CN113586380A - Mute type multilayer heat insulation energy recovery system and method based on green energy-saving induction sliding door - Google Patents

Abstract

The invention discloses a silent multilayer heat insulation energy recovery system and method based on a green energy-saving induction sliding door, and the silent multilayer heat insulation energy recovery system comprises a U-shaped frame, a clip-shaped frame fixed between two sides of the inner wall of the U-shaped frame, and an induction driving conveyor belt arranged above the clip-shaped frame, wherein the top of the clip-shaped frame is fixed with an installation box through a reinforcing rod, the top of the inner wall of the installation box is fixed with a support, the induction driving conveyor belt is fixedly arranged on the support, and a first connecting block is fixed in front of the surface of the induction driving conveyor belt. According to the mute type multilayer heat insulation energy recovery system and method based on the green energy-saving induction sliding door, through the arrangement of the kinetic energy conversion recovery mechanism, a part of kinetic energy generated when the sliding door moves is converted into electric energy, the energy waste is reduced, the energy recovery is realized, the environment-friendly and energy-saving idea is met, through the arrangement of the buffer mechanism, the sliding door is convenient to buffer and protect, and the possibility of damage to the sliding door is reduced.

Description

Mute type multilayer heat insulation energy recovery system and method based on green energy-saving induction sliding door

Technical Field

The invention relates to the technical field of induction doors, in particular to a mute type multilayer heat insulation energy recovery system and method based on a green energy-saving induction sliding door.

Background

The induction door refers to a translation type induction door and a horizontal opening type induction door. "sensing" refers to a mode of opening the door in an automatic door. The induction door is the structure of the induction door in recent years. The glass door is widely applied to places such as shops, hotels, enterprises and public institutions and the like. Its most direct feature is that it automatically opens the door when someone or an object approaches it. When an object approaches, the door does not open. Induction doors can be broadly divided into translational, rotary, and push-pull types. Wherein, translation and rotation are most suitable for arranging the inductor.

When the existing induction door is used, in the frequent moving process, the energy consumption loss is large, the kinetic energy generated when the induction door moves cannot be recycled, so that the energy is wasted, and the noise generated when the induction door moves is large due to large friction, so that the invention provides a mute type multilayer heat insulation energy recovery system and method based on the green energy-saving induction moving door, and aims to solve the problems.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a silent multilayer heat insulation energy recovery system and a silent multilayer heat insulation energy recovery method based on an environment-friendly energy-saving induction sliding door, and solves the problems that the energy consumption loss is large in the frequent moving process of the existing induction door, the kinetic energy generated by the movement of the induction door cannot be recycled, the energy is wasted, and the noise generated by the induction door is large due to large friction during the movement.

In order to achieve the purpose, the invention is realized by the following technical scheme: a silent type multilayer heat insulation energy recovery system based on a green energy-saving induction sliding door comprises a U-shaped frame, a clip frame fixed between two sides of the inner wall of the U-shaped frame and an induction driving conveying belt arranged above the clip frame, wherein the top of the clip frame is fixed with an installation box through a reinforcing rod, the top of the inner wall of the installation box is fixed with a support, the induction driving conveying belt is fixedly arranged on the support, a first connecting block is fixed in front of the surface of the induction driving conveying belt, a second connecting block is fixed behind the surface of the induction driving conveying belt, connecting rods are fixed at the bottoms of the first connecting block and the second connecting block, the bottom ends of the connecting rods sequentially penetrate through the installation box and the clip frame and extend to the interior of the clip frame, two sides of the bottom of the inner wall of the clip frame are respectively provided with a movable door, and the bottom ends of the two connecting rods are respectively fixedly connected with the tops of the two movable doors, the both sides of returning shape frame inner wall bottom all are fixed with hollow case, two the inside of hollow case all is provided with kinetic energy conversion recovery mechanism, two the top of hollow case all is provided with lubricated mechanism, two all be provided with drag reduction silence mechanism on the floating gate, the both sides of returning the shape frame inner wall all are fixed with the baffle.

