CN112844619A

CN112844619A - Auxiliary device is used in unloading of flour processing factory

Info

Publication number: CN112844619A
Application number: CN202110109136.6A
Authority: CN
Inventors: 秦伟; 曹兴旺; 张军; 卢传涛; 王成林
Original assignee: Suixi Luwang Flour Making Co ltd
Current assignee: Suixi Luwang Flour Making Co ltd
Priority date: 2021-01-27
Filing date: 2021-01-27
Publication date: 2021-05-28
Anticipated expiration: 2041-01-27
Also published as: CN112844619B

Abstract

The invention relates to an auxiliary device for discharging of a flour processing factory, wherein an auger mounting central shaft positioned in a conveying outer cylinder is provided with a conveying auger on the outer wall, the conveying auger is provided with two sections of auger blades with opposite rotation directions and respectively conveys materials to two ends of the conveying outer cylinder, one end of the auger mounting central shaft penetrates through a mounting shell and extends to the outer side of the power mounting shell to be in power connection with a power driving device, a poking disc is arranged at one end of the auger mounting central shaft close to the power driving device and 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. Improve material conveying capacity, reduce the putty problem that causes because the material is piled up.

Description

Auxiliary device is used in unloading of flour processing factory

Technical Field

The invention relates to an auxiliary device for discharging in a flour processing factory, and belongs to the technical field of flour processing.

Background

Flour is one of the most common staple grains in daily life of people, and a flour processing factory needs to recycle the processed flour after processing the flour through a plurality of processes. In the flour processing, a plurality of flour mills need a plurality of sets of feeding systems, so that the problems of more equipment, high cost, large occupied area and the like are caused.

If a set of material distributing device is additionally arranged on the material feeding system, the two powder mills can be matched, and the use cost is reduced. The traditional three-way material distributor is used in the field of material conveying and is used for changing the flow direction of materials. The most common three-way material distributor is an electro-hydraulic three-way material distributor, the main structure of the three-way material distributor is composed of a three-way chute, an electro-hydraulic driving mechanism and a material distribution turning plate, the working principle is that an electro-hydraulic push rod drives a rotating shaft of the three-way material distributor to control the rotation of the turning plate in the material distributor, and therefore the purpose of material reversing and material distributing is achieved, but when the material distributor with the structure is used for online switching, the phenomenon of material blockage is very easy to occur.

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, the auxiliary device for blanking of the flour processing factory is provided.

The invention relates to an auxiliary device for blanking of a flour processing factory, which is characterized in that: the device comprises an installation shell and a conveying outer barrel positioned in the installation shell, wherein the installation shell is a hollow rectangular box body, a vertical inner baffle plate A and an inner baffle 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 baffle plate A and the inner baffle plate B, a discharge hole A and a discharge hole B 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 barrel respectively penetrate through the inner baffle plate A and the inner baffle plate B, a packing auger installation central shaft is arranged in the conveying outer barrel in a penetrating manner, the packing auger installation central shaft positioned in the conveying outer barrel is provided with a conveying packing auger on the outer wall thereof, the conveying packing auger is provided with two packing auger blades with opposite rotating directions, the materials are respectively conveyed to two ends of the conveying outer barrel, one end of the packing auger installation central, the auger mounting central shaft is provided with a poking disc at one end close to the power driving device, the poking disc drives the left side linkage mechanism and the right side linkage mechanism to reciprocate, and the left side linkage mechanism and the right side linkage mechanism are respectively mounted on the outer walls of the two sides of the conveying outer cylinder.

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

Preferably, a feed inlet is formed in the middle of the top of the conveying outer cylinder, a flexible feeding pipe is connected to the feed inlet, 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 dial includes the sleeve pipe, the sleeve pipe is located the installation shell outside, the bearing is established to the cover intraductal cover, rotates with auger installation center pin through the bearing and is connected, the sheathed tube has driven gear and disk body for integrated into one piece on the wall, still including being used for driving the rotatory sleeve pipe driving motor of disk body, sleeve pipe driving motor and power drive device are all fixed on the outer wall of installation shell, have on sleeve pipe driving motor's the power output shaft with driven gear engaged with driving gear, the angle of predetermineeing has between place disk body and the auger installation center pin, the round chute has been seted up along the outer edge of disk body.

Preferably, the left side link gear includes slide bar a, slide bar a runs through the shell of installation shell and with installation shell sliding connection, slide bar a's middle part is fixed on the outer wall of carrying the urceolus, and its one end has the slider a with slide way groove matched with, slider a is the columnar structure, slides and sets up in the slide way inslot.

