CN115258540A

CN115258540A - Chain slat type conveyer

Info

Publication number: CN115258540A
Application number: CN202210941943.9A
Authority: CN
Inventors: 郭俊
Original assignee: Nantong Yusheng Intelligent Equipment Co ltd
Current assignee: Nantong Yusheng Intelligent Equipment Co ltd
Priority date: 2022-08-08
Filing date: 2022-08-08
Publication date: 2022-11-01

Abstract

The invention provides a chain plate type conveyor which comprises a fixed frame, a driving motor and chains, wherein a chain plate is fixedly connected between the two chains, a stress plate is sleeved on the upper part of the chain plate, one end of the stress plate is rotatably connected with the chain plate through a rotating block, an inflation block is fixedly connected between the other end of the stress plate and the chain plate, a driving cavity reaction cavity for inflating the inflation block is formed in the chain plate, a gear and a movable plate are arranged in the stress plate, and teeth meshed with the gear are arranged in the movable plate. When the transport object deflects to one side of the inflating block, the reaction block and the reactant are contacted to generate gas, the inflating block is rapidly inflated to enable one end of the stress plate to be lifted and vibrated, meanwhile, the transport object is shifted through the matching driving gear of the movable plate and the teeth, the inflating block is continuously inflated and deflated in the process, the inflating block drives the stress plate to continuously vibrate, and meanwhile, the gear can better shift the transport object through the arrangement of the needle plate.

Description

Chain slat type conveyer

Technical Field

The invention relates to the technical field of conveyors, in particular to a chain plate type conveyor.

Background

Along with the progress of science and technology, the method of manpower transport has been abandoned to present transportation industry, and in present transportation industry, the variety of cargo airplane, chain slat type cargo airplane use in transportation industry very extensively, and chain slat type cargo airplane removes convenience very to the range of application is very extensive, and the transport face of chain slat type cargo airplane is flat smooth, and frictional force is little, and the transition of material between the transfer chain is very steady, and the conveying capacity of chain slat type cargo airplane is great, can be used to the article of transportation great load.

The chain plate conveyor device (the main classification number is B65G 17/06) provided by the publication number of CN109625783A comprises a plurality of vertically arranged upright columns, a rack is fixedly arranged at the upper end of each upright column, a driving shaft and a driven shaft are respectively and vertically arranged at two sides in the width direction in the rack, main chain wheels are respectively fixed at two ends of the driving shaft, one end of the driving shaft penetrates through the rear end part of each main chain wheel to be fixed with a driving chain wheel, the driving chain wheels are connected with a pneumatic motor through chains, and the pneumatic motor is fixedly arranged at the lower end of the rack; driven shaft both ends fixed respectively from the sprocket, main sprocket and follow the sprocket between all connect through the meshing of link joint chain, the link joint chain between all fix the link joint chain, this drag chain conveyor device, simple structure adopts the air supply drive, when the energy saving, can ensure conveyor's steady normal operating at any time, improves whole transport efficiency, be convenient for extensively promote and use.

However, the above device still has the following problems in the implementation process:

present link plate formula conveyer is mostly chain drive, is fixed connection between link plate and the chain, and if the heavy object pressure was on one side of link plate at the in-process of using, can make the link plate take place to incline, can form the side pulling force to the chain of one side for the chain skew, if untimely balancing the link plate, can lead to the condition that the chain derailed, danger very appearing in the in-process of transportation.

Disclosure of Invention

The present invention is directed to a slat conveyor to solve the above-mentioned problems of the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

a chain plate type conveyor comprises a fixing frame, a driving motor and chains, wherein a chain plate is fixedly connected between the two chains, the chains are driven by the driving motor, a stress plate is sleeved on the upper portion of the chain plate, one end of the stress plate is rotatably connected with the chain plate through a rotating block, and an inflation block is fixedly connected between the other end of the stress plate and the chain plate;

a driving cavity and a reaction cavity for inflating an inflation block are formed in the chain plate, and the reaction cavity is communicated with the inflation block through an air passage;

