CN212962667U - High-efficient drying device is used in gelatin production - Google Patents

Abstract

The utility model discloses a gelatin production is with high-efficient drying device, including the shell, install conveying mesh belt between the shell inner chamber, shell inner chamber both ends form feeding chamber and stoving chamber, and the feeder hopper is cup jointed at the top in feeding chamber, installs the fixing base between the inner wall in feeding chamber, slope joint stock guide on the fixing base, and the bottom of stock guide is located conveying mesh belt's one end top, installs swing mechanism between stock guide and fixing base, and stoving chamber terminal surface is opened there is the discharge gate, and conveying mesh belt's the other end stretches out the discharge gate, installs the air heater on the shell of discharge gate department. Gelatin is extruded through the extruder and is fallen on the stock guide through the feeder hopper, and swing mechanism drives the stock guide swing back and forth for gelatin makes a round trip to rock on the stock guide, thereby distributes evenly, and then gelatin passes through the stock guide and evenly tiles to the transport web, avoids gelatin to pile up, and the hot-blast that the air heater blew off to the stoving intracavity is fully dried to the gelatin of being convenient for, raises the efficiency, and the gelatin of final stoving is seen off from the discharge gate and is collected.

Description

High-efficient drying device is used in gelatin production

Technical Field

The utility model relates to a gelatin production technical field specifically is a high-efficient drying device is used in gelatin production.

Background

Gelatin is a product obtained by partial hydrolysis of collagen, is usually produced by using animal skins, bones and leather-making industry wastes as raw materials, is required to be dried after being extruded by an extruder in the production of gelatin, a long-net dryer is mostly adopted, the conventional gelatin is extruded by the extruder and then is scraped into the long-net dryer by a scraper, thereby dropping on a stainless steel conveying mesh belt, carrying gelatin to move and drying by hot air, therefore, the continuous production is realized, however, the extrusion ports of the extruder are of a plurality of porous structures, the extruded gelatin is scraped by the scraper to form a short strip structure, a plurality of gelatin are extruded each time, and the gelatin is easy to accumulate when being extruded and dropped on the conveying mesh belt, so that the part clinging to the conveying mesh belt in the drying process can not be sufficiently dried, the efficiency is low, therefore, the drying distance needs to be prolonged, the occupied workshop space is increased, the device cost is increased, and therefore the high-efficiency drying device for gelatin production is provided for solving the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high-efficient drying device is used in gelatin production to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a gelatin production is with high-efficient drying device, includes the shell, install conveying mesh belt between the shell inner chamber, shell inner chamber both ends form feeding chamber and stoving chamber, the fixed feeder hopper that cup joints in top in feeding chamber, fixed mounting fixing base between the inner wall in feeding chamber, slope joint stock guide on the fixing base, the bottom of stock guide is located conveying mesh belt's one end top, install swing mechanism between stock guide and fixing base, the one end terminal surface that feeding chamber was kept away from in the stoving chamber is opened there is the discharge gate, conveying mesh belt's the other end stretches out the discharge gate, install the air heater on the shell of discharge gate department.

Preferably, the feeding chamber and the stoving chamber constitute L type structure, the shell terminal surface outer wall of feeding chamber department is opened has a plurality of air outlets, conveying mesh belt, feeder hopper and stock guide surface all coat and have anti-sticking coating.

Preferably, the stock guide includes the slide, the top of slide slope laminating fixing base, the top fixed mounting top cap of slide, the top cap top is equipped with the opening of laminating feeder hopper bottom inner wall.

Preferably, swing mechanism includes the guide way, the guide way has all been opened at the top surface both ends of fixing base, the equal fixed mounting guide block in bottom both sides of stock guide, the guide block sliding clamping connects in the guide way, open at the fixing base top between the guide way has the spout, stock guide bottom fixed mounting sliding frame between the guide block, sliding frame sliding clamping connects in the spout, the fixed embedded installation motor in bottom surface of spout, the output shaft of motor stretches into the inner chamber of sliding frame and fixed cup joints the half-gear, the equal fixed mounting rack in both sides inner wall bottom of sliding frame, rack and half-gear phase-match.

