CN103805393B - Automatic saccharifying device - Google Patents

Abstract

The invention relates to an automatic saccharifying device. The automatic saccharifying device is characteried by comprising a center upright column, a rack, a rotating driving mechanism, a material surrounding plate, a screw conveyor, a screw lifting device, a temperature measuring device, a feeding pipeline and a controller, wherein the inner circumference wall of the rack is provided with multiple supporting wheels which are arranged on a saccharifying bed of the center upright column, and the periphery of the saccharifying bed is supported on each supporting wheel. Compared with the piror art, the automatic saccharifying device provided by the invention has the advantages that the labour intensity is effectively reduced, the production efficiency is improved, the whole saccharifying process avoides the manual operation, the whole process is automatically controlled, the saccharifying effect is good, the saccharifying is uniform, the hygiene is guaranteed, and the production efficiency is relatively high because of the design of a two-layer saccharifying unit in a preferred scheme.

Description

A kind of saccharification apparatus automatically

Technical field

The present invention relates to food brewing equipment, specifically refer to a kind of saccharification apparatus automatically.

Background technology

Saccharification operation is one of one important procedure of liquor industry, and it adds bacterial classification in the raw material that upstream operation cooks, and makes feedstock portions or fully saccharification.

Traditional saccharification operation is all manual operationss, adds bacterial classification and be deposited in and on the ground carry out nature saccharification in the raw material upstream sent here.Need artificial discharging, feeding, manually stir, labor strength is large, and production efficiency is low; And the raw material of exposed to air easily to fall into foreign material contaminated, food hygiene management intensity is large, and wastage of material is large.

In order to reduce the labour intensity of workman, the patent No. is that the Chinese utility model patent of ZL201020682599.9 discloses one " saccharification mixer ", it is in saccharifying tank pond, install radial stirring cross bar, the vertical power transmission shaft put is equipped with in the centre of stirring cross bar, reduction box is equipped with in the upper end of power transmission shaft, and the motor of cooperation is housed above reduction box; Stir cross bar following on multiple underlying vertical stirrer gear is housed, interlayer is left in the bottom in groove pond, and interlayer is communicated with waterpipe with delivery port by water inlet, and reduction box has gearbox mount to support, and support leg support is equipped with in bottom surface, groove pond.This application utilizes the agitating device be arranged in saccharifying tank pond to replace artificial stirring operation, alleviates the labour intensity that a part is artificial.But still need hand feed, discharging, natural exposure saccharification, pollution problem does not solve, and the labour intensity of workman and production efficiency also can be improved further.

Summary of the invention

Technical problem to be solved by this invention provides a kind of for the present situation of prior art and can significantly reduce labour intensity, enhances productivity and the automatic saccharification apparatus that is protected of production health.

The present invention solves the problems of the technologies described above adopted technical scheme: this automatic saccharification apparatus, is characterized in that comprising:

Center stand column,

Frame, the periphery circumference along described center stand column is arranged, and the internal perisporium of described frame is provided with multiple support wheel;

Saccharification bed, can be arranged on rotationally in described center stand column centered by described center stand column; The rim bearing of described saccharification bed is on each described support wheel;

Rotary motion mechanism, is arranged between described frame and described saccharification bed, rotates centered by described center stand column for driving described saccharification bed;

Enclose flitch, arrange relative to described frame location, the airtight periphery being connected to described saccharification bed, forms the barrel-like structure of upper end open with described saccharification bed; Described enclosing on flitch is also provided with discharging opening, and on described discharging opening, gear is provided with outlet valve;

Screw rod conveyor, makes material be laid on described saccharification bed equably for carrying out stirring to the material on described saccharification bed; The two ends of the screw rod of screw rod conveyor are separately positioned in described frame and described center stand column;

Screw lifting device, is arranged on the lateral wall of described frame, for driving described screw rod relative to the lifting of described saccharification bed;

Temperature measuring equipment, is arranged on the top of described saccharification bed, for detecting the temperature of material on saccharification bed;

Described saccharification bed, enclose the saccharification unit that flitch, screw rod conveyor, screw lifting device and described temperature measuring equipment form this automatic saccharification apparatus;

Feed pipe, connects upstream device, for the mass transport upstream device handled well to described saccharification bed; Described feed pipe is provided with inlet valve;

Controller, for controlling this automatic saccharification apparatus work, the input port of controller connects the output of described temperature measuring equipment, and the output of controller connects the motor of described screw rod conveyor, described screw lifting device, outlet valve and described inlet valve.

