CN213699100U - Centrifugation jar of preparation candy is drawed to xylitol - Google Patents

Abstract

The utility model discloses a centrifugal tank for preparing candy by extracting xylitol, which comprises a feeding box arranged at the upper end of the centrifugal tank, wherein the bottom end inside the centrifugal tank is rotationally connected with a centrifugal cylinder, the bottom end of the centrifugal tank is fixedly connected with a servo motor, the rotating shaft of the servo motor is fixedly connected with the bottom end of the centrifugal cylinder through a shaft coupling, a first filter plate is fixedly connected with the upper end inside the centrifugal tank in an inclined way, a crystal discharging pipe is arranged at the bottom end of the side wall of the centrifugal tank, a liquid receiving box is arranged at the lower end of the liquid discharging pipe, a crystal receiving box is arranged at the lower end of the centrifugal tank, a separation box is arranged at one side corresponding to one end of the filter plate, the separation box is connected with the centrifugal tank at a position corresponding to the first filter plate through a, after the centrifugation is completed, the equipment can stop running in time, thereby reducing the energy and the like.

Description

Centrifugation jar of preparation candy is drawed to xylitol

Technical Field

The utility model relates to a xylitol centrifugation jar technical field specifically is a centrifugation jar that xylitol drawed preparation candy.

Background

Xylitol is originally produced in Finland, a natural sweetening agent extracted from plant raw materials is in nature, the sweetness of the xylitol is equivalent to that of sucrose, a large amount of heat can be absorbed when the xylitol is dissolved in water, the natural sweetening agent is one of all sugar alcohol sweetening agents with the largest heat absorption value, so when the xylitol is eaten in a solid form, a pleasant cool feeling can be generated in the mouth, many candies can adopt the xylitol as a raw material, a centrifugal tank is needed to carry out solid-liquid separation on the xylitol in the extraction process of the xylitol, a centrifugal cylinder is usually driven by a servo motor to carry out filtration in the conventional centrifugal tank, but the problems that the centrifugal cylinder is unstable in rotation due to gravity center shift, larger-particle xylitol crystals easily block filter holes arranged in the centrifugal cylinder, the centrifugal efficiency is low, incomplete centrifugation is easily generated, equipment in the centrifugal tank continuously operates after complete centrifugation, energy is wasted and the like are solved.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a xylitol and draw centrifugation jar of preparation candy, the centrifugation section of thick bamboo rotates stably, and the filtration pore of centrifugation section of thick bamboo is difficult to block up, and centrifugal efficiency is high, can not produce the centrifugation incomplete, and the complete back equipment of centrifugation can in time shut down, subtracts the province energy, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a centrifugal tank for preparing candy by extracting xylitol comprises a feeding box arranged at the upper end of the centrifugal tank, a centrifugal cylinder arranged in the centrifugal tank, the bottom end in the centrifuge tank is rotationally connected with a centrifuge tube, the bottom end of the centrifuge tank is fixedly connected with a servo motor, a rotating shaft of the servo motor is fixedly connected with the bottom end of the centrifugal cylinder through a coupler, a first filter plate is fixedly connected with the upper end of the interior of the centrifugal tank in an inclined manner, the lower surface of the first filter plate is fixedly connected with a vibration motor, the bottom end of the centrifugal tank is provided with a crystal discharge pipe, a liquid outlet pipe is arranged at the bottom end of the side wall of the centrifugal tank, a liquid receiving box is arranged at the lower end of the liquid outlet pipe, the lower extreme of centrifugation jar is equipped with the crystal and connects the workbin, the centrifugation jar is located one side that corresponds a filter plate end and is equipped with the separator box, the separator box passes through the pipeline and is connected in the position that corresponds the filter plate one with the centrifugation jar.

Furthermore, the side wall of the upper end of the centrifugal cylinder is provided with an annular bump along the circumferential direction, a rotating bearing is fixedly connected to the position, located on the annular bump, inside the centrifugal tank, and the inner side of the rotating bearing is fixedly connected with the annular bump.

