CN212954921U - Automatic production system for producing organic fertilizer by recycling waste resources - Google Patents

Abstract

The utility model relates to a fertilizer production field especially relates to an automatic production system of discarded object resource recycling production fertilizer, including automatic blending device, heat preservation fermenting installation, automatic weighing sack filling device and automatic conveying device, automatic blending device includes that system weighs mixes blending box and system's agitator tank, heat preservation fermenting installation is including setting up in the airtight fermentation vat cell body of system's agitator tank discharge gate below, locate turning over throwing device and temperature sensor in the cell body, automatic weighing device is two discharge gates departments that are located the fermentation vat cell body respectively for two, automatic conveying device collects band conveyer including the first branch band conveyer that is located two automatic weighing sack filling device belows, the second branch band conveyer and band conveyer. The utility model provides a system automatic control raw materials adds ratio, stirring, the automatic temperature measurement of fermentation and forms automatic production line, saves space and labour saving and time saving.

Description

Automatic production system for producing organic fertilizer by recycling waste resources

Technical Field

The utility model relates to a fertilizer production technical field especially relates to an automatic production system of waste resource recycling production fertilizer.

Background

Animal waste and crop straws produced by the breeding industry are used as organic fertilizers, so that the environmental pollution is reduced, the growth of crops is facilitated, and the erosion to soil is reduced. The adding of various raw materials and element has certain proportion during fertilizer production, and need stir evenly after adding, otherwise will influence the quality and the efficiency of fertilizer, and current technique generally controls the adding through the manual work, and is more time-consuming and laboursome, and the stirring after adding is not even enough moreover to can not form automatic production line, need advance to transport by turns many times, not only occupation space but also waste time and energy.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an automatic production system of fertilizer is produced in waste resource recycling that automatic control raw materials adds ratio, stirring, fermentation automatic temperature measurement and form automatic production line, save space and labour saving and time saving is provided.

The utility model discloses a realize through following technical scheme:

an automatic production system for producing organic fertilizer by recycling waste resources comprises an automatic blending device, a heat preservation fermentation device, an automatic weighing bagging device and an automatic conveying device, wherein the automatic blending device comprises a system weighing blending box and a system stirring box, a supporting frame is fixedly arranged on the upper portion of the system stirring box, a plurality of weighing sensors are arranged on the supporting frame, the system weighing blending box is positioned above the system stirring box and is arranged at the top of each weighing sensor, an adding bacteria inlet and a nitrogen water inlet are formed in the top of the system weighing blending box, a crushed straw feeding port and a bottom opening are formed in the side portion of the system weighing blending box, a slot is formed in the inner wall of the lower portion of the system weighing blending box, a jack is formed in one side of the system weighing blending box, a plugboard is inserted in the jack and the slot, the nitrogen water inlet is communicated with a nitrogen water tank through a nitrogen water, broken straw feed inlet passes through the discharge gate intercommunication of bellows and lifting machine, installs nitrogen water electric control valve door on the nitrogen water pipe, adds and installs on the fungus pipe and add fungus electric control valve door, and weighing sensor's output passes through the cable with the input of controller to be connected, and the output of controller respectively with promote the motor, add between fungus electric control valve door and the nitrogen water electric control valve door through the cable connection, the top of system weighing confession incasement is installed and is divided the water drum, divided the water drum includes fixed disk and movable disc, fixed disk and system weighing confession case fixed connection that mixes, it includes bottom plate and lateral wall, a plurality of spray holes have been seted up on the bottom plate, the movable disc is installed on the bottom plate through the movable disc pivot, has seted up a plurality of spray holes on the movable disc, the movable disc pivot is rotatory by movable disc motor drive, install rabbling mechanism in the system agitator tank, heat preservation fermenting installation is including setting up airtight fermentation pool cell, Locate turning over throwing device and temperature sensor in the pond, one side of fermentation vat cell body has the guide rail along fermentation vat cell body extending direction fixed mounting, installs horizontal pneumatic telescopic link cylinder through the slider on the guide rail, horizontal pneumatic telescopic link cylinder drive passes the horizontal pneumatic telescopic link of fermentation vat cell body lateral wall and stretches out and draws back, and the free end fixed mounting of horizontal pneumatic telescopic link has vertical pneumatic telescopic link cylinder, and vertical pneumatic telescopic link cylinder drive vertical pneumatic telescopic link is flexible, temperature sensor installs in the bottom of vertical pneumatic telescopic link, the slider is moved along the guide rail by slider motor drive, fermentation vat cell body bottom sets up two discharge gates, automatic weighing device bag is two respectively to be located two discharge gates department of fermentation vat cell body, automatic conveying device includes the first branch band conveyer that is located two automatic weighing sack filling devices below, Second branch band conveyer and collect band conveyer, first branch band conveyer and second branch band conveyer parallel arrangement collect band conveyer's head end and locate second branch band conveyer's end, are equipped with between first branch band conveyer end and the head end that collects band conveyer and are connected band conveyer, first branch band conveyer's end is installed and is pushed away the bagging apparatus, and last fixed mounting of second branch band conveyer has door style of calligraphy to keep off the bag frame, and second branch band conveyer and the terminal outside of connecting band conveyer fixed mounting respectively have first baffle and second baffle, and first commentaries on classics bag bearing roller and second commentaries on classics bag bearing roller are installed to the inboard, first branch band conveyer is terminal, the head end that collects band conveyer respectively fixed mounting have first infrared sensor and second infrared sensor, first infrared sensor and second infrared sensor's output passes through the cable connection with the input of controller respectively And the control end of the controller is respectively connected with the bag pushing device and a motor of the second branch belt conveyor through cables.

