CN210892598U - Drying device for preparing glucosamine - Google Patents

Abstract

The utility model provides a drying device that glucosamine preparation was used, including the desiccator main part, the inside of desiccator main part is equipped with the interior chamber of L shape, one side of the perpendicular working section of chamber is equipped with first vertical support and the vertical support of second in the L shape, it is equipped with a plurality of slope flow boards, a plurality of to stagger on the corresponding lateral wall of first vertical support and the vertical support of second the interval internal fixation of slope flow board has a plurality of hot plates, and is a plurality of the hot plate is connected with electric heating drying device, the bottom mounting of first vertical support has a flitch, it keeps away from to go out the flitch the one end of first vertical support is connected with the discharge gate, just it has the heating pipe to go out the lower surface of flitch embedded, the heating pipe is connected with the heating pipe power. The utility model discloses an utilize a plurality of hot plates to carry out the stoving of heating repeatedly during the internal slope flow board of desiccator, later the material is embedded through ejection of compact board lower surface when seeing off and is had the heating pipe reheating, realizes high efficiency's stoving process.

Description

Drying device for preparing glucosamine

Technical Field

The utility model relates to an aminosugar preparation technical field specifically is a drying device that aminosugar preparation was used.

Background

Glucosamine, glucosamine for short, is a substance synthesized in the human body, is an important nutrient, is a natural tissue component of healthy articular cartilage, and has important physiological functions for the human body.

The preparation process of glucosamine is complicated, and wherein the drying of glucosamine is essential important link in whole production process, and present glucosamine drying device is tank structure at present mostly, and dry material time is longer, and the tank body clearance is loaded down with trivial details to extension production time.

Therefore, a high-efficiency dryer which is not a tank body, has high thermal efficiency and is free of pollution needs to be developed.

SUMMERY OF THE UTILITY MODEL

The utility model mainly provides a drying device for preparing ammonia sugar, which is used for solving the problem of the prior art.

The utility model provides a technical scheme that above-mentioned technical problem adopted does:

the utility model provides a drying device that glucosamine preparation was used, includes the desiccator main part, its characterized in that: the dryer comprises a dryer body and is characterized in that an L-shaped inner cavity is arranged in the dryer body, a first vertical support and a second vertical support are arranged on one side of a vertical working section of the L-shaped inner cavity, the first vertical support and the second vertical support are respectively welded on the side walls of two sides of the vertical working section of the L-shaped inner cavity, a plurality of inclined flow plates are arranged on the corresponding side walls of the first vertical support and the second vertical support in a staggered mode, the inclined flow plates are fixed on the first vertical support and the second vertical support through bolts, a plurality of heating plates are fixed in intervals of the inclined flow plates one by one through screws, the heating plates are connected with an electric heating drying device through leads, and the electric heating drying device is fixed on the outer wall of one side of the dryer body through bolts;

the bottom of first vertical support is fixed with out the flitch through the bolt, it keeps away from to go out the flitch the one end of first vertical support is connected with the discharge gate, just it has the heating pipe to go out the lower surface of flitch is embedded, the heating pipe is connected with the heating pipe power through the wire, the heating pipe power is located the lower extreme that goes out the flitch passes through the bolt fastening in on the interior bottom plate of the perpendicular working section of chamber in the L shape.

Further, the horizontal workings one side of cavity is equipped with the feed inlet in the L shape, the horizontal workings of cavity is followed in the L shape the feed inlet is inwards equipped with a plurality of adjustable thermal current output device one by one, and is a plurality of adjustable thermal current output device's upper end is equipped with air cleaner, air cleaner's bottom and a plurality of adjustable thermal current output device's top communicates with each other, air cleaner's top is connected with air heater, air heater is located the inside of intake stack, the intake stack is fixed in the top of desiccator main part, the intake stack is kept away from air heater's one end is equipped with the fan, just air heater is connected with the air heating power through the wire, the air heating power is fixed in on the shell body of intake stack.