Described lowering or hoisting gear comprises the lifting motor be arranged in described frame, described lifting motor drives connection first screw mandrel and the first power transmission shaft by the first Bevel Gear Transmission group simultaneously, and described first power transmission shaft drives connection second screw mandrel by the second Bevel Gear Transmission group; Described first screw mandrel and described second screw mandrel be arranged in parallel and all perpendicular to described power transmission shaft;

Described first wire rod thread connects the first screw, and described first screw connects the first end of described screw rod; Described second wire rod thread connects the second screw, and described second screw connects the second end of described screw rod.

Described rotary motion mechanism comprises the turning motor be arranged in described frame, and the driving shaft of described turning motor connects gear drive group; The edge of described saccharification bed is sawtooth, and the output of this sawtooth and described gear drive group is connected with a joggle.

Described saccharification unit has two, and two saccharification unit are upper and lower be arranged in parallel for this;

Described feed pipe is provided with two discharging arms, and these two discharging arms correspond respectively to the saccharification bed of two saccharification unit;

Described frame is interval with multiple transom window corresponding with the second saccharification unit.

Described outlet valve comprises and is blocked in discharging valve plate on described discharging opening and discharging cylinder, and the piston rod of described discharging cylinder connects described discharging valve plate, drives described discharging valve plate to open or close described discharging opening by the motion of piston rod.

Described inlet valve comprises the charging valve plate be arranged in described feed pipe, and described charging valve plate connects the piston rod of charging cylinder, by the stretching of piston rod, contracts, thus alternately opens or closes the entrance of two discharging arms.

Described saccharification bed is spliced with one heart by polylith fanning strip.

Compared with prior art, the invention provides a kind of full-automatic sugar gasifying device, use this automatic saccharification apparatus effectively can reduce labour intensity, enhance productivity, and because whole saccharifying avoids manual operation, whole process is controlled automatically by controller, and saccharification result is good, saccharification is even, and health is secure.In preferred version, the design of two-layer saccharification unit makes production efficiency higher.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of embodiment of the present invention assembly structure;

Fig. 2 and Fig. 3 is the longitudinal sectional view (in order to express clearly, all saving section components) of the different angles of Fig. 1;

Fig. 4 is the top view of Fig. 1;

Fig. 5 is the sectional view of the first screw lifting device in the embodiment of the present invention;

Fig. 6 is the side view of Fig. 5.

Detailed description of the invention

Below in conjunction with accompanying drawing embodiment, the present invention is described in further detail.

As shown in Figures 1 to 6, this automatic saccharification apparatus comprises:

Center stand column 1 is the center support of this automatic saccharification apparatus.Center stand column 1 is interval with the top that the first centre of gyration dish 11 and the second centre of gyration dish 12, second centre of gyration dish 12 are positioned at the first centre of gyration dish 11.First centre of gyration dish 11 is connected center stand column with the second centre of gyration dish 12 by bearing, under external force can swimmingly with center stand column 1 for axis rotation.

Frame 2, the frame in the present embodiment is tubular structure, and centrally the periphery circumference of column 1 is arranged, and the internal perisporium of frame is provided with multiple support wheel 21; These support wheels are divided into two groups, and wherein first group of support wheel 21 is positioned at first of frame lower circumferentially, for supporting the first saccharification bed; Second group of support wheel 22 is positioned at second of upper rack circumferentially, for supporting the second saccharification bed.

In the present embodiment, first group and second group of support wheel all have 16 support wheels, and these support wheels are along the circumferential direction evenly arranged.

Frame 2 is also interval with multiple transom window 23, transom window 23 is provided with valve (not shown).The setting of transom window and valve mainly in order to carry by transom window the air having uniform temperature in frame, for regulating the saccharification temperature of material, humidity and oxygen degree.

The top of frame 2 is provided with support 24.Support 24 comprises guide rail 241, connecting rod 242 and Connection Block 243.Its middle guide and connecting rod have four respectively, and the lower end of each guide rail is connected in frame 2, and the upper end of guide rail is connected on Connection Block 243 by each self-corresponding connecting rod, and Connection Block 243 is connected in center stand column 1.

Saccharification bed, for treating the bearing chassis of saccharification material, comprises the first saccharification bed 31 and the second saccharification bed 32 be arranged in parallel.

Wherein the outboard peripheries of the first saccharification bed 31 supports and is arranged on first group of support wheel 21, and the inner peripheral of the first saccharification bed 31 is connected on the first centre of gyration dish 11.In the present embodiment, the outer ledge of the first saccharification bed 31 is broached-tooth design.Frame is provided with the first revolution drive motors 33, and this first revolution drive motors 33 is meshed with the sawtooth on the first saccharification bed 31 edge by the first driving gear set 34.First revolution drive motors drives the first saccharification bed 31 to be axis rotation with center stand column by the first driving gear set 34.

