CN220164960U - Gluten conveying equipment - Google Patents

Abstract

The utility model relates to the technical field of gluten processing equipment, in particular to gluten conveying equipment which comprises a first conveying part, wherein the first conveying part is a screw conveyor, one discharging end of the screw conveyor is connected with a gluten dividing part, the gluten dividing part comprises a dividing frame, a first feeding hole and a first guide plate are arranged at the upper end of the dividing frame, the first guide plate is obliquely arranged, a plurality of dividing blades are arranged on the first guide plate, and the discharging end of the gluten dividing part is also connected with a second conveying part. Wet gluten gets into gluten partition portion from first conveying portion back, drops to the first deflector of slope setting on, and the effect of gravity is down slided, and at wet gluten gliding in-process, through a plurality of segmentation blade, and then make monoblock wet gluten cut apart into the wet gluten of a plurality of narrower pieces.

Description

Gluten conveying equipment

Technical Field

The utility model relates to the technical field of gluten processing equipment, in particular to gluten conveying equipment.

Background

The wheat gluten is also called active wheat gluten, the protein content of which is more than 80 percent, and the amino acid composition is complete, and the wheat gluten is a vegetable protein source with rich nutrition, high quality and low price. The gluten powder is prepared by taking flour as a raw material and mainly adopting a wet process for separation, namely, firstly mixing high-quality flour with clear water, mixing into dough, separating gluten from starch slurry in a face washing mode, and finally conveying wet gluten into a gluten airflow drying mechanism for drying.

Wet gluten is poor because of self mobility, so wet gluten is being transported to the in-process that dry mechanism carried, generally adopts screw conveyer to carry, but current gluten conveying equipment only has the function of carrying, and because wet gluten group's volume is generally bigger, directly transport to gluten air current dryer in can lead to drying efficiency to reduce, and then reduced the production efficiency of gluten.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: the feeding equipment for wheat gluten production is provided to solve at present in wet gluten transportation process, do not cut apart wet gluten, lead to the problem that follow-up gluten's drying efficiency is low.

The technical scheme adopted by the utility model is as follows: the utility model provides a gluten conveying equipment, includes first conveying portion, first conveying portion is screw conveyer, the one end of screw conveyer ejection of compact is connected with gluten partition portion, gluten partition portion is including cutting apart the frame, the upper end of cutting apart the frame is provided with first feed inlet, first deflector slope arrangement, just be provided with a plurality of cutting apart the blade on the first deflector, the discharge end of gluten partition portion still is connected with second conveying portion.

After adopting above structure, have following beneficial effect:

1. the gluten dividing part can divide the large-volume gluten into a plurality of gluten with smaller volume, can facilitate the subsequent drying process, further improve the drying efficiency and improve the gluten production efficiency.

2. Wet gluten gets into gluten partition portion from first conveying portion back, drops to the first deflector of slope setting on, and the effect of gravity is down slided, and at wet gluten gliding in-process, through a plurality of segmentation blade, and then make monoblock wet gluten cut apart into the wet gluten of a plurality of narrower pieces.

Preferably, the first feed inlet is trapezoidal.

The trapezoidal first feed inlet can enable wet gluten to be guided, so that the wet gluten can smoothly enter the gluten dividing part, and the gluten is prevented from falling.

Preferably, the cutting blade is a circular blade, the cutting blade is further connected with a first driving mechanism, the first driving mechanism comprises a driving motor fixedly installed on the cutting frame, the cutting blade is connected with the driving motor, and the cutting blade is driven to rotate by the driving motor.

The first driving drives the circular dividing blade to continuously rotate, so that wet gluten passing through the dividing blade is cut, and the dividing efficiency of the wet gluten is improved.

Preferably, a plurality of partition plates are arranged on the first guide plate, and the number of the partition plates is the same as that of the dividing blades.

The setting of baffle can separate the gluten after cutting apart each other, avoids cutting apart wet gluten after cutting apart to carry respectively to follow-up wet gluten after cutting apart.

Preferably, the second conveying part is further provided with a feeding mechanism for controlling gluten to sequentially pass through, the feeding mechanism comprises a second feeding port, the second feeding port is further connected with a second guide plate, the second guide plate is located at one end of the partition plate away from the gluten dividing part, the second guide plate is obliquely arranged, and the height of one end, connected with the second feeding port, of the second guide plate is lower than that of one end, away from the second feeding port, of the second guide plate.

The second feeding port is arranged, so that the divided wet gluten cannot enter a plurality of blocks at one time when entering the second conveying part; and wet gluten between every baffle is through the direction effect of second deflector after the roll-off, gets into the second feed inlet in proper order, controls the wet gluten volume that gets into the second feed inlet, can be convenient for follow-up drying work, improves drying efficiency.

