CN210676327U - High-efficient innocent treatment device of xylo-oligosaccharide production waste residue - Google Patents

Abstract

The utility model relates to a high-efficient innocent treatment device of xylo-oligosaccharide production waste residue, including bearing fossil fragments, buffer memory groove, medicament jar, spraying pump, feed mechanism, treatment tank and control circuit, the treatment tank inlays in bearing fossil fragments, and a charge door is established to treatment tank up end, and a discharge gate is established to the lower terminal surface, and the charge door communicates each other through feed mechanism and buffer memory groove, and the medicament jar communicates each other through spraying pump and feed mechanism with bearing fossil fragments surface connection. This novel one side can effectively realize concentrating high-efficient innoxious processing to the solid waste that xylo-oligosaccharide production produced, and on the other hand can effectively realize carrying out resourceful treatment to the solid waste that xylo-oligosaccharide production produced, improves the solid waste recycle who produces xylo-oligosaccharide production and utilizes rate.

Description

High-efficient innocent treatment device of xylo-oligosaccharide production waste residue

Technical Field

The utility model relates to a high-efficient innocent treatment device of solid waste residue, exactly a high-efficient innocent treatment device of xylo-oligosaccharide production waste residue.

Background

In the production process of xylo-oligosaccharide, a large amount of solid waste is often generated, and researches show that the solid waste generated in the production of xylo-oligosaccharide can be used for preparing fiber oligosaccharide after being further hydrolyzed by β -glucosidase cellulase, and the fiber oligosaccharide can be widely used as an additive in products such as feed and the like to improve the nutrition of feed, so that the cellulose hydrolysis operation of β -glucosidase on the solid waste generated in the production of xylo-oligosaccharide becomes an important technical means for recycling and harmlessly treating solid waste resources generated in the production of xylo-oligosaccharide at present, but when the cellulose hydrolysis operation of β -glucosidase on the solid waste generated in the production of xylo-oligosaccharide is carried out at present, the used equipment is always traditional hydrolysis equipment, although the used requirement can be met, the equipment joint is large in size and low in integration degree, so that the working efficiency of the solid waste hydrolysis operation generated in the production of xylo-oligosaccharide is low, the equipment operation and maintenance operation cost is high, the labor intensity is high, and the requirement for carrying out large-scale high-efficiency hydrolysis harmless treatment on the solid waste generated in the production of xylo-oligosaccharide is difficult to effectively meet the serious environmental pollution caused by the waste.

Therefore, in order to solve the above problems, it is urgently needed to develop a completely new activated carbon filtering device to meet the needs of practical use.

SUMMERY OF THE UTILITY MODEL

To exist not enough on the prior art, the utility model provides a high-efficient innocent treatment device of xylo-oligosaccharide production waste residue, this utility model is simple in structure, rationally distributed, it is nimble convenient to use, can effectively realize concentrating high-efficient innocent treatment to the solid waste that xylo-oligosaccharide production produced on the one hand, on the other hand can effectively realize carrying out resourceful treatment to the solid waste that xylo-oligosaccharide production produced, when improving the solid waste recycle who produces xylo-oligosaccharide production and utilization ratio, effectively stopped the solid waste direct emission that xylo-oligosaccharide production produced and caused wasting of resources and environmental pollution.

In order to achieve the above purpose, the utility model discloses a realize through following technical scheme:

a high-efficiency harmless treatment device for waste residues generated in xylo-oligosaccharide production comprises a bearing keel, a buffer tank, a medicament tank, a spray pump, a feeding mechanism, a treatment tank and a control circuit, wherein the bearing keel is of a frame structure with the axis vertically distributed with the horizontal direction, the treatment tank is embedded in the bearing keel and coaxially distributed with the bearing keel, the upper end surface of the treatment tank is provided with a feeding port, the lower end surface of the treatment tank is provided with a discharging port, the feeding port is communicated with the buffer tank through the feeding mechanism, the buffer tank is connected with the outer surface of the bearing keel, the axis of the buffer tank is vertically distributed with the horizontal plane, the upper end surface of the buffer tank is communicated with the feeding port of the treatment tank through the feeding mechanism, the axis of the feeding mechanism and the axis of the treatment tank form an included angle of 30-60 degrees, at least one medicament tank is connected with the outer surface of the bearing keel and communicated with the, and is respectively electrically connected with the spray pump, the feeding mechanism and the treatment tank.