The kinetic energy conversion recovery mechanism comprises an inserting rod fixed on the side face of the movable door, one end of the inserting rod penetrates through the hollow box and extends to the inside of the hollow box, the other end of the inserting rod is fixed to the side face of the movable door, a generator is fixed between the two sides of the inner wall of the hollow box through a rack rod, an input shaft of the generator is fixed with a rotating shaft, a reverse rotation prevention ratchet wheel is fixed to the surface of the rotating shaft, a triangular block is fixed to the lower portion of the surface of the inserting rod, a limiting block matched with the reverse rotation prevention ratchet wheel is connected to the surface of the triangular block in a rotating mode, an elastic telescopic rod is connected to the surface of the limiting block in a rotating mode, one end of the elastic telescopic rod is connected with the surface of the inserting rod in a rotating mode, and a buffering mechanism is arranged on the surface of the inserting rod.

Buffer gear is including fixing the fixed disk on the inserted bar surface, the inner wall of hollow case is fixed with the loop bar, the cover is equipped with buffer spring between the surface of inserted bar and the surface of loop bar, buffer spring's one end and the side contact of fixed disk, buffer spring's the other end and the inner wall contact of hollow case, the surface of inserted bar still is fixed with the spacing dish, the side of spacing dish is fixed with the blotter.

Preferably, the oiling and lubricating mechanism comprises an L-shaped plate fixed to the top of the inner wall of the hollow box and an oil storage cylinder arranged at the top of the hollow box, and the oil storage cylinder is fixed to the top of the hollow box through a support column.

Preferably, the inner wall of the oil storage cylinder is connected with a sealing piston in a sliding manner, a pressure rod is fixed at the top of the sealing piston, and the top end of the pressure rod penetrates through the oil storage cylinder and extends to the outside of the oil storage cylinder.

Preferably, the top of L template inner wall is fixed with the oil drain cylinder, the bottom of oil drain cylinder with the top fixed connection of depression bar, the oil feed passageway has been seted up at the top of hollow case, the bottom intercommunication of oil storage section of thick bamboo has the pipe, the one end of pipe and the top intercommunication of oil feed passageway.

Preferably, an oil pumping pipe is fixed on the surface of the guide pipe, a first valve is fixed on the surface of the guide pipe, and a second valve is fixed on the surface of the oil pumping pipe.

Preferably, the resistance-reducing mute mechanism comprises a groove formed in the bottom of the movable door, a movable roller is rotatably connected between two sides of the inner wall of the groove through a rotating rod, a roller groove matched with the movable roller is formed in the bottom of the inner wall of the square frame, and a rubber mute coil is fixed on the surface of the movable roller.

Preferably, the first spout of seting up with connecting rod looks adaptation is all run through to the both sides of install bin bottom, the second spout with connecting rod looks adaptation is all seted up to the both sides at shape frame top, two the side of floating gate all is fixed with joint strip, two the front of floating gate all is fixed with thermal-insulated membrane, two the back of floating gate all is fixed with inhales the sound cotton, two the side of hollow case all is fixed with rubber gasket.

Preferably, a glass window is embedded in the surface of the oil storage cylinder, and liquid level scale marks are carved on the surface of the glass window.

The invention also discloses a mute type multilayer heat insulation energy recovery system based on the green energy-saving induction sliding door, and the using method specifically comprises the following steps:

s1, after the movable doors are sensed, the conveyor belt is driven to drive the two connecting rods to move away from each other through sensing, so that the two movable doors are further away from each other and opened, the limiting blocks are driven to move through the inserting rods, the anti-reverse ratchet is pushed to rotate through the limiting blocks, under the action of inertia, the anti-reverse ratchet can only rotate for multiple turns in the same direction, the generator is driven to rotate through the rotating shaft, and electric energy is generated through the operation of the generator;

s2, the buffer spring is driven to compress in the motion process of the inserted link, so that the movable door can be buffered and effectively protected, and meanwhile, the impact force between the two movable doors can be effectively reduced through the buffer pad and the sealing rubber strip after the movable door is reset;

s3, the friction between the inserted bar and the hollow box in the reciprocating motion process is large, in order to reduce the noise generated by friction, the second valve can be closed and the first valve can be opened, then the oil drain cylinder is started, the sealing piston is pressed down through the pressing rod, then the lubricating oil in the oil storage cylinder can be extruded to the oil inlet channel through the guide pipe and flows into the surface of the inserted bar through the oil inlet channel, the friction between the inserted bar and the hollow box can be reduced, the friction noise is reduced, and the movable door is matched with the rubber static voice coil through the movable roller in the motion process, so that the noise is effectively reduced.