Preferably, a baffle is further arranged at one end of the baffle, which is close to the second guide plate, and the heights of the bottom ends of the baffles are sequentially increased, so that the connecting lines of the bottom ends of the baffles are parallel to the second guide plate, one end of the baffle is rotationally connected with the end of the baffle, and the other end of the baffle can be abutted against the second guide plate or the adjacent baffle in the rotation process.

The arrangement of the baffle plate can control the circulation or closing of each channel between the baffle plates, when the baffle plates are vertically arranged and are abutted against the second guide plates, wet gluten in the channel on the right side of the baffle plates is blocked, and wet gluten in the channel on the left side of the baffle plates can slide down and enter the second feed inlet, and the amount of the wet gluten entering the second feed inlet can be further ensured by the control of the baffle plates; meanwhile, the heights of the partition boards are sequentially increased, so that the flow of wet gluten can be smoother and is convenient to control.

Preferably, the baffle is further connected with a second driving mechanism for driving the baffle to rotate, the second driving mechanism is further connected with a control system, the feeding mechanism further comprises a sensor arranged between the baffles, the sensor is used for monitoring whether gluten exists between the baffles, and the sensor, the second driving mechanism, the first conveying part and the first driving mechanism are all electrically connected with the control system.

The sensor can monitor whether wet gluten exists between the adjacent partition boards, and controls the second driving mechanism through the control system, so that feeding of the wet gluten is controlled, and meanwhile, the control system also controls the spiral conveying mechanism and the first driving mechanism, so that automatic control of the whole conveying equipment is realized.

Preferably, the gluten dividing part is further provided with a protective cover, the protective cover covers the outer side of the dividing blade, the protective cover is rotatably connected with the dividing frame, a switch for monitoring whether the protective cover is closed or not is further arranged between the protective cover and the dividing frame, and the switch is electrically connected with the control system.

The protective cover connected to the dividing rack in a rotating way can separate the dividing blade from the outside, so that on one hand, the damage caused by the contact of a worker with the dividing blade in work can be avoided, and on the other hand, the dividing part can be conveniently overhauled; meanwhile, the switch arranged between the protection cover and the segmentation frame can monitor whether the protection cover is closed or not, if the protection cover is not closed, the whole equipment can not be controlled to be opened through the control system, and the safety of staff in the working or overhauling process is further ensured.

Drawings

Fig. 1 is a schematic cross-sectional view showing a front view of a gluten conveying apparatus of embodiment 1 of the present utility model.

Fig. 2 is a schematic front view of a gluten dividing section of embodiment 1 in a gluten conveying apparatus of the present utility model.

Fig. 3 is a right-side view schematically showing a gluten dividing portion of embodiment 1 in a gluten conveying apparatus of the present utility model.

Fig. 4 is a schematic left-hand view of the gluten dividing part of embodiment 1 in a gluten conveying device of the present utility model.

Fig. 5 is a schematic sectional view showing a front view of a gluten dividing section of embodiment 2 in a gluten conveying apparatus according to the present utility model.

Fig. 6 is a schematic front view of a gluten dividing part of the gluten conveying device according to the present utility model in which the embodiment 2 is opened with a protective cover.

Fig. 7 is a schematic view of a partial structure in the "a" direction in fig. 6.

The first conveying unit 10, the second conveying unit 20, the gluten dividing unit 30, the dividing frame 31, the first inlet 32, the first guide plate 33, the dividing blade 34, the first driving mechanism 35, the partition 36, the gluten passage 37, the driving shaft 38, the feeding mechanism 40, the second guide plate 41, the baffle 42, the stopper 43, the second driving mechanism 44, the sensor 45, the second inlet 46, the protective cover 51, and the switch 52.

Detailed Description

The utility model is further described below with reference to the drawings and the detailed description.

Example 1

According to the description, as shown in fig. 1-4, the utility model provides gluten conveying equipment, which comprises a first conveying part 10 and a second conveying part 20, wherein a gluten dividing part 30 is arranged between the first conveying part 10 and the second conveying part 20, the gluten dividing part 30 comprises a dividing frame 31, a first feeding hole 32 for feeding is arranged on the dividing frame 31, a first guide plate 33 which is obliquely arranged is fixedly connected below the first feeding hole 32, and a plurality of dividing blades 34 are also connected on the first guide plate 33; in the present embodiment, the first conveying portion 10 and the second conveying portion 20 are both screw conveyors; the section of the first feed port 32 is trapezoidal, the upper end face of the first feed port 32 is connected with the discharge end of the first conveying part 10, the lower end face of the first feed port 32 is connected with the first guide plate 33, and the area of the upper end face of the first feed port 32 is larger than that of the lower end face of the first feed port 32.