The outboard peripheries of the second saccharification bed 32 supports and is arranged on second group of support wheel 22, and the inner peripheral of the second saccharification bed 32 is connected on the second centre of gyration dish 12.In the present embodiment, the edge of the second saccharification bed 32 is also broached-tooth design.Frame is provided with the second revolution drive motors 35, and this second revolution drive motors 35 is meshed with the sawtooth on the second saccharification bed 32 edge by the second driving gear set 36.Second revolution drive motors drives the second saccharification bed 32 to be that axle rotates with center stand column by the second driving gear set.

Saccharification bed can be prepared from by a monoblock annular slab, also can be spliced by polylith fanning strip 321, as shown in Figure 4.Because saccharification bed is comparatively large, therefore adopt the structure of polylith fanning strip splicing concerning relatively convenient the assembling of the manufacture of saccharification bed and whole automatic saccharification apparatus.Saccharification bed in the present embodiment is spliced by 16 pieces of fan-shaped disk bodies.

Enclosing flitch, is tubular structure, and comprise first and enclose flitch 41 and second and enclose flitch 42, these two pieces are enclosed flitch interval and are fixedly connected on the madial wall of frame 1.Wherein, the first periphery ora terminalis enclosing the lower ora terminalis airtight connection first saccharification bed 31 of flitch 41, forms the barrel-like structure of upper shed with the first saccharification bed, forms the first feed bin of material saccharification.The second airtight periphery ora terminalis being connected to the second saccharification bed 32 of lower ora terminalis enclosing flitch 42, forms the barrel-like structure of upper shed with the second saccharification bed, forms the second feed bin of material saccharification.

First encloses flitch 41 and second encloses and flitch 42 is respectively equipped with the first discharging opening 411 and the second discharging opening 421, first discharging opening 411 and the second discharging opening 421 has two respectively.

First discharging opening 411 and the second discharging opening 421 go up gear respectively and is provided with the first discharging valve plate 412 and the second discharging valve plate 422.First discharging valve plate 412 connects the piston rod of the first discharging cylinder (not shown), closes or open the first discharging opening 411 by the flexible of piston rod.Second discharging valve plate 422 connects the piston rod of the second discharging cylinder (not shown), by the stretching of piston rod, contracts to close or open the second discharging opening 421.

First discharging valve plate and the first discharging cylinder form the first discharge valve in the present embodiment, and the second discharging valve plate and the second discharging cylinder form the second discharge valve in the present embodiment.

Screw rod conveyor, makes material be laid on corresponding saccharification bed equably for stirring material.The present embodiment is provided with two groups of screw rod conveyors, and wherein first group of screw rod conveyor 51 is arranged on the top of the first saccharification bed, and second group of screw rod conveyor 52 is arranged on the top of the second saccharification bed.Often organize screw rod conveyor to be made up of two screw rod conveyors.In the present embodiment, two screw rods 511 in first group of screw rod conveyor are symmetrical arranged relative to center stand column 1, and are positioned at the diametrically same of saccharification bed; The two ends of screw rod are separately positioned in frame 2 and center stand column 1.The drive motors 512 of screw rod conveyor is positioned at the outside of frame 2.

Two screw rods in second group of screw rod conveyor are also be symmetrical arranged centered by center stand column 1, in the present embodiment, two screw rods in second group of screw rod conveyor are not diametrically same, and two screw rods in second group of screw rod conveyor do not overlap up and down with two screw rods in first group of screw rod conveyor.This mainly goes up and is assemblied on same support for the ease of these screw rods.If use two supports, the screw rod in these two groups of screw rod conveyors can coincide with the upper and lower on the radius be parallel to each other.

Screw lifting device, has two covers, is arranged on the lateral wall of frame 1, for driving the lifting of each self-corresponding screw rod conveyor.First screw lifting device 61 is identical with the second screw lifting device 62 structure.The structure of screw lifting device in the present embodiment is described for the first screw lifting device.

First screw lifting device 61 has two covers, and the structure of this two covers the first screw lifting device is identical, corresponds respectively to two screw rod conveyors in first group of screw rod conveyor.For wherein a set of structure and working principle that first screw lifting device is described.First screw lifting device 61 comprises the first lifting motor 611 be arranged on outside frame, and the output shaft of this first lifting motor 611 connects the first screw mandrel 612 and the first connecting axle 613 respectively by the first drive bevel gear group 614.First connecting axle 613 is spacing on connecting rod 242.