Furthermore, the feeding mechanism comprises a flow guide pipe, a conveying auger, an atomizing spray head, an irradiation heating device and a bearing column, the lower end surface of the flow guide pipe is respectively hinged with the outer surface of the bearing keel through at least two bearing columns, the two ends of the bearing columns are respectively hinged with the flow guide pipe and the outer surface of the bearing keel through the rotary table mechanism, at least three atomizing spray heads and at least three irradiation heating devices are embedded in the flow guide pipe and connected with the upper end surface of the flow guide pipe, the atomizing spray heads and the irradiation heating devices are distributed at intervals along the axial direction of the flow guide pipe, the conveying auger is positioned in the flow guide pipe, and is coaxially distributed with the guide pipe, the diameter of the conveying auger is 50-90% of the inner diameter of the guide pipe, the atomizing spray heads are mutually connected in parallel, and are communicated with the spray pump through a guide pipe respectively, and the conveying auger and the irradiation heating device are electrically connected with a control circuit.

Furthermore, the bearing column is of at least two-stage electric telescopic rod structure and is electrically connected with the control circuit.

Further, the treatment tank comprises a tank body, a stirring mechanism, a bearing tray, an irradiation heating device, an ultraviolet inactivation device and a spiral extruder, wherein the tank body is of a closed cavity structure with a rectangular axial section, a feeding port is arranged on the tank body, a liquid discharge port is arranged on the lower end face of the tank body, a discharge port is arranged on the side surface of the tank body, the discharge ports are connected with the spiral extruder and are coaxially distributed, the spiral extruder is connected with the bearing keel through a bearing column, the axis of the spiral extruder and the horizontal plane form an included angle of 0-60 degrees, the bearing tray is embedded in the tank body and is coaxially distributed with the tank body, the tank body is divided into a solid material treatment chamber and a liquid material treatment chamber from top to bottom, a plurality of through holes with the aperture not more than 1 mm are uniformly distributed at the bottom of the bearing tray, the solid material treatment chamber is communicated with the liquid material treatment, the stirring mechanism is embedded in the solid material processing chamber, the axis of the stirring mechanism is intersected with the axis of the solid material processing chamber and forms an included angle of 30-90 degrees, the stirring mechanism is located above the discharge port by at least 5-10 centimeters, the irradiation heating device and the ultraviolet inactivation device are uniformly distributed in the solid material processing chamber and the liquid material processing chamber around the axis of the tank body and are connected with the inner surface of the side wall of the tank body, and the stirring mechanism, the irradiation heating device, the ultraviolet inactivation device and the screw extruder are electrically connected.

Furthermore, the bearing column is at least two stages of electric telescopic rods, two ends of each electric telescopic rod are respectively hinged with the bearing keel and the screw extruder, and the bearing column is electrically connected with the control circuit.

Furthermore, the control circuit is a circuit structure in which the internet-of-things controller is a core circuit, and the control circuit is provided with at least one serial port communication port and at least one wireless communication device.

The utility model discloses simple structure, rationally distributed, it is nimble convenient to use, can effectively realize concentrating high-efficient innocent treatment to the solid waste that xylo-oligosaccharide production produced on the one hand, and on the other hand can effectively realize carrying out resourceful treatment to the solid waste that xylo-oligosaccharide production produced, when improving the solid waste recycle who produces xylo-oligosaccharide production, effectively stopped the solid waste direct discharge that xylo-oligosaccharide production produced and caused wasting of resources and environmental pollution.

Drawings

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments;

fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the feeding mechanism.

FIG. 3 is a schematic view of the treatment tank.