Preferably, the sealant strip in step S2 is made of nitrile rubber.

Advantageous effects

The invention provides a mute type multilayer heat insulation energy recovery system and method based on a green energy-saving induction sliding door. Compared with the prior art, the method has the following beneficial effects:

(1) the silent type multilayer heat insulation energy recovery system and method based on the green energy-saving induction sliding door comprise an inserted link fixed on the side surface of the sliding door through a kinetic energy conversion recovery mechanism, one end of the inserted link penetrates through a hollow box and extends into the hollow box, the other end of the inserted link is fixed with the side surface of the sliding door, a generator is fixed between two sides of the inner wall of the hollow box through a frame rod, an input shaft of the generator is fixed with a rotating shaft, a reverse-rotation-prevention ratchet wheel is fixed on the surface of the rotating shaft, a triangular block is fixed below the surface of the inserted link, a limiting block matched with the reverse-rotation-prevention ratchet wheel is connected on the surface of the triangular block in a rotating manner, an elastic telescopic rod is connected on the surface of the elastic telescopic rod in a rotating manner, a buffer mechanism is arranged on the surface of the inserted link, and a part of kinetic energy generated when the sliding door moves can be converted into electric energy through the arrangement of the kinetic energy conversion recovery mechanism, the waste of energy is reduced, the energy recycling is realized, the environment-friendly and energy-saving concept is met, the buffer mechanism is arranged, the movable door is convenient to buffer and protect, and the possibility of damage to the movable door is reduced.

(2) The silent multilayer heat insulation energy recovery system and method based on the green energy-saving induction sliding door, the oil feeding lubricating mechanism comprises an L-shaped plate fixed at the top of the inner wall of the hollow box and an oil storage cylinder arranged at the top of the hollow box, the oil storage cylinder is fixed at the top of the hollow box through a support column, the inner wall of the oil storage cylinder is connected with a sealing piston in a sliding manner, the top of the sealing piston is fixed with a pressure rod, the top end of the pressure rod penetrates through the oil storage cylinder and extends to the outside of the oil storage cylinder, an oil discharging cylinder is fixed at the top of the inner wall of the L-shaped plate, the bottom end of the oil discharging cylinder is fixedly connected with the top end of the pressure rod, an oil feeding channel is formed in the top of the hollow box, the bottom of the oil storage cylinder is communicated with a guide pipe, one end of the guide pipe is communicated with the top end of the oil feeding channel, through the setting of the lubricated mechanism that oils, effectively reduce the friction between inserted bar and the hollow case, the noise that produces when reducing the friction, it is more convenient to use.

(3) The noise-reduction silencing mechanism comprises a groove formed in the bottom of the movable door, a movable roller is rotatably connected between two sides of the inner wall of the groove through a rotating rod, a roller groove matched with the movable roller is formed in the bottom of the inner wall of the square frame, a rubber silencing voice coil is fixed on the surface of the movable roller, the friction during movement of the movable door is effectively reduced, and the noise in the moving process of the movable door can be effectively reduced.

Drawings

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

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

FIG. 3 is a front cross-sectional view of the hollow box structure of the present invention;

FIG. 4 is a schematic diagram of the structure of the oiling and lubricating mechanism of the present invention;

FIG. 5 is a perspective cross-sectional view of the reservoir cartridge structure of the present invention;

FIG. 6 is a front cross-sectional view of the mounting box structure of the present invention;

FIG. 7 is a perspective view of the mounting box structure of the present invention;

FIG. 8 is a bottom view of the moving door structure of the present invention;

FIG. 9 is an enlarged view of a portion of the invention at A in FIG. 3;

fig. 10 is a schematic view of a partial structure of the drag reduction silencing mechanism of the present invention.