Further, the fan is kept away from the one end of intake stack is equipped with the dehumidifier, run through the bottom of dehumidifier the top casing of desiccator main part extends to the upper end of the perpendicular working section of L shape inner chamber, the dehumidifier is connected with moisture detector through the wire, moisture detector is fixed in on the outside lateral wall of the perpendicular working section of L shape inner chamber.

Further, moisture detector's lower extreme is equipped with the peeping window, one side of peeping window is equipped with operating panel side by side, just operating panel keeps away from one side of peeping window extends to be equipped with a plurality of cabinet doors on the outside lateral wall of the interior chamber horizontal workings section of L shape one by one.

Further, the inside conveyer that is equipped with of horizontal working section of chamber in the L shape, conveyer is located a plurality ofly adjustable heat flow output device's lower extreme, conveyer is fixed in through the conveyer belt frame on the bottom inner wall of chamber horizontal working section in the L shape, just the both ends symmetry of conveyer belt frame is equipped with servo motor, two servo motor respectively with conveyer's beam barrel is connected.

Further, the lower extreme of conveyer belt frame is equipped with ultraviolet germicidal device, ultraviolet germicidal device's bottom is fixed in through the bolt on the bottom inner wall of chamber horizontal work section in the L shape, ultraviolet germicidal device's top is equipped with a plurality of sterilamp one by one, and is a plurality of the top of sterilamp with conveyer belt's lower terminal surface contactless.

Furthermore, an insulating layer is fixed on the inner wall of the l-shaped inner chamber through screws.

Compared with the prior art, the beneficial effects of the utility model are that:

one, the air generated by the rotation of the fan on the top of the machine body enters the air heater through the air conveying pipe, the internal structure of the air heater is heated by the air heating power supply, thereby heating the flowing air, evaporating the moisture in the air while heating the air, conveying the heated dry heat gas into the air filter for filtering, adjusting the filtered dry heat gas into a plurality of adjustable heat flow output devices by an output device to be proper air flow so as to ensure that the materials on the conveying belt can not be blown away, spraying the adjusted air flow onto the conveying belt to dry the materials on the conveying belt by hot air flow, conveying the dried materials by the conveying belt to flow onto the inclined flow plate, slowing down the flowing speed of the materials by the inclined flow plate, and electrically heating the materials by a plurality of heating plates arranged between the inclined flow plates, therefore, the material can be ensured to be uniformly evaporated to dryness, and then when the material passes through the discharging plate, the heating pipe is arranged in the discharging plate to heat the discharging plate, so that the material is prevented from being infected by external humid air; the drying machine has the advantages that materials are dried again, the influence of external air on internal temperature is isolated, the condition that the materials are not uniformly dried is avoided, the drying speed of the materials is high through layer-by-layer drying of the three processes, and the beneficial effects of high thermal efficiency, low power consumption and large-scale production of small equipment are achieved.

And meanwhile, the cabinet door is arranged on the outer surface of the machine body, so that the working personnel can conveniently perform work such as degerming and maintenance on the interior of the machine body.

The present invention will be explained in detail with reference to the drawings and specific embodiments.

Drawings

Fig. 1 is a schematic view of the overall structure of the dryer of the present invention;

fig. 2 is a sectional view showing the overall structure of the dryer of the present invention;

fig. 3 is an enlarged view of region a in fig. 2.