Preferably, the right side link gear includes slide bar B, and slide bar A is parallel to each other with slide bar B, slide bar B run through the shell of installation shell and with installation shell sliding connection, slide bar B with fix the sliding sleeve B sliding connection on the outer wall of transport urceolus middle part, its one end has with slide way groove matched with slider B, slider B is the columnar structure, slides and sets up in the slide way inslot.

Preferably, the discharge port a and the discharge port B are connected with gates, the power driving device is a motor, and two ends of the conveying outer cylinder are respectively located in the material channel a and the material channel B and have a preset distance from the outer wall of the mounting shell.

Preferably, the joint of the auger mounting central shaft and the mounting shell is provided with a bearing for connection, and the joint of the sliding block A and the sliding block B and the mounting shell is provided with a sliding sleeve for connection.

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

Preferably, the machining steps of the dial plate are as follows:

A. adding the cast iron alloy into a medium-frequency induction furnace for melting;

B. the temperature is raised to 1520 ℃ to 1550 ℃ and the mixture is taken out of the furnace for casting;

C. adopting sand mold casting at 1380-1440 ℃;

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

E. roughly turning a blank of an inner hole of the sleeve and an excircle of the disc body, then milling and finely machining the slideway groove on a milling machine by clamping the sleeve, machining a driven gear by using a gear shaping machine, then carrying out thermal refining, and finally finely turning the inner hole of the sleeve to a required size.

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

the auxiliary device for discharging of the flour processing factory, disclosed by the invention, has the advantages that the sleeve driving motor is used for controlling the conveying outer cylinder to move, the position of the circular partition plate at the feed inlet is changed, the control on the material distribution direction of the material is finished, the structure is simple, the operation is convenient, and the use is flexible.

The auxiliary device for discharging of the flour processing factory is characterized in that 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 feed inlet is changed, and when the circular partition plate is switched on line, the rotating speed of the power driving device is changed, so that the material conveying capacity is improved, and the problem of material blockage caused by material accumulation is reduced.

According to the auxiliary device for blanking of the flour processing factory, the connecting part of the auger mounting central shaft and the mounting shell is provided with the bearing for connection, and the connecting parts of the sliding block A and the sliding block B and the mounting shell are provided with the sliding sleeves for 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 detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

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

FIG. 2 is a second schematic structural view of the present invention;

FIG. 3 is a schematic view of the structure of the dial plate;

in the figure: 1. the device comprises a power driving device 2, a conveying outer cylinder 3, a packing auger mounting central shaft 4, a mounting shell 5, a conveying packing auger 6, a left side linkage mechanism 6.1, a slide rod A6.2, a slide block A7, a right side linkage mechanism 7.1, a slide rod B7.2, a slide block B7.3, a slide sleeve B8, a toggle plate 8.1, a sleeve 8.2, a plate body 8.3, a driven gear 8.4, a bearing 8.5, a sleeve driving motor 8.6, a driving gear 8.7, a slide channel groove 9, an inner partition plate A10, an inner partition plate B11, a material channel A12, a material channel B13, a discharge port A14, a discharge port B15, a feed port 16, a flexible feed pipe 17, an external feed pipe 18 and a 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 specific examples, which are not intended to limit the scope of the invention, and any modifications, equivalents, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Examples

As shown in fig. 1-3, the auxiliary device for discharging in flour processing factory comprises an installation shell 4 and a conveying outer cylinder 2 located in the installation shell 4, the installation shell 4 is a hollow rectangular box body, a vertical inner partition plate a9 and an inner partition plate B10 are arranged in the rectangular box body, the inner partition plate a9 and the inner partition plate B10 divide the hollow rectangular box body into a material channel a11, a material channel B12 and a cavity located between the material channel a11 and the material channel B12, a material outlet a13 and a material outlet B14 communicated with the material channel a11 and the material channel B12 are respectively arranged on the outer wall of the bottom end of the hollow rectangular box body, two ends of the conveying outer cylinder 2 respectively penetrate through the inner partition plate a9 and the inner partition plate B10, a packing auger installation central shaft 3 passes through the conveying outer cylinder 2, the packing auger installation central shaft 3 located in the conveying outer cylinder 2 is provided with a conveying auger 5 on the outer wall, the conveying auger 5 is provided with two sections of auger blades rotating in opposite directions, carry the material to the both ends of carrying urceolus 2 respectively, the one end of auger installation center pin 3 runs through installation shell 4 and extends to the power installation shell 4 outside and is connected with power drive arrangement 1 power, the one end that auger installation center pin 3 is close to power drive arrangement 1 has stirring dish 8, stirring dish 8 drives left

side link gear

6 and 7 reciprocating motion of right side link gear, left side link gear 6 and right side link gear 7 are installed respectively on the both sides outer wall of carrying urceolus 2.