In the figure: 1-U-shaped frame, 2-square frame, 3-induction driving conveyor belt, 4-reinforcing rod, 5-mounting box, 6-support, 7-first connecting block, 8-second connecting block, 9-kinetic energy conversion recovery mechanism, 91-inserted link, 91-1-buffer mechanism, 91-11-fixed disk, 91-12-loop bar, 91-13-buffer spring, 91-14-limiting disk, 91-15-buffer pad, 92-frame bar, 93-generator, 94-rotating shaft, 95-anti-reverse ratchet wheel, 96-limiting block, 97-triangular block, 98-elastic telescopic rod, 10-connecting rod, 11-moving door, 12-hollow box, 13-oiling lubricating mechanism, 131-L-shaped plate, 132-oil storage cylinder, 133-sealing piston, 134-pressure rod, 135-oil discharge cylinder, 136-oil inlet channel, 137-guide pipe, 138-oil pumping pipe, 139-first valve, 1310-second valve, 1311-support, 14-resistance-reducing mute mechanism, 141-groove, 142-rotating rod, 143-moving roller, 144-roller groove, 145-rubber mute coil, 15-first chute, 16-second chute, 17-sealing rubber strip, 18-heat insulation film, 19-sound-absorbing cotton, 20-rubber gasket, 21-glass window, 22-liquid level scale mark and 23-baffle.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, the present invention provides a technical solution: a silent type multilayer heat insulation energy recovery system based on a green energy-saving induction sliding door comprises a U-shaped frame 1, a clip frame 2 fixed between two sides of the inner wall of the U-shaped frame 1 and an induction driving conveyor belt 3 arranged above the clip frame 2, wherein the induction driving conveyor belt 3 is electrically connected with an external power supply and is controlled by a control switch, the top of the clip frame 2 is fixedly provided with an installation box 5 through a reinforcing rod 4, the top of the inner wall of the installation box 5 is fixedly provided with a support 6, the induction driving conveyor belt 3 is fixedly arranged on the support 6, a first connecting block 7 is fixed in front of the surface of the induction driving conveyor belt 3, a second connecting block 8 is fixed behind the surface of the induction driving conveyor belt 3, connecting rods 10 are fixed at the bottoms of the first connecting block 7 and the second connecting block 8, the bottom ends of the connecting rods 10 sequentially penetrate through the installation box 5 and the clip frame 2 and extend into the clip frame 2, two sides of the bottom of the inner wall of the clip frame 2 are provided with movable doors 11, the bottom of two connecting rods 10 respectively with the top fixed connection of two floating gates 11, the both sides of returning the 2 inner wall bottoms of shape frame all are fixed with hollow case 12, the inside of two hollow cases 12 all is provided with kinetic energy conversion recovery mechanism 9, the top of two hollow cases 12 all is provided with lubricated mechanism 13 that oils, all is provided with drag reduction silence mechanism 14 on two floating gates 11, the both sides of returning the shape frame 2 inner wall all are fixed with baffle 23.

The kinetic energy conversion and recovery mechanism 9 comprises an inserting rod 91 fixed on the side surface of the movable door 11, one end of the inserting rod 91 penetrates through the hollow box 12 and extends into the hollow box 12, the other end of the inserting rod 91 is fixed with the side surface of the movable door 11, a generator 93 is fixed between two sides of the inner wall of the hollow box 12 through a frame rod 92, an input shaft of the generator 93 is fixed with a rotating shaft 94, a reverse-rotation-preventing ratchet 95 is fixed on the surface of the rotating shaft 94, a triangular block 97 is fixed below the surface of the inserting rod 91, a limiting block 96 matched with the reverse-rotation-preventing ratchet 95 is rotatably connected to the surface of the triangular block 97, the reverse-rotation-preventing ratchet 95 is effectively prevented from rotating, the reverse-rotation-preventing ratchet 95 can only rotate along one direction, the generator 93 can stably operate conveniently, an elastic telescopic rod 98 is rotatably connected to the surface of the limiting block 96, the limiting block 96 is rotatably connected to one end of the elastic telescopic rod 98 is rotatably connected to the surface of the inserting rod 91, the surface of the insert rod 91 is provided with a buffer mechanism 91-1.

The buffer mechanism 91-1 comprises a fixed disc 91-11 fixed on the surface of the inserted bar 91, a loop bar 91-12 is fixed on the inner wall of the hollow box 12, a buffer spring 91-13 is sleeved between the surface of the inserted bar 91 and the surface of the loop bar 91-12 and has a buffer and shock absorption function, one end of the buffer spring 91-13 is contacted with the side surface of the fixed disc 91-11, the other end of the buffer spring 91-13 is contacted with the inner wall of the hollow box 12, a limiting disc 91-14 is also fixed on the surface of the inserted bar 91, and a buffer pad 91-15 is fixed on the side surface of the limiting disc 91-14.