Furthermore, the centrifugal cylinder is uniformly provided with filter holes, the filter holes are smaller than filter holes formed in the upper end of the filter plate, the outer side wall of the centrifugal cylinder is fixedly connected with a filter screen and a molybdenum wire mesh, the filter screen is positioned on the inner layer of the molybdenum wire mesh, the filter holes of the filter screen are smaller than the filter holes of the centrifugal cylinder, and the filter holes of the molybdenum wire mesh are larger than the filter holes of the filter screen.

Furthermore, a flow guide ring is fixedly connected to the lower end of the centrifugal cylinder, which is located on the first filter plate, the flow guide ring is of an inverted circular truncated cone column structure, and the diameter of the bottom end of the flow guide ring is smaller than that of the centrifugal cylinder.

Furthermore, a second filter plate is arranged in the separation box, a third filter plate is arranged in the liquid receiving box, and filter holes of the second filter plate and the third filter plate are the same as filter holes of the filter screen in size.

Furthermore, the bottom of a side wall of the feeding box is provided with a first liquid level sensor, and the bottom of the liquid outlet pipe is provided with a second liquid level sensor.

Furthermore, the central position department of the inside bottom of centrifuge bowl is the round convex structure, the both ends of the inside bottom of centrifuge bowl are the skew wall structure, the sunken department of the inside bottom of centrifuge bowl is located the position department that corresponds the crystal discharging pipe and is seted up the through-hole.

Compared with the prior art, the beneficial effects of the utility model are that: this xylitol draws centrifugation jar of preparation candy, it is more stable to make centrifuge bowl pivoted through rolling bearing, prevent to lead to rocking because of the focus skew at centrifugal in-process, centrifugal separation's is effectual, filter through the crystal of a pair of great granule of filter plate, prevent that the crystal of great granule from causing when centrifugal separation and produce the jam, and lead to reducing centrifugal efficiency, filter once more the material through filter plate two and filter plate three, prevent that the crystal in the material from filtering once more, improve the separation precision, through the unloading condition and the centrifugal separation condition of the detection material that level sensor one and level sensor two can be fine, prevent that the separation from being insufficient or the complete back servo motor of separation still continues work, the extravagant energy.

Drawings

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

FIG. 2 is a cross-sectional view of the bottom plate of the centrifuge tube of the present invention;

fig. 3 is a partial cross-sectional view of the side wall of the centrifugal cylinder of the present invention.

In the figure: the device comprises a centrifugal tank 1, a feeding tank 2, a filter plate I3, a flow guide ring 4, a centrifugal cylinder 5, a servo motor 6, a liquid outlet pipe 7, a crystal receiving box 8, a liquid receiving box 9, a separation box 10, a filter plate II 11, a filter plate III 12, a rotary bearing 13, a filter screen 14, a molybdenum wire mesh 15, a liquid level sensor I16, a liquid level sensor II 17 and a vibrating motor 18.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example one

Referring to fig. 1-3, the present invention provides a technical solution: a centrifugal tank for preparing candies by extracting xylitol comprises a feeding box 2 arranged at the upper end of a centrifugal tank 1 and a centrifugal cylinder 5 arranged inside the centrifugal tank 1, wherein the bottom end inside the centrifugal tank 1 is rotatably connected with the centrifugal cylinder 5, the bottom end of the centrifugal tank 1 is fixedly connected with a servo motor 6, a rotating shaft of the servo motor 6 is fixedly connected with the bottom end of the centrifugal cylinder 5 through a shaft coupling, a filter plate I3 inclined at the upper end inside the centrifugal tank 1 is fixedly connected with the lower surface of the filter plate I3, a crystal discharging pipe is arranged at the bottom end of the centrifugal tank 1, a liquid outlet pipe 7 is arranged at the bottom end of the side wall of the centrifugal tank 1, a liquid receiving box 9 is arranged at the lower end of the liquid outlet pipe 7, a crystal receiving box 8 is arranged at the lower end of the centrifugal tank 1, a separation box 10 is arranged at one side corresponding to the tail end of the filter plate I3, the separation box 10 is connected with the centrifugal tank 1, electromagnetic valves are arranged in the crystal discharge pipes, a PLC controller is arranged on the centrifugal tank 1, the electromagnetic valves, the servo motor 6 and the vibration motor 18 are electrically connected with the PLC controller, materials to be centrifugally separated enter the centrifugal tank 1 through the feeding box 2, larger crystals are filtered by the first filter plate 3, the filtering of the first filter plate 3 to the crystals is accelerated by the vibrating motor 18, the larger crystals are prevented from being blocked during centrifugal separation, thereby reducing the centrifugal efficiency, larger crystal particles enter the separation box 10 through a pipeline, the filtered material falls into the centrifugal cylinder 5, the centrifugal cylinder 5 is driven by the servo motor 6 to rotate to carry out centrifugal separation on materials, separated liquid flows into the liquid receiving box 9 through the liquid outlet pipe 7, after the separation is finished, the crystal falls into the crystal receiving box 8 by opening the electromagnetic valve in the crystal discharging pipe, and the crystal is convenient to discharge.