Preferably, the guide block and the guide groove are of T-shaped structures matched with each other, the bottom surfaces of the sliding groove and the sliding frame are of horizontal structures, and the top surfaces of the sliding groove and the sliding frame are of inclined structures attached to the material guide plate.

Preferably, the top of the drying cavity is fixedly provided with a dispersion box, the top of one end of the dispersion box, which is close to the discharge port, is fixedly sleeved with one end of an air inlet pipe, the other end of the air inlet pipe is fixedly connected with an air outlet of an air heater, the bottom of the dispersion box is fixedly sleeved with a plurality of rows of air outlet pipes, the bottoms of the air outlet pipes are inclined towards the feeding cavity, and a plurality of air deflectors with arc structures are fixedly arranged on a bottom plate of the drying cavity.

Compared with the prior art, the beneficial effects of the utility model are that: the swinging mechanism drives the material guide plate to move back and forth at a constant speed, so that the gelatin on the material guide plate rocks back and forth, the stacked gelatin is rocked and separated on the material guide plate, and the gelatin is evenly paved on the conveying net belt when sliding off the material guide plate, thereby facilitating even heating and improving the drying efficiency; evenly distributed's play tuber pipe evenly blows hot-blast to gelatin, and the gelatin of being convenient for fast drying, and when the mesh that hot-blast sees through conveying mesh belt blows to stoving chamber bottom plate, the aviation baffle of arc structure leads hot-blast, makes hot-blast upwards blowing once more for blow to hug closely conveying mesh belt's gelatin bottom, further improves hot-blast utilization ratio, and the gelatin bottom of being convenient for is dried, improves drying efficiency.

Drawings

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

FIG. 2 is an enlarged schematic view of the structure at A of FIG. 1 according to the present invention;

fig. 3 is an exploded view of the swing mechanism of the present invention.

In the figure: the device comprises a shell 1, a conveying mesh belt 2, a feeding cavity 3, a drying cavity 4, a feeding hopper 5, a discharging hole 6, a fixing seat 7, a material guide plate 8, a sliding plate 81, a top cover 82, a swinging mechanism 9, a guide block 91, a sliding frame 92, a rack 93, a half gear 94, a motor 95, a guide groove 96, a sliding groove 97, a hot air blower 10, an air inlet pipe 11, a dispersion box 12, an air outlet pipe 13, an air deflector 14 and an air outlet 15.

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.

Referring to fig. 1-3, the present invention provides a technical solution: the utility model provides a gelatin production is with high-efficient drying device, which comprises an outer shell 1, 1 inner chamber of shell installation conveying mesh belt 2, 1 inner chamber both ends of shell form feeding chamber 3 and stoving chamber 4, feeding hopper 5 is cup jointed to the top of feeding chamber 3 is fixed, fixed mounting fixing base 7 between the inner wall in feeding chamber 3, slope joint stock guide 8 on the fixing base 7, the bottom of stock guide 8 is located conveying mesh belt 2's one end top, install swing mechanism 9 between stock guide 8 and fixing base 7, the one end terminal surface that feeding chamber 3 was kept away from in stoving chamber 4 is opened there is discharge gate 6, conveying mesh belt 2's the other end stretches out discharge gate 6, install air heater 10 on the shell 1 of discharge gate 6 department. Gelatin is extruded through the extruder and is dropped to the stock guide 8 through feeder hopper 5 on, swing mechanism 9 drives stock guide 8 swing back and forth for gelatin makes a round trip to rock on stock guide 8, thereby it is even to distribute, then gelatin passes through stock guide 8 and evenly tiles on conveying mesh belt 2, avoid gelatin to pile up, hot-blast that air heater 10 blew off to drying chamber 4 in, the gelatin of being convenient for is fully dried, raise the efficiency, the gelatin of final stoving is seen off from discharge gate 6 and is collected.

The feeding cavity 3 and the drying cavity 4 form an L-shaped structure, the outer wall of the end face of the shell 1 at the position of the feeding cavity 3 is provided with a plurality of air outlets 15, and anti-sticking coatings are coated on the surfaces of the conveying mesh belt 2, the feeding hopper 5 and the material guide plate 8.