Further, system agitator tank open-top and weigh with the system and mix the case relatively, system agitator tank bottom is equipped with the discharge gate, rabbling mechanism includes a pair of horizontally spiral (mixing) shaft, a pair of horizontally spiral (mixing) shaft respectively with install a pair of intermeshing's outside the system agitator tank driving gear and the coaxial setting of driven gear, the driving gear is driven by agitator motor, and it is rotatory to drive two spiral (mixing) shafts simultaneously through a motor, has reduced and has purchased quick-witted cost and operation cost.

Furthermore, observation windows are respectively arranged on the system weighing and mixing box and the system stirring box.

Furthermore, a handle is fixedly arranged at the end part of the inserting plate.

Further, a touch switch is fixedly mounted on the horizontal pneumatic telescopic cylinder, touch plates are respectively and fixedly mounted at two ends of the guide rail and connected with a controller, and the controller receives information of the touch switch and controls starting, stopping and forward and reverse rotation of the sliding block motor.

Furthermore, the horizontal pneumatic telescopic rod and the vertical pneumatic telescopic rod are respectively composed of a plurality of sections of movable cylinder bodies, and a piston rod of the horizontal pneumatic telescopic rod cylinder and a piston rod of the vertical pneumatic telescopic rod cylinder are respectively connected with the plurality of sections of movable cylinder bodies.

Further, the bag pushing device comprises a support frame, a push plate and a bag pushing cylinder, wherein the support frame is fixedly connected with the first branch belt conveyor rack, the support frame comprises two side plates and a connecting plate connected between the two side plates, the push plate is hinged between the two side plates, the bag pushing cylinder is fixedly installed on the connecting plate, and the end part of a connecting rod of the cylinder is hinged with the lower part of the push plate.

The beneficial effects of the utility model

The utility model provides an automatic production system of discarded object resource recycle production fertilizer, earlier the garrulous straw enters into the system from the garrulous straw feed inlet of system weighing mixing case lateral part and mixes the incasement, because system agitator tank upper portion fixed mounting has the support frame, install a plurality of weighing sensor on the support frame, system weighing mixes the case and is located system agitator tank top and installs in the weighing sensor top, just can automatic weighing play the garrulous straw weight of joining in the system weighing mixing incasement through weighing sensor, weighing sensor gives the controller with information transfer, when reaching and setting for the weight, the controller will control lifting machine motor and stop the material loading, then add nitrogen water or add the fungus, the additive that is about to add one by one and automatic weighing, can automatic control nitrogen water, add the interpolation of fungus and garrulous straw, time and labor saving, and the ratio is more accurate.

