阅读说明：本技术 一种基于筛分组件的离心式谷物包装设备 (Centrifugal grain packaging equipment based on screening subassembly ) 是由 郭彭勇 于 2021-08-17 设计创作，主要内容包括：本发明公开了一种基于筛分组件的离心式谷物包装设备,涉及谷物包装技术领域。本发明包括固定支架；环形固定板下表面沿环向固定连接有第一给料机构；支撑杆上端固定连接有第二给料机构；第一给料机构的出料通道靠近环形固定板中心的曲形面固定连接有第一离心机构；第一离心机构顶部卡接有第二离心机构；筛板安装组件上表面滑动连接有离心筛组件；第一导向环的弧形出料孔沿第一导向环外壁切线方向设置；第一贯通孔内部卡接有旋转驱动组件。本发明通过设置有第一离心机构、第二离心机构、旋转驱动组件、移动式驱动机构和包装支撑机构的设计,可实现谷物筛分和离心包装的一体化,大大增加谷物包装的效率,大大降低工人的劳动强度。(The invention discloses centrifugal grain packaging equipment based on a screening component, and relates to the technical field of grain packaging. The invention comprises a fixed bracket; the lower surface of the annular fixing plate is fixedly connected with a first feeding mechanism along the annular direction; the upper end of the supporting rod is fixedly connected with a second feeding mechanism; a curved surface of a discharge channel of the first feeding mechanism, which is close to the center of the annular fixing plate, is fixedly connected with a first centrifugal mechanism; the top of the first centrifugal mechanism is clamped with a second centrifugal mechanism; the upper surface of the sieve plate mounting component is connected with a centrifugal sieve component in a sliding manner; the arc-shaped discharge hole of the first guide ring is arranged along the tangential direction of the outer wall of the first guide ring; the first through hole is internally clamped with a rotary driving assembly. According to the invention, through the design of the first centrifugal mechanism, the second centrifugal mechanism, the rotary driving assembly, the movable driving mechanism and the packaging supporting mechanism, the integration of grain screening and centrifugal packaging can be realized, the grain packaging efficiency is greatly increased, and the labor intensity of workers is greatly reduced.)

1. A centrifugal grain packaging apparatus based on screen assemblies, comprising a fixed support (1); the fixed support (1) comprises a chassis (101); the upper surface of the chassis (101) is fixedly connected with a plurality of L-shaped fixing rods (102) along the annular direction; one end face of the L-shaped fixing rod (102) is fixedly connected with an annular fixing plate (103); the method is characterized in that:

the lower surface of the annular fixing plate (103) is fixedly connected with a plurality of first feeding mechanisms (11) along the annular direction; the top of the first feeding mechanism (11) is fixedly connected with a supporting rod (104); the upper end of the supporting rod (104) is fixedly connected with a second feeding mechanism (12);

the first feeding mechanism (11) and the second feeding mechanism (12) comprise discharging channels (1101);

wherein, a first centrifugal mechanism (2) is fixedly connected with a curved surface of a discharge channel (1101) of the first feeding mechanism (11), which is close to the center of the annular fixing plate (103); the top of the first centrifugal mechanism (2) is clamped with a second centrifugal mechanism (3); the outer wall of the second centrifugal mechanism (3) is in clearance fit with a curved surface of a discharge channel (1101) of the second feeding mechanism (12) close to the center of the annular fixing plate (103);

the first centrifugal mechanism (2) comprises a first guide assembly (21);

the second centrifugal mechanism (3) comprises a second guide assembly (31);

the sieve plate mounting assembly (22) is clamped in the first guide assembly (21) and the second guide assembly (31); the upper surface of the sieve plate mounting assembly (22) is connected with a centrifugal sieve assembly (23) in a sliding manner;

the first guide assembly (21) comprises a first guide ring (2101); the second guide assembly (31) comprises a second guide ring (3101); the outer walls of the first guide ring (2101) and the second guide ring (3101) are provided with a plurality of arc-shaped discharge holes (2102) along the annular direction;

the arc-shaped discharge hole (2102) of the first guide ring (2101) is arranged along the tangential direction of the outer wall of the first guide ring (2101); the arc discharge hole (2102) of the second guide ring (3101) is arranged along the tangential direction of the outer wall of the second guide ring (3101);

the interior of a discharge channel (1101) of the first feeding mechanism (11) is communicated with the interior of an arc-shaped discharge hole (2102) of the first guide ring (2101); the interior of a discharge channel (1101) of the second feeding mechanism (12) is communicated with the interior of an arc-shaped discharge hole (2102) of the second guide ring (3101);

the centrifugal screen assembly (23) comprises a centrifugal screen plate (2301); a first through hole (2302) is formed in the center of the upper surface of the centrifugal sieve plate (2301); the inside joint of first through-hole (2302) has rotary driving subassembly (4).