In this embodiment, three dividing blades 34 are provided, the dividing blades 34 are circular blades, the three dividing blades 34 are connected through the same driving shaft 38, and a first driving mechanism 35 for driving the dividing blades 34 to rotate is further installed on the dividing frame 31, wherein the first driving mechanism 35 adopts a motor, an output shaft of the first driving mechanism is connected with the driving shaft 38 through a transmission chain, and when the first motor rotates, the driving shaft 38 is driven to rotate together, and then the three dividing blades 34 are driven to rotate synchronously, so that wet gluten passing through the dividing blades 34 is cut.

The partition plates 36 are further provided on the side of the dividing blade 34 facing the second conveying section 20, three partition plates 36 are provided, the partition plates 36 are positioned in one-to-one correspondence with the dividing blade 34, the gluten dividing section 30 is divided into four gluten passages 37 by the arrangement of the three partition plates 36, and the cut gluten can be guided by the partition plates 36 to prevent the cut gluten from being mixed together.

The wet gluten processed by the gluten washing machine enters the first conveying part 10, is conveyed by the screw conveyor, flows out of the discharge end of the first conveying part 10, enters the gluten dividing part 30 from the first feeding port 32, falls on the inclined first guide plate 33, automatically slides down under the action of gravity, cuts the gluten by the rotating dividing blade 34 when the wet gluten passes through the dividing blade 34, divides the gluten into four smaller gluten blocks, slides downwards under the action of the partition plate 36, and is finally conveyed to subsequent drying equipment by the second conveying part 20.

Example 2

As shown in fig. 5 to 7 of the specification, the difference between this embodiment and embodiment 1 is that,

the second conveying part 20 is further provided with a feeding mechanism 40 for controlling gluten to sequentially pass through, the feeding mechanism 40 comprises a second feeding port 46, a second guide plate 41 is further connected to the second feeding port 46, the second guide plate 41 is located on one side of the partition plate 36 facing the second conveying part 20, in this embodiment, the bottom of the partition plate 36 is sequentially lifted from left to right, the second guide plate 41 is also obliquely arranged, so that the second guide plate 41 is parallel to a connecting line of the bottom of the partition plate 36, and the second feeding port 46 is located at the left end of the second guide plate 41, that is, the lowest position of the second guide plate 41.

The baffle plate 42 is further rotatably connected to one end of the baffle plate 36 facing the feeding mechanism 40, the baffle plate 42 can be abutted against the second guide plate 41 in the process of rotation, when the baffle plate 42 is abutted against the second guide plate 41, gluten in the gluten channel 37 on the right side of the baffle plate 42 cannot pass, and when the baffle plate 42 rotates clockwise and is abutted against the baffle plate 42 on the left side or the side wall of the dividing frame 31, the gluten in the gluten channel 37 on the right side of the baffle plate 42 can slide down and enter the second feeding port 46 through the guiding action of the second guide plate 41. In order to facilitate the control of the baffle plate 42, the bottom of the baffle plate 42 is further connected with a second driving mechanism 44, the second driving mechanism 44 is further connected with a control system, in this embodiment, the second driving mechanism 44 adopts an air cylinder, the feeding mechanism 40 further comprises a stop block 43, and the stop block 43 is installed on the right side of the baffle plate 42 and used for limiting the baffle plate 42, so that the baffle plate 42 is prevented from being damaged due to overlarge rotation angle.

The dividing frame 31 is further rotatably connected with a protective cover 51, four sensors 45 are mounted on the protective cover 51, the sensors 45 are used for monitoring gluten channels 37 between adjacent partition plates 36, and the sensors 45, the second driving mechanism 44, the first conveying part 10 and the first driving mechanism 35 are electrically connected with a control system. In order to improve the protection safety of the protection cover 51 against the gluten dividing part 30, a switch 52 for monitoring whether the protection cover 51 is closed is also installed between the protection cover 51 and the dividing frame 31, the switch 52 is also electrically connected with the control system, in this embodiment, four sensors 45 are provided, and the sensors 45 are installed on the protection cover 51, and the four sensors 45 are all disposed toward the gluten passage 37.

