CN114109928A

CN114109928A - Energy accumulator for chipping machine

Info

Publication number: CN114109928A
Application number: CN202111312309.0A
Authority: CN
Inventors: 江明香
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-11-08
Filing date: 2021-11-08
Publication date: 2022-03-01

Abstract

The invention relates to the technical field of energy storage, and discloses an energy accumulator for a chipping machine, which comprises a tank body, wherein one end of the tank body is fixedly provided with an air inlet valve, the other end of the tank body is fixedly provided with an oil inlet valve, and one end of the inside of the tank body, which is close to the air inlet valve, is fixedly provided with an air bag. According to the invention, the second alarm device is arranged below the tank body, the flow guide ring and the rubber leather bag are arranged below the tank body, the leather bag is extruded by the over-expanded air bag, so that gas in the leather bag is compressed, meanwhile, as the slide block III deforms downwards, when the slide block III cannot move, the magnet on the slide block III acts on the control magnet, the deformation degree is larger, the distance between the two magnets is closer, the elasticity of the control spring is overcome, when the position of the air inlet hole is aligned with the position of the moving hole, the compressed gas has a certain speed to impact the air inlet channel, and when the compressed gas flows out from the air outlet hole, the airflow in the vibration channel produces sound in a disordered manner, so that the warning effect is achieved, and the air leakage treatment is carried out on the inside in time.

Description

Energy accumulator for chipping machine

Technical Field

The invention relates to the technical field of energy storage, in particular to an energy accumulator for a chipping machine.

Background

The air bag type energy accumulator is internally provided with the air bag, so that the condition of overlarge air bag expansion caused by overlarge air inflation easily occurs in the air inflation process, the air bag is scratched in the opening and closing process of the sharp edge of the oil inlet valve due to the overlarge air bag expansion easily to cause the failure of the air bag, or a sealing ring is used for a long time in the using process to cause the failure of the air bag, the air bag is excessively contracted due to the air leakage condition occurring in the air bag, so that the air bag fails, when the air bag type energy accumulator is used in a chipping machine, once the air pressure of nitrogen in the air bag is overhigh or overlow, the energy storage and buffering effects are reduced, the chipping machine can be integrally vibrated, the existing air bag type energy accumulator is not provided with an alarm device, equipment is checked one by one after the chipping machine is vibrated, the chipping machine is always in the vibration state during the time, and the quality of wood cut by the chipping machine is influenced, but also can cause other mechanical parts to loosen and fall off after being shocked. .

Disclosure of Invention

Aiming at the defects of the existing energy accumulator in the use process of the chipping machine in the background technology, the invention provides the energy accumulator for the chipping machine, which has the advantages of timely alarming, reducing the troubleshooting time, avoiding the influence of over-long vibration on the wood cutting quality and preventing the loosening and falling of components caused by excessive vibration, and solves a series of problems caused by the lack of buffering of the chipping machine due to the untimely alarming in the background technology.

The invention provides the following technical scheme: an energy accumulator for a chipping machine comprises a tank body, wherein an air inlet valve is fixedly mounted at one end of the tank body, an oil inlet valve is fixedly mounted at the other end of the tank body, an air bag is fixedly mounted at one end, close to the air inlet valve, of the tank body, the upper end shell, close to the air inlet valve, of the tank body is spherical, a slider I is movably mounted in an inner cavity of the spherical shell of the tank body, a slider II is movably mounted at the bottom end of the spherical shell at the upper end of the tank body, a slider III is movably mounted on the inner side wall of the lower end of the tank body, an outer shell is fixedly mounted on the outer side of the spherical shell at the upper end of the tank body, a first alarm device is mounted in the outer shell, a flow guide ring is fixedly mounted on the bottom surface of the inner cavity of the tank body, the upper end horizontal line of the flow guide ring coincides with the upper surface horizontal line when a valve rod of the oil inlet valve is opened, one end of the flow guide ring is fixedly mounted on the outer side of an outlet of the oil inlet valve, the other end fixedly connected with rubber leather bag of water conservancy diversion ring, the other end of rubber leather bag and the lateral wall fixed mounting of the jar body, the jar body is provided with the second alarm device in being located the lateral wall of rubber leather bag top.

Preferably, slider I, slider II, slider III all with the lateral wall fixed mounting of gasbag, and slider I, slider II, slider III's structure is the same, is the combination of fixed block and pulley, the pulley slides at jar internal portion of side wall, and is equipped with the slip direction that the pulley was injectd to the spacing groove on jar body, slider I, slider II, the internal portion fixed mounting of slider III has magnet, and the magnetic field intensity of slider I, slider II is less than slider III's magnetic field intensity, magnetism between slider I, slider II, the slider III is the same, slider I, slider II are circumferential motion on the spherical shell of jar body upper end, slider III is axial motion on the straight section of thick bamboo lateral wall of the jar body.