2. A centrifugal grain packaging apparatus based on screen assemblies as claimed in claim 1, characterized in that a plurality of connecting blocks (2303) are fixedly connected to the upper surface of the centrifugal screen plate (2301) near the peripheral side surface of the centrifugal screen plate (2301) along the circumferential direction; the lower surface of the connecting block (2303) is fixedly connected with an annular sliding rail (2304);

the screen plate mounting assembly (22) comprises a mounting ring (2201); the outer wall of a mounting ring (2201) in the first guide ring (2101) is in clearance fit with the inner wall of the first guide ring (2101);

the outer wall of a mounting ring (2201) in the second guide ring (3101) is in clearance fit with the inner wall of the second guide ring (3101);

a first annular sliding groove (2202) is formed in the upper surface of the mounting ring (2201) along the annular direction; the inner wall of the first annular chute (2202) is in sliding fit with the peripheral side surface of the annular slide rail (2304);

the upper surface of the mounting ring (2201), the inner bottom of the discharging channel (1101) and the upper surface of the centrifugal sieve plate (2301) are in the same plane.

3. A centrifugal grain packaging apparatus based on screen assemblies as claimed in claim 2, wherein the upper surface of the first guide ring (2101) and the upper surface of the second guide ring (3101) are both provided with a plurality of guide grooves (2103) along the circumferential direction; a positioning groove (2104) is formed in the position, close to the bottom, of one inner side surface of the guide groove (2103);

the interior of a guide groove (2103) and a positioning groove (2104) on the first guide ring (2101) are communicated with the interior of the first guide ring (2101);

the interior of the guide groove (2103) and the positioning groove (2104) on the second guide ring (3101) are communicated with the interior of the second guide ring (3101).

4. A centrifugal grain wrapping apparatus based on screen assemblies as claimed in claim 3, wherein the first guide ring (2101) has a first mounting groove (2105) formed at the bottom of the positioning groove (2104); a plurality of springs (2106) are fixedly connected to the bottom in the first mounting groove (2105); a movable plate (2107) is fixedly connected to the upper end of the spring (2106); the upper surface of the movable plate (2107) and the bottom in the first mounting groove (2105) are provided with second through holes (2108);

a second mounting groove (3102) is formed in the top of the positioning groove (2104) on the second guide ring (3101); a third through hole (3103) is formed in the top of the second mounting groove (3102);

a locking mechanism (5) is connected in a sliding way in the second through hole (2108) and the third through hole (3103); the locking mechanism (5) comprises a sliding rod (501); one end of the sliding rod (501) is fixedly connected with a movable locking block (502);

the bottom of a movable locking block (502) in the first mounting groove (2105) is fixedly connected with the upper surface of a movable plate (2107);

the bottom of the movable locking block (502) in the second mounting groove (3102) is attached to the bottom in the corresponding positioning groove (2104).

5. A centrifugal grain packaging equipment based on screening assemblies as claimed in claim 4, characterized in that a plurality of L-shaped mounting rods (2203) are fixedly connected to the upper surface of the mounting ring (2201) near the outer wall of the mounting ring (2201) along the circumferential direction; the peripheral side surface of the L-shaped mounting rod (2203) is in sliding fit with the inner wall of the guide groove (2103);

the peripheral side surface of the L-shaped mounting rod (2203) is in clearance fit with the inner wall of the positioning groove (2104);

an arc-shaped material passing hole (2204) is formed in one side face of the L-shaped mounting rod (2203);

the upper surface of the first guide ring (2101) is fixedly connected with a plurality of clamping plates (2109) along the annular direction;

a plurality of clamping grooves (3104) are formed in the lower surface of the second guide ring (3101) along the circumferential direction; the inside of the clamping groove (3104) is clamped with the peripheral side surface of the clamping plate (2109).

