CN210275830U - Mesh belt type konjac drying complete set unit - Google Patents

Abstract

The utility model discloses a mesh-belt-type konjac drying complete set unit, by the export of dry piece, the drying cabinet, the lubricating cup, the mesh-belt system, the striker plate, the slicer, the lifting machine, the hot-blast furnace, a weighing sensor and a temperature sensor, the hot-blast main, circulating fan import pipe, the exhaust fan, circulating fan, sulfur dioxide generator constitutes, install the mesh-belt system in the drying cabinet, install the slicer in the top of the top layer steel wire mesh-belt, from the ejection of compact of lower one deck steel wire mesh-belt, circulating fan installs a side at the drying cabinet, hot-blast from bottommost suction circulating fan, then flow in the top of the top one deck steel wire mesh-belt, pass each layer steel wire mesh-belt back to the bottom, form the circulation, the one end of hot-blast main is connected to the hot-blast furnace, connect sulfur dioxide generator on the circulating fan who is located the, Controllable, and has the characteristics of high automation degree, low energy consumption, uniform color and low sulfur dioxide content.

Description

Mesh belt type konjac drying complete set unit

Technical Field

The utility model relates to an agricultural product drying machine of konjaku processing especially relates to a dry complete set of unit of guipure formula konjaku.

Background

The konjak has high water content and is easy to rot, the konjak is easy to oxidize and discolor after being dried and stored, the konjak cut into pieces is easy to oxidize and discolor, when the konjak is produced on a small scale at present, the konjak is dried by adopting an earthen bed method, the konjak is cut into blocks and directly heated on a coal-fired furnace, the dryness and the humidity of the konjak are not uniform, and because the konjak is directly baked by coal smoke generated by burning coal, the sulfur dioxide seriously exceeds the standard, and the quality safety of konjak food is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a dry complete sets of net belt konjaku, it can solve the above-mentioned not enough that exists, cuts into thin slice with the konjaku, adopts the clean hot-air through the heat transfer, carries out the drying in the net belt drying cabinet, adds the gaseous look that protects of appropriate amount sulfur dioxide simultaneously, and section hardness and width are even, and drying temperature automatic control, sulfur dioxide content can be controlled, has the characteristics that the energy consumption is low, the color and luster is even, sulfur dioxide content is low.

The utility model aims at realizing according to the following technical scheme: the mesh belt type konjak drying complete set unit comprises a dry sheet outlet, a drying box, a lubricating oil cup, a mesh belt system, a material baffle, a slicing machine, a lifting machine, a hot blast stove, a temperature sensor, a hot blast pipe, a circulating fan inlet pipe, a moisture exhaust fan, a circulating fan and a sulfur dioxide generator, wherein the drying box is a rectangular box body and comprises a framework and a heat insulation plate, the mesh belt system is installed in the drying box and comprises a plurality of layers of steel wire mesh belts, the steel wire mesh belts are made into odd layers, the uppermost layer extends out of the machine, the slicing machine is installed above the uppermost layer of steel wire mesh belt, the width of the sliced konjak is the same as that of the mesh belt width machine, the lowermost layer of steel wire mesh belt extends out of the drying box and is used for discharging, the mesh belt is called a dry sheet outlet, the material baffle is installed on the end surface of each layer of steel wire mesh belt, the material, the oil dropping amount of the lubricating oil cup can be adjusted, the outlet of the lubricating oil cup extends into the chain of the steel wire mesh belt by adopting a pipeline to lubricate the chain, the circulating fan is arranged on one side surface of the drying box and is arranged 3-7 according to the length of the drying box, the air inlet of the circulating fan is connected with the inlet pipe of the circulating fan, the inlet pipe of the circulating fan extends into the drying box and is positioned below the lowest layer of steel wire mesh belt, the air outlet of the circulating fan is connected to the upper part of the highest layer of steel wire mesh belt by the pipeline, hot air is sucked into the circulating fan from the bottommost part and then flows into the upper part of the highest layer of steel wire mesh belt and passes through each layer of steel wire mesh belt to the bottom to form circulation, one end of a hot air pipe is connected to the hot air furnace, a temperature sensor is arranged on the hot air pipe and close to, the device is characterized in that the device is respectively connected to an air outlet pipeline of each circulating fan, hot air is conveyed into a drying box, a sulfur dioxide generator is connected to a circulating fan inlet pipe located in the middle, the sulfur dioxide generator is composed of a feeding box, a positive displacement discharging mechanism and a combustion chamber, the discharging amount can be adjusted, the hot blast stove is composed of the combustion chamber, a coal feeding mechanism, a combustion fan, a blower, a coal ash settling chamber and a heat exchanger, a lifting machine is located beside a slicing machine and is composed of a rack, a hopper and a lifting mechanism, a moisture exhausting fan is located at the front end of the drying box, an air inlet of the moisture exhausting fan extends into the lower portion of the lowest layer of steel wire mesh belt in the drying box, and an air outlet connecting pipeline of the moisture exhausting fan.