Guide 8 includes slide 81, the top of slide 81 slope laminating fixing base 7, the top fixed mounting top cap 82 of slide 81, and the top cap 82 top is equipped with the opening of laminating feeder hopper 5 bottom inner wall, and gelatin falls on slide 81 through the opening of top cap 82 and slides along slide 81, and the all the other tops of top cap 82 are enclosed state, and gelatin drops when avoiding the swing of slide 81.

The swing mechanism 9 comprises a guide groove 96, both ends of the top surface of the fixed seat 7 are provided with the guide grooves 96, both sides of the bottom of the material guide plate 8 are fixedly provided with guide blocks 91, the guide blocks 91 are clamped in the guide grooves 96 in a sliding manner, the top of the fixed seat 7 between the guide grooves 96 is provided with a sliding groove 97, the bottom of the material guide plate 8 between the guide blocks 91 is fixedly provided with a sliding frame 92, the sliding frame 92 is clamped in the sliding groove 97 in a sliding manner, the bottom surface of the sliding groove 97 is fixedly embedded with a motor 95, an output shaft of the motor 95 extends into an inner cavity of the sliding frame 92 and is fixedly sleeved with a half gear 94, the bottoms of the inner walls of both sides of the sliding frame 92 are fixedly provided with racks 93, the racks 93 are matched with the half gear 94, the guide blocks 91 and the guide grooves 96 are of T-shaped structures which are matched, the bottom surfaces of the sliding groove 97 and the sliding frame 92, the rack 93 of half gear 94 meshing slip frame 92 both sides in turn to drive slip frame 92 along spout 97 uniform velocity reciprocating motion, then slip frame 92 drives stock guide 8 uniform velocity reciprocating motion, guide block 91 and guide way 96 lead spacingly to stock guide 8, make the gelatin on stock guide 8 make a round trip to rock, the gelatin that will pile up rocks on stock guide 8 separately, makes its even tiling on conveying mesh belt 2, the thermally equivalent of being convenient for, improvement drying efficiency.

A dispersion box 12 is fixedly installed at the top of the drying cavity 4, one end of the dispersion box 12 close to the discharge port 6 is fixedly sleeved at the top of the dispersion box, one end of an air inlet pipe 11 is fixedly sleeved at the other end of the air inlet pipe 11, the air outlet of an air heater 10 is fixedly connected at the other end of the air inlet pipe 11, a plurality of rows of air outlet pipes 13 are fixedly sleeved at the bottom of the dispersion box 12, the bottoms of the air outlet pipes 13 are inclined towards the feeding cavity 3, a plurality of air deflectors 14 with arc structures are fixedly installed on the bottom plate of the drying cavity 4, hot air generated by the air heater 10 is blown into the dispersion box 12 from the air inlet pipe 11 and then blown towards gelatin through the plurality of air outlet pipes 13 to dry the gelatin, and when the hot air is blown towards the bottom plate of the drying cavity 4 through meshes of the conveying net belt 2, the air deflectors 14 with arc structures guide the hot air, so that the, the drying efficiency is improved.

The working principle is as follows: when the utility model is used, gelatin is extruded by an extruder and falls onto the material guide plate 8 through the feed hopper 5, the motor 95 drives the half gear 94 to continuously rotate, the half gear 94 is alternately meshed with the racks 93 at two sides of the sliding frame 92, thereby driving the sliding frame 92 to do uniform reciprocating movement along the sliding groove 97, the sliding frame 92 drives the material guide plate 8 to do uniform reciprocating movement, the guide block 91 and the guide groove 96 are used for guiding and limiting the material guide plate 8, so that the gelatin on the material guide plate 8 shakes back and forth, the stacked gelatin is shaken and separated on the material guide plate 8, the gelatin is evenly laid on the conveying net belt 2 when sliding off from the material guide plate 8, the gelatin is convenient to be evenly heated, the drying efficiency is improved, hot air generated by the hot air heater 10 is blown into the dispersion box 12 from the air inlet pipe 11 and then blown to the gelatin through the plurality of air outlet pipes 13, the gelatin is quickly dried, and the hot air is blown to the, the aviation baffle 14 of arc structure leads hot-blast for hot-blast upwards blowing once more, thereby blow to the gelatin bottom of hugging closely conveying mesh belt 2, further improve hot-blast utilization ratio, the gelatin bottom of being convenient for is dried, improves drying efficiency, and the gelatin of final stoving is seen off from discharge gate 6 and is collected.