6. A centrifugal grain packaging apparatus based on screen assemblies as claimed in claim 5, characterized in that the rotary drive assembly (4) comprises a rotary shaft (401); the peripheral side surface of the rotating shaft (401) is fixedly connected with a driving block (402) which is arranged up and down;

the upper surface of the centrifugal sieve plate (2301) is provided with a plurality of limiting grooves (2305); the limiting groove (2305) is arranged along the circumferential direction of the first through hole (2302);

the peripheral side surface of the driving block (402) is clamped with the inner wall of the limiting groove (2305);

the peripheral side surface of the rotating shaft (401) is in sliding fit with the inner wall of the first through hole (2302);

a fluted disc (403) is fixedly connected to the top end of the rotating shaft (401); the side surface of the fluted disc (403) is engaged with a movable driving mechanism (6).

7. A centrifugal grain packaging apparatus based on screen assemblies as claimed in claim 6, characterized in that the mobile drive mechanism (6) comprises a fixed tray (601); a driving motor (602) is fixedly arranged on the upper surface of the fixed disc (601); the lower end of an output shaft of the driving motor (602) is fixedly connected with an inner toothed plate (603); the inner wall of the inner toothed plate (603) is meshed with the peripheral side surface of the fluted disc (403);

the peripheral side surface of the fixed disc (601) is fixedly connected with a plurality of supporting plates (604); a fourth through hole (605) is formed in the upper surface of the supporting plate (604); a threaded rod (606) is in sliding fit with the inside of the fourth through hole (605); a tray (607) is fixedly connected to the peripheral side surface of the threaded rod (606); the upper surface of the tray (607) is attached to the lower surface of the supporting plate (604);

an internal thread ring (608) is connected to the peripheral side surface of the threaded rod (606) in a threaded manner; the lower surface of the internal thread ring (608) is attached to the upper surface of the support plate (604);

a first thread groove (1201) is formed in the outer top of a discharging channel (1101) of the second feeding mechanism (12); the inner part of the first thread groove (1201) is in threaded connection with the lower end of the threaded rod (606).

8. A centrifugal grain packaging apparatus based on screen assemblies as claimed in claim 7, characterized in that the upper surface of the annular fixing plate (103) and the upper surface of the base plate (101) are both provided with a second annular chute (105); a plurality of package supporting mechanisms (7) are connected inside the second annular sliding groove (105) in a sliding manner;

the package supporting mechanism (7) on the annular fixing plate (103) is matched with the second feeding mechanism (12) in position;

the packaging supporting mechanism (7) on the chassis (101) is matched with the first feeding mechanism (11) in position;

the package supporting mechanism (7) comprises an arc-shaped rotating table (701); the bottom of the arc-shaped rotary table (701) is fixedly connected with an arc-shaped sliding strip (702); the peripheral side surface of the arc-shaped sliding strip (702) is in sliding fit with the inner wall of the second annular sliding groove (105);

the upper surface of the arc-shaped rotary table (701) is provided with a plurality of container placing grooves (703);

a filling nozzle (1102) is arranged at the outer bottom of the discharge channel (1101); an anti-accumulation sloping plate (1103) is arranged at the bottom in the discharging channel (1101).

9. A centrifugal grain packaging apparatus based on screen assemblies as claimed in claim 8, characterized in that the chassis (101) is provided with a mounting hole (106) at a central position of the upper surface thereof; the inner wall of the mounting hole (106) is in clearance fit with a material receiving box (8); the outer wall of the material receiving box (8) is fixedly connected with a plurality of lug plates (801); the upper surface of the ear plate (801) is provided with a threaded hole (802);

the lower surface of the chassis (101) is provided with a plurality of second thread grooves (107); the second thread groove (107) is fixedly connected with the threaded hole (802) through a fastening bolt.

Technical Field

The invention belongs to the technical field of grain packaging, and particularly relates to centrifugal grain packaging equipment based on a screening component.

Background

The scope of the 'grain' is wide, and the 'grain' comprises rice, wheat, millet, soybean and other coarse cereals. Cereals including rice, wheat, millet, soybean, etc., are mainly plant seeds and fruits, and are traditional staple foods for many asian people. Cereals, not only refer to seeds of gramineous plants, but also can be roughly divided into three types in China, namely, cereals including rice (indica rice, japonica rice and rice), wheat (wheat, barley, oat and rye), corn, sorghum, millet, yellow rice, buckwheat and the like; ② bean and bean products including soybean, broad bean, pea, mung bean, small red bean, kidney bean, etc.; ③ the potatoes comprise sweet potatoes also called sweet potatoes or sweet potatoes, yams, taros, cassava and the like.