Preferably, the second alarm device comprises an air inlet channel, the air inlet channel is positioned in the side wall of the tank body, a vibration channel is communicated above the air inlet channel, the upper end of the vibration channel is communicated with the outside of the tank body, a pipeline with a section of pipeline with the radius smaller than that of the upper end and the lower end is arranged at the lower end of the air inlet channel, a grid plate is fixedly installed on one side wall, close to the slide block III, of the cavity formed by the air inlet channel and the vibration channel, an air outlet hole is formed in the other end, far away from the slide block III, of the grid plate and is communicated with the side wall of the tank body, the air outlet hole is communicated with the air inlet channel and the inside of the vibration channel, an air inlet hole is formed in one side, close to the slide block III, of the bottom end of the air inlet channel is communicated with the inside of an air cavity formed among the flow guide ring, the rubber bladder and the side wall of the tank body, and a moving strip is arranged on one side, close to the slide block III, of the air inlet channel, the jar body is equipped with reciprocating of slide channel and is used for moving the strip, and slide channel runs through the inlet port and extends to the below of inlet port from the top of inlet port simultaneously, the removal hole has been seted up on the removal strip, the diameter in removal hole equals with the inlet port diameter, the top fixed mounting who removes the strip has control magnet, set up the third slide in the lateral wall of the jar body, the inside slidable mounting of third slide has control magnet, control magnet's bottom fixed mounting has control spring, control spring's bottom fixed mounting is in the bottom surface of third slide, the control spring housing is in the removal strip outside, control magnet's magnetism is the same with the inside magnet magnetism of slider III.

Preferably, the first alarm device comprises a first slide way, the first slide way is arranged in the inner side wall of a spherical shell at the upper end of the tank body, an arc-shaped sliding block is movably arranged in the first slide way, an impact device is arranged on one side, far away from the sliding block II, of the arc-shaped sliding block, a movable magnetic block is fixedly arranged in one side, close to the sliding block I, of the arc-shaped sliding block, the magnetism of the movable magnetic block is different from that of a magnet in the sliding block I, a first magnetic strip is fixedly arranged in the other side, far away from the sliding block I, of the arc-shaped sliding block, a force storage strip is fixedly arranged in the shell body, a baffle is movably arranged on the force storage strip, a coil spring is movably arranged in the force storage strip, a pull rope is arranged at the tip end of the baffle, a second magnetic strip is fixedly arranged at the other end of the pull rope, and an arc-shaped second slide way is arranged in the shell body, the inside movable mounting of second slide has the second magnetic stripe, the magnetism of second magnetic stripe is opposite with the magnetism of first magnetic stripe, the outside fixed mounting of shell body has the warning light, electric connection between warning light and the percussion device.

Preferably, the impact device includes the pendulum rope, the one end of pendulum rope and the lateral wall movable mounting that the jar body is close to the shell body, the other end fixed mounting of pendulum rope has the striking ball, the inside opposite side fixed mounting who keeps away from the pendulum rope of first slide has the tuning fork, the opposite of tuning fork yoke is provided with fixed frame, fixed frame fixed mounting is on first slide is close to the lateral wall of slider I, the inboard fixed mounting of fixed frame has the vibrating diaphragm, on the lateral wall of the other end fixed mounting arc slider of vibrating diaphragm, inside coil and the electricity generation magnet of being provided with in the space that forms between fixed frame and the vibrating diaphragm, dab between coil and the vibrating diaphragm, electricity generation magnet fixed mounting is on the lateral wall of fixed frame, the vibrating diaphragm cover is on the electricity generation magnet, electric connection between coil and the warning light.

Preferably, the magnetic field intensity of the moving magnetic block is greater than that of the sliding block II.

The invention has the following beneficial effects:

1. the invention sets a first alarm device at the upper end of the tank body according to the spherical shape of the tank body, utilizes the clockwork spring in the power storage strip and the baffle to indirectly block the sliding block I through the arc-shaped sliding block, thereby realizing the magnetic compression energy storage between the sliding block II and the sliding block I, then utilizing the impact energy to impact the impact ball on the swinging rope, impacting the tuning fork by the ball body, so that the tuning fork drives the air to vibrate, the air acts on the vibrating membrane when vibrating, the coil close to the vibrating membrane cuts the magnetic induction line, the cutting current enables the warning lamp to emit light, thereby playing a warning role, and the lamp is arranged at the top of the tank body, being convenient for observation, because the current direction, power are changeing, the scintillation condition can appear in the warning light, can improve the warning effect, realize timely tonifying qi and handle to prevent to shake the emergence that influences the timber cutting quality and the component condition of droing for a long time.