The working principle is as follows: adding konjak into a hopper of a lifter, lifting to a high position, pouring into a slicing machine, slicing by the slicing machine, falling onto the uppermost layer of steel wire mesh belt, conveying the konjak into a drying box by the uppermost layer of steel wire mesh belt, conveying the konjak into the drying box by each layer of steel wire mesh belt, conveying the konjak to the lowermost layer of steel wire mesh belt, straightening and unloading from a dried sheet outlet, providing a heat source by hot blast stove fire coal in the drying process, carrying out heat exchange by a heat exchanger to obtain hot air, conveying the hot air into the drying box by an air blower through a hot air pipe, collecting a hot air temperature signal by a temperature sensor on the hot air pipe, conveying the hot air temperature signal into a control system, controlling the fuel quantity by the control system to adjust the hot air temperature, adding sulfur into a sulfur dioxide generator, generating sulfur dioxide gas after combustion, conveying the sulfur dioxide gas into the drying box.

By adopting the technical scheme, the mesh belt type konjac piece drying complete set unit automatically dries konjac pieces, automatically adjusts the temperature and the speed, can adjust and control the sulfur dioxide content, and has the characteristics of high automation degree, low energy consumption, uniform color and low sulfur dioxide content.

Drawings

The invention is further described with reference to the following figures and examples.

Fig. 1 is an elevation view of the present invention.

Fig. 2 is a plan view of the present invention.

Fig. 3 is a side view of the present invention.

In the accompanying drawings 1, 2 and 3: 1. the device comprises a dry sheet outlet, 2, a drying box, 3, a lubricating oil cup, 4, a mesh belt system, 5, a material baffle, 6, a slicing machine, 7, a lifting machine, 8, a hot blast furnace, 9, a temperature sensor, 10, a hot blast pipe, 11, a circulating fan inlet pipe, 12, a dehumidifying fan, 13, a circulating fan, 14 and a sulfur dioxide generator.

Detailed Description

Example 1: in the embodiment shown in fig. 1, 2 and 3, the utility model comprises a dry piece outlet 1, a drying box 2, a lubricant cup 3, a mesh belt system 4, a material baffle plate 5, a slicer 6, a lifter 7, a hot blast stove 8, a temperature sensor 9, a hot blast pipe 10, a circulating fan inlet pipe 11, a dehumidifying fan 12, a circulating fan 13 and a sulfur dioxide generator 14, wherein the drying box 2 is a rectangular box body and consists of a framework and a heat insulation plate, the mesh belt system 4 is installed in the drying box 2, the mesh belt system 4 consists of a plurality of layers of steel wire mesh belts, the steel wire mesh belts are made into odd layers, the uppermost layer extends out of the machine, the slicer 6 is installed above the uppermost layer of steel wire mesh belt, the width of the sliced konjac of the slicer 6 is the same as that of the mesh belt width machine, the lowermost layer of steel wire mesh belt extends out of the drying box 2 to be used for discharging, which is called a, the device is used for stopping materials when a previous layer of materials falls into a next layer of materials, a lubricating oil cup 3 is installed on the outer surface of a drying box 2 corresponding to each layer of steel wire mesh belt, the oil dripping amount of the lubricating oil cup 3 can be adjusted, an outlet of the lubricating oil cup 3 extends into a chain of the steel wire mesh belt through a pipeline to lubricate the chain, a circulating fan 13 is installed on one side surface of the drying box 2, 3-7 circulating fans 13 are installed according to the length of the drying box 2, an air inlet of the circulating fan 13 is connected with an inlet pipe 11 of the circulating fan 13, the inlet pipe of the circulating fan 13 extends into the drying box 2 and is positioned below the lowest layer of steel wire mesh belt, an air outlet of the circulating fan 13 is connected to the upper part of the highest layer of steel wire mesh belt through a pipeline, hot air is sucked into the circulating fan 13 from the lowest part and then flows into the upper part of the highest layer, one end of a hot air pipe 10 is connected to a hot air furnace 8, a temperature sensor 9 is arranged on the hot air pipe 10 close to the hot air furnace 8 and used for collecting hot air temperature signals, a plurality of branch pipes are arranged on the hot air pipe 10 and respectively connected to an air outlet pipeline of each circulating fan 13 to convey hot air into the drying box 2, an inlet pipe 11 of the circulating fan 13 positioned in the middle is connected with a sulfur dioxide generator 14, the sulfur dioxide generator 14 comprises a feeding box, a volume type blanking mechanism and a combustion chamber, the blanking amount can be adjusted, the hot air furnace 8 comprises a combustion chamber, a coal feeding mechanism, a combustion fan, a blower, a coal ash settling chamber and a heat exchanger, a lifter 7 is positioned beside the slicing machine 6 and comprises a frame, a hopper and a lifter 7, a moisture exhaust fan 12 is positioned at the front end of the drying box 2, and an air inlet of the moisture exhaust fan 12 extends to the lower part of the lowest layer of, an air outlet of the dehumidifying fan 12 is connected with a pipeline and discharged to the outside of the production field.