Meanwhile, because the water diversion disc comprises a fixed disc and a movable disc, the fixed disc is fixedly connected with the system weighing and mixing box and comprises a bottom plate and a side wall, a plurality of spraying holes are arranged on the bottom plate, the movable disc is arranged on the bottom plate through a movable disc rotating shaft, the movable disc rotating shaft is driven by a movable disc motor to rotate, in the additive adding process, the movable disc and the through hole on the bottom plate are arranged in a staggered way, after the additive is added, the additive does not directly fall on the crushed straw but stays in the water diversion disc without falling, and the mixing can be carried out in the water diversion disc due to the liquidity of liquid, when the additive is added through automatic weighing, the movable disc is driven by the movable disc motor to rotate relative to the fixed disc, the flowing of the additive can be further promoted, the additive is uniformly stirred, and when the spraying holes on the bottom plate of the movable disc and the fixed disc are opposite to each other due, the additive flows out along the spraying holes and falls onto the crushed straws, so that the additive and the crushed straws are pre-mixed, the movable disc motor returns to the original position after the additive is sprayed, the inserting plate is pulled out, the crushed straws fall into the system stirring box from the system weighing and mixing box, and then are stirred by the stirring mechanism, so that the additive and the crushed straws are stirred uniformly, and the quality of the organic fertilizer is ensured.

The organic fertilizer raw materials are mixed and stirred and then enter a closed fermentation tank, the organic fertilizer raw materials are repeatedly turned and thrown for fermentation by a turner, a vertical pneumatic telescopic rod cylinder acts to drive a temperature sensor to move up and down to detect the organic fertilizer temperature in different height directions of the fermentation tank, a horizontal pneumatic telescopic rod cylinder acts to drive the temperature sensor to move left and right to detect the organic fertilizer temperature in different width directions of the fermentation tank, a slide block motor drives a slide block to move along a guide rail and can drive the temperature sensor to move along the length direction of a fermentation tank body of the fermentation tank, so that the organic fertilizer temperature in different length directions of the fermentation tank can be detected, the whole tank body can be provided with only one sensor, the omnibearing organic fertilizer temperature detection can be realized, the cost is low, and when the organic fertilizer is turned, the horizontal pneumatic telescopic rod is contracted to the shortest, so that the vertical pneumatic telescopic, the fermentation tank is convenient to turn over and throw.

After fermentation is finished, weighing and bagging are carried out from the two discharge ports of the fermentation tank through the automatic weighing and bagging device, the fermentation tank can be conveyed by the two branch belt conveyors and then converged on the converging section belt conveyor, and the fermentation tank is conveyed to a stacking machine to be stacked and then conveyed away, so that the production efficiency is high, and the waiting time of equipment on a production line is not too long or the idle running is not caused. And carry the push away bagging apparatus department when first infrared sensor senses the fertilizer wrapping bag, first infrared sensor will give the controller with information transfer, and the controller receives that first infrared sensor will control corresponding push away the action of bag cylinder to make push pedal upper portion inwards take place the upset, push away the fertilizer wrapping bag to the inboard side, the wrapping bag will be automatic to be changed to and continue transporting forward on connecting the band conveyer. And when having the wrapping bag to transport door style of calligraphy fender bag frame department on the second branch band conveyer, because door style of calligraphy fender bag frame highly be less than the height of wrapping bag, the wrapping bag will be vertically pushed away and continue to move forward along second branch band conveyer, and need not to push away a bagging apparatus, moreover, the steam generator is simple in structure, low cost, and the pressure of changeing the bagging apparatus has been alleviateed, and because the equal fixed mounting in second branch band conveyer and the terminal outside of connecting band conveyer has the baffle, the inboard is installed and is changeed a bag bearing roller, the commentaries on classics bag that makes the wrapping bag is more reliable, it is more convenient to transport.

