CN112844619B - Auxiliary device for blanking of flour processing plant - Google Patents

Abstract

The invention relates to an auxiliary device for blanking of a flour processing factory, wherein a packing auger installation central shaft positioned in a conveying outer cylinder is provided with a conveying packing auger on the outer wall, the conveying packing auger is provided with two sections of packing auger blades with opposite rotation directions, materials are respectively conveyed to two ends of the conveying outer cylinder, one end of the packing auger installation central shaft penetrates through an installation shell to extend to the outer side of the power installation shell and is in power connection with a power driving device, one end of the packing auger installation central shaft, which is close to the power driving device, is provided with a stirring disc, the stirring disc drives a left side linkage mechanism and a right side linkage mechanism to reciprocate, and the left side linkage mechanism and the right side linkage mechanism are respectively arranged on the outer walls of two sides of the conveying outer cylinder. The invention has the following beneficial effects: simple structure, convenient operation and flexible use. The material conveying capacity is improved, and the problem of blockage caused by material accumulation is solved.

Description

Auxiliary device for blanking of flour processing plant

Technical Field

The invention relates to an auxiliary device for blanking of a flour processing plant, and belongs to the technical field of flour processing.

Background

Flour is one of the most common staple food in daily life, and after flour is processed by a flour processing factory through a plurality of working procedures, the processed flour is finally recovered. In flour processing, a plurality of flour mills need a plurality of feeding systems, so that the problems of more equipment, high cost, large occupied area and the like are caused.

If a set of distributing device is additionally arranged on the feeding system, two flour mills can be matched, and the use cost is reduced. The traditional three-way distributor is used in the field of material conveying and is used for changing the flow direction of materials. The most common three-way distributor is an electrohydraulic three-way distributor, the main structure of the three-way distributor consists of a three-way chute, an electrohydraulic driving mechanism and a distributing turning plate, the working principle is that a rotating shaft of the three-way distributor is driven by an electrohydraulic push rod to control the turning plate in the distributor to rotate, so that the aim of reversing and distributing materials is fulfilled, but the phenomenon of blocking materials is very easy to occur when the distributor with the structure is used for on-line switching.

Disclosure of Invention

According to the defects in the prior art, the technical problems to be solved by the invention are as follows: in order to solve one of the problems, an auxiliary device for blanking in a flour processing plant is provided.

The invention relates to an auxiliary device for blanking of a flour processing plant, which is characterized in that: including installation shell and the transport urceolus that is arranged in the installation shell, the installation shell is hollow rectangle box, should be provided with vertical interior baffle A and interior baffle B in the rectangle box, interior baffle A and interior baffle B divide into material way A with hollow rectangle box, material way B and be located the cavity between material way A and the material way B, be provided with respectively on the outer wall of hollow rectangle box bottom with material way A, material way B be linked together discharge gate A, discharge gate B, transport urceolus's both ends run through interior baffle A and interior baffle B respectively, wear to be equipped with a auger installation center pin in the transport urceolus, be located the auger installation center pin of carrying the urceolus on its outer wall, carry the auger to have two sections auger blade opposite in rotation direction, respectively to carry the material to the both ends of carrying the urceolus, the one end of auger installation center pin runs through the installation shell and extends to the installation shell outside and power drive device power connection, the one end that auger installation center pin is close to power drive device has a set, it drives left side link mechanism and right side link mechanism and the link mechanism of carrying on the both sides of the urceolus are installed on the link mechanism respectively.

Preferably, a circular partition plate is arranged between the two sections of auger blades with opposite rotation directions, the circular partition plate is fixed on the auger installation central shaft, and the diameter of the circular partition plate is slightly smaller than the inner diameter of the conveying outer cylinder.

Preferably, a feeding hole is formed in the middle of the top of the conveying outer cylinder, a flexible feeding pipe is connected to the feeding hole, the other end of the flexible feeding pipe is communicated with an external feeding pipe fixed on the outer wall of the mounting shell, and a collecting hopper is mounted at the upper end of the external feeding pipe.