Detailed Description

In order to make the utility model realize, the technical end, the creation characteristics, the achievement purpose and the efficacy are easy to understand and understand, and the utility model is further explained by combining the specific implementation mode.

The device comprises a bearing keel 1, a buffer tank 2, a chemical tank 3, a spray pump 4, a feeding mechanism 5, a treatment tank 6 and a control circuit 7, wherein the bearing keel 1 is a frame structure with the axis vertically distributed with the horizontal, the treatment tank 6 is embedded in the bearing keel 1 and coaxially distributed with the bearing keel 1, the upper end surface of the treatment tank 6 is provided with a feed port 61, the lower end surface is provided with a discharge port 62, the feed port 61 is mutually communicated with the buffer tank 2 through the feeding mechanism 5, the buffer tank 2 is connected with the outer surface of the bearing keel 1, the axis is vertically distributed with the horizontal, the upper end surface of the buffer tank is communicated with the feed port 61 of the treatment tank 6 through the feeding mechanism 5, the axis of the feeding mechanism 5 forms an included angle of 30-60 degrees with the axis of the treatment tank 6, at least one chemical tank 3 is connected with the outer surface of the bearing keel 1 and is mutually communicated with the feeding mechanism 5 through the spray pump 4, and the control circuit 7 is connected with the outer surface of the bearing keel 1 and is respectively and electrically connected with the spray pump 4, the feeding mechanism 5 and the treatment tank 6.

It is emphasized that, feed mechanism 5 include honeycomb duct 51, carry auger 52, atomizing shower head 53, irradiation heating device 54 and carrier post 55, the terminal surface is articulated with carrier post 1 surface respectively through two at least carrier posts 55 under the honeycomb duct 51, carrier post 55 both ends are articulated with honeycomb duct 51 and carrier post 1 surface through revolving stage mechanism 56 respectively, atomizing shower head 53, irradiation heating device 54 all are at least three, inlay in honeycomb duct 51 and be connected with honeycomb duct 51 up end, and atomizing shower head 53, irradiation heating device 54 along honeycomb duct 51 axis direction interval distribution, carry auger 52 to be located honeycomb duct 51 to with honeycomb duct 51 coaxial distribution, and carry auger 52 diameter for 50% -90% of honeycomb duct 51 internal diameter, atomizing shower head 53 connects in parallel each other to communicate with spray pump 4 through honeycomb duct 51 respectively, meanwhile, the conveying auger 52 and the irradiation heating device 54 are electrically connected with the control circuit 7.

Preferably, the support column 55 is an at least two-stage electric telescopic rod structure, and the support column 55 is electrically connected to the control circuit 7.

In addition, the treatment tank 6 comprises a tank body 61, a stirring mechanism 69, a bearing tray 62, an irradiation heating device 63, an ultraviolet inactivation device 64 and a screw extruder 65, wherein the tank body 61 is a closed cavity structure with a rectangular axial section, a feed port 66 is arranged on the tank body, a liquid discharge port 67 is arranged on the lower end surface, a discharge port 68 is arranged on the side surface, the discharge port 68 is connected with and coaxially distributed with the screw extruder 65, the screw extruder 65 is connected with the bearing keel 1 through a bearing column 55, the axial line of the screw extruder 65 forms an included angle of 0-60 degrees with the horizontal plane, the bearing tray 62 is embedded in the tank body 61, is coaxially distributed with the tank body 61 and divides the tank body 61 into a solid material treatment chamber 101 and a liquid material treatment chamber 102 from top to bottom, a plurality of through holes 103 with the aperture not more than 1 mm are uniformly distributed at the bottom of the bearing tray 62, the solid material treatment chamber 101 is communicated with the liquid material, the discharge port 68 is communicated with the solid material processing chamber 101 and is 0-20 cm higher than the upper end surface of the bearing tray 62, the stirring mechanism 69 is embedded in the solid material processing chamber 101, the axis of the stirring mechanism 69 is intersected with the axis of the solid material processing chamber 101 and forms an included angle of 30-90 degrees, the stirring mechanism 69 is positioned above the discharge port 68 by at least 5-10 cm, the irradiation heating device 63 and the ultraviolet inactivation device 64 are uniformly distributed in the solid material processing chamber 101 and the liquid material processing chamber 102 around the axis of the tank body 61 and are connected with the inner surface of the side wall of the tank body 61, and the stirring mechanism 69, the irradiation heating device 63, the ultraviolet inactivation device 64 and the screw extruder 62 are electrically connected.