2. According to the invention, the second alarm device is arranged below the tank body, the flow guide ring and the rubber leather bag are arranged below the tank body, the leather bag is extruded by the over-expanded air bag, so that gas in the leather bag is compressed, meanwhile, as the slide block III deforms downwards, when the slide block III cannot move, the magnet on the slide block III acts on the control magnet, the deformation degree is larger, the distance between the two magnets is closer, the elasticity of the control spring is overcome, when the position of the air inlet hole is aligned with the position of the moving hole, the compressed gas has a certain speed to impact the air inlet channel, and when the compressed gas flows out from the air outlet hole, the airflow in the vibration channel produces sound in a disordered manner, so that the warning effect is achieved, and the air leakage treatment is carried out on the inside in time.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the air bag of the present invention showing an over-inflated configuration;

FIG. 3 is a schematic view of the structure of the air bag of the present invention when the air pressure is insufficient;

FIG. 4 is a schematic view of the structure of FIG. 2 at A according to the present invention;

FIG. 5 is a schematic view of the structure of FIG. 4 at C in accordance with the present invention;

FIG. 6 is a schematic view of the structure of FIG. 3 at B according to the present invention;

FIG. 7 is a schematic view of the structure of FIG. 6 at D according to the present invention.

In the figure: 1. a tank body; 2. an intake valve; 3. an oil inlet valve; 4. an air bag; 5. a sliding block I; 6. a sliding block II; 7. a slide block III; 8. an outer housing; 9. a first alarm device; 91. a first slideway; 92. an arc-shaped sliding block; 93. an impact device; 93a, swinging a rope; 93b, a striking ball; 93c, tuning fork; 93d, a fixed frame; 93e, a vibrating membrane; 93f, a coil; 93g, a power generation magnet; 94. a movable magnetic block; 95. a first magnetic stripe; 96. a force storage strip; 97. a baffle plate; 98. pulling a rope; 99. a second magnetic stripe; 910. a second slideway; 911. a warning light; 10. a flow guide ring; 11. a rubber bladder; 12. a second alarm device; 121. an air intake passage; 122. a vibration channel; 123. a grid plate; 124. an air outlet; 125. an air inlet; 126. a moving bar; 127. moving the hole; 128. a control magnet; 129. a third slideway; 1210. the spring is controlled.

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. 1-3, an energy accumulator for a chipping machine comprises a tank body 1, an air inlet valve 2 is fixedly installed at one end of the tank body 1, an oil inlet valve 3 is fixedly installed at the other end of the tank body 1, an air bag 4 is fixedly installed at one end, close to the air inlet valve 2, inside the tank body 1, an upper end shell, close to the air inlet valve 2, of the tank body 1 is spherical, a sliding block i 5 is movably installed in an inner cavity of the spherical shell of the tank body 1, a sliding block ii 6 is movably installed at the bottom end of the spherical shell at the upper end of the tank body 1, a sliding block iii 7 is movably installed on the inner side wall at the lower end of the tank body 1, the sliding block i 5, the sliding block ii 6 and the sliding block iii 7 are fixedly installed with the side wall of the air bag 4, the structures of the sliding block i 5, the sliding block ii 6 and the sliding block iii 7 are the same and are the combination of a fixed block and a pulley, the pulley slides inside the side wall of the tank body 1, and a limit groove is arranged on the tank body 1 to limit the sliding direction of the pulley, the slider I5, the slider II 6, the inside fixed mounting of slider III 7 has magnet, and slider I5, the magnetic field intensity of slider II 6 is less than the magnetic field intensity of slider III 7, slider I5, slider II 6, magnetism between slider III 7 is the same, slider I5, slider II 6 is circumferential motion on the spherical shell of jar body 1 upper end, slider III 7 is axial motion on the straight section of thick bamboo lateral wall of jar body 1, normal condition and gasbag 4 inside atmospheric pressure are too big, slider I5 is in the top of slider II 6 on vertical position this moment, at this moment, the repulsion between slider I5, slider II 6 makes the position of slider I5 motionless or the direction that deviates from admission valve 2 slide, when gasbag 4 inside atmospheric pressure is too little, slider III 7 can the rebound at this moment, slider III 7 because magnetic field intensity is great, can reject slider II 6 to slide on spherical shell this moment, slider I5, Repulsion between the sliding blocks II 6 enables the sliding blocks I5 to also slide, the sliding directions all face to the direction of the air inlet valve 2, the outer shell 8 is fixedly installed on the outer side of a spherical shell at the upper end of the tank body 1, the first alarm device 9 is installed inside the outer shell 8, the flow guide ring 10 is fixedly installed on the bottom surface of an inner cavity of the tank body 1, the upper end horizontal line of the flow guide ring 10 is superposed with the upper surface horizontal line when a valve rod of the oil inlet valve 3 is opened, in a normal state, when the air bag 4 expands, the air bag 4 is just contacted with the upper surface of the rubber leather bag 11 at the moment, the rubber leather bag 11 can be initially resisted to contact the sharp edge of the air bag 4 and the oil inlet valve 3, when the air bag 4 excessively expands, the rubber leather bag 11 is firstly extruded to the side edge under the action of the flow guide ring 10, so that the rubber leather bag 11 deforms, air inside the rubber leather bag 11 is compressed, one end of the flow guide ring 10 is fixedly installed with the outer side of an outlet of the oil inlet valve 3, the other end fixedly connected with rubber leather bag 11 of water conservancy diversion ring 10, the other end of rubber leather bag 11 and the lateral wall fixed mounting of the jar body 1, jar body 1 is provided with second alarm device 12 in the lateral wall that is located rubber leather bag 11 top, and the air outwards flows through second alarm device 12, then relies on the elasticity of rubber leather bag 11 itself to reset again, absorbs the air through second alarm device 12.