The working principle of the gluten separator is that when wet gluten groups are split by the gluten splitting part 30, the wet gluten groups slide from different gluten channels 37 and are abutted against the second guide plate 41, at the moment, all the baffles 42 are in an initial state, namely, are abutted against the second guide plate 41, at the moment, the baffles 42 can block wet gluten on the right side, only gluten in the leftmost gluten channel 37 can enter a second feeding port 46 below, after the gluten in the leftmost gluten channel 37 passes through the second feeding port 46, after the sensor 45 detects that no gluten exists in the gluten channel 37, the baffles 42 on the right side are rotated by the control system, the gluten in the second gluten channel 37 on the left side can smoothly slide, and enter the second feeding port 46 under the guiding action of the second guide plate 41 until the gluten in the second gluten channel 37 on the left side enters the second feeding port 20, and then the third gluten channel and the fourth gluten channel 37 are sequentially opened, so that the gluten in the second feeding port 20 enters the second conveying part; when the gluten in the four gluten passages 37 is conveyed, the baffle plate 42 returns to the initial position, and the first conveying part 10 and the gluten dividing part 30 start to work again, like the gluten passages 37, to continuously convey the gluten, thereby realizing continuous conveying of the gluten; when gluten is blocked or the cutting blade 34 is in fault, the protective cover 51 can be turned over to maintain the gluten cutting part 30, when the protective cover 51 is turned on, the feeding of the first conveying part 10 and the operation of the gluten cutting part 30 are stopped under the action of the switch 52 to prevent injury to staff, and after the maintenance is completed, the protective cover 51 is closed to enable the system to continue to operate.

Directional terms, such as "upper", "lower", "left", "right", etc., in the present utility model are merely for better, more clearly explaining and understanding the present utility model, and do not indicate or imply that the apparatus or element being referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

The foregoing description of the preferred embodiments of the present utility model is provided for illustration and is not to be construed as limiting the claims. The present utility model is not limited to the above embodiments, and the specific structure thereof is allowed to be changed, and all changes made within the scope of the utility model as independently claimed are within the scope of the utility model.

Claims (8)

1. Gluten conveying equipment comprises a first conveying part, wherein the first conveying part is a screw conveyer, and is characterized in that one end of screw conveyer discharging is connected with a gluten dividing part, the gluten dividing part comprises a dividing frame, the upper end of the dividing frame is provided with a first feeding hole and a first guide plate, the first guide plate is obliquely arranged, a plurality of dividing blades are arranged on the first guide plate, and the discharging end of the gluten dividing part is further connected with a second conveying part.

2. A gluten conveying device according to claim 1, characterized in that the first inlet is trapezoidal.

3. The gluten conveying device according to claim 1, wherein the dividing blade is a circular blade, the dividing blade is further connected with a first driving mechanism, the first driving mechanism comprises a driving motor fixedly installed on the dividing frame, the dividing blade is connected with the driving motor, and the dividing blade is driven to rotate by the driving motor.

4. A gluten conveying device according to claim 3, characterised in that the first guide plate is provided with a number of baffles, the number of baffles being the same as the number of dividing blades.

5. The gluten conveying device according to claim 4, wherein the second conveying part is further provided with a feeding mechanism for controlling gluten to sequentially pass through, the feeding mechanism comprises a second feeding port, the second feeding port is further connected with a second guide plate, the second guide plate is located at one end of the partition plate away from the gluten dividing part, the second guide plate is obliquely arranged, and the height of one end of the second guide plate connected with the second feeding port is lower than that of one end of the second guide plate away from the second feeding port.

6. The gluten conveying device according to claim 5, wherein a baffle plate is further arranged at one end of the baffle plate, which is close to the second guide plate, and the heights of the bottom ends of the baffle plates are sequentially increased, so that connecting lines of the bottom ends of the baffle plates are parallel to the second guide plate, one end of the baffle plate is rotatably connected with the end part of the baffle plate, and the other end of the baffle plate can be propped against the second guide plate or the adjacent baffle plate in the rotation process.

7. The gluten conveying device according to claim 6, wherein the baffle is further connected with a second driving mechanism for driving the baffle to rotate, the second driving mechanism is further connected with a control system, the feeding mechanism further comprises a sensor arranged between the baffles, the sensor is used for monitoring whether gluten exists between the baffles, and the sensor, the second driving mechanism, the first conveying part and the first driving mechanism are all electrically connected with the control system.

8. Gluten conveying device according to claim 7, characterized in that a protective cover is further arranged in the gluten dividing part, the protective cover covers the outer side of the dividing blade, the protective cover is rotatably connected with the dividing frame, a switch for monitoring whether the protective cover is closed is further arranged between the protective cover and the dividing frame, and the switch is electrically connected with the control system.