When the second infrared sensor senses that the packaging bags are conveyed at the tail end of the connecting belt conveyor, information is transmitted to the controller, the controller receives the information and then controls the motor of the second branch belt conveyor to stop running, the packaging bags to be connected on the belt conveyor are conveyed to the collecting belt conveyor and then control the second branch belt conveyor to continue running, and therefore the packaging bags are prevented from being blocked at the joint, and the conveying process is more reliable. The whole production line does not need to be transported repeatedly, saves space, basically realizes automatic production, and is time-saving, labor-saving and high in efficiency.

Drawings

Fig. 1 is a schematic diagram of the system structure of the present invention.

Fig. 2 is a schematic view of the structure of the automatic mixing device.

Fig. 3 is a schematic top view of the stirring mechanism.

FIG. 4 is a schematic top view of the thermal insulation fermentation apparatus.

FIG. 5 is a schematic view of the heat-insulating fermentation device.

Fig. 6 is a schematic structural view of the automatic conveying device.

In the figure, 1, a discharge hole, 2, a system stirring box, 3, a support frame, 4, an inserting plate, 5, a handle, 6, a crushed straw feeding hole, 7, a nitrogen water electric control valve, 8, a nitrogen water inlet, 9, a movable disc motor, 10, a bacterium adding inlet, 11, a bacterium adding electric control valve, 12, a system weighing mixing box, 13, a weighing sensor, 14, an observation window, 15, a movable disc, 16, a fixed disc, 17, an inserting groove, 18, a spiral stirring shaft, 19, a driving gear, 20, a stirring motor, 21, a driven gear, 22, a fermentation tank body, 23, a guide rail, 24, a touch plate, 25, a horizontal pneumatic telescopic rod cylinder, 26, a touch switch, 27, a sliding block, 28, a horizontal pneumatic telescopic rod, 29, a vertical pneumatic telescopic rod, 30, a vertical pneumatic telescopic rod, 31. the automatic weighing and bagging device comprises a temperature sensor, 32 a turning and throwing device, 33 a first branch belt conveyor, 34 a first infrared sensor, 35 an air cylinder, 36 a connecting plate, 37 a side plate, 38 a push plate, 39 a connecting belt conveyor, 40 a second branch belt conveyor, 41 a door-shaped bag blocking frame, 42 a first bag turning carrier roller, 43 a second infrared sensor, 44 a second guide plate, 45 a collecting belt conveyor, 46 a second bag turning carrier roller, 47 a first guide plate and 48 an automatic weighing and bagging device.

Detailed Description

An automatic production system for producing organic fertilizer by recycling waste resources comprises an automatic blending device, a heat-preservation fermentation device, an automatic weighing and bagging device and an automatic conveying device.

The automatic blending device comprises a system weighing blending box 12 and a system stirring box 2, wherein a support frame 3 is fixedly arranged on the upper part of the system stirring box, a plurality of weighing sensors 13 are arranged on the support frame, the system weighing blending box is positioned above the system stirring box and is arranged at the top of each weighing sensor, an adding bacteria inlet 10 and a nitrogen water inlet 8 are arranged at the top of the system weighing blending box, a crushed straw feed inlet 6 and an opening are arranged at the side part of the system weighing blending box, a slot 17 is arranged on the inner wall of the lower part of the system weighing blending box, a jack is arranged at one side of the system weighing blending box, a plug board 4 is inserted in the jack and the slot, the nitrogen water inlet is communicated with a nitrogen water tank (not shown) through a nitrogen water pipe, the adding bacteria inlet is communicated with the adding bacteria proportioning box (not shown) through a bacteria adding pipe, the crushed straw feed, add and install on the fungus pipe and add fungus electrically controlled valve 11, weighing sensor's output passes through the cable with the input of controller and is connected, and the output of controller respectively with promote the motor, add between fungus electrically controlled valve and the nitrogen water electrically controlled valve through the cable connection.

The system weighs and thoughtlessly joins in marriage the top in the incasement and installs the water diversion disc, the water diversion disc includes fixed disk 16 and activity dish 15, fixed disk and system weigh and thoughtlessly join in marriage case fixed connection, and it includes bottom plate and lateral wall, a plurality of holes that spray have been seted up on the bottom plate, the activity dish is installed on the bottom plate through the activity dish pivot, has seted up a plurality of holes that spray on the activity dish, the activity dish pivot is rotatory by activity dish motor 9 drive, install rabbling mechanism in the system agitator tank.