Wherein, referring to fig. 2, fig. 4 and fig. 5, the second alarm device 12 includes an air inlet channel 121, the air inlet channel 121 is located in the side wall of the tank 1, a vibration channel 122 is communicated above the air inlet channel 121, the upper end of the vibration channel 122 is communicated with the outside of the tank 1, in order to ensure smooth air circulation of the opening end of the vibration channel 122 communicated with the outside, at this time, an opening of the vibration channel 122 is obliquely arranged with the side wall of the tank 1, so that resistance to air flow in is smaller, air vibration inside the vibration channel 122 is increased, the lower end of the air inlet channel 121 is provided with a pipe having a section of pipe radius smaller than that of the upper end and the lower end, so that a negative pressure area is formed at a leeward position close to one end of the vibration channel 122 by the air inlet channel 121, so that the air flow speed is increased, a grid plate 123 is fixedly installed on a side wall close to the slider iii 7 inside a cavity formed by the air inlet channel 121 and the vibration channel 122, the other end of the grid plate 123 far away from the sliding block III 7 is provided with an air outlet 124, the air outlet 124 is arranged on the side wall of the tank body 1, the air outlet 124 is communicated with the air inlet channel 121 and the inside of the vibration channel 122, one side of the bottom end of the air inlet channel 121 close to the rubber leather bag 11 is provided with an air inlet 125, the other end of the air inlet 125 is communicated with the air cavity formed among the flow guide ring 10, the rubber leather bag 11 and the side wall of the tank body 1, one side of the air inlet channel 121 close to the sliding block III 7 is provided with a moving strip 126, the tank body 1 is provided with a sliding channel for the up-and-down movement of the moving strip 126, meanwhile, the sliding channel penetrates through the air inlet 125 from the upper part of the air inlet 125 and extends to the lower part of the air inlet 125, the moving strip 126 is provided with a moving hole 127, the diameter of the moving hole 127 is equal to the diameter of the air inlet 125, when the moving strip 126 is positioned at the lowest end of the sliding channel, the moving hole 127 is aligned to the air inlet 125, the air inlet 125 is opened, the top end of the moving bar 126 is fixedly provided with a control magnet 128, the side wall of the tank body 1 is internally provided with a third slide way 129, the inside of the third slide way 129 is slidably provided with the control magnet 128, the bottom of the control magnet 128 is fixedly provided with a control spring 1210, the bottom of the control spring 1210 is fixedly arranged on the bottom surface of the third slide way 129, the control spring 1210 is sleeved outside the moving bar 126, the magnetism of the control magnet 128 is the same as that of the magnet inside the sliding block III 7, in the normal state or the contraction state, the sliding block III 7 is at the normal position of the tank body 1 or the upper end of the tank body 1, a certain distance exists between the magnet on the sliding block III 7 and the control magnet 128, the magnetic repulsion force between each other is not enough to overcome the elastic force of the control spring 1210, so that the position between the air inlet 125 and the moving hole 127 is not aligned, when the air inside the air bag 4 expands, once the air bag 4 is expanded too much, the sliding block iii 7 will be caused to move downwards at the original limited position, the distance between the control magnet 128 and the sliding block iii 7 is closer and closer, the magnetic repulsion force exerted on the control magnet 128 increases, when the magnetic repulsion force overcomes the elastic force of the control spring 1210 to align the air inlet 125 with the position of the moving hole 127, the air chamber formed by the rubber bellows 11, the baffle ring 10 and the sidewall of the tank 1 is communicated with the air inlet channel 121, and the air bag 4 will be expanded too much, the rubber bellows 11 will be pressed to deform the rubber bellows 11, and the air inside the rubber bellows 11 will be compressed inside the air chamber, when the magnetic repulsion force between the sliding block iii 7 and the control magnet 128 reaches the maximum value, the compressed air inside the air chamber will enter the air inlet channel 121 through the moving hole 127 with a certain flow rate, and the air will flow out from the gap between the air inlet channel 121, the grid plate 123 and the air outlet 124 due to the existence of the air outlet 124, the air current produces the negative pressure from the gap department that forms between grid plate 123, venthole 124 and the vibration passageway 122, and under the effect of negative pressure for the inside air current of vibration passageway 122 is disorderly, thereby makes sound, in order to make the sound effect better, can inlet channel 121, the space internally mounted pipeline of solid wood material that vibration passageway 122 formed, with this improvement warning effect.