Preferably, the rotary sleeve driving device further comprises a sleeve driving motor for driving the disc body to rotate, the sleeve comprises a sleeve, the sleeve is located on the outer side of the installation shell, a bearing is sleeved in the sleeve and is rotationally connected with the auger installation central shaft through the bearing, a driven gear and the disc body are integrally formed on the outer wall of the sleeve, the sleeve driving motor and the power driving device are both fixed on the outer wall of the installation shell, a driving gear meshed with the driven gear is arranged on a power output shaft of the sleeve driving motor, a preset angle is formed between the disc body and the auger installation central shaft, and a circle of slideway groove is formed in the outer edge of the disc body.

Preferably, the left side link gear comprises a slide bar A, the slide bar A penetrates through the outer wall of the installation shell and is in sliding connection with the installation shell, the middle part of the slide bar A is fixed on the outer wall of the conveying outer cylinder, one end of the slide bar A is provided with a slide block A matched with the slide way groove, and the slide block A is of a columnar structure and is arranged in the slide way groove in a sliding manner.

Preferably, the right side link gear includes slide bar B, slide bar A and slide bar B are parallel to each other, slide bar B runs through the installation shell outer wall and with installation shell sliding connection, slide bar B's middle part and the sliding sleeve B sliding connection who fixes on carrying urceolus middle part outer wall, its one end have with slide groove matched with slider B, slider B is columnar structure, the slip setting is in the slide groove.

Preferably, the gate is connected to the discharge port A and the discharge port B, the power driving device is a motor, and two ends of the conveying outer cylinder are respectively positioned in the material channel A and the material channel B and have a preset distance from the outer wall of the installation shell.

Preferably, the connection part of the auger installation central shaft and the installation shell is provided with a bearing connection, and the connection parts of the sliding block A and the sliding block B and the installation shell are provided with sliding sleeves.

Preferably, the sections of the sliding block A and the sliding block B are rectangular.

Preferably, the processing steps of the toggle disc are as follows:

A. adding cast iron alloy into an intermediate frequency induction furnace for melting;

B. heating to 1520-1550 ℃ and discharging and casting;

C. adopting sand casting, wherein the casting temperature is 1380-1440 ℃;

D. after the blank is cooled to room temperature, separating the sand mould from the blank by shakeout, and performing shot blasting on the blank;

E. rough turning blanks on the inner hole of the sleeve and the outer circle of the disc body, milling and finishing the slideway groove on a milling machine through clamping the sleeve, machining a driven gear by utilizing a gear shaping machine, performing thermal refining, and finally finish turning the inner hole of the sleeve to a required size.

Compared with the prior art, the invention has the following beneficial effects:

according to the auxiliary device for blanking of the flour processing plant, the sleeve driving motor is used for controlling the conveying outer cylinder to move, the position of the circular partition plate at the feeding port is changed, the control of the material distributing direction is completed, and the auxiliary device is simple in structure, convenient to operate and flexible to use.

According to the auxiliary device for blanking of the flour processing plant, the rotating speed of the conveying auger is adjustable, the conveying outer cylinder is controlled to move through the sleeve driving motor, the position of the circular partition plate at the feeding port is changed, and during online switching, the rotating speed of the power driving device is changed, so that the material conveying capacity is improved, and the problem of blockage caused by material accumulation is solved.

According to the auxiliary device for blanking of the flour processing plant, the connecting part of the auger installation central shaft and the installation shell is provided with the bearing connection, and the connecting parts of the sliding block A and the sliding block B and the installation shell are provided with the sliding sleeve connection, so that the control precision is further improved, the energy loss is reduced, and the working efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention, the drawings that are used in conjunction with the embodiments will be briefly described below. Like elements or portions are generally identified by like reference numerals throughout the several figures. In the drawings, elements or portions thereof are not necessarily drawn to scale.