In the embodiment, 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 mounting 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, the external feeding pipe 17 is provided, and a collecting hopper 18 is arranged at the upper end of the external feeding pipe 17; the poking disc 8 comprises a sleeve 8.1, the sleeve 8.1 is positioned on the outer side of the mounting shell 4, a bearing 8.4 is sleeved in the sleeve 8.1 and is rotationally connected with the auger mounting central shaft 3 through the bearing 8.4, a driven gear 8.3 and a disc body 8.2 are integrally formed on the wall of the sleeve 8.1, the poking disc further comprises a sleeve driving motor 8.5 for driving the disc body 8.2 to rotate, the sleeve driving motor 8.5 and the power driving device 1 are both fixed on the outer wall of the mounting 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 auger mounting central shaft 3, and a circle of sliding chute 8.7 is formed on the outer edge of the disc body 8.2; the left linkage mechanism 6 comprises a slide bar A6.1, the slide bar A6.1 penetrates through the shell of the installation shell 4 and is in sliding connection with the installation shell 4, the middle part of the slide bar A6.1 is fixed on the outer wall of the conveying outer cylinder 2, one end of the slide bar A6.1 is provided with a slide block A6.2 matched with a slide way groove 8.7, and the slide block A6.2 is of a columnar structure and is arranged in the slide way groove 8.7 in a sliding mode; the right-side linkage mechanism 7 comprises a sliding rod B7.1, a sliding rod A6.1 and a sliding rod B7.1 are parallel to each other, the sliding rod B7.1 penetrates through the shell of the installation shell 4 and is in sliding connection with the installation shell 4, 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 B7.1 is provided with a sliding block B7.2 matched with 8.7, and the sliding block B7.2 is of a columnar structure and is arranged in a sliding channel groove 8.7 in a sliding mode; the discharge port A13 and the discharge port B14 are connected with gates, the power driving device 1 is a motor, two ends of the conveying outer cylinder 2 are respectively positioned in the material channel A11 and the material channel B12, and a preset distance is reserved between the two ends and the outer wall of the mounting shell 4; the joint of the auger mounting central shaft 3 and the mounting shell 4 is provided with a bearing connection, and the joint of the sliding block A6.2 and the sliding block B7.2 and the mounting shell 4 is provided with a sliding sleeve connection; the cross sections of the sliding blocks A6.2 and B7.2 are rectangular.

The processing steps of the poking disc 8 are as follows: A. adding the cast iron alloy into a medium-frequency induction furnace for melting; B. the temperature is raised to 1520 ℃ to 1550 ℃ and the mixture is taken out of the furnace for casting; C. adopting sand mold casting at 1380-1440 ℃; D. after the blank is cooled to room temperature, separating the sand mold from the blank by shakeout, and performing shot blasting treatment on the blank; E. roughly turning a blank of an inner hole of the sleeve 8.1 and an outer circle of the disc body 8.2, then milling and finely processing a slide way groove 8.7 on a milling machine through clamping the sleeve 8.1, processing a driven gear 8.3 by using a gear shaping machine, then carrying out thermal refining, and finally finely turning the inner hole of the sleeve 8.1 to a required size; the conventional smelting equipment is adopted, so that the method is pollution-free, low in cost, simple and convenient to operate and suitable for large-scale industrial production.