The heat preservation fermentation device comprises a closed fermentation tank body 22 arranged below a discharge port of a stirring box of the system, a turning device 32 and a temperature sensor 31 arranged in the tank body, a guide rail 23 is fixedly arranged on one side of the fermentation tank body along the extension direction of the fermentation tank body, a horizontal pneumatic telescopic rod cylinder 25 is installed on the guide rail through a slider, a horizontal pneumatic telescopic rod 28 which penetrates through the side wall of the fermentation tank body is driven to stretch, a free end of the horizontal pneumatic telescopic rod is fixedly installed with a vertical pneumatic telescopic rod cylinder 29, the vertical pneumatic telescopic rod cylinder drives the vertical pneumatic telescopic rod 30 to stretch, the temperature sensor is installed at the bottom of the vertical pneumatic telescopic rod, the slider 27 is driven by a slider motor to move along the guide rail, the slider can be installed on a screw rod, and the motor drives the screw rod to.

The bottom of the fermentation tank body is provided with two discharge ports, the automatic weighing bagging device 48 comprises two first branch belt conveyors 33, two second branch belt conveyors 40 and a collecting belt conveyor 45 which are respectively positioned at the two discharge ports of the fermentation tank body, the first branch belt conveyors and the second branch belt conveyors are arranged in parallel, the head ends of the collecting belt conveyors are arranged at the tail ends of the second branch belt conveyors, a connecting belt conveyor 39 is arranged between the tail ends of the first branch belt conveyors and the head ends of the collecting belt conveyors, the tail ends of the first branch belt conveyors are provided with bag pushing devices, the second branch belt conveyors are fixedly provided with door-shaped bag blocking frames 41, the outer sides of the tail ends of the second branch belt conveyors and the connecting belt conveyors are respectively and fixedly provided with first guide plates 47 and second guide plates 44, the inboard is installed first commentaries on classics bag bearing roller 42 and second commentaries on classics bag bearing roller 46, the first branch band conveyer is terminal, the head end that collects band conveyer is fixed mounting respectively has first infrared sensor 34 and second infrared sensor 43, first infrared sensor and second infrared sensor's output passes through the cable with the input of controller respectively and is connected, and the control end of controller passes through the cable with the motor that pushes away bag device and second branch band conveyer respectively and is connected.

Further, system agitator tank open-top and weigh with the system and mix the case relatively, system agitator tank bottom is equipped with discharge gate 1, rabbling mechanism includes a pair of horizontally spiral (mixing) shaft 18, a pair of horizontally spiral (mixing) shaft respectively with install a pair of intermeshing's outside the system agitator tank driving gear 19 and the coaxial setting of driven gear 21, the driving gear is driven by agitator motor 20, and it is rotatory to drive two spiral (mixing) shafts simultaneously through a motor, has reduced purchase machine cost and running cost.

Furthermore, the observation windows 14 are respectively arranged on the system weighing mixing box and the system stirring box, so that the conditions in the system weighing mixing box and the system stirring box can be observed at any time, and problems can be conveniently found and timely treated.

Furthermore, the end part of the plug board is fixedly provided with a handle 5, so that the plug board can be conveniently plugged in and out and pulled out.

Further, a touch switch 26 is fixedly installed on the horizontal pneumatic telescopic cylinder, touch plates 24 are respectively and fixedly installed at two ends of the guide rail, the touch switch is connected with the controller, and the controller receives information of the touch switch and controls starting, stopping and forward and reverse rotation of the sliding block motor.

Furthermore, the horizontal pneumatic telescopic rod and the vertical pneumatic telescopic rod are respectively composed of a plurality of sections of movable cylinder bodies, and a piston rod of the horizontal pneumatic telescopic rod cylinder and a piston rod of the vertical pneumatic telescopic rod cylinder are respectively connected with the plurality of sections of movable cylinder bodies.