When the existing factory packages grains, the grains are mostly packaged in a manual mode, so that the grain packaging efficiency is extremely low, and the requirement of batch grain packaging cannot be met; to the screening of equidimension cereal grain in the cereal, the screen cloth that adopts different apertures in most carries out the cereal screening, carries out the packing of different granule cereals again after the screening is accomplished, and not only the operation is very loaded down with trivial details, and it is longer to consume time, and cereal packing efficiency is lower moreover, greatly increased workman's intensity of labour, the equipment that does not have the cereal screening and pack simultaneously at present. To this end, we have devised a centrifugal grain packaging apparatus based on screen assemblies to address the above problems.

Disclosure of Invention

The invention aims to provide centrifugal grain packaging equipment based on a screening component, which solves the problems that when the existing factory packages grains, the existing factory is not easy to operate, the manual mode is mostly adopted for packing the grains, so that the grain packing efficiency is extremely low, the requirement of batch grain packing cannot be met, for screening grains with different sizes in grains, most of the grains are screened by adopting screens with different apertures, and then the grains with different sizes are packaged after screening, so that the operation is very complicated, the time consumption is long, and the grain packaging efficiency is lower, the labor intensity of workers is greatly increased, and no equipment for simultaneously screening and packaging grains exists at present.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to centrifugal grain packaging equipment based on a screening component, which comprises a fixed bracket, a fixed support and a screening component, wherein the fixed bracket is arranged on the fixed bracket; the fixed bracket comprises a chassis; the upper surface of the chassis is fixedly connected with a plurality of L-shaped fixing rods along the annular direction; one end face of the L-shaped fixed rod is fixedly connected with an annular fixed plate; the lower surface of the annular fixing plate is fixedly connected with a plurality of first feeding mechanisms along the annular direction; the top of the first feeding mechanism is fixedly connected with a supporting rod; the upper end of the supporting rod is fixedly connected with a second feeding mechanism; the first feeding mechanism and the second feeding mechanism comprise discharging channels; the discharge channel of the first feeding mechanism is fixedly connected with a first centrifugal mechanism on a curved surface close to the center of the annular fixing plate; the top of the first centrifugal mechanism is clamped with a second centrifugal mechanism; the outer wall of the second centrifugal mechanism is in clearance fit with a curved surface of a discharge channel of the second feeding mechanism, which is close to the center of the annular fixing plate; the first centrifugal mechanism comprises a first guide assembly; the second centrifugal mechanism comprises a second guide assembly; the sieve plate mounting assemblies are clamped in the first guide assembly and the second guide assembly; the upper surface of the sieve plate mounting assembly is connected with a centrifugal sieve assembly in a sliding manner; the first guide assembly comprises a first guide ring; the second guide assembly comprises a second guide ring; the outer wall of the first guide ring and the outer wall of the second guide ring are both provided with a plurality of arc-shaped discharge holes along the circumferential direction; the arc-shaped discharge hole of the first guide ring is arranged along the tangential direction of the outer wall of the first guide ring; the arc-shaped discharge hole of the second guide ring is arranged along the tangential direction of the outer wall of the second guide ring; the interior of a discharge channel of the first feeding mechanism is communicated with the interior of an arc-shaped discharge hole of the first guide ring; the interior of a discharge channel of the second feeding mechanism is communicated with the interior of an arc-shaped discharge hole of the second guide ring; the centrifugal screen component comprises a centrifugal screen plate; a first through hole is formed in the center of the upper surface of the centrifugal sieve plate; and a rotary driving assembly is clamped in the first through hole.

Furthermore, a plurality of connecting blocks are fixedly connected to the upper surface of the centrifugal sieve plate close to the peripheral side surface of the centrifugal sieve plate along the annular direction; the lower surface of the connecting block is fixedly connected with an annular sliding rail;

the screen plate mounting assembly comprises a mounting ring; the outer wall of the mounting ring in the first guide ring is in clearance fit with the inner wall of the first guide ring;

the outer wall of the mounting ring in the second guide ring is in clearance fit with the inner wall of the second guide ring;

the upper surface of the mounting ring is provided with a first annular sliding groove along the annular direction; the inner wall of the first annular chute is in sliding fit with the peripheral side face of the annular slide rail;

the upper surface of the mounting ring, the inner bottom of the discharging channel and the upper surface of the centrifugal sieve plate are positioned on the same plane.