In the embodiment of the present invention, the upper oil lubricating mechanism 13 comprises an L-shaped plate 131 fixed on the top of the inner wall of the hollow box 12 and an oil storage cylinder 132 arranged on the top of the hollow box 12, wherein the oil storage cylinder 132 is fixed on the top of the hollow box 12 through a support 1311.

In the embodiment of the present invention, a sealing piston 133 is slidably connected to an inner wall of the oil storage cylinder 132, a pressure rod 134 is fixed to a top of the sealing piston 133, and a top end of the pressure rod 134 penetrates through the oil storage cylinder 132 and extends to an outside of the oil storage cylinder 132.

In the embodiment of the invention, an oil discharging cylinder 135 is fixed on the top of the inner wall of the L-shaped plate 131, is electrically connected with an external power supply and is controlled by a control switch, the bottom end of the oil discharging cylinder 135 is fixedly connected with the top end of a pressure rod 134, an oil inlet channel 136 is formed in the top of the hollow box 12, the bottom of the oil storage cylinder 132 is communicated with a guide pipe 137, and one end of the guide pipe 137 is communicated with the top end of the oil inlet channel 136.

In the embodiment of the present invention, the oil pumping pipe 138 is fixed on the surface of the conduit 137 for facilitating the addition of lubricating oil, the first valve 139 is fixed on the surface of the conduit 137, and the second valve 1310 is fixed on the surface of the oil pumping pipe 138.

In the embodiment of the invention, the resistance-reducing mute mechanism 14 comprises a groove 141 arranged at the bottom of the movable door 11, a movable roller 143 is rotatably connected between two sides of the inner wall of the groove 141 through a rotating rod 142, a roller groove 144 matched with the movable roller 143 is arranged at the bottom of the inner wall of the square-shaped frame 2, and a rubber mute coil 145 is fixed on the surface of the movable roller 143, so that the noise generated when the movable roller 143 rolls can be reduced.

In the embodiment of the invention, the two sides of the bottom of the installation box 5 are both provided with a first sliding chute 15 matched with the connecting rod 10 in a penetrating manner, the two sides of the top of the square-shaped frame 2 are both provided with a second sliding chute 16 matched with the connecting rod 10, the side surfaces of the two movable doors 11 are both fixed with sealing rubber strips 17, the front surfaces of the two movable doors 11 are both fixed with heat insulation films 18, the back surfaces of the two movable doors 11 are both fixed with sound absorption cotton 19 which can effectively absorb noise, and the side surfaces of the two hollow boxes 12 are both fixed with rubber gaskets 20 which can buffer and protect the movable doors 11.

In the embodiment of the present invention, a glass window 21 is embedded in the surface of the oil storage cylinder 132, so as to facilitate observation of the remaining amount of the lubricating oil in the oil storage cylinder 132, and a liquid level scale 22 is carved on the surface of the glass window 21.

The invention also discloses a use method of the silent multilayer heat insulation energy recovery system based on the green energy-saving induction sliding door, which specifically comprises the following steps:

s1, after the movable doors 11 are sensed, the conveyor belt 3 is driven by sensing to drive the two connecting rods 10 to move away from each other, so that the two movable doors 11 are moved away from each other and opened, the inserting rod 91 drives the limiting block 96 to move, the limiting block 96 pushes the anti-reverse ratchet 95 to rotate, under the action of inertia, the anti-reverse ratchet 95 can only rotate for multiple times in the same direction, the rotating shaft 94 drives the generator 93 to rotate, and the generator 93 rotates to generate electric energy;

s2, the buffer springs 91-13 are driven to compress in the movement process of the insertion rod 91, so that the movable door 11 can be buffered to effectively protect the movable door 11, and meanwhile, the impact force between the two movable doors 11 can be effectively reduced through the buffer pads 91-15 and the sealing rubber strips 17 after the movable door 11 is reset;

s3, the friction between the inserted rod 91 and the hollow box 12 is large in the reciprocating process, in order to reduce noise generated by the friction, the second valve 1310 can be closed, the first valve 139 can be opened, then the oil discharging cylinder 135 is started, the sealing piston 133 is pressed downwards through the pressing rod 134, then lubricating oil in the oil storage cylinder 132 can be extruded into the oil inlet channel 136 through the guide pipe 137, the lubricating oil flows into the surface of the inserted rod 91 through the oil inlet channel 136, the friction between the inserted rod 12 and the hollow box 12 can be reduced, the friction noise is reduced, and the noise is effectively reduced by matching the movable roller 143 and the rubber static voice coil 145 of the movable door 11 in the moving process.