Further, the bag pushing device comprises a support frame fixedly connected with the first branch belt conveyor frame, a push plate 38 and a bag pushing cylinder 35, the support frame comprises two side plates 37 and a connecting plate 36 connected between the two side plates, the push plate is hinged between the two side plates, the bag pushing cylinder is fixedly installed on the connecting plate, and the end of a connecting rod of the cylinder is hinged with the lower portion of the push plate. When the wrapping bag transports pushing devices department, the cylinder moves, the connecting rod stretches out forward, the push pedal can push away the wrapping bag along the direction of connecting band conveyer, and direct direction transition along connecting band conveyer continues the transportation on connecting band conveyer, has reduced the later stage and has changeed the pressure of bag equipment, and labour saving and time saving.

The turning device and the automatic weighing device are in the prior art.

When fertilizer raw materials production, earlier the garrulous straw enters into the system from the garrulous straw feed inlet of system weighing mixing case lateral part and mixes the incasement, because system agitator tank upper portion fixed mounting has the support frame, install a plurality of weighing sensor on the support frame, system weighing mixing case is located system agitator tank top and installs in the weighing sensor top, just can automatic weighing out the garrulous straw weight of joining in system weighing mixing incasement through weighing sensor, weighing sensor gives the controller with information transfer, when reaching and setting for weight, the controller will control lifting machine motor and stop the material loading, then add nitrogen water or add the fungus, the one-by-one addition and the automatic weighing of additive that will add, can automatic control nitrogen water, add the interpolation of fungus and garrulous straw, time saving and labor saving, and the ratio is more accurate.

Meanwhile, because the water diversion disc comprises a fixed disc and a movable disc, the fixed disc is fixedly connected with the system weighing and mixing box and comprises a bottom plate and a side wall, a plurality of spraying holes are arranged on the bottom plate, the movable disc is arranged on the bottom plate through a movable disc rotating shaft, the movable disc rotating shaft is driven by a movable disc motor to rotate, in the additive adding process, the movable disc and the through hole on the bottom plate are arranged in a staggered way, after the additive is added, the additive does not directly fall on the crushed straw but stays in the water diversion disc without falling, and the mixing can be carried out in the water diversion disc due to the liquidity of liquid, when the additive is added through automatic weighing, the movable disc is driven by the movable disc motor to rotate relative to the fixed disc, the flowing of the additive can be further promoted, the additive is uniformly stirred, and when the spraying holes on the bottom plate of the movable disc and the fixed disc are opposite to each other due, the additive flows out along the spraying holes and falls onto the crushed straws, so that the additive and the crushed straws are pre-mixed, the movable disc motor returns to the original position after the additive is sprayed, the inserting plate is pulled out, the crushed straws fall into the system stirring box from the system weighing and mixing box, and then are stirred by the stirring mechanism, so that the additive and the crushed straws are stirred uniformly, and the quality of the organic fertilizer is ensured.

The organic fertilizer raw materials are mixed and stirred and then enter a closed fermentation tank, the organic fertilizer raw materials are repeatedly turned and thrown for fermentation by a turner, a vertical pneumatic telescopic rod cylinder acts to drive a temperature sensor to move up and down to detect the organic fertilizer temperature in different height directions of the fermentation tank, a horizontal pneumatic telescopic rod cylinder acts to drive the temperature sensor to move left and right to detect the organic fertilizer temperature in different width directions of the fermentation tank, a slide block motor drives a slide block to move along a guide rail and can drive the temperature sensor to move along the length direction of a fermentation tank body of the fermentation tank, so that the organic fertilizer temperature in different length directions of the fermentation tank can be detected, the whole tank body can be provided with only one sensor, the omnibearing organic fertilizer temperature detection can be realized, the cost is low, and when the organic fertilizer is turned, the horizontal pneumatic telescopic rod is contracted to the shortest, so that the vertical pneumatic telescopic, the fermentation tank is convenient to turn over and throw.