First lifting motor 611 is arranged in frame, and its output shaft drives connection first drive bevel gear group 614.Drive vertically disposed first screw mandrel 612 and the first power transmission shaft 613 mutually to rotate by the first drive bevel gear group simultaneously.First screw 618 is slidably arranged on a guide rail 241.First power transmission shaft 613 connects the second screw mandrel 616, second screw mandrel 616 be arranged in center stand column second screw 617, second screw 617 that is threaded by the second Bevel Gear Transmission group 615 and connects the other end of the first screw rod.By the second Bevel Gear Transmission group 615, the moment of the first power transmission shaft is converted to the rotation of the second screw mandrel 616 vertical direction, coordinates with the first screw mandrel, the two ends of the first screw rod are upwards promoted simultaneously.

Temperature measuring equipment (not shown), has two, is separately positioned on the top of two saccharification beds, for detecting the temperature of the material on saccharification bed; Temperature measuring equipment in the present embodiment is temperature sensor.The application is also provided with oxygen concentration detector and moisture detector (not shown) in two feed bins, the output equal connection control device (not shown) of oxygen concentration detector and moisture detector.

Above-mentioned saccharification bed, enclose the saccharification unit that flitch, screw rod conveyor, screw lifting device and described temperature measuring equipment form this automatic saccharification apparatus;

Feed pipe 8, connects upstream device and saccharification bed, for the mass transport upstream device handled well to saccharification bed.Feed pipe 8 in the present embodiment is connected with two discharging arms.

Wherein the outlet of the first discharging arm 81 is positioned at the top of the first saccharification bed, for convey materials on the first saccharification bed; The outlet of the second discharging arm 82 is positioned at the top of the second saccharification bed, for convey materials on the second saccharification bed.

Inlet valve (not shown) is provided with in feed pipe 8.Inlet valve in the present embodiment comprises the charging valve plate be arranged in feed pipe, and this charging valve plate connects the piston rod of charging cylinder 83.The piston rod of charging cylinder is when bouncing back, and drive charging valve plate to rotate, charging valve plate blocks the entrance of the second discharging arm 82, opens the entrance of the first discharging arm 81; When the piston rod of charging cylinder stretches out, drive charging valve plate to rotate backward, block the entrance of the first discharging arm 81, open the entrance of the second discharging arm 82.

Controller (not shown) is the control centre of this automatic saccharification apparatus, for controlling the work of each parts.The input port of controller connects the output of two temperature sensors, and the output of controller connects the motor of two screw rod conveyors, the lifting motor of screw lifting device, the first revolution drive motors, the second revolution drive motors, the first discharging cylinder, the second discharging cylinder and charging cylinder.

The operation principle of this automatic saccharification apparatus is described below:

First, controller controls feeding gas cylinder piston rod retraction, drives charging valve plate to rotate, blocks the entrance of the second discharging arm, open the entrance of the first discharging arm, to the first saccharification unit feed; The material that upstream is come drops on the first saccharification bed via feed pipe, the first feed-inputing branched pipe, and controller controls the first revolution drive motors work simultaneously, makes the first saccharification bed be that axle rotates with center stand column, thus material dispersion is trickled down on the first saccharification bed.Controller also starts first group of screw rod conveyor simultaneously and rotates, by even for the material dispersion on the first saccharification bed.When the material on the first saccharification bed reaches certain thickness, controller starts the first lifting motor work, first lifting motor drives the first screw mandrel and the first connecting axle to rotate by the first Bevel Gear Transmission group simultaneously, and the first connecting axle drives the second screw mandrel to rotate by the second Bevel Gear Transmission group, like this, the two ends of the first screw rod are upwards promoted by the first screw mandrel and the second screw mandrel acting in conjunction simultaneously.The hoisting depth of the first screw rod is controlled according to the thickness of material by controller.

After the first saccharification bed cloth, the piston rod of charging cylinder stretches out, and drive charging valve plate to rotate, block the entrance of the first feed-inputing branched pipe, open the entrance of the second feed-inputing branched pipe, the material that upstream is come is trickled down to the second saccharification bed from the second feed-inputing branched pipe.The principle of the second saccharification bed cloth and the identical of the first saccharification bed, do not repeat them here.

After first, second saccharification bed cloth, enter automatic saccharification training mode by the control of controller.The data detected in real time are delivered in controller by temperature sensor, oxygen concentration detector and moisture detector, and the data of its interior prediction of controller comparison, control the switch of heater and transom window; Be between 25-50 DEG C by the work of the heater temperature whether controlled in the first feed bin and the second feed bin, simultaneously according to the requirement of saccharification, open or close valve, in two feed bins, spray into the air with uniform temperature and humidity by transom window, make the environment in feed bin reach the requirement of saccharification to regulate the oxygen concentration in feed bin and humidity.