a mounting groove and a movable cavity are formed in the stress plate, a gear is rotatably arranged in the mounting groove, a movable plate is movably arranged in the movable cavity, and the movable plate and the inner wall of the movable cavity are fixedly connected with an electric push rod;

the portable leaf is inside to be seted up and to remove chamber and tooth alveolus, tooth alveolus inside is provided with the tooth with gear engagement, tooth and the first elastic block of tooth alveolus inner wall fixedly connected with, it is provided with the arm-tie to remove the inside activity of intracavity, fixedly connected with haulage rope between arm-tie and the tooth, activity chamber lateral wall fixedly connected with activity stretches into the stripper bar that removes the intracavity portion, swing contact between stripper bar and the arm-tie.

Preferably, the inside activity of drive chamber is provided with the actuating lever, actuating lever and drive intracavity wall fixedly connected with spring, the actuating lever activity stretches out swing joint between the one end and the atress board in drive chamber, drive intracavity portion is provided with the reaction piece, the drive intracavity portion is provided with the push rod that pushes away the reaction piece inside the reaction chamber, push rod and drive intracavity wall fixedly connected with second elastic block, push rod and actuating lever swing joint.

Preferably, the chain plate is internally provided with an air blocking cavity, the inner part of the air blocking cavity is provided with an air blocking plate which movably blocks the air passage, the air blocking plate and the inner wall of the air blocking cavity are fixedly connected with a third elastic block, the air blocking plate is provided with a clamping groove, and the air blocking plate is clamped by a clamping device.

Preferably, buckle device is including seting up at the inside just buckle chamber of link joint, through the passageway intercommunication between buckle chamber and the reaction chamber, the inside pressure valve that is provided with of passageway, buckle intracavity portion is provided with the kelly that the activity stretched into the draw-in groove, kelly and buckle intracavity wall fixedly connected with fourth elastic block, the kelly blocks the gas shield when not receiving external force.

Preferably, the atress board is close to the inside control chamber of having seted up in inflatable packer one side, the inside activity in control chamber is provided with the balance ball, balance ball and control intracavity wall fixedly connected with elastic rope, the control chamber is close to the fixed switch that is provided with and electric putter electric connection of activity intracavity one side inner wall, balance ball and switch cooperation control electric putter.

Preferably, an air pressure cavity communicated with the inflation block is formed in the stress plate, an air pressure plate is movably arranged in the air pressure cavity, a fifth elastic block is fixedly connected to the inner wall of the air pressure plate and the inner wall of the air pressure cavity, and the air pressure plate is fixedly connected with the movable plate through a pull rope.

Preferably, the gear has an inside installation cavity of having seted up, the inside dead lever that is provided with of installation cavity, dead lever swivelling joint has the fixed plate, fixed plate one end and installation cavity inner wall fixedly connected with sixth elastic block, fixed plate both ends fixedly connected with depression bar and faller respectively, the installation cavity is all stretched out in the activity of depression bar and faller.

Preferably, a reaction liquid is arranged in the reaction chamber, and the reaction block is contacted with the reaction liquid to generate gas.

Preferably, the reaction liquid is an aqueous solution, and the reaction block is sodium peroxide.

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

1. in the transportation process, when the transported object deviates to one side of the inflatable block, the transported object extrudes the stress plate, the stress plate drives the driving rod to move downwards, the driving rod extrudes the push rod, the push rod pushes the reaction block into the reaction cavity, the reaction block contacts with the reaction liquid to generate gas which enters the inflatable block and lifts the stress plate, so that one side of the transported object is higher than the other side, a certain gradient is formed, and the transported object on the side can conveniently slide to the other side;

2. after gas is generated in the reaction cavity, the gas channel is in a state blocked by the gas baffle, the gas in the reaction cavity is continuously gathered to form a high-pressure state, when the air pressure is high enough, the gas enters the bayonet cavity through the channel inflation pressure valve, the clamping rod is driven to exit the clamping groove, the gas baffle exits the gas channel under the action of the third elastic block, the high-pressure gas enters the inflatable block through the gas channel, so that the inflatable block is rapidly expanded, certain vibration is generated on the stress plate, and the sliding of transported objects is facilitated;