In the figure: 1. a dryer main body; 11. an operation panel; 12. snooping the window; 13. a humidity detector; 14. a cabinet door; 15. a feed inlet; 16. an air filter; 161. an air heating power supply; 162. an air heater; 163. an air inlet pipeline; 164. a fan; 17. a dehumidifier; 18. an electric heating drying device; 19. a discharge port; 2. an L-shaped inner chamber; 21. an adjustable heat flow output device; 22. a conveyor belt; 221. a servo motor; 222. a conveyor belt frame; 23. an ultraviolet sterilization device; 231. an ultraviolet germicidal lamp; 24. a first vertical support; 241. heating plates; 25. a second vertical support; 251. an inclined flow plate; 26. a heat-insulating layer; 27. a discharge plate; 271. heating a tube; 28. and heating a tube power supply.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully with reference to the accompanying drawings, in which several embodiments of the present invention are shown, but the present invention can be implemented in different forms, and is not limited to the embodiments described in the text, but rather, these embodiments are provided to make the disclosure of the present invention more thorough and comprehensive.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the use of the term knowledge in the specification of the present invention is for the purpose of describing particular embodiments and is not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Please refer to fig. 1 and 2, a drying device for preparing glucosamine includes a drying machine main body 1, an L-shaped inner chamber 2 is disposed inside the drying machine main body 1, a first vertical support 24 and a second vertical support 25 are disposed at one side of a vertical working section of the L-shaped inner chamber 2, the first vertical support 24 and the second vertical support 25 are respectively welded to two side walls of the vertical working section of the L-shaped inner chamber 2, a plurality of inclined flow plates 251 are alternately disposed on corresponding side walls of the first vertical support 24 and the second vertical support 25, the plurality of inclined flow plates 251 are fixed on the first vertical support 24 and the second vertical support 25 by bolts, a plurality of heating plates 241 are fixed one by one in intervals of the plurality of inclined flow plates 251 by screws, the plurality of heating plates 241 are connected to an electric heating drying device 18 by a lead, the electric heating drying device 18 is fixed on an outer wall of one side of the drying machine main body 1 by bolts, a discharge plate 27 is fixed at the bottom end of the first vertical bracket 24 through a bolt, a discharge hole 19 is connected at one end of the discharge plate 27 far away from the first vertical bracket 24, and a heating pipe 271 is embedded in the lower surface of the discharging plate 27, the heating pipe 271 is connected with a heating pipe power supply 28 through a conducting wire, the heating pipe power supply 28 is positioned at the lower end of the discharge plate 27 and is fixed on the inner bottom plate of the vertical working section of the L-shaped inner chamber 2 through bolts, a dehumidifier 17 is arranged at one end of the fan 164 far away from the air inlet pipe 163, the bottom of the dehumidifier 17 penetrates through the top shell of the dryer body 1 and extends to the upper end of the vertical working section of the L-shaped inner chamber 2, the dehumidifier 17 is connected with a humidity detector 13 through a lead, and the humidity detector 13 is fixed on the outer side wall of the vertical working section of the L-shaped inner chamber 2. In this example, through the embedded moisture detector 13 in the adjacent one side of desiccator main part 1 and dehumidifier 17, accessible moisture detector 13 detects the inside hot air humidity of organism, in case hot air humidity is too high, when being unfavorable for the stoving material, moisture detector 13 can open dehumidifier 17 automatically, take out the inside wet ware of organism through dehumidifier 17, let the inside hot air of organism keep dry, thereby make hot air reach efficient stoving effect, after the inside hot air humidity of organism is taken out and is gone out, moisture detector 13 control dehumidifier 17 is closed, thereby save unnecessary waste, secondly need notice be when installation inclined flow board 251 and play flitch 27 need debug suitable position with installation angle, just can realize that the material flows downwards through inclined flow board 251 and play flitch 27.

Please refer to fig. 1 and 2 again, a feed port 15 is disposed at one side of the horizontal working section of the L-shaped inner chamber 2, a plurality of adjustable heat flow output devices 21 are disposed one by one along the feed port 15 at the horizontal working section of the L-shaped inner chamber 2, an air filter 16 is disposed at the upper end of each of the adjustable heat flow output devices 21, the bottom end of the air filter 16 is communicated with the top ends of the adjustable heat flow output devices 21, an air heater 162 is connected to the top end of the air filter 16, the air heater 162 is located inside an air inlet pipe 163, the air inlet pipe 163 is fixed to the top of the dryer body 1, a fan 164 is disposed at one end of the air inlet pipe 163 away from the air heater 162, the air heater 162 is connected to an air heating power source 161 through a wire, the air heating power source 161 is fixed to the outer shell of the air inlet pipe 163, the lower extreme of moisture detector 13 is equipped with snooping window 12, one side of snooping window 12 is equipped with operating panel 11 side by side, just operating panel 11 keeps away from one side of snooping window 12 extends to be equipped with a plurality of cabinet doors 14 on the outside lateral wall of 2 horizontal workings sections in the L shape one by one. In this embodiment, the drying condition of the L-shaped inner chamber 2 can be observed at any time through the peep window 12, and the operation panel 11 can adjust the conveying speed of the conveying belt 22 inside the operation panel, the heating speed of the air heater 162, and the heat flow of the adjustable heat flow output device 21, so that even if the material of the conveying belt 22 is conveyed too much, the material can be adjusted through the operation panel 11, and the material can obtain a sufficient drying effect.