Preferably, the bearing column 55 is at least two stages of electric telescopic rods, two ends of each electric telescopic rod are respectively hinged with the bearing keel 1 and the screw extruder 65, and the bearing column 55 is electrically connected with the control circuit 7.

In this embodiment, the control circuit 7 is a circuit structure in which the internet-of-things controller is a core circuit, and the control circuit is provided with at least one serial port communication port and at least one wireless communication device.

This is novel in the concrete implementation, at first to constituting this neotype fossil fragments that bear, the buffer memory groove, the medicament jar, spray the pump, feed mechanism, processing jar and control circuit assemble, then will assemble this neotype after installing the operating position through bearing fossil fragments, communicate the solid waste conveying line that buffer memory groove and xylo-oligosaccharide production produced, then will be used for the cellulase medicament of β -glucosidase of hydrolysis operation to add into the medicament jar, will handle the leakage fluid dram and the reaction liquid recovery system intercommunication of jar, with screw extruder and solid material recovery system intercommunication, at last with control circuit and external power system, monitor platform is connected, thereby accomplish this novel assembly.

When the device is operated, solid waste generated by the production of the xylo-oligosaccharide in the buffer tank is conveyed to the treatment tank through the feeding mechanism, while the solid waste generated by the production of the xylo-oligosaccharide is conveyed through the feeding mechanism, on one hand, the cellulase of β -glucosidase in the medicament tank is sprayed into the solid waste generated by the production of the xylo-oligosaccharide in the feeding mechanism through the spraying pump, on the other hand, the solid waste generated by the production of the xylo-oligosaccharide and the cellulase of β -glucosidase are mixed when the solid waste generated by the production of the xylo-oligosaccharide is conveyed through the conveying auger of the feeding mechanism, after the mixture is conveyed into the treatment tank, the mixed material is loaded by the loading tray in the treatment tank and is buffered in the solid material treatment chamber, then, while the radiation heating device is used for radiation heating, the stirring mechanism is used for promoting the hydrolysis reaction efficiency, the residual solid material after the hydrolysis reaction is completed is retained in the solid material treatment chamber, the generated liquid material permeates into the liquid material treatment chamber, finally, the solid residue and the solid material are treated by the ultraviolet inactivation device, the hydrolysis residual material is treated, the solid waste is collected by the spiral hydrolysis reaction system, and the solid waste is recovered by the anti-oxidation-resistant liquid recovery system, thereby, the solid waste generated by the solid waste is recovered.

The utility model discloses simple structure, rationally distributed, it is nimble convenient to use, can effectively realize concentrating high-efficient innocent treatment to the solid waste that xylo-oligosaccharide production produced on the one hand, and on the other hand can effectively realize carrying out resourceful treatment to the solid waste that xylo-oligosaccharide production produced, when improving the solid waste recycle who produces xylo-oligosaccharide production, effectively stopped the solid waste direct discharge that xylo-oligosaccharide production produced and caused wasting of resources and environmental pollution.

It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a high-efficient innocent treatment device of xylo-oligosaccharide production waste residue which characterized in that: the high-efficiency harmless treatment device for the waste residue generated in the production of xylo-oligosaccharide comprises a bearing keel, a buffer tank, a medicament tank, a spray pump, a feeding mechanism, a treatment tank and a control circuit, wherein the bearing keel is of a frame structure with the axis and the horizontal vertical distribution, the treatment tank is embedded in the bearing keel and is coaxially distributed with the bearing keel, the upper end surface of the treatment tank is provided with a feeding port, the lower end surface of the treatment tank is provided with a discharge port, the feeding port is communicated with the buffer tank through the feeding mechanism, the buffer tank is connected with the outer surface of the bearing keel, the axis of the buffer tank is vertically distributed with the horizontal plane, the upper end surface of the buffer tank is communicated with the feeding port of the treatment tank through the feeding mechanism, the axis of the feeding mechanism and the axis of the treatment tank form an included angle of 30-60 degrees, at least one medicament tank is connected with the outer surface of the bearing keel, and is respectively electrically connected with the spray pump, the feeding mechanism and the treatment tank.