3. when the inflatable block expands to lift one end of the stress plate, the balance ball extrudes the switch under the action of gravity, the electric push rod drives the movable plate to do reciprocating motion, and the movable plate drives the gear to move by driving the teeth while moving, so that the transported object is continuously stirred to one side under the action of the gear;

4. in the process that the movable plate drives the gear to move through the teeth, the movable plate is in a reciprocating motion state under the action of the electric push rod, the movable plate drives the air pressure plate to do reciprocating motion through the pull rope, and the air pressure plate continuously extracts and fills air in the inflatable block while doing reciprocating motion, so that the inflatable block is continuously reduced and expanded, the stress plate is continuously vibrated while the gear is used for stirring a transported object, and the transported object is more convenient to move;

5. the gear is when the drive transportation thing, and when the gear contacted with the transportation thing, the extrusion depression bar of transportation thing, the depression bar lifts up the faller through the fixed plate, and the faller stretches out the installation cavity this moment, and the faller contacts with the transportation thing for the gear can be better stir the transportation thing.

When the transport object deviates to one side of the inflatable block in the using process, the transport object extrudes the stress plate to drive the driving rod to move downwards, the driving rod extrudes the push rod, the push rod pushes the reaction block into the reaction cavity, the reaction block is contacted with reaction liquid to generate gas, the gas baffle is in a state of blocking the gas passage at the moment, the gas in the reaction cavity is continuously gathered to form a high-pressure state at the moment, the high-pressure gas rushes open the pressure valve through the channel to enter the inner part of the bayonet cavity to drive the clamping rod to exit the clamping groove, the gas baffle exits the gas passage at the moment, the high-pressure gas in the reaction cavity rapidly enters the inflatable block to lift one side of the stress plate to form a certain gradient, the inflatable block is rapidly expanded through the high-pressure gas to provide certain vibration for the stress plate, the movable plate is driven to do reciprocating motion by the electric push rod after one end of the stress plate is lifted, the movable plate drives the gear to rotate through the teeth, so that the transport object is stirred by the gear, and the movable plate is driven to do reciprocating motion through the pull rope, so that the pressure rod and the fixed plate can be matched with the transport object when the transport object is stirred, and the transport object can be more well transported.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the link plate of the present invention;

FIG. 3 is a schematic view of the internal structure of the stress plate of the present invention;

FIG. 4 is a top view of the force-bearing plate of the present invention;

FIG. 5 is a schematic view of the internal structure of the movable plate of the present invention;

FIG. 6 is a schematic view of the internal structure of the gear of the present invention;

FIG. 7 is a view showing a state in which the transported object is pressed to one side;

fig. 8 is a schematic view of the balance adjustment of the force-bearing plate of the present invention.

In the figure: 1 fixed frame, 2 driving motor, 3 chain, 4 chain plate, 5 stress plate, 6 rotary block, 7 inflation block, 8 driving cavity, 9 reaction cavity, 10 air channel, 11 mounting groove, 12 movable cavity, 13 gear, 14 movable plate, 15 electric push rod, 16 moving cavity, 17 tooth groove, 18 tooth, 19 first elastic block, 20 pull plate, 21 traction rope, 22 extrusion rod, 23 driving rod, 24 spring, 25 reaction block, 26 push rod, 27 second elastic block, 28 air blocking cavity, 29 air blocking plate, 30 third elastic block, 31 clamping groove, 32 clamping cavity, 33 channel, 34 pressure valve, 35 clamping rod, 36 fourth elastic block, 37 control cavity, 38 balance ball, 39 elastic rope, 40 switch, 41 air pressure cavity, 42 air pressure plate, 43 fifth elastic block, 44 pull rope, 45 mounting cavity, 46 fixed rod, 47 fixed plate, 48 sixth elastic block, 49 pressure rod, 50 needle plate.