Please refer to fig. 2, a conveyor belt 22 is arranged inside the horizontal working segment of the L-shaped inner chamber 2, the conveyor belt 22 is located at the lower ends of the plurality of adjustable heat flow output devices 21, the conveyor belt 22 is fixed on the inner wall of the bottom end of the horizontal working segment of the L-shaped inner chamber 2 through a conveyor belt frame 222, two ends of the conveyor belt frame 222 are symmetrically provided with servo motors 221, the two servo motors 221 are respectively connected with the rollers of the conveyor belt 22, the lower end of the conveyor belt frame 222 is provided with an ultraviolet sterilization device 23, the bottom of the ultraviolet sterilization device 23 is fixed on the inner wall of the bottom end of the horizontal working segment of the L-shaped inner chamber 2 through bolts, the top end of the ultraviolet sterilization device 23 is provided with a plurality of ultraviolet sterilization lamps 231 one by one, and the tops of the plurality of ultraviolet sterilization lamps 231 are not in contact with the lower end surface of the conveyor belt 22, the inner wall of the L-shaped inner chamber 2 is fixed with an insulating layer 26 through screws. In this example, the ultraviolet sterilization device 23 is disposed at the lower end of the conveyor to sterilize and disinfect the conveyor belt 22, so as to protect the material from contamination, ensure the quality safety of the material, and reduce the loss of the internal temperature by the heat insulation layer 26, thereby achieving the effect of saving energy.

The utility model discloses a concrete operation as follows:

firstly, materials are fed into the L-shaped inner chamber 2 from the feeding hole 15 and are conveyed through the transmission belt 32, in the conveying process, a fan 164 at the top end of a machine body is used for generating air flow to enter the air heater 162 through an air inlet pipeline 163, the air heater 162 evaporates and heats the moisture in the air through energy provided by an air heating power supply 161, the heated dry hot air is filtered by an air filter 16 and then is conveyed into an adjustable output device 31, the conveyed materials are blown and heated through a plurality of adjustable heat flow output devices 21 on the inner wall at the top end, the heated materials are conveyed to a plurality of inclined flow plates 251 to flow downwards, when the inclined flow plates 251 are installed, the angle of the inclined flow plates 251 is adjusted to an angle capable of enabling the materials to flow smoothly, the materials flow downwards along the inclined flow plates 251, in the flowing process, a plurality of heating plates 241 are conveyed through an electric heating drying device 18, drying again through the heating plate 241, flowing to the heating pipe 271 heating of the inside of play flitch 27 at last, the heating pipe 271 provides working power for the heating pipe 271 with the help of the heating pipe power 28 of play flitch 27 bottom, later the material conveying is sent out to discharge gate 19, the vapor that evaporates in the material drying process passes through moisture detector 13 and detects, moisture detector 13 opens dehumidifier 17 automatically and discharges vapor when vapor reaches the degree that needs to discharge.

The above description of the present invention is made in conjunction with the accompanying drawings, and it is obvious that the present invention is not limited by the above embodiments, and the method and the technical solution of the present invention are not substantially improved or directly applied to other occasions without improvement, and are all within the protection scope of the present invention.