FIG. 1 is a schematic diagram of a first embodiment of the present invention;

FIG. 2 is a schematic diagram of a second embodiment of the present invention;

FIG. 3 is a schematic diagram of a toggle disc;

in the figure: 1. the power driving device 2, the conveying outer cylinder 3, the auger installation central shaft 4, the installation shell 5, the conveying auger 6, the left side linkage mechanism 6.1, the slide bar A6.2, the slide block A7, the right side linkage mechanism 7.1, the slide bar B7.2, the slide block B7.3, the slide block B8, the toggle disc 8.1, the sleeve 8.2, the disc body 8.3, the driven gear 8.4, the bearing 8.5, the sleeve driving motor 8.6, the driving gear 8.7, the slideway slot 9, the inner partition plate A10, the inner partition plate B11, the material channel A12, the material channel B13, the material outlet A14, the material outlet B15, the material inlet 16, the flexible material conveying pipe 17, the external material conveying pipe 18 and the collecting hopper.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

the present invention is further illustrated by the following examples, which are not intended to be limiting, but any modifications, equivalents, improvements, etc. within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

The embodiment is shown in fig. 1-3, auxiliary device for flour processing factory unloading, including installation shell 4 and be arranged in the transport urceolus 2 of installation shell 4, installation shell 4 is hollow rectangle box, should be provided with vertical interior baffle A9 and interior baffle B10 in the rectangle box, interior baffle A9 and interior baffle B10 cut apart into material way A11, material way B12 and be located the cavity between material way A11 and the material way B12 with hollow rectangle box, be provided with respectively on the outer wall of hollow rectangle box bottom with material way A11, material way B12 be linked together discharge gate A13, discharge gate B14, the both ends of transport urceolus 2 run through interior baffle A9 and interior baffle B10 respectively, wear to be equipped with a auger installation center pin 3 in the transport urceolus 2, have on its outer wall and carry auger 5, carry auger 5 to have two sections to rotate to opposite auger blade, respectively to carry the both ends of transport urceolus 2, auger 3 installs the power take over mechanism that link gear 4 is installed to the left and right side and is installed to the link gear 7 on the power disc 8 is installed to the power drive mechanism that the link gear is installed to the left and is installed to the link gear 7 on the outer side of the power disc 1 to the left and is close to the link gear 1, and the link gear is installed on the side is installed on the power device is installed on the left and is 8.

In the embodiment, a circular partition plate is arranged between two sections of auger blades with opposite rotation directions, the circular partition plate is fixed on an auger installation central shaft 3, and the diameter of the circular partition plate is slightly smaller than the inner diameter of the conveying outer cylinder 2; a feeding hole 15 is formed in the middle of the top of the conveying outer cylinder 2, a flexible feeding pipe 16 is connected to the feeding hole 15, the other end of the flexible feeding pipe 16 is communicated with an external feeding pipe 17 fixed on the outer wall of the mounting shell 4, and a collecting hopper 18 is arranged at the upper end of the external feeding pipe 17; the novel screw thread wrench is characterized by further comprising a sleeve driving motor 8.5 used for driving the disc body 8.2 to rotate, wherein the dial disc 8 comprises a sleeve 8.1, the sleeve 8.1 is positioned at the outer side of the installation shell 4, a bearing 8.4 is sleeved in the sleeve 8.1 and is rotationally connected with the screw thread installation central shaft 3 through the bearing 8.4, a driven gear 8.3 and a disc body 8.2 are integrally formed on the outer wall of the sleeve 8.1, the sleeve driving motor 8.5 and the power driving device 1 are both fixed on the outer wall of the installation shell 4, a driving gear 8.6 meshed with the driven gear 8.3 is arranged on a power output shaft of the sleeve driving motor 8.5, a preset angle is formed between the disc body 8.2 and the screw thread installation central shaft 3, and a circle of slideway groove 8.7 is formed in the outer edge of the disc body 8.2; the left side linkage mechanism 6 comprises a sliding rod A6.1, the sliding rod A6.1 penetrates through the outer wall of the installation shell 4 and is in sliding connection with the installation shell 4, the middle part of the sliding rod A6.1 is fixed on the outer wall of the conveying outer cylinder 2, one end of the sliding rod A6.1 is provided with a sliding block A6.2 matched with a sliding channel 8.7, and the sliding block A6.2 is of a columnar structure and is arranged in the sliding channel 8.7 in a sliding manner; the right side linkage mechanism 7 comprises a sliding rod B7.1, wherein the sliding rod A6.1 and the sliding rod B7.1 are parallel to each other, the sliding rod B7.1 penetrates through the outer wall of the installation shell 4 and is in sliding connection with the installation shell 4, the middle part of the sliding rod B7.1 is in sliding connection with a sliding sleeve B7.3 fixed on the outer wall of the middle part of the conveying outer cylinder 2, one end of the sliding rod B7 is provided with a sliding block B7.2 matched with the sliding channel 8.7, and the sliding block B7.2 is of a columnar structure and is arranged in the sliding channel 8.7 in a sliding manner; the power driving device 1 is a motor, and two ends of the conveying outer cylinder 2 are respectively positioned in the material channel A11 and the material channel B12 and have a preset distance from the outer wall of the installation shell 4; the connection part of the auger installation central shaft 3 and the installation shell 4 is provided with a bearing connection, and the connection parts of the sliding block A6.2 and the sliding block B7.2 and the installation shell 4 are provided with sliding sleeves for connection; the sections of the sliding block A6.2 and the sliding block B7.2 are rectangular.