Wherein, referring to fig. 6, the first alarm device 9 includes a first slide rail 91, the first slide rail 91 is disposed in the inner side wall of the spherical shell at the upper end of the tank body 1, an arc-shaped slider 92 is movably mounted inside the first slide rail 91, an impact device 93 is disposed at one side of the arc-shaped slider 92 away from the slider ii 6, a movable magnetic block 94 is fixedly mounted inside one side of the arc-shaped slider 92 close to the slider i 5, the magnetic property of the movable magnetic block 94 is different from that of the magnet inside the slider i 5, a first magnetic stripe 95 is fixedly mounted inside the other side of the arc-shaped slider 92 away from the slider i 5, a power storage strip 96 is fixedly mounted inside the outer shell 8, a baffle 97 is movably mounted on the power storage strip 96, a coil spring is movably mounted inside the power storage strip 96, when the arc-shaped slider 92 is located at the bottom inside the first slide rail 91, the baffle 97 does not have the extrusion force from the arc-shaped slider 92, the tip of the baffle 97 rotates to the inside at this time, in order to ensure that the arc-shaped sliding block 92 cannot be scratched by the sharp part of the baffle 97, the baffle 97 can be set to be in the shape of a ratchet gear when being set, and the protrusion surface is aligned with the arc-shaped sliding block 92, at the moment, the arc-shaped sliding block 92 can slide over the smooth protrusion, the pull rope 98 is installed at the tip end of the baffle 97, the second magnetic strip 99 is fixedly installed at the other end of the pull rope 98, the arc-shaped second slide way 910 is opened inside the outer shell 8, the second magnetic strip 99 is movably installed inside the second slide way 910, the magnetism of the second magnetic strip 99 is opposite to that of the first magnetic strip 95, the warning lamp 911 is fixedly installed outside the outer shell 8, the warning lamp 911 is electrically connected with the impact device 93, at the initial state, the second magnetic strip 99 is located at the bottom end of the second slide way 910, the arc-shaped sliding block 92 is located at the bottom end of the first slide way 91, at the moment, the baffle 97 extends to the inside of the first slide way 91 under the action of the coil spring in the force storage strip 96, at this time, the arc-shaped sliding block 92 is blocked at the bottom end of the arc-shaped sliding block 92 by the baffle 97, when the sliding block iii 7 moves upwards, the sliding block ii 6 moves, under the action of the sliding block ii 6, the sliding block i 5 moves circumferentially, at this time, because there is a suction force between the moving magnetic block 94 and the sliding block i 5, the arc-shaped sliding block 92 moves towards one end close to the impact device 93, at this time, when the magnetic suction force is large enough, the arc-shaped sliding block 92 stores up force at the baffle 97, in order to prevent the sliding block i 5 and the moving magnetic block 94 from being separated, the magnetic field strength of the moving magnetic block 94 should be larger than that of the sliding block ii 6, then after overcoming the spring force of the coil spring, the impact device 93 is impacted violently, and at this time, because of the magnetic repulsion force between the first magnetic strip 95 and the second magnetic strip 99, the second magnetic strip 99 moves towards the top end of the second slideway 910, the pull rope 98 pulls the tip of the baffle 97, so that the baffle 97 rotates towards the direction close to the second magnetic strip 99, therefore, the impact device is matched with the arc-shaped sliding block 92 for use, when the impact device is installed, the position of the first magnetic strip 95 needs to be installed at one end, far away from the second magnetic strip 99, of the arc-shaped sliding block 92, so that the arc-shaped sliding block 92 can store certain energy before the coil spring fails, and the impact device 93 is impacted by the energy.