In the embodiment of the present invention, the sealing rubber strip 17 in step S2 is made of a nitrile rubber material.

And those not described in detail in this specification are well within the skill of those in the art.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. Mute form multilayer heat insulation energy recovery system based on green energy-conserving response moves door, including U type frame (1), fix returning shape frame (2) between U type frame (1) inner wall both sides and setting up induction drive conveyer belt (3) in returning shape frame (2) top, its characterized in that: the top of the square frame (2) is fixedly provided with an installation box (5) through a reinforcing rod (4), the top of the inner wall of the installation box (5) is fixedly provided with a support (6), the induction driving conveyor belt (3) is fixedly arranged on the support (6), a first connecting block (7) is fixed in front of the surface of the induction driving conveyor belt (3), a second connecting block (8) is fixed behind the surface of the induction driving conveyor belt (3), the bottoms of the first connecting block (7) and the second connecting block (8) are both fixedly provided with connecting rods (10), the bottom ends of the connecting rods (10) sequentially penetrate through the installation box (5) and the square frame (2) and extend into the square frame (2), two sides of the bottom of the inner wall of the square frame (2) are both provided with movable doors (11), and the bottom ends of the two connecting rods (10) are respectively fixedly connected with the tops of the two movable doors (11), hollow boxes (12) are fixed on two sides of the bottom of the inner wall of the clip frame (2), kinetic energy conversion and recovery mechanisms (9) are arranged inside the two hollow boxes (12), oiling and lubricating mechanisms (13) are arranged on the tops of the two hollow boxes (12), resistance-reducing and silencing mechanisms (14) are arranged on the two movable doors (11), and baffles (23) are fixed on two sides of the inner wall of the clip frame (2);

the kinetic energy conversion and recovery mechanism (9) comprises an inserted link (91) fixed on the side surface of the movable door (11), one end of the inserted link (91) penetrates through the hollow box (12) and extends into the hollow box (12), the other end of the inserted link (91) is fixed on the side surface of the movable door (11), a generator (93) is fixed between two sides of the inner wall of the hollow box (12) through a frame rod (92), a rotating shaft (94) is fixed on an input shaft of the generator (93), an anti-reverse ratchet (95) is fixed on the surface of the rotating shaft (94), a triangular block (97) is fixed below the surface of the inserted link (91), a limiting block (96) matched with the anti-reverse ratchet (95) is connected on the surface of the triangular block (97) in a rotating manner, an elastic telescopic link (98) is connected on the surface of the limiting block (96) in a rotating manner, one end of the elastic telescopic link (98) is connected with the surface of the inserted link (91) in a rotating manner, the surface of the inserted link (91) is provided with a buffer mechanism (91-1).

The buffer mechanism (91-1) comprises a fixed disc (91-11) fixed on the surface of an inserted bar (91), a loop bar (91-12) is fixed on the inner wall of a hollow box (12), a buffer spring (91-13) is sleeved between the surface of the inserted bar (91) and the surface of the loop bar (91-12), one end of the buffer spring (91-13) is in contact with the side surface of the fixed disc (91-11), the other end of the buffer spring (91-13) is in contact with the inner wall of the hollow box (12), a limiting disc (91-14) is further fixed on the surface of the inserted bar (91), and a buffer pad (91-15) is fixed on the side surface of the limiting disc (91-14).

2. The silent type multi-layer heat insulation energy recovery system based on the green energy-saving induction sliding door as claimed in claim 1, wherein: oiling lubrication mechanism (13) are including fixing L template (131) at hollow case (12) inner wall top and setting up oil storage cylinder (132) at hollow case (12) top, oil storage cylinder (132) are fixed at the top of hollow case (12) through pillar (1311).

3. The silent type multi-layer heat insulation energy recovery system based on the green energy-saving induction sliding door as claimed in claim 2, wherein: the inner wall sliding connection of oil storage cylinder (132) has sealed piston (133), the top of sealed piston (133) is fixed with depression bar (134), the top of depression bar (134) runs through oil storage cylinder (132) and extends to the outside of oil storage cylinder (132).