The processing steps of the toggle disc 8 are as follows: A. adding cast iron alloy into an intermediate frequency induction furnace for melting; B. heating to 1520-1550 ℃ and discharging and casting; C. adopting sand casting, wherein the casting temperature is 1380-1440 ℃; D. after the blank is cooled to room temperature, separating the sand mould from the blank by shakeout, and performing shot blasting on the blank; E. rough turning blanks of an inner hole of the sleeve 8.1 and an outer circle of the disc body 8.2, milling and finishing the slideway groove 8.7 on a milling machine by clamping the sleeve 8.1, machining the driven gear 8.3 by a gear shaping machine, performing thermal refining, and finish turning the inner hole of the sleeve 8.1 to a required size; the conventional smelting equipment is adopted, so that the method has the advantages of no pollution, low cost and simple and convenient operation, and is suitable for large-scale industrial production.

The working principle of the invention is as follows: to-be-separated materials enter the conveying outer cylinder 2 through the collecting hopper 18, the external conveying pipe 17 and the flexible conveying pipe 16, the sleeve driving motor 8.5 is started, the driven gear 8.3 is driven to rotate through the driving gear 8.6 to drive the sleeve 8.1 to rotate, the sliding block A6.2 and the sliding block B7.2 slide in the sliding channel 8.7, so that the sliding rod A6.1 and the sliding rod B7.1 reciprocate left and right, the sliding rod A6.1 and the sliding rod B7.1 play a role of supporting the conveying outer cylinder 2, the conveying outer cylinder 2 is pulled to reciprocate, the position of the circular partition plate at the feed inlet is changed, materials fall on two sides of the circular partition plate, under the action of the power driving device 1, the power driving device 1 drives the conveying auger 5 to rotate, the materials are respectively conveyed to two ends of the conveying outer cylinder 2 through blades with opposite rotation directions, one path is discharged through the material path A11, the discharge port A13, and the other path is discharged through the material path B12 and the discharge port B14. The rotating speed of the conveying auger 5 is adjustable, the conveying outer cylinder is controlled to move through the sleeve driving motor, the position of the circular partition plate at the feed inlet is changed, and when the conveying auger is switched on line, the material conveying capacity is improved by changing the rotating speed of the power driving device 1, and the problem of blockage caused by accumulation of materials at the partition plate is solved.