Claims (7)

1. A drying device for preparing glucosamine comprises a dryer main body (1), and is characterized in that: the dryer comprises a dryer main body (1), wherein an L-shaped inner chamber (2) is arranged in the dryer main body (1), a first vertical support (24) and a second vertical support (25) are arranged on one side of a vertical working section of the L-shaped inner chamber (2), the first vertical support (24) and the second vertical support (25) are welded on two side walls of the vertical working section of the L-shaped inner chamber (2) respectively, a plurality of inclined flow plates (251) are arranged on corresponding side walls of the first vertical support (24) and the second vertical support (25) in an staggered manner, the inclined flow plates (251) are fixed on the first vertical support (24) and the second vertical support (25) through bolts, a plurality of heating plates (241) are fixed in intervals of the inclined flow plates (251) one by one through screws, the heating plates (241) are connected with an electric heating and drying device (18) through conducting wires, and the electric heating and drying device (18) is fixed on the outer wall of one side of the dryer main body (1) through bolts The above step (1);

the bottom of first vertical support (24) is fixed with ejection of compact board (27) through the bolt, ejection of compact board (27) are kept away from the one end of first vertical support (24) is connected with discharge gate (19), just the lower surface of ejection of compact board (27) is embedded to have heating pipe (271), heating pipe (271) are connected with heating pipe power (28) through the wire, heating pipe power (28) are located the lower extreme of ejection of compact board (27) passes through the bolt fastening in on the infrabasal plate of the perpendicular working section of L shape inner chamber (2).

2. The drying apparatus for producing aminosugar according to claim 1, wherein: the horizontal working section one side of interior chamber (2) is equipped with feed inlet (15) in the L shape, the horizontal working section of interior chamber (2) in the L shape is followed feed inlet (15) inwards is equipped with a plurality of adjustable heat flow output device (21) one by one, and is a plurality of the upper end of adjustable heat flow output device (21) is equipped with air cleaner (16), the bottom and a plurality of air cleaner (16) the top of adjustable heat flow output device (21) communicates with each other, the top of air cleaner (16) is connected with air heater (162), air heater (162) are located the inside of intake stack (163), intake stack (163) are fixed in the top of desiccator main part (1), air intake stack (163) are kept away from the one end of air heater (162) is equipped with fan (164), just air heater (162) are connected with air heating power supply (161) through the wire, the air heating power supply (161) is fixed on the outer shell of the air inlet pipeline (163).

3. The drying apparatus for producing aminosugar according to claim 2, wherein: fan (164) are kept away from the one end of intake stack (163) is equipped with dehumidifier (17), the bottom of dehumidifier (17) is run through the top casing of desiccator main part (1) extends to the upper end of the perpendicular working section of L shape interior chamber (2), dehumidifier (17) are connected with moisture detector (13) through the wire, moisture detector (13) are fixed in on the outside lateral wall of the perpendicular working section of L shape interior chamber (2).

4. The drying apparatus for producing aminosugar according to claim 3, wherein: the lower extreme of moisture detector (13) is equipped with snooping window (12), one side of snooping window (12) is equipped with operating panel (11) side by side, just operating panel (11) are kept away from one side of snooping window (12) extends to be equipped with a plurality of cabinet doors (14) on the outside lateral wall of L shape inner chamber (2) horizontal workings section one by one.

5. The drying apparatus for producing aminosugar according to claim 2, wherein: inside conveyer belt (22) of being equipped with of horizontal working section of cavity (2) in the L shape, conveyer belt (22) are located a plurality of the lower extreme of adjustable heat flow output device (21), conveyer belt (22) are fixed in through conveyer belt frame (222) on the bottom inner wall of cavity (2) horizontal working section in the L shape, just the both ends symmetry of conveyer belt frame (222) is equipped with servo motor (221), two servo motor (221) respectively with the beam barrel of conveyer belt (22) is connected.

6. The drying apparatus for producing aminosugar according to claim 5, wherein: the lower extreme of conveyer belt frame (222) is equipped with ultraviolet germicidal device (23), the bottom of ultraviolet germicidal device (23) is fixed in through the bolt on the bottom inner wall of L shape inner chamber (2) horizontal work section, the top of ultraviolet germicidal device (23) is equipped with a plurality of sterilamp (231) one by one, and is a plurality of the top of sterilamp (231) with the lower terminal surface contactless of conveyer belt (22).

7. The drying apparatus for producing aminosugar according to claim 1, wherein: and an insulating layer (26) is fixed on the inner wall of the L-shaped inner chamber (2) through screws.

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