mounted and connected on the lithium battery boxes (20+5×20+5×L mm; welded at the specified positions on the two sides of the box body); 1.11. and 1.21. Round holes (φ 8 mm; 4 holes); 1.31. and 1.32. Wire inlets.
B{circle around (1)}: Horizontal schematic diagram of the battery box: 1. Battery metal trunk; 1.31. Wire inlet; 1.4. Limiting angle iron (20+5×20+5×1 mm); 1.5. Screw and nut (M4×10 mm; 2 sets); 2. Finished lithium battery (48V; 15Ah) purchased at the market; 2.1. Safety plug; 2.2. T-shaped docking port; 2.31. and 2.32. Positive and negative wires; 3. Electrical box; 3.1. Electrical box lead-out wires; 3.2. Socket; 2′-Schematic diagram of the position of the finished lithium battery mounted in the battery box “1”; and (1-2′)-Schematic diagram of the space reserved in a wire region of the battery box.
B{circle around (2)}: Longitudinal schematic diagram of the battery box: 1. Battery metal trunk; 2. Finished lithium battery; 2.1. Safety plug; 2.2. T-shaped docking port; 3. Electrical box; 3.1. Positive and negative battery wires (single-strand double-core wires); 3.2. Socket; and 3.3. Plastic sleeve.
1. Right frame of the frame (40×20×L×2 mm); 2. Third transverse frame of the frame (40×20×L×2 mm); 2.1 and 2.2 Right and left rear backing plates (6 mm thick); 2.3. and 2.4. Right and left rear support plates (6 mm thick); 01. reinforcing hooks (4 in total; See
1. Chassis of semi-built-in electrical box (300-20×150±10×1.0+0.2 mm; Flange 50 mm); 1.1. Square opening of the flange (width 15×depth 20 mm; 4); 1.2. Half-round head screws (M4×10; 4); 1.3. Nuts (M4; 4; Pre-welded at positions corresponding to the transverse frames “3” and “4”); 1.4. Buckles (2 sets); 2.1. and 2.2. Left and right straight frames of the frame (40×20×L×2 mm); 3. and 4. Fifth and sixth transverse frames of the frame (40×20×L×2 mm); 5. Aviation plug and socket at the front end of electrical box (15; Openings 20 mm); 5.1. Motor wire inlet (with rubber retainer); 5.2. and 5.3. Outlets of lead-out wires of left and right lithium battery electrical boxes (with rubber retainers); 5.4. Inlets of single-strand double-core wires of proximity switches (with rubber retainers); 6. Charger socket (Video RCA; type 3A); 7. 48V power supply electric door lock (Type 25A); and 8. DC output socket (Type 25A).
1. Charger (Input 220V AC or 110V AC; Output 48V DC); 2. Lithium battery (Commercial ternary lithium battery; 48V15ah); 2.1. and 2.2. Left and right groups of identical lithium batteries (connected in parallel); 2.3. Charging socket (Video RCA; type 3A); 2.4. 48V DC output socket (25A); 3. 48V power supply electric door lock (25A); 4. 48V DC brushless motor controlling; 5. 48V 500-800W DC brushless speed regulation motor; 6. 48V lithium battery power and voltage display (yellow); 7. Negative booster for converting DC 17-55V to 12V; 8. Safety switch (Toggle switch; two groups with 4 pins; 5A); and 9. Stairs-up and stairs-down selection switches (Rocker switches; Two groups with 4-6 pins; 5A).
10. Proximity switch (Normally-closed DC 12V); 11. Button type start-stop switch (for going upstairs) (With red light; 12V; No self-locking function; φ 12 mm); 12. Miniature button type correction switch (No light; No self-locking function; φ 6 mm); 13. Button type start-stop switch (With red light; 12V; With self-locking function; φ 12 mm); 14R1. Fast speed regulation potentiometer with switch (Stepless speed regulation in fast substage); 14k. Switch carried by potentiometer (Fast speed regulation substage; Automatically light on the red lights carried by two button switches “11” and “13”); 15R2. Resistor corresponding to manually set fixed low speed (Start; Stop; Reverse); 16. Safety switch LED light (Green; 12V; φ 6 mm); 18. and 20. Diodes (100V; 200 ma); 19. and 21. Intermediate relays (12V; Two groups).
Number | Date | Country | Kind |
---|---|---|---|
201811096826.7 | Sep 2018 | CN | national |
PCT/CN2019/073163 | Jan 2019 | CN | national |
201921337484.3 | Aug 2019 | CN | national |
This application is a continuation of International Application No. PCT/CN2019/105524, filed on Sep. 12, 2019, which claims the benefit of priority from Chinese Patent Application No. 201811096826.7, filed on Sep. 19, 2018, and Chinese Patent Application No. 201921337484.3, filed on Aug. 16, 2019. The content of the aforementioned applications, including any intervening amendments thereto, is incorporated herein by reference.
Number | Date | Country | |
---|---|---|---|
Parent | PCT/CN2019/105524 | Sep 2019 | US |
Child | 16987342 | US |