Further, 5 upper end lateral wall of centrifuge bowl is equipped with annular lug along the circumferencial direction, 1 inside fixedly connected with rolling bearing 13 in the position department that is located annular lug of centrifuge bowl, rolling bearing 13 inboard and annular lug fixed connection make centrifuge bowl 5 pivoted more stable through rolling bearing 13, prevent to lead to rocking because the focus skew at centrifugal in-process, and centrifugal separation's is effectual.

Furthermore, the centrifuge bowl 5 is evenly provided with filter holes, the filter holes are smaller than the filter holes formed in the upper end of the first filter plate 3, the outer side wall of the centrifuge bowl 5 is fixedly connected with a filter screen 14 and a molybdenum wire screen 15, the filter screen 14 is located on the inner layer of the molybdenum wire screen 15, the filter holes of the filter screen 14 are smaller than the filter holes of the centrifuge bowl 5, the filter holes of the molybdenum wire screen 15 are larger than the filter holes of the filter screen 14, the materials are filtered again through the filter screen 14, and the strength of the filter screen 14 is enhanced through the molybdenum wire screen 15.

Furthermore, a flow guide ring 4 is fixedly connected to the lower end of the filter plate I3 in the centrifugal cylinder 5, the flow guide ring 4 is of an inverted circular truncated cone column structure, the diameter of the bottom end of the flow guide ring 4 is smaller than that of the centrifugal cylinder 5, and materials filtered by the filter plate I4 all flow into the centrifugal cylinder 5 through the special structure of the flow guide ring 4.

Furthermore, a second filter plate 11 is arranged in the separation box 10, a third filter plate 12 is arranged in the liquid receiving box 9, filter holes of the second filter plate 11 and the third filter plate 12 are the same as those of the filter screen 14, and the materials are filtered again through the second filter plate 11 and the third filter plate 12, so that crystals in the materials are prevented from being filtered again, and the separation precision is improved.

Further, the bottom of 2 lateral walls of feeding case is equipped with level sensor 16, the bottom of drain pipe 7 is equipped with level sensor two 17, level sensor 16 and level sensor two 17 all are connected with the PLC controller electricity, when level sensor 16 can not detect the material of coming in the case 2, explain that the material of coming in the case 2 is whole to be flowed out, vibrating motor 18 stop work, when level sensor two 17 can not detect when having liquid to flow in the drain pipe 7, explain the separation and end, servo motor 6 stop work, the unloading condition and the centrifugal separation condition of detection material that can be fine through level sensor 16 and level sensor two 17, prevent that the separation is insufficient or servo motor 6 still continues to work after the separation is complete, the extravagant energy.

Furthermore, the central position department of the inside bottom of centrifuge bowl 5 is the dome structure, the both ends of the inside bottom of centrifuge bowl 5 are the skew wall structure, the sunken department of the inside bottom of centrifuge bowl 5 is located the position department that corresponds the crystal discharging pipe and has seted up the through-hole, is convenient for the crystal ejection of compact after the separation through the special construction of the inside bottom of centrifuge bowl 5.