4. The silent type multi-layer heat insulation energy recovery system based on the green energy-saving induction sliding door as claimed in claim 3, wherein: the top of L template (131) inner wall is fixed with oil drain cylinder (135), the bottom of oil drain cylinder (135) with the top fixed connection of depression bar (134), oil feed passageway (136) have been seted up at the top of hollow case (12), the bottom intercommunication of oil storage section of thick bamboo (132) has pipe (137), the one end of pipe (137) and the top intercommunication of oil feed passageway (136).

5. The silent type multi-layer heat insulation energy recovery system based on the green energy-saving induction sliding door as claimed in claim 4, wherein: an oil pumping pipe (138) is fixed on the surface of the guide pipe (137), a first valve (139) is fixed on the surface of the guide pipe (137), and a second valve (1310) is fixed on the surface of the oil pumping pipe (138).

6. The silent type multi-layer heat insulation energy recovery system based on the green energy-saving induction sliding door as claimed in claim 1, wherein: resistance-reducing mute mechanism (14) is including seting up recess (141) in floating gate (11) bottom, it is connected with removal gyro wheel (143) to rotate through bull stick (142) between the both sides of the inner wall of recess (141), roller groove (144) with removal gyro wheel (143) looks adaptation are seted up to the bottom of returning shape frame (2) inner wall, the fixed surface of removal gyro wheel (143) has the quiet voice coil of rubber (145).

7. The silent type multi-layer heat insulation energy recovery system based on the green energy-saving induction sliding door as claimed in claim 1, wherein: the both sides of install bin (5) bottom all run through and set up first spout (15) with connecting rod (10) looks adaptation, the both sides at time frame (2) top all offer with second spout (16) of connecting rod (10) looks adaptation, two the side of floating gate (11) all is fixed with joint strip (17), two the front of floating gate (11) all is fixed with thermal-insulated membrane (18), two the back of floating gate (11) all is fixed with inhales sound cotton (19), two the side of hollow case (12) all is fixed with rubber packing piece (20).

8. The silent type multi-layer heat insulation energy recovery system based on the green energy-saving induction sliding door as claimed in claim 2, wherein: the surface of the oil storage cylinder (132) is embedded with a glass window (21), and liquid level scale marks (22) are carved on the surface of the glass window (21).

9. The silent type multi-layer heat insulation energy recovery system based on the green energy-saving induction sliding door as claimed in any one of claims 1 to 8, wherein: the using method specifically comprises the following steps:

s1, after the movable doors (11) are sensed, the conveyor belt (3) is driven by sensing to drive the two connecting rods (10) to move away from each other, so that the two movable doors (11) are separated from each other and opened, the limiting block (96) is driven by the inserting rod (91) to move, the anti-reverse ratchet wheel (95) is pushed by the limiting block (96) to rotate, the anti-reverse ratchet wheel (95) can only rotate for multiple turns in the same direction under the action of inertia, the rotating shaft (94) drives the generator (93) to rotate, and the generator (93) rotates to generate electric energy;

s2, the buffer springs (91-13) are driven to compress in the motion process of the inserted link (91), so that the movable door (11) can be buffered to effectively protect the movable door (11), and the impact force between the two movable doors (11) can be effectively reduced through the buffer pads (91-15) and the sealing rubber strips (17) after the movable door (11) is reset;

s3, the friction between the inserted rod (91) and the hollow box (12) is large in the reciprocating motion process, in order to reduce noise generated by the friction, the second valve (1310) can be closed, the first valve (139) can be opened, the oil discharging cylinder (135) is started, the sealing piston (133) is pressed down through the pressing rod (134), then lubricating oil in the oil storage cylinder (132) can be extruded into the oil inlet channel (136) through the guide pipe (137), and flows into the surface of the inserted rod (91) through the oil inlet channel (136), further the friction between the inserted rod (12) and the hollow box (12) can be reduced, the friction noise is reduced, and the movable door (11) is matched with the rubber static voice coil (145) through the movable roller (143) in the motion process, so that the noise is effectively reduced.

10. The use method of the silent type multi-layer heat insulation energy recovery system based on the green energy-saving induction sliding door according to claim 9, wherein the sealing rubber strip (17) in the step S2 is made of nitrile rubber.

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