Referring to fig. 7, the impact device 93 includes a swinging rope 93a, one end of the swinging rope 93a is movably mounted to the side wall of the tank body 1 close to the outer shell 8, the other end of the swinging rope 93a is fixedly mounted with an impact ball 93b, the other side of the inside of the first slideway 91 far from the swinging rope 93a is fixedly mounted with a tuning fork 93c, the opposite side of the tuning fork arm of the tuning fork 93c is provided with a fixed frame 93d, the fixed frame 93d is fixedly mounted to the side wall of the first slideway 91 close to the slider i 5, the inner side of the fixed frame 93d is fixedly mounted with a vibrating membrane 93e, the other end of the vibrating membrane 93e is fixedly mounted to the side wall of the arc slider 92, a coil 93f and a generating magnet 93g are arranged inside a space formed between the fixed frame 93d and the vibrating membrane 93e, the coil 93f and the vibrating membrane 93e are in light contact, the generating magnet 93g is fixedly mounted to the side wall of the fixed frame 93d, the vibrating membrane 93e is sleeved on the generating magnet 93g, the coil 93f is electrically connected with the warning light 911, in order to ensure the vibration of the coil 93f, a thin spring can be installed between the coil 93f and the sidewall of the fixed frame 93d, when the impact force of the arc-shaped slider 92 acts on the impact ball 93b, the impact ball 93b overcomes the gravity by the huge impact force at this time, and swings along the arc-shaped dotted line in the figure, when the tuning fork 93c is located, the tuning fork 93c is impacted at this time, the tuning fork 93c sounds, the tuning fork 93c vibrates, and drives the surrounding air to vibrate, the vibrating air is surrounded by the fixed frame 93d, that is, in the space formed by the fixed frame 93d, the air vibrates endlessly, the vibrating membrane 93e vibrates to drive the coil 93f in contact with the vibrating membrane, the coil 93f reciprocates endlessly outside the generating magnet 93g, so that the coil 93f cuts the magnetic field of the generating magnet 93g, therefore, the coil 93f is electrified, the warning lamp 911 emits light due to the current of the coil 93f, and the light of the warning lamp 911 flickers due to the fact that the current intensity and the direction change continuously in the second process, so that the warning effect is enhanced.

The using method of the invention is as follows:

in a normal state, in an initial state of the first alarm device 9 at the upper end of the tank body 1, the arc-shaped slider 92 is positioned at the lowest end of the first slideway 91, the second magnetic stripe 99 is positioned at the lowest end of the second slideway 910, the baffle 97 is positioned in the first slideway 91, the arc-shaped slide block 92 is blocked, the position of the slide block I5 is aligned with the position of the arc-shaped slide block 92, the bottom of the spherical shell of the slide block II 6, which is positioned at the upper end of the tank body 1, is vertical to the ground due to the action of gravity, the impact ball 93b is positioned at the lower end of the slide block III 7 at the bottom, and the expanded outer surface of the bottom of the air bag 4 is just attached to the rubber leather bag 11, at this time, a certain distance exists between the magnet on the sliding block III 7 and the control magnet 128, the magnetic repulsion force between the magnet and the control magnet is not enough to overcome the elastic force of the control spring 1210, so that the position between the air inlet hole 125 and the moving hole 127 is not aligned, and the air inlet hole 125 channel is not opened;

when the interior of the airbag 4 is in a state of insufficient inflation, the sliding block iii 7 moves upwards to move the sliding block ii 6, under the action of the sliding block ii 6, the sliding block i 5 moves circumferentially, at this time, due to the existence of suction force between the moving magnetic block 94 and the sliding block i 5, the arc-shaped sliding block 92 moves towards one end close to the impact device 93, at this time, when the magnetic attraction force is large enough, the arc-shaped sliding block 92 stores power at the baffle 97 first, and then impacts the impact device 93 violently after overcoming the elastic force of the coil spring, due to the magnetic repulsion force between the first magnetic strip 95 and the second magnetic strip 99, the second magnetic strip 99 moves towards the top end of the second slideway 910, the pull rope 98 pulls the tip of the baffle 97 to rotate towards the direction close to the second magnetic strip 99, so as to cooperate with the arc-shaped sliding block 92, when the impact force of the arc-shaped sliding block 92 acts on the impact ball 93b, at this time, the huge impact force can enable the impact ball 93b to overcome the gravity, the striking ball 93b moves circularly along the connecting point between the swinging rope 93a and the side wall of the first slideway 91 until the tuning fork 93c is located, and then the tuning fork 93c is struck, the tuning fork 93c is enabled to sound, the tuning fork 93c vibrates, surrounding air is driven to vibrate, the vibrating air is surrounded by the fixed frame 93d, that is, in the space formed by the fixed frame 93d, the air continuously vibrates to drive the vibration film 93e to vibrate, the vibration film 93e vibrates to drive the coil 93f in contact with the vibration film to vibrate, the coil 93f continuously reciprocates outside the generating magnet 93g, so that the coil 93f cuts the magnetic field of the generating magnet 93g, so that the coil 93f is electrified, the current of the coil 93f makes the warning lamp 911 emit light, in addition, as the current intensity and the direction change continuously in the second process, the light of the warning lamp 911 flickers, and the warning effect is enhanced;