2. The device for efficiently and harmlessly treating the waste residue generated in the production of xylo-oligosaccharide according to claim 1, wherein the feeding mechanism comprises a flow guide pipe, at least three atomizing spray heads, at least three irradiation spray heads, at least two support columns, at least two spray heads, at least two irradiation heating devices and at least three support columns, wherein the lower end surface of the flow guide pipe is hinged to the outer surface of the support keel through at least two support columns, the two ends of the support columns are hinged to the outer surfaces of the flow guide pipe and the support keel through a turntable mechanism, the atomizing spray heads and the irradiation heating devices are embedded in the flow guide pipe and connected with the upper end surface of the flow guide pipe, the atomizing spray heads and the irradiation heating devices are distributed at intervals along the axial direction of the flow guide pipe, the conveying spray heads are positioned in the flow guide pipe and coaxially distributed with the flow guide pipe, the diameter of the conveying spray heads is 50% -90, meanwhile, the conveying auger and the irradiation heating device are electrically connected with the control circuit.

3. The device for efficiently and harmlessly treating the waste residue generated in the xylose oligosaccharide production according to claim 2, wherein the bearing column is of at least two-stage electric telescopic rod structure and is electrically connected with the control circuit.

4. The device for efficiently and harmlessly treating the waste residue generated in the production of xylo-oligosaccharide according to claim 1, wherein the treatment tank comprises a tank body, a stirring mechanism, a bearing tray, an irradiation heating device, an ultraviolet inactivation device and a screw extruder, wherein the tank body is of a closed cavity structure with a rectangular axial section, a feeding port is arranged on the tank body, a liquid discharge port is arranged on the lower end surface of the tank body, a discharge port is arranged on the side surface of the tank body, the discharge ports are connected with the screw extruder and coaxially distributed, the screw extruder is connected with a bearing keel through a bearing column, the axial line of the screw extruder forms an included angle of 0-60 degrees with the horizontal plane, the bearing tray is embedded in the tank body, is coaxially distributed with the tank body and divides the tank body into a solid material treatment chamber and a liquid material treatment chamber from top to bottom, and a plurality of through holes with the pore, the solid material treatment chamber and the liquid material treatment chamber are communicated through the through hole, the discharge hole is communicated with the solid material treatment chamber and is 0-20 cm higher than the upper end surface of the bearing tray, the stirring mechanism is embedded in the solid material treatment chamber, the axis of the stirring mechanism is intersected with the axis of the solid material treatment chamber and forms an included angle of 30-90 degrees, the stirring mechanism is located above the discharge hole by at least 5-10 cm, the irradiation heating device and the ultraviolet inactivation device are uniformly distributed in the solid material treatment chamber and the liquid material treatment chamber around the axis of the tank body and are connected with the inner surface of the side wall of the tank body, and the stirring mechanism, the irradiation heating device, the ultraviolet inactivation device and the screw extruder are electrically connected.

5. The device for efficiently and harmlessly treating the waste residue generated in the xylose oligomer production according to claim 4, wherein the bearing column is at least two stages of electric telescopic rods, two ends of each electric telescopic rod are respectively hinged with the bearing keel and the screw extruder, and the bearing column is electrically connected with the control circuit.

6. The device for efficiently and harmlessly treating the waste residue generated in the production of xylo-oligosaccharide according to claim 1, wherein the control circuit is a circuit structure in which an internet-of-things controller is used as a core circuit, and the control circuit is provided with at least one serial port communication port and at least one wireless communication device.

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