When in use: the material to be centrifugally separated enters the centrifugal tank 1 through the feeding box 2, the larger-particle crystals are filtered through the first filter plate 3, the vibration motor 18 accelerates the first filter plate 3 to filter the crystals, the larger-particle crystals enter the separation box 10 through a pipeline, the second filter plate 11 filters the material flowing into the separation box 10 again, the filtered material falls into the centrifugal cylinder 5, the servo motor 6 drives the centrifugal cylinder 5 to rotate to centrifugally separate the material, the separated liquid flows into the liquid receiving box 9 through the liquid outlet pipe 7, the third filter plate 12 filters the material flowing into the liquid receiving box 9 again, when the first liquid level sensor 16 does not detect the material in the incoming tank 2, the vibration motor 18 stops working, when the second liquid level sensor 17 cannot detect that liquid flows in the liquid outlet pipe 7, the servo motor 6 stops working, and the electromagnetic valve in the crystal discharge pipe is opened to enable the crystals to fall into the crystal receiving box 8.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a xylitol draws centrifugation jar of preparation candy, is including setting up the feeding case in centrifugation jar upper end, sets up in the inside centrifuge bowl of centrifugation jar, its characterized in that: the inside bottom of centrifuge bowl rotates and is connected with the centrifuge bowl, centrifuge bowl bottom end fixedly connected with servo motor, shaft coupling and centrifuge bowl bottom fixed connection are passed through to servo motor's pivot, the fixedly connected with filter plate one of the inside upper end slope of centrifuge bowl, the lower fixed surface of filter plate one is connected with vibrating motor, the bottom of centrifuge bowl is equipped with the crystal discharging pipe, the lateral wall bottom of centrifuge bowl is equipped with the drain pipe, the drain pipe lower extreme is equipped with liquid and connects the workbin, the lower extreme of centrifuge bowl is equipped with the crystal and connects the workbin, the centrifuge bowl is equipped with the separator box on the one side that is located to correspond a filter plate end, the separator box passes through the pipeline and is connected in the position that is located to correspond filter plate one with.

2. The centrifugal pot for preparing candy by extracting xylitol according to claim 1, wherein the centrifugal pot comprises: the centrifugal cylinder is characterized in that an annular bump is arranged on the side wall of the upper end of the centrifugal cylinder in the circumferential direction, a rotating bearing is fixedly connected to the position, located on the annular bump, inside the centrifugal cylinder, and the inner side of the rotating bearing is fixedly connected with the annular bump.

3. The centrifugal pot for preparing candy by extracting xylitol according to claim 1, wherein the centrifugal pot comprises: the centrifugal cylinder is uniformly provided with filter holes, the filter holes are smaller than filter holes formed in the upper end of the filter plate, the outer side wall of the centrifugal cylinder is fixedly connected with a filter screen and a molybdenum wire mesh, the filter screen is positioned on the inner layer of the molybdenum wire mesh, the filter holes of the filter screen are smaller than the filter holes of the centrifugal cylinder, and the filter holes of the molybdenum wire mesh are larger than the filter holes of the filter screen.

4. The centrifugal pot for preparing candy by extracting xylitol according to claim 1, wherein the centrifugal pot comprises: the centrifugal cylinder is internally and fixedly connected with a flow guide ring at the lower end of the first filter plate, the flow guide ring is of an inverted round platform column structure, and the diameter of the bottom end of the flow guide ring is smaller than that of the centrifugal cylinder.

5. The centrifugal pot for preparing candy by extracting xylitol according to claim 1, wherein the centrifugal pot comprises: the separation box is internally provided with a second filter plate, the liquid receiving box is internally provided with a third filter plate, and the filter holes of the second filter plate and the third filter plate are the same as the filter holes of the filter screen in size.

6. The centrifugal pot for preparing candy by extracting xylitol according to claim 1, wherein the centrifugal pot comprises: the bottom of a side wall of the feeding box is provided with a first liquid level sensor, and the bottom of the liquid outlet pipe is provided with a second liquid level sensor.

7. The centrifugal pot for preparing candy by extracting xylitol according to claim 1, wherein the centrifugal pot comprises: the central position department of the inside bottom of centrifuge bowl is the round convex structure, the both ends of the inside bottom of centrifuge bowl are the skew wall structure, the sunken department of the inside bottom of centrifuge bowl is located the position department that corresponds the crystal discharging pipe and has seted up the through-hole.

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