The foregoing has shown and described the basic principles, main features and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. Auxiliary device is used in unloading of flour processing factory, its characterized in that: the device comprises a mounting shell and a conveying outer cylinder positioned in the mounting shell, wherein the mounting shell is a hollow rectangular box body, a vertical inner partition plate A and a vertical inner partition plate B are arranged in the rectangular box body, the hollow rectangular box body is divided into a material channel A, a material channel B and a cavity positioned between the material channel A and the material channel B by the inner partition plate A and the inner partition plate B, a discharge port A and a discharge port B which are communicated with the material channel A and the material channel B are respectively arranged on the outer wall of the bottom end of the hollow rectangular box body, two ends of the conveying outer cylinder respectively penetrate through the inner partition plate A and the inner partition plate B, a packing auger installation central shaft penetrates through the conveying outer cylinder, a conveying packing auger is arranged on the outer wall of the conveying outer cylinder, two sections of packing auger blades which rotate oppositely are respectively used for conveying materials to two ends of the conveying outer cylinder, one end of the packing auger installation central shaft penetrates through the mounting shell to extend to the outer side of the mounting shell and is in power connection with a power driving device, one end of the packing auger installation central shaft, a disc is arranged near one end of the power driving device, a left side driving mechanism and a right side driving mechanism and a left side driving mechanism and a right side driving mechanism are respectively arranged on two sides of the left side driving mechanism and the right side driving mechanism respectively; the auxiliary device for blanking of the flour processing factory further comprises a sleeve driving motor for driving the disc body to rotate, the stirring disc comprises a sleeve, the sleeve is positioned on the outer side of the installation shell, a bearing is sleeved in the sleeve and is rotationally connected with the auger installation central shaft through the bearing, a driven gear and the disc body are integrally formed on the outer wall of the sleeve, the sleeve driving motor and the power driving device are both fixed on the outer wall of the installation shell, a driving gear meshed with the driven gear is arranged on a power output shaft of the sleeve driving motor, a preset angle is formed between the disc body and the auger installation central shaft, and a circle of slideway groove is formed in the outer edge of the disc body; the left side linkage mechanism comprises a slide bar A, the slide bar A penetrates through the outer wall of the installation shell and is in sliding connection with the installation shell, the middle part of the slide bar A is fixed on the outer wall of the conveying outer cylinder, one end of the slide bar A is provided with a slide block A matched with the slide groove, and the slide block A is of a columnar structure and is arranged in the slide groove in a sliding manner; the right side link gear includes slide bar B, slide bar A and slide bar B are parallel to each other, slide bar B runs through the installation shell outer wall and with installation shell sliding connection, slide bar B's middle part and the sliding sleeve B sliding connection who fixes on carrying urceolus middle part outer wall, its one end have with slide groove matched with slider B, slider B is columnar structure, and the slip setting is in the slide groove, have a circular baffle between two sections auger blades that revolve opposite to, circular baffle is fixed on auger installation center pin, the diameter of circular baffle is slightly less than the internal diameter that carries the urceolus.

2. The flour mill blanking auxiliary device according to claim 1, wherein: the feeding device is characterized in that a feeding hole is formed in the middle of the top of the conveying outer cylinder, a flexible feeding pipe is connected to the feeding hole, the other end of the flexible feeding pipe is communicated with an external feeding pipe fixed on the outer wall of the mounting shell, and a collecting hopper is mounted at the upper end of the external feeding pipe.

3. The flour mill blanking auxiliary device according to claim 2, wherein: and the gate is connected to the discharge port A and the discharge port B, the power driving device is a motor, and two ends of the conveying outer cylinder are respectively positioned in the material channel A and the material channel B and have a preset distance from the outer wall of the installation shell.

4. A flour mill blanking auxiliary device according to claim 3, characterized in that: the screw conveyor is characterized in that a bearing is arranged at the joint of the screw conveyor installation central shaft and the installation shell, and sliding sleeves are arranged at the joints of the sliding blocks A and B and the installation shell.

5. The flour mill blanking auxiliary device according to claim 4, wherein: the sections of the sliding block A and the sliding block B are rectangular.

6. The flour mill blanking auxiliary device according to claim 5, wherein: the processing steps of the toggle disc (8) are as follows:

A. adding cast iron alloy into an intermediate frequency induction furnace for melting;

B. heating to 1520-1550 ℃ and discharging and casting;

C. adopting sand casting, wherein the casting temperature is 1380-1440 ℃;

D. after the blank is cooled to room temperature, separating the sand mould from the blank by shakeout, and performing shot blasting on the blank;

E. rough turning blanks on the inner hole of the sleeve and the outer circle of the disc body, milling and finishing the slideway groove on a milling machine through clamping the sleeve, machining a driven gear by utilizing a gear shaping machine, performing thermal refining, and finally finish turning the inner hole of the sleeve to a required size.