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. 1-8, the present invention provides a technical solution:

a chain plate type conveyor comprises a fixing frame 1, a driving motor 2 and chains 3, wherein the driving motor 2 is fixed on the fixing frame 1, a chain plate 4 is fixedly connected between the two chains 3, the chain plate 4 moves along with the two chains 3, the chains 3 are driven by the driving motor 2, the motors 2 drive the chains 3 to move through gears meshed with the chains 3, a stress plate 5 is sleeved on the upper portion of the chain plate 4, a concave shape is formed below the stress plate 5 and sleeved on the chain plate 4, it is ensured that a conveyed object does not enter a gap between the stress plate 5 and the chain plate 4 in the conveying process, one end of the stress plate 5 is rotatably connected with the chain plate 4 through a rotating block 6, the rotating block 6 can be a supporting rod, the upper end of the supporting rod is rotatably connected with the stress plate 5 through a hinge, the lower end of the supporting rod is connected with the chain plate 3 through a hinge, in the using process, the rotating block 6 is not limited to the structure disclosed in the embodiment, as long as the stress plate 5 can be rotated around one end of the rotating block 6, the other end of the stress plate 5 is fixedly connected with the chain plate 4, when a certain pressure bearing block 7 is in the conveying process, the initial pressure block 5, and the other end of the stress plate 5 is in the conveying process, and the initial pressure block 7, when a certain pressure is in the initial state, the pressure state, the stress block 5, and the pressure block is in the pressure state;

the first embodiment is as follows:

a driving cavity 8 and a reaction cavity 9 for inflating the inflation block 7 are formed in the chain plate 4, gas generated by chemical reaction between the driving cavity 8 and the reaction cavity 9 inflates the inflation block 7, the reaction cavity 9 is communicated with the inflation block 7 through an air passage 10, and a one-way valve is arranged in the air passage 10;

the stress plate 5 is internally provided with a mounting groove 11 and a movable cavity 12, a gear 13 is rotatably arranged in the mounting groove 11, the number of the mounting groove 11 and the number of the gear 13 can be multiple, one side of the gear 13 extends out of the mounting groove 11 to the surface of the stress plate to be in movable contact with subsequent transported objects, the other side of the gear 13 extends into the movable cavity 12 to be in meshing movable contact with teeth 18 on the subsequent movable plate 14, the movable plate 14 is movably arranged in the movable cavity 12, the inner walls of the movable plate 14 and the movable cavity 12 are fixedly connected with an electric push rod 15, and the electric push rod 15 drives the movable plate 14 to do rapid reciprocating motion;

the movable plate 14 is internally provided with a moving cavity 16 and a tooth socket 17, the tooth socket 17 is internally provided with teeth 18 meshed with the gear 13, the inner walls of the teeth 18 and the tooth socket 17 are fixedly connected with a first elastic block 19, the moving cavity 16 is internally and movably provided with a pull plate 20, a traction rope 21 is fixedly connected between the pull plate 20 and the teeth 18, the side wall of the movable cavity 12 is fixedly connected with a squeezing rod 22 movably extending into the moving cavity 16, the squeezing rod 22 is movably contacted with the pull plate 20, when the movable plate 14 is driven by the electric push rod 15 to do reciprocating motion, the movable plate 14 drives the teeth 18 to be contacted with the gear 13 at the time when the movable plate 14 moves to the left side, the drive gear 13 moves, then the electric push rod 15 continues to drive the movable plate 14 to move to the left side, the squeezing rod 22 extends into the moving cavity 16 to be contacted with the pull plate 20 to squeeze the pull plate 20, the pull plate 20 pulls the teeth 18 through the traction rope 21, so that the teeth 18 compress the teeth 18, the teeth 19 retract into the tooth socket 17, then the electric push rod 15 drives the tooth socket 14 to do reset motion, the tooth 14 to the right, the movable plate 14 does not move, and the tooth 14 can be separated from the tooth during the reset process, and the tooth reset process of the tooth of the electric push rod 14.