After fermentation is finished, weighing and bagging are carried out from the two discharge ports of the fermentation tank through the automatic weighing and bagging device, the fermentation tank can be conveyed by the two branch belt conveyors and then converged on the converging section belt conveyor, and the fermentation tank is conveyed to a stacking machine to be stacked and then conveyed away, so that the production efficiency is high, and the waiting time of equipment on a production line is not too long or the idle running is not caused. And carry the push away bagging apparatus department when first infrared sensor senses the fertilizer wrapping bag, first infrared sensor will give the controller with information transfer, and the controller receives that first infrared sensor will control corresponding push away the action of bag cylinder to make push pedal upper portion inwards take place the upset, push away the fertilizer wrapping bag to the inboard side, the wrapping bag will be automatic to be changed to and continue transporting forward on connecting the band conveyer. And when having the wrapping bag to transport door style of calligraphy fender bag frame department on the second branch band conveyer, because door style of calligraphy fender bag frame highly be less than the height of wrapping bag, the wrapping bag will be vertically pushed away and continue to move forward along second branch band conveyer, and need not to push away a bagging apparatus, moreover, the steam generator is simple in structure, low cost, and the pressure of changeing the bagging apparatus has been alleviateed, and because the equal fixed mounting in second branch band conveyer and the terminal outside of connecting band conveyer has the baffle, the inboard is installed and is changeed a bag bearing roller, the commentaries on classics bag that makes the wrapping bag is more reliable, it is more convenient to transport.

When the second infrared sensor senses that the packaging bags are conveyed at the tail end of the connecting belt conveyor, information is transmitted to the controller, the controller receives the information and then controls the motor of the second branch belt conveyor to stop running, the packaging bags to be connected on the belt conveyor are conveyed to the collecting belt conveyor and then control the second branch belt conveyor to continue running, and therefore the packaging bags are prevented from being blocked at the joint, and the conveying process is more reliable. The whole production line does not need to be transported repeatedly, saves space, basically realizes automatic production, and is time-saving, labor-saving and high in efficiency.

To sum up, the utility model discloses a waste resource recycles automatic production system of production fertilizer of protection, automatic control raw materials add ratio, stirring, the automatic temperature measurement of fermentation and form automatic production line, save space and labour saving and time saving.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. An automatic production system for producing organic fertilizer by recycling waste resources is characterized by comprising an automatic blending device, a heat preservation fermentation device, an automatic weighing bagging device and an automatic conveying device, wherein the automatic blending device comprises a system weighing blending box and a system stirring box, a supporting frame is fixedly installed on the upper portion of the system stirring box, a plurality of weighing sensors are installed on the supporting frame, the system weighing blending box is located above the system stirring box and is installed at the top of each weighing sensor, an adding bacteria inlet and a nitrogen water inlet are formed in the top of the system weighing blending box, a crushed straw feeding port and a bottom opening are formed in the side portion of the system weighing blending box, a slot is installed on the inner wall of the lower portion of the system weighing blending box, a jack is formed in one side of the system weighing blending box, a plugboard is inserted in the jack and the slot, the nitrogen water inlet is communicated with a nitrogen water tank through a nitrogen water, broken straw feed inlet passes through the discharge gate intercommunication of bellows and lifting machine, installs nitrogen water electric control valve door on the nitrogen water pipe, adds and installs on the fungus pipe and add fungus electric control valve door, and weighing sensor's output passes through the cable with the input of controller to be connected, and the output of controller respectively with promote the motor, add between fungus electric control valve door and the nitrogen water electric control valve door through the cable connection, the top of system weighing confession incasement is installed and is divided the water drum, divided the water drum includes fixed disk and movable disc, fixed disk and system weighing confession case fixed connection that mixes, it includes bottom plate and lateral wall, a plurality of spray holes have been seted up on the bottom plate, the movable disc is installed on the bottom plate through the movable disc pivot, has seted up a plurality of spray holes on the movable disc, the movable disc pivot is rotatory by movable disc motor drive, install rabbling mechanism in the system agitator tank, heat preservation fermenting installation is including setting up airtight fermentation pool cell, Locate turning over throwing device and temperature sensor in the pond, one side of fermentation vat cell body has the guide rail along fermentation vat cell body extending direction fixed mounting, installs horizontal pneumatic telescopic link cylinder through the slider on the guide rail, horizontal pneumatic telescopic link cylinder drive passes the horizontal pneumatic telescopic link of fermentation vat cell body lateral wall and stretches out and draws back, and the free end fixed mounting of horizontal pneumatic telescopic link has vertical pneumatic telescopic link cylinder, and vertical pneumatic telescopic link cylinder drive vertical pneumatic telescopic link is flexible, temperature sensor installs in the bottom of vertical pneumatic telescopic link, the slider is moved along the guide rail by slider motor drive, fermentation vat cell body bottom sets up two discharge gates, automatic weighing device bag is two respectively to be located two discharge gates department of fermentation vat cell body, automatic conveying device includes the first branch band conveyer that is located two automatic weighing sack filling devices below, Second branch band conveyer and collect band conveyer, first branch band conveyer and second branch band conveyer parallel arrangement collect band conveyer's head end and locate second branch band conveyer's end, are equipped with between first branch band conveyer end and the head end that collects band conveyer and are connected band conveyer, first branch band conveyer's end is installed and is pushed away the bagging apparatus, and last fixed mounting of second branch band conveyer has door style of calligraphy to keep off the bag frame, and second branch band conveyer and the terminal outside of connecting band conveyer fixed mounting respectively have first baffle and second baffle, and first commentaries on classics bag bearing roller and second commentaries on classics bag bearing roller are installed to the inboard, first branch band conveyer is terminal, the head end that collects band conveyer respectively fixed mounting have first infrared sensor and second infrared sensor, first infrared sensor and second infrared sensor's output passes through the cable connection with the input of controller respectively And the control end of the controller is respectively connected with the bag pushing device and a motor of the second branch belt conveyor through cables.