The working principle is as follows: adding konjak into a hopper of a lifter 7, lifting to a high position, pouring into a slicer 6, slicing by the slicer 6, falling into the uppermost layer of steel wire mesh belt, conveying into a drying box 2 by the uppermost layer of steel wire mesh belt, conveying out of the drying box 2 by each layer of steel wire mesh belt, straightening and unloading from a dry sheet outlet 1, providing a heat source by coal burning of a hot blast stove 8 in the drying process, exchanging heat by a heat exchanger to obtain hot air, conveying into the drying box 2 by a blast blower through a hot blast pipe 10, collecting a hot air temperature signal by a temperature sensor 9 on the hot blast pipe 10, conveying into a control system, regulating the hot air temperature by controlling the fuel quantity by the control system, adding sulfur into a sulfur dioxide generator 14, generating sulfur dioxide gas after combustion, conveying into the drying box 2 to inhibit browning of the konjak sheet, no color change.

Example 2: in the embodiment shown in fig. 1, 2 and 3, the utility model comprises a dry piece outlet 1, a drying box 2, a lubricant cup 3, a mesh belt system 4, a material baffle plate 5, a slicer 6, a lifter 7, a hot blast stove 8, a temperature sensor 9, a hot blast pipe 10, a circulating fan inlet pipe 11, a dehumidifying fan 12, a circulating fan 13 and a sulfur dioxide generator 14, wherein the drying box 2 is a rectangular box body and consists of a framework and a heat insulation plate, the mesh belt system 4 is installed in the drying box 2, the mesh belt system 4 consists of a plurality of layers of steel wire mesh belts, the steel wire mesh belts are made into odd layers, the uppermost layer extends out of the machine, the slicer 6 is installed above the uppermost layer of steel wire mesh belt, the width of the sliced konjac of the slicer 6 is the same as that of the mesh belt width machine, the lowermost layer of steel wire mesh belt extends out of the drying box 2 to be used for discharging, which is called a, the device is used for stopping materials when a previous layer of materials falls into a next layer of materials, a lubricating oil cup 3 is installed on the outer surface of a drying box 2 corresponding to each layer of steel wire mesh belt, the oil dripping amount of the lubricating oil cup 3 can be adjusted, an outlet of the lubricating oil cup 3 extends into a chain of the steel wire mesh belt through a pipeline to lubricate the chain, a circulating fan 13 is installed on one side surface of the drying box 2, 3-7 circulating fans 13 are installed according to the length of the drying box 2, an air inlet of the circulating fan 13 is connected with an inlet pipe 11 of the circulating fan 13, the inlet pipe of the circulating fan 13 extends into the drying box 2 and is positioned below the lowest layer of steel wire mesh belt, an air outlet of the circulating fan 13 is connected to the upper part of the highest layer of steel wire mesh belt through a pipeline, hot air is sucked into the circulating fan 13 from the lowest part and then flows into the upper part of the highest layer, one end of a hot air pipe 10 is connected to a hot air furnace 8, a temperature sensor 9 is arranged on the hot air pipe 10 close to the hot air furnace 8 and used for collecting hot air temperature signals, a plurality of branch pipes are arranged on the hot air pipe 10 and respectively connected to an air outlet pipeline of each circulating fan 13 to convey hot air into the drying box 2, an inlet pipe 11 of the circulating fan 13 positioned in the middle is connected with a sulfur dioxide generator 14, the sulfur dioxide generator 14 is composed of a feeding box, a volume type blanking mechanism and a combustion chamber, the blanking amount can be adjusted, the hot air furnace 8 adopts natural gas as a heat source and is composed of a natural gas burner and a furnace body, a lifter 7 is positioned beside the slicing machine 6 and is composed of a rack, a hopper and a lifter 7, a moisture exhausting fan 12 is positioned at the front end of the drying box 2, an air inlet of the moisture exhausting fan 12 extends to the lower part of the lowest layer of the steel wire mesh belt in, the humid air is discharged outside the production site.