Example two:

on the basis of the first embodiment, considering that when the transported object is deflected to one side, the inflation block 7 needs to be inflated at this time, so as to adjust the chain plate 4 and the stress plate 5, after the adjustment of the chain plate 4 and the stress plate 5 is completed, the inflation block 7 is deflated by an external device, the external device for deflating the inflation block 7 can be an electromagnetic valve, the electromagnetic valve is a B110C40V115 electromagnetic valve produced by COSYS corporation, the inflation block 7 is provided with an air outlet hole, the air outlet hole is controlled by the electromagnetic valve, the electromagnetic valve is controlled by a pressure sensor fixedly arranged on the stress plate 5, the pressure sensor is a miniature pressure sensor produced by honeywell international corporation, the pressure sensor is arranged in the middle position of the stress plate 5, when the goods on the stress plate 5 are adjusted from one side to the middle position, the goods squeeze the pressure sensor, the pressure sensor controls the electromagnetic valve to open, at the moment, the gas in the inflatable block 7 is released, so that when the goods are adjusted to the middle position of the stress plate 5, the balanced state can be maintained, when some heavier objects are transported, the device which is externally used for deflating the inflatable block 7 can also be manually controlled by the electromagnetic valve, when an operator sees that the stress plate 5 is adjusted to the balanced state from the inclined state, the electromagnetic valve can be opened, so that the gas in the inflatable block 7 is released, the driving cavity 8 is movably provided with the driving rod 23, the driving rod 23 and the inner wall of the driving cavity 8 are fixedly connected with the spring 24, one end of the driving rod 23, which movably extends out of the driving cavity 8, is movably contacted with the stress plate 5, a certain distance is reserved between the driving rod 23 and the stress plate 5, when the stress plate 5 moves downwards, the stress plate 5 is contacted with the driving rod 23, thereby drive actuating lever 23, the inside reaction piece 25 that is provided with of drive chamber 8, reaction piece 25 can be supplied with by an external control's continuous feeding device, it can be electronic control's control lever to change feeding device, want reaction piece 25 of the inside propelling movement of drive chamber 8 at every turn, thereby make and change the device and can repeat repetitious usage, drive chamber 8 inside is provided with the push rod 26 that pushes reaction piece 25 into the inside of reaction chamber 9, push rod 26 and the 8 inner walls of drive chamber form airtight space, the inside gas that produces of reaction chamber 9 can be blocked by push rod 26, push rod 26 and actuating lever 23 contact surface are domatic, can not block when guaranteeing the two extrusion, push rod 26 and the 8 inner walls fixedly connected with second elastic block 27 in drive chamber, push rod 26 and actuating lever 23 active contact.

Example three:

on the basis of the second embodiment, it is considered that if gas generated inside the reaction chamber 9 enters the inside of the air-filled block 7 directly, at this time, the air-filled block 7 is a slow expansion process, but if gas generated inside the reaction chamber 9 can enter the inside of the air-filled block 7 quickly in a high-pressure state, the air-filled block 7 can expand quickly, the quick expansion can generate a vibration effect when the stress plate 5 is lifted, at this time, the stress plate 5 can be adjusted for a transported object while being lifted, the air blocking chamber 28 is formed inside the chain plate 4, the air blocking plate 29 for movably blocking the air passage 10 is arranged inside the air blocking chamber 28, the third elastic block 30 is fixedly connected to the inner walls of the air blocking plate 29 and the air blocking chamber 28, the air blocking plate 29 in an initial state is in a state for blocking the air passage 10, at this time, the third elastic block 30 is in a stretching state, when the subsequent fastening device does not fasten the air blocking plate 29, at this time, the air blocking plate 29 exits from the air passage 10 under the effect of the third elastic block 30, the air blocking plate 29, the air blocking groove 31 is formed on the air blocking plate 29, and the air blocking plate 29 is fastened by the fastening device.