The working principle of the invention is as follows: the material to be distributed enters the conveying outer cylinder 2 through the material collecting hopper 18, the external feeding pipe 17 and the flexible feeding pipe 16, the sleeve driving motor 8.5 is started, the driving gear 8.6 drives the driven gear 8.3 to rotate to drive the sleeve 8.1 to rotate, the slider A6.2 and the slider B7.2 slide in the sliding channel groove 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 in supporting the conveying outer cylinder 2 and pull the conveying outer cylinder 2 to reciprocate, the position of the circular partition plate at the material inlet is changed, the material falls on two sides of the circular partition plate, the power driving device 1 drives the conveying auger 5 to rotate under the action of the power driving device 1, the material is respectively conveyed to two ends of the conveying outer cylinder 2 through blades with opposite rotating directions, one path is discharged through the material channel A11 and the material outlet A13, and the other path is discharged through the material channel B12 and the material. The rotational speed of carrying auger 5 is adjustable, carries the urceolus through sleeve pipe driving motor control and removes, changes the position of circular baffle in feed inlet department, and during online switching, through the rotational speed that changes power drive arrangement 1, improves material transport capacity, reduces because the material piles up the putty problem that causes in baffle department.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides an auxiliary device is used in unloading of flour processing factory which characterized in that: the device comprises an installation shell and a conveying outer barrel positioned in the installation shell, wherein the installation shell is a hollow rectangular box body, a vertical inner baffle plate A and an inner baffle 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 baffle plate A and the inner baffle plate B, a discharge hole A and a discharge hole B 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 barrel respectively penetrate through the inner baffle plate A and the inner baffle plate B, a packing auger installation central shaft is arranged in the conveying outer barrel in a penetrating manner, the packing auger installation central shaft positioned in the conveying outer barrel is provided with a conveying packing auger on the outer wall thereof, the conveying packing auger is provided with two packing auger blades with opposite rotating directions, the materials are respectively conveyed to two ends of the conveying outer barrel, one end of the packing auger installation central, the auger mounting central shaft is provided with a poking disc at one end close to the power driving device, the poking disc drives the left side linkage mechanism and the right side linkage mechanism to reciprocate, and the left side linkage mechanism and the right side linkage mechanism are respectively mounted on the outer walls of the two sides of the conveying outer cylinder.

2. The auxiliary device for blanking of the flour processing plant as claimed in claim 1, wherein: a circular partition plate is arranged between the two sections of auger blades with opposite rotating directions and fixed on an auger mounting central shaft, and the diameter of the circular partition plate is slightly smaller than the inner diameter of the conveying outer barrel.

3. The auxiliary device for blanking of the flour processing plant as claimed in claim 2, wherein: the feeding device is characterized in that a feeding hole is formed in the middle of the top of the conveying outer barrel, 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.

4. The auxiliary device for blanking of the flour processing plant as claimed in claim 3, wherein: the stirring plate comprises a sleeve, the sleeve is located the installation shell outside, the bearing is established to the cover intraductal cover, rotates with auger installation center pin through the bearing and is connected, the sheathed tube has driven gear and disk body for integrated into one piece on the wall, still including being used for driving the rotatory sleeve pipe driving motor of disk body, sleeve pipe driving motor and power drive device are all fixed on the outer wall of installation shell, have on sleeve pipe driving motor's the power output shaft with driven gear engaged with driving gear, the angle of predetermineeing has between disk body and the auger installation center pin of place, the outer edge of disk body has seted up round chute.

5. The auxiliary device for blanking of the flour processing plant as claimed in claim 4, wherein: the left side link gear includes slide bar A, slide bar A run through the shell of installation shell and with installation shell sliding connection, slide bar A's middle part is fixed on the outer wall of carrying the urceolus, and its one end has the slider A with slide way groove matched with, slider A is the columnar structure, slides and sets up in the slide way inslot.

6. The auxiliary device for blanking of the flour processing plant as claimed in claim 5, wherein: the right side link gear includes slide bar B, and slide bar A is parallel to each other with slide bar B, slide bar B run through the shell of installation shell and with installation shell sliding connection, slide bar B with fix the sliding sleeve B sliding connection on carrying urceolus middle part outer wall, its one end have with matched with slider B, slider B is columnar structure, slides and sets up in the slide way inslot.

7. The auxiliary device for blanking of the flour processing plant as claimed in claim 6, wherein: the discharge port A and the discharge port B are connected with gates, the power driving device is a motor, and two ends of the conveying outer barrel are respectively located in the material channel A and the material channel B and have a preset distance with the outer wall of the mounting shell.

8. The auxiliary device for blanking of the flour processing plant as claimed in claim 7, wherein: the joint of the auger mounting central shaft and the mounting shell is provided with a bearing for connection, and the joint of the sliding block A and the sliding block B and the mounting shell is provided with a sliding sleeve for connection.

9. The auxiliary device for blanking of the flour processing plant as claimed in claim 8, wherein: the sections of the sliding block A and the sliding block B are both rectangular.

10. The auxiliary device for blanking of the flour processing plant as claimed in claim 9, wherein: the processing steps of the poking disc (8) are as follows:

C. adopting sand mold casting at 1380-1440 ℃;