2. The automatic production system for producing the organic fertilizer by recycling the waste resources as claimed in claim 1, wherein the top of the system stirring tank is open and opposite to the system weighing and mixing tank, a discharge port is arranged at the bottom of the system stirring tank, the stirring mechanism comprises a pair of horizontal spiral stirring shafts, the pair of horizontal spiral stirring shafts are respectively and coaxially arranged with a pair of mutually meshed driving gears and driven gears which are arranged outside the system stirring tank, the driving gears are driven by a stirring motor, and the two spiral stirring shafts can be simultaneously driven to rotate by one motor, so that the purchase cost and the operation cost are reduced.

3. The automatic production system for producing organic fertilizer by recycling waste resources as claimed in claim 1, wherein the system weighing and mixing box and the system stirring box are respectively provided with an observation window.

4. The automatic production system for producing the organic fertilizer by recycling the waste resources as claimed in claim 1, wherein a handle is fixedly mounted at the end of the inserting plate.

5. The automatic production system for recycling waste resources to produce organic fertilizer as claimed in claim 1, wherein the horizontal pneumatic telescopic cylinder is fixedly provided with a touch switch, the two ends of the guide rail are respectively and fixedly provided with a touch plate, the touch switch is connected with the controller, and the controller receives information of the touch switch and controls the starting, stopping and forward and reverse rotation of the slide block motor.

6. The automatic production system for producing the organic fertilizer by recycling the waste resources as claimed in claim 1, wherein the horizontal pneumatic telescopic rod and the vertical pneumatic telescopic rod are respectively composed of a plurality of sections of movable cylinder bodies, and a piston rod of the horizontal pneumatic telescopic rod cylinder and a piston rod of the vertical pneumatic telescopic rod cylinder are respectively connected with the plurality of sections of movable cylinder bodies.

7. The automatic production system for recycling waste resources to produce organic fertilizers as claimed in claim 1, wherein the bag pushing device comprises a support frame fixedly connected with the first branch belt conveyor frame, a push plate and a bag pushing cylinder, the support frame comprises two side plates and a connecting plate connected between the two side plates, the push plate is hinged between the two side plates, the bag pushing cylinder is fixedly mounted on the connecting plate, and the end of a connecting rod of the cylinder is hinged with the lower part of the push plate.

Images