when the interior of the air bag 4 is in an over-inflated state, at this time, due to the over-expansion of the bottom of the air bag 4, the sliding block iii 7 continues to move downwards at the original limited position, the distance between the control magnet 128 and the sliding block iii 7 is closer and closer, at this time, the magnetic repulsion force borne by the control magnet 128 is increased, when the magnetic repulsion force overcomes the elastic force of the control spring 1210, the air inlet 125 is aligned with the moving hole 127, at this time, the air chamber formed by the rubber bladder 11, the deflector ring 10 and the side wall of the tank body 1 is communicated with the air inlet channel 121, and due to the over-expansion of the air bag 4, the rubber bladder 11 is squeezed, so that the rubber bladder 11 is deformed, and the air inside the rubber bladder 11 is compressed first inside the air chamber, when the magnetic repulsion force between the sliding block iii 7 and the control magnet 128 reaches the maximum value, the compressed air with a certain flow rate enters the air inlet channel 121 through the moving hole 127, due to the existence of the air outlet holes 124, the air flow flows out from the gaps among the air inlet channel 121, the grid plate 123 and the air outlet holes 124, negative pressure is generated by the air flow from the gaps among the grid plate 123, the air outlet holes 124 and the vibration channel 122, and the air flow inside the vibration channel 122 is disturbed under the action of the negative pressure, so that sound is produced.

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

1. The utility model provides an energy storage ware for chipping machine, includes a jar body (1), states the one end fixed mounting of the jar body (1) and has admission valve (2), the other end fixed mounting of the jar body (1) has inlet valve (3), the one end fixed mounting that the inside of the jar body (1) is close to admission valve (2) has gasbag (4), its characterized in that: the upper end shell shape that is close to admission valve (2) of the jar body (1) is spherical, the spherical shell inner chamber movable mounting of the jar body (1) has slider I (5), the bottom movable mounting of the spherical shell of the jar body (1) upper end has slider II (6), movable mounting has slider III (7) on the jar body (1) lower extreme inside wall, the outside fixed mounting of the spherical shell of the jar body (1) upper end has shell body (8), the internally mounted of shell body (8) has first alarm device (9), the inner chamber bottom surface fixed mounting of the jar body (1) has water conservancy diversion ring (10), the upper surface horizontal line coincidence when the upper end horizontal line of water conservancy diversion ring (10) and the valve rod of inlet valve (3) are opened, the one end of water conservancy diversion ring (10) and the export outside fixed mounting of inlet valve (3), the other end fixedly connected with rubber leather bag (11) of water conservancy diversion ring (10), the other end of the rubber leather bag (11) is fixedly installed on the side wall of the tank body (1), and a second alarm device (12) is arranged in the side wall, located above the rubber leather bag (11), of the tank body (1).

2. An accumulator for a chipper as claimed in claim 1, wherein: the sliding block I (5), the sliding block II (6) and the sliding block III (7) are all fixedly arranged with the side wall of the air bag (4), the slide block I (5), the slide block II (6) and the slide block III (7) have the same structure and are all the combination of a fixed block and a pulley, the pulley slides in the side wall of the tank body (1), and the tank body (1) is provided with a limiting groove for limiting the sliding direction of the pulley, magnets are fixedly arranged in the slide block I (5), the slide block II (6) and the slide block III (7), the magnetic field intensity of the sliding block I (5) and the sliding block II (6) is less than that of the sliding block III (7), the magnetic properties of the sliding block I (5), the sliding block II (6) and the sliding block III (7) are the same, the sliding block I (5) and the sliding block II (6) do circumferential motion on the spherical shell at the upper end of the tank body (1), the sliding block III (7) axially moves on the side wall of the straight cylinder of the tank body (1).