The working principle is as follows: adding rhizoma Amorphophalli into the hopper of the elevator 7, lifting to high position, pouring into the slicer 6, slicing by the slicer 6, falling into the uppermost layer of steel wire mesh belt, transferring into the drying box 2 from the uppermost layer of steel wire mesh belt, transferring out of the drying box 2 from the lowermost layer of steel wire mesh belt by each layer of steel wire mesh belt, straightening and unloading from the dry sheet outlet 1, in the drying process, using natural gas to provide heat source by the hot-blast stove 8, using flue gas generated by natural gas combustion, conveying into the drying box 2 through the hot-blast pipe 10 by the blower, collecting hot-blast temperature signal by the temperature sensor 9 on the hot-blast pipe 10, sending into the control system, regulating the hot-blast temperature by controlling the fuel quantity by the control system, adding sulfur into the sulfur dioxide generator 14, generating sulfur dioxide gas after combustion, conveying into the drying box 2 to inhibit browning of rhizoma Amorphophalli sheet, no color change.

Claims (1)

1. Mesh belt formula konjaku drying complete sets comprises dry piece export, drying cabinet, lubricating cup, guipure system, striker plate, slicer, lifting machine, hot-blast furnace, temperature sensor, hot-blast main, circulating fan import pipe, hydrofuge fan, circulating fan, sulfur dioxide generator, characterized by: the drying box is a rectangular box body and consists of a framework and a heat insulation board, a mesh belt system is installed in the drying box and consists of a plurality of layers of steel wire mesh belts, the steel wire mesh belts are made into odd layers, the uppermost layer extends out of the drying box, a slicer is installed above the uppermost layer of steel wire mesh belt, the lowermost layer of steel wire mesh belt extends out of the drying box and is used for discharging materials, namely a dry sheet outlet, a material baffle plate is installed on the end surface of each layer of steel wire mesh belt and is used for stopping materials when the material of the upper layer falls into the next layer, a lubricating oil cup is installed on the outer surface of the drying box corresponding to each layer of steel wire mesh belt, the oil dripping amount of the lubricating oil cup can be adjusted, the outlet of the lubricating oil cup extends into the chain of the steel wire mesh belt by adopting a pipeline to lubricate the chain, a circulating fan is installed on one side surface of the drying, an inlet pipe of a circulating fan extends into the drying box and is positioned below the lowest layer of steel wire mesh belt, an air outlet of the circulating fan is connected above the highest layer of steel wire mesh belt through a pipeline, one end of a hot air pipe is connected to a hot air furnace, a temperature sensor is arranged on the hot air pipe and is close to the hot air furnace and used for collecting hot air temperature signals, a plurality of branch pipes are arranged on the hot air pipe and are respectively connected to an air outlet pipeline of each circulating fan to convey hot air into the drying box, a sulfur dioxide generator is connected to the inlet pipe of the circulating fan positioned in the middle position and comprises a feeding box, a positive displacement blanking mechanism and a combustion chamber, the blanking amount can be adjusted, the hot air furnace comprises a combustion chamber, a coal feeding mechanism, a combustion-supporting fan, a blower, a coal ash settling chamber and a heat exchanger, a lifting machine is positioned beside, the dehumidifying fan is positioned at the front end of the drying box, an air inlet of the dehumidifying fan extends below the lowest layer of steel wire mesh belt in the drying box, and an air outlet of the dehumidifying fan is connected with a pipeline to discharge humid air to the outside of a production field.

Images