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 (6)

1. The utility model provides a gelatin production is with high-efficient drying device, includes shell (1), its characterized in that: install conveying mesh belt (2) between shell (1) inner chamber, shell (1) inner chamber both ends form feeding chamber (3) and stoving chamber (4), the top fixed cup joint feeder hopper (5) in feeding chamber (3), fixed mounting fixing base (7) between the inner wall in feeding chamber (3), slope joint stock guide (8) on fixing base (7), the bottom of stock guide (8) is located the one end top of conveying mesh belt (2), install swing mechanism (9) between stock guide (8) and fixing base (7), the one end terminal surface of feeding chamber (3) is kept away from in stoving chamber (4) is opened there is discharge gate (6), conveying mesh belt (2)'s the other end stretches out discharge gate (6), install air heater (10) on shell (1) of discharge gate (6) department.

2. The efficient drying device for gelatin production according to claim 1, wherein the efficient drying device comprises: feeding chamber (3) and stoving chamber (4) constitute L type structure, shell (1) terminal surface outer wall of feeding chamber (3) department is opened has a plurality of air outlets (15), conveying mesh belt (2), feeder hopper (5) and stock guide (8) surface all coating have anti-adhesion coating.

3. The efficient drying device for gelatin production according to claim 1, wherein the efficient drying device comprises: guide plate (8) include slide (81), the top of slide (81) slope laminating fixing base (7), top fixed mounting top cap (82) of slide (81), top cap (82) top is equipped with the opening of laminating feeder hopper (5) bottom inner wall.

4. The efficient drying device for gelatin production according to claim 1, wherein the efficient drying device comprises: the swing mechanism (9) comprises a guide groove (96), the two ends of the top surface of the fixed seat (7) are respectively provided with the guide groove (96), guide blocks (91) are fixedly arranged on two sides of the bottom of the material guide plate (8), the guide blocks (91) are clamped in the guide grooves (96) in a sliding manner, the top of the fixed seat (7) between the guide grooves (96) is provided with a sliding groove (97), a sliding frame (92) is fixedly arranged at the bottom of the material guide plate (8) between the guide blocks (91), the sliding frame (92) is clamped in the sliding groove (97) in a sliding way, the motor (95) is fixedly embedded in the bottom surface of the sliding groove (97), the output shaft of the motor (95) extends into the inner cavity of the sliding frame (92) and is fixedly sleeved with a half gear (94), racks (93) are fixedly mounted at the bottoms of the inner walls of the two sides of the sliding frame (92), and the racks (93) are matched with the half gears (94).

5. The efficient drying device for gelatin production according to claim 4, wherein the efficient drying device comprises: the guide block (91) and the guide groove (96) are of T-shaped structures matched with each other, the bottom surfaces of the sliding groove (97) and the sliding frame (92) are of horizontal structures, and the top surfaces of the sliding groove and the sliding frame are of inclined structures attached to the material guide plate (8).

6. The efficient drying device for gelatin production according to claim 1, wherein the efficient drying device comprises: the top fixed mounting dispersion case (12) of stoving chamber (4), the one end top fixed sleeve that dispersion case (12) are close to discharge gate (6) cup joints the one end of air-supply line (11), the air outlet of the other end fixed connection air heater (10) of air-supply line (11), the bottom fixed sleeve of dispersion case (12) goes out tuber pipe (13), the bottom that goes out tuber pipe (13) all inclines to feeding chamber (3), a plurality of arc structure's of fixed mounting aviation baffle (14) on the bottom plate of stoving chamber (4).

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