After saccharification, enter self-emptying state.

For the first saccharification bed: after the material saccharification on the first saccharification bed, controller drives the first discharging cylinder operation, open the first discharging valve plate, first turning motor, the first lifting motor and first group of screw rod work under the control of the controller simultaneously, are driven by the material on the first saccharification bed and deliver to the first discharge hole for discharge.

Second saccharification bed to go out material process identical with the first saccharification bed.

This automatic saccharification apparatus is worked by two saccharification storehouses simultaneously, further increases saccharification efficiency, reduces the labour intensity of workman simultaneously, and improves production efficiency, ensure that the safe and sanitary of saccharification quality and food.

Claims (7)

1. an automatic saccharification apparatus, is characterized in that comprising:

Center stand column,

Frame, the periphery circumference along described center stand column is arranged, and the internal perisporium of described frame is provided with multiple support wheel;

Saccharification bed, can be arranged on rotationally in described center stand column centered by described center stand column; The rim bearing of described saccharification bed is on each described support wheel;

Rotary motion mechanism, is arranged between described frame and described saccharification bed, rotates centered by described center stand column for driving described saccharification bed;

Enclose flitch, arrange relative to described frame location, the airtight periphery being connected to described saccharification bed, forms the barrel-like structure of upper end open with described saccharification bed; Described enclosing on flitch is also provided with discharging opening, and on described discharging opening, gear is provided with outlet valve;

Screw rod conveyor, makes material be laid on described saccharification bed equably for carrying out stirring to the material on described saccharification bed; The two ends of the screw rod of screw rod conveyor are separately positioned in described frame and described center stand column;

Screw lifting device, is arranged on the lateral wall of described frame, for driving described screw rod relative to the lifting of described saccharification bed;

Temperature measuring equipment, is arranged on the top of described saccharification bed, for detecting the temperature of material on saccharification bed;

Described saccharification bed, enclose the saccharification unit that flitch, screw rod conveyor, screw lifting device and described temperature measuring equipment form this automatic saccharification apparatus;

Feed pipe, connects upstream device, for the mass transport upstream device handled well to described saccharification bed; Described feed pipe is provided with inlet valve;

Controller, for controlling this automatic saccharification apparatus work, the input port of controller connects the output of described temperature measuring equipment, and the output of controller connects the motor of described screw rod conveyor, described screw lifting device, outlet valve and described inlet valve.

2. automatic saccharification apparatus according to claim 1, it is characterized in that described lowering or hoisting gear comprises the lifting motor be arranged in described frame, described lifting motor drives connection first screw mandrel and the first power transmission shaft by the first Bevel Gear Transmission group simultaneously, and described first power transmission shaft drives connection second screw mandrel by the second Bevel Gear Transmission group; Described first screw mandrel and described second screw mandrel be arranged in parallel and all perpendicular to described power transmission shaft;

Described first wire rod thread connects the first screw, and described first screw connects the first end of described screw rod; Described second wire rod thread connects the second screw, and described second screw connects the second end of described screw rod.

3. automatic saccharification apparatus according to claim 2, is characterized in that described rotary motion mechanism comprises the turning motor be arranged in described frame, and the driving shaft of described turning motor connects gear drive group; The edge of described saccharification bed is sawtooth, and the output of this sawtooth and described gear drive group is connected with a joggle.

4. the automatic saccharification apparatus according to the arbitrary claim of claims 1 to 3, is characterized in that described saccharification unit has two, and two saccharification unit are upper and lower be arranged in parallel for this;

Described feed pipe is provided with two discharging arms, and these two discharging arms correspond respectively to the saccharification bed of two saccharification unit;

Described frame is interval with multiple transom window corresponding with the second saccharification unit.

5. automatic saccharification apparatus according to claim 4, it is characterized in that described outlet valve comprises and be blocked in discharging valve plate on described discharging opening and discharging cylinder, the piston rod of described discharging cylinder connects described discharging valve plate, drives described discharging valve plate to open or close described discharging opening by the motion of piston rod.

6. automatic saccharification apparatus according to claim 5, it is characterized in that described inlet valve comprises the charging valve plate be arranged in described feed pipe, described charging valve plate connects the piston rod of charging cylinder, by the stretching of piston rod, contracts, thus alternately opens or closes the entrance of two discharging arms.

7. automatic saccharification apparatus according to claim 6, is characterized in that described saccharification bed is spliced with one heart by polylith fanning strip.