3. An accumulator for a chipper as claimed in claim 1, wherein: the second alarm device (12) comprises an air inlet channel (121), the air inlet channel (121) is positioned in the side wall of the tank body (1), a vibration channel (122) is communicated above the air inlet channel (121), the upper end of the vibration channel (122) is communicated with the outside of the tank body (1), a pipeline with a section of pipeline with a radius smaller than that of the upper end and the lower end is arranged at the lower end of the air inlet channel (121), a grid plate (123) is fixedly arranged on one side wall, close to the sliding block III (7), in a cavity formed by the air inlet channel (121) and the vibration channel (122), an air outlet hole (124) is formed in the other end, far away from the sliding block III (7), of the grid plate (123), an air inlet hole (125) is formed in the side wall of the tank body (1), the air outlet hole (124) is communicated with the air inlet channel (121) and the inside of the vibration channel (122), and an air inlet hole (125) is formed in one side, close to the rubber bag (11), of the bottom end of the air inlet channel (121), the other end of the air inlet hole (125) is communicated with the inside of an air cavity formed among the flow guide ring (10), the rubber leather bag (11) and the side wall of the tank body (1), one side, close to the sliding block III (7), of the air inlet channel (121) is provided with a moving strip (126), the tank body (1) is provided with a sliding channel for the up-and-down movement of the moving strip (126), meanwhile, the sliding channel penetrates through the air inlet hole (125) from the upper part of the air inlet hole (125) and extends to the lower part of the air inlet hole (125), the moving strip (126) is provided with a moving hole (127), the diameter of the moving hole (127) is equal to that of the air inlet hole (125), the top end of the moving strip (126) is fixedly provided with a control magnet (128), a third slide way (129) is arranged in the side wall of the tank body (1), and the control magnet (128) is slidably arranged in the third slide way (129), the bottom fixed mounting of control magnet (128) has control spring (1210), the bottom fixed mounting of control spring (1210) is in the bottom surface of third slide (129), control spring (1210) cover is in removal strip (126) the outside, the magnetism of control magnet (128) is the same with the inside magnet magnetism of slider III (7).

4. An accumulator for a chipper as claimed in claim 1, wherein: the first alarm device (9) comprises a first slide way (91), the first slide way (91) is arranged in the inner side wall of a spherical shell at the upper end of the tank body (1), an arc-shaped sliding block (92) is movably arranged in the first slide way (91), an impact device (93) is arranged on one side, away from a sliding block II (6), of the arc-shaped sliding block (92), a movable magnetic block (94) is fixedly arranged inside one side, close to a sliding block I (5), of the arc-shaped sliding block (92), the magnetic property of the movable magnetic block (94) is different from that of a magnet inside the sliding block I (5), a first magnetic strip (95) is fixedly arranged inside the other side, away from the sliding block I (5), of the arc-shaped sliding block (92), a power storage strip (96) is fixedly arranged inside the outer shell (8), a baffle plate (97) is movably arranged on the power storage strip (96), and a coil spring is movably arranged inside the power storage strip (96), stay cord (98) are installed to the pointed end of baffle (97), the other end fixed mounting of stay cord (98) has second magnetic stripe (99), curved second slide (910) have been seted up to shell body (8) inside, the inside movable mounting of second slide (910) has second magnetic stripe (99), the magnetism of second magnetic stripe (99) is opposite with the magnetism of first magnetic stripe (95), the outside fixed mounting of shell body (8) has warning light (911), electric connection between warning light (911) and impact device (93).

5. An accumulator for a chipper as claimed in claim 1, wherein: the impact device (93) comprises a swing rope (93a), one end of the swing rope (93a) and the side wall of the tank body (1) close to the outer shell (8) are movably mounted, an impact ball (93b) is fixedly mounted at the other end of the swing rope (93a), a tuning fork (93c) is fixedly mounted at the other side, far away from the swing rope (93a), of the first slide way (91), a fixed frame (93d) is arranged opposite to a fork arm of the tuning fork (93c), the fixed frame (93d) is fixedly mounted on the side wall, close to the slider I (5), of the first slide way (91), a vibrating membrane (93e) is fixedly mounted on the inner side of the fixed frame (93d), an arc-shaped slider (92) is fixedly mounted at the other end of the vibrating membrane (93e), a coil (93f) and a power generation magnet (93g) are arranged inside a space formed between the fixed frame (93d) and the vibrating membrane (93e), light touch between coil (93f) and vibrating diaphragm (93e), electricity generation magnet (93g) fixed mounting is on the lateral wall of fixed frame (93d), vibrating diaphragm (93e) cover is on electricity generation magnet (93g), electric connection between coil (93f) and warning light (911).

6. An accumulator for a chipper as claimed in claim 4, wherein: the magnetic field intensity of the movable magnetic block (94) is greater than that of the sliding block II (6).