Example four:

on the basis of the third embodiment, the structure of the fastening device in the third embodiment is disclosed, the fastening device comprises a fastening cavity 32 which is arranged inside the chain plate 4, the fastening cavity 32 is communicated with the reaction cavity 9 through a channel 33, a pressure valve 34 is arranged inside the channel 33, the pressure valve 34 is an ultra-micro pressure safety relief valve which is manufactured by industrial and constant valve limited and has the model of AQK18-02, when the air pressure inside the reaction cavity 9 reaches the design air pressure of the pressure valve 34, the air inside the reaction cavity 9 can enter the fastening cavity 32 through the pressure valve 34 at the moment, a clamping rod 35 which movably extends into the clamping groove 31 is arranged inside the fastening cavity 32, a closed space is formed inside the clamping rod 35 and the fastening cavity 32, the air entering the fastening cavity 32 can drive the clamping rod 35 to move, the clamping rod 35 and a fourth elastic block 36 are fixedly connected to the inner walls of the clamping rod 35 and the fastening cavity 32, and the air blocking plate 29 is blocked by the clamping rod 35 when external force is not applied.

Example five:

considering that when the force-bearing plate 5 is lifted by the inflatable block 7, the adjustment efficiency of the gear 13 for the transported object during the intervention is higher, in this embodiment, by controlling the electric push rod 15, a control cavity 37 is formed inside the force-bearing plate 5 near the inflatable block 7, a balance ball 38 is movably arranged inside the control cavity 37, when the force-bearing plate 5 is horizontal, the force applied to the balance ball 38 is vertically downward and does not generate deviation, an elastic rope 39 is fixedly connected to the inner wall of the balance ball 38 and the control cavity 37, a switch 40 electrically connected to the electric push rod 15 is fixedly arranged on the inner wall of the control cavity 37 near the movable cavity 12, the electric push rod 15 is powered by an external power supply, the electric push rod 15 and the switch 40 are electrically connected through a wire, the balance ball 38 and the switch 40 are matched to control the electric push rod 15, and when the balance ball 38 presses the switch 40, the electric push rod 15 starts to work when being powered on.

Example six:

on the basis of the first embodiment, when the air charging block 7 raises one end of the stress plate 5, the gear 13 starts to stir the transported object to adjust the transported object, but rapid adjustment is difficult to achieve only by stirring the gear 13, in the present embodiment, the air charging block 7 is continuously charged and discharged to enable the air charging block 7 to drive the stress plate 5 to continuously vibrate and then combine with the raised gradient, so as to adjust the transported object more rapidly, the stress plate 5 is internally provided with the air pressure cavity 41 communicated with the air charging block 7, the air pressure cavity 41 is communicated with the air charging block 7 through a hose, the air pressure plate 42 is movably arranged in the air pressure cavity 41, the air pressure plate 42 and the air pressure cavity 41 form a closed space, the inner walls of the air pressure plate 42 and the air pressure cavity 41 are fixedly connected with the fifth elastic block 43, the air pressure plate 42 and the movable plate 14 are fixedly connected through the pull rope 44, the air pressure plate 42 is driven by the movable plate 14, because the movable plate 14 is driven by the electric push rod 15 to reciprocate, the air pressure plate 42 drives the movable plate 14 to reciprocate, and the movable plate 42 to reciprocate along with the movable plate 14.

Example seven:

on the basis of the fifth embodiment, considering that the transportation object is only shifted through the gear 13, there may be a situation that the transportation object cannot be shifted by slipping, in this embodiment, by setting the needle plate 50 inside the gear 13, so that the needle plate 50 extends out of the gear 13 when shifting, and contacts with the transportation object, the transportation object is better shifted, the installation cavity 45 has been seted up inside the gear 13, the inside of the installation cavity 45 is provided with the fixing rod 46, the fixing rod 46 is rotatably connected with the fixing plate 47, the fixing rod 46 may be an L-shaped rod, the fixing plate 47 is provided with a rotating hole for the fixing rod 46 to extend into, such setting may enable the fixing plate 47 to rotate around the fixing rod 46 part inside the rotating hole, one end of the fixing plate 47 and the inner wall of the installation cavity 45 are fixedly connected with the sixth elastic block 48, two ends of the fixing plate 47 are respectively fixedly connected with the

pressure rods

49 and 50, and both ends of the needle plate 49 and the needle plate 50 both movably extend out of the installation cavity 45.

Specifically, the reaction chamber 9 is provided therein with a reaction solution, and the reaction block 25 contacts with the reaction solution to generate gas.

Specifically, the reaction solution is an aqueous solution, the reaction block 25 is sodium peroxide, and the amount of the sodium peroxide and the volume of the aqueous solution can be appropriately controlled according to the required gas pressure, and can be selected according to actual conditions.

This design has realized carrying out timely adjustment to the transportation thing when transportation thing is partial to the left side skew, if need adjust the transportation thing partial to the right side condition, can with the structural symmetry change limit in this device.

The working principle is as follows: in the using process, if the transported substance is deviated to one side of the inflatable block 7, the transported substance extrudes the stress plate 5, the stress plate 5 moves downwards to extrude the driving rod 23, so that the driving rod 23 moves downwards to extrude the push rod 26, at the moment, the push rod 26 pushes the reaction block 25 into the reaction cavity 9, and the reaction block 25 is contacted with the reactant to generate a large amount of gas;

at the moment, the gas baffle plate 29 is in a state of blocking the gas channel 10, at the moment, gas inside the reaction chamber 9 is continuously gathered to form a high-pressure state, when the gas pressure inside the reaction chamber 9 is enough large, the gas rushes the pressure valve 34 through the channel 33 and enters the buckle chamber 32, the driving clamping rod 35 is driven to exit the clamping groove 31, at the moment, the gas baffle plate 29 exits the gas channel 10 under the action of the third elastic block 30, at the moment, the high-pressure gas inside the reaction chamber 9 rapidly enters the inflatable block 7, the inflatable block 7 rapidly expands, one end of the stress plate 5 is lifted, so that the stress plate 5 forms a certain gradient to facilitate the movement of the transported object, the inflatable block 7 rapidly expands under the action of the high-pressure gas to provide certain vibration for the stress plate 5, and the transported object can slide for a certain distance under the gradient and vibration;

when the inflatable block 7 expands to lift one end of the stress plate 5, the balance ball 38 deflects under the action of gravity to press the switch 40, at the moment, the electric push rod 15 starts to work to drive the movable plate 14 to do reciprocating motion, the movable plate 14 drives the teeth 18 to move, the driving gear 13 rotates to stir a transported object, the movable plate 14 drives the teeth 18 to do reciprocating motion, and the teeth 18 are in a state of retracting into the tooth sockets 17 when the movable plate 14 resets through the matching between the extrusion rod 22 and the pulling plate 20, so that the movement of the driving gear 13 is avoided when the movable plate 14 resets;

in the process of reciprocating the movable plate 14, the pressure plate 42 is driven to reciprocate by the pull rope 44, so that the inflation block 7 is continuously deflated and inflated, and the inflation block 7 is continuously deflated and inflated to provide certain vibration for the stress plate 5, thereby facilitating the movement of transported objects;

when gear 13 rotates and stirs the transportation thing, transportation thing extrusion depression bar 49 for depression bar 49 moves down extrusion fixed plate 47, and fixed plate 47 one end begins to be raised and pushes up the ejecting installation cavity of faller 50 this moment, through faller 50 and the contact of transportation thing, can be better stir the transportation thing.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various 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 a chain slat type conveyer, includes mount (1), driving motor (2) and chain (3), two fixedly connected with link joint (4) between chain (3), chain (3) are by driving motor (2) drive, its characterized in that: the upper part of the chain plate (4) is sleeved with a stress plate (5), one end of the stress plate (5) is rotatably connected with the chain plate (4) through a rotating block (6), and an inflating block (7) is fixedly connected between the other end of the stress plate (5) and the chain plate (4);

a driving cavity (8) and a reaction cavity (9) for inflating the inflation block (7) are formed in the chain plate (4), and the reaction cavity (9) is communicated with the inflation block (7) through an air passage (10);

a mounting groove (11) and a movable cavity (12) are formed in the stress plate (5), a gear (13) is rotatably arranged in the mounting groove (11), a movable plate (14) is movably arranged in the movable cavity (12), and electric push rods (15) are fixedly connected to the inner walls of the movable plate (14) and the movable cavity (12);

the utility model discloses a portable electric cooker, including fly leaf (14), tooth alveolus (17), the inside tooth (18) that is provided with and gear (13) meshing of tooth alveolus (17), first elastic block (19) of tooth (18) and tooth alveolus (17) inner wall fixedly connected with, the inside activity in removal chamber (16) is provided with arm-tie (20), fixedly connected with haulage rope (21) between arm-tie (20) and tooth (18), movable chamber (12) lateral wall fixedly connected with activity stretches into the inside stripper bar (22) in removal chamber (16), swing joint between stripper bar (22) and arm-tie (20).

2. A slat conveyor according to claim 1, wherein: drive chamber (8) inside activity is provided with actuating lever (23), actuating lever (23) and drive chamber (8) inner wall fixedly connected with spring (24), the activity contact between one end and atress board (5) that drive chamber (8) were stretched out in actuating lever (23) activity, drive chamber (8) inside is provided with reaction piece (25), drive chamber (8) inside is provided with and pushes away reaction piece (25) push rod (26) inside reaction chamber (9), push rod (26) and drive chamber (8) inner wall fixedly connected with second elastic block (27), push rod (26) and actuating lever (23) activity contact.

3. A slat conveyor according to claim 2, wherein: the novel chain plate structure is characterized in that an air blocking cavity (28) is formed in the chain plate (4), an air blocking plate (29) which movably blocks the air channel (10) is arranged in the air blocking cavity (28), a third elastic block (30) is fixedly connected to the inner wall of the air blocking plate (29) and the inner wall of the air blocking cavity (28), a clamping groove (31) is formed in the air blocking plate (29), and the air blocking plate (29) is clamped by a clamping device.

4. A slat conveyor according to claim 3, wherein: buckle device is including offering buckle chamber (32) in link joint (4) inside and, communicate through passageway (33) between buckle chamber (32) and reaction chamber (9), passageway (33) inside is provided with pressure valve (34), buckle chamber (32) inside is provided with card pole (35) that the activity stretched into draw-in groove (31), card pole (35) and buckle chamber (32) inner wall fixedly connected with fourth elastic block (36), card pole (35) block gas board (29) when not receiving external force.

5. A slat conveyor according to claim 1, wherein: stress plate (5) are close to and aerify inside control chamber (37) of having seted up in piece (7) one side, control chamber (37) inside activity is provided with balance ball (38), balance ball (38) and control chamber (37) inner wall fixed connection have elastic rope (39), control chamber (37) are close to activity chamber (12) one side inner wall fixed be provided with electric putter (15) electric connection's switch (40), balance ball (38) and switch (40) cooperation control electric putter (15).

6. A slat conveyor according to claim 1, wherein: an air pressure cavity (41) communicated with the inflatable block (7) is formed in the stress plate (5), an air pressure plate (42) is movably arranged in the air pressure cavity (41), the inner walls of the air pressure plate (42) and the air pressure cavity (41) are fixedly connected with a fifth elastic block (43), and the air pressure plate (42) and the movable plate (14) are fixedly connected through a pull rope (44).

7. A slat conveyor according to claim 1, wherein: gear (13) inside has seted up installation cavity (45), installation cavity (45) inside is provided with dead lever (46), dead lever (46) swivelling joint has fixed plate (47), fixed plate (47) one end and installation cavity (45) inner wall fixedly connected with sixth elastic block (48), fixed plate (47) both ends are fixedly connected with depression bar (49) and faller (50) respectively, installation cavity (45) is stretched out in depression bar (49) and equal activity of faller (50).

8. A slat conveyor according to claim 2, wherein: reaction liquid is arranged in the reaction cavity (9), and the reaction block (25) is in contact with the reaction liquid to generate gas.

9. A slat conveyor according to claim 8, wherein: the reaction liquid is aqueous solution, and the reaction block (25) is sodium peroxide.