Furthermore, a plurality of guide grooves are formed in the upper surface of the first guide ring and the upper surface of the second guide ring along the annular direction; a positioning groove is formed in the position, close to the bottom, of the inner side surface of the guide groove;

the inner parts of the guide groove and the positioning groove on the first guide ring are communicated with the inner part of the first guide ring;

the interior of the guide groove and the locating groove on the second guide ring are communicated with the interior of the second guide ring.

Furthermore, a first mounting groove is formed in the bottom of the positioning groove in the first guide ring; the bottom in the first mounting groove is fixedly connected with a plurality of springs; the upper end of the spring is fixedly connected with a movable plate; the upper surface of the movable plate and the bottom in the first mounting groove are both provided with second through holes;

a second mounting groove is formed in the top of the positioning groove in the second guide ring; a third through hole is formed in the top of the second mounting groove;

the inner part of the second through hole and the inner part of the third through hole are both connected with locking mechanisms in a sliding manner; the locking mechanism comprises a sliding rod; one end of the sliding rod is fixedly connected with a movable locking block;

the bottom of the movable locking block in the first mounting groove is fixedly connected with the upper surface of the movable plate;

the bottom of the movable locking block in the second mounting groove is attached to the bottom in the corresponding positioning groove.

Furthermore, a plurality of L-shaped mounting rods are fixedly connected to the upper surface of the mounting ring, close to the outer wall of the mounting ring, along the circumferential direction; the peripheral side surface of the L-shaped mounting rod is in sliding fit with the inner wall of the guide groove;

the peripheral side surface of the L-shaped mounting rod is in clearance fit with the inner wall of the positioning groove;

an arc-shaped material passing hole is formed in one side face of the L-shaped mounting rod;

the upper surface of the first guide ring is fixedly connected with a plurality of clamping plates along the circumferential direction;

the lower surface of the second guide ring is provided with a plurality of clamping grooves along the circumferential direction; the inside of the clamping groove is clamped with the peripheral side face of the clamping plate.

Further, the rotary driving assembly comprises a rotary shaft; the peripheral side surface of the rotating shaft is fixedly connected with a driving block which is arranged up and down;

the upper surface of the centrifugal sieve plate is provided with a plurality of limiting grooves; the limiting groove is arranged along the circumferential direction of the first through hole;

the peripheral side surface of the driving block is clamped with the inner wall of the limiting groove;

the peripheral side surface of the rotating shaft is in sliding fit with the inner wall of the first through hole;

a fluted disc is fixedly connected to the top end of the rotating shaft; and the peripheral side surface of the fluted disc is engaged with a movable driving mechanism.

Furthermore, the movable driving mechanism comprises a fixed disc; a driving motor is fixedly arranged on the upper surface of the fixed disc; the lower end of the output shaft of the driving motor is fixedly connected with an inner toothed plate; the inner wall of the inner toothed plate is meshed with the peripheral side face of the toothed disc;

the peripheral side surface of the fixed disc is fixedly connected with a plurality of supporting plates; a fourth through hole is formed in the upper surface of the supporting plate; a threaded rod is in sliding fit with the inner part of the fourth through hole; the peripheral side surface of the threaded rod is fixedly connected with a tray; the upper surface of the tray is attached to the lower surface of the supporting plate;

the peripheral side surface of the threaded rod is in threaded connection with an internal thread ring; the lower surface of the internal thread ring is attached to the upper surface of the support plate;

a first thread groove is formed in the outer top of the discharge channel of the second feeding mechanism; the interior of the first thread groove is in threaded connection with the lower end of the threaded rod.

Furthermore, the upper surface of the annular fixing plate and the upper surface of the chassis are both provided with a second annular chute; a plurality of packaging supporting mechanisms are connected inside the second annular sliding groove in a sliding manner;

the packaging supporting mechanism on the annular fixing plate is matched with the second feeding mechanism in position;

the packaging supporting mechanism on the chassis is matched with the first feeding mechanism in position;

the package supporting mechanism comprises an arc-shaped rotary table; the bottom of the arc-shaped rotary table is fixedly connected with an arc-shaped sliding strip; the peripheral side surface of the arc-shaped sliding strip is in sliding fit with the inner wall of the second annular sliding groove;

the upper surface of the arc-shaped rotary table is provided with a plurality of container placing grooves;

a filling nozzle is arranged at the outer bottom of the discharge channel; an anti-accumulation inclined plate is arranged at the bottom in the discharging channel.

Furthermore, a mounting hole is formed in the center of the upper surface of the chassis; the inner wall of the mounting hole is in clearance fit with a material receiving box; the outer wall of the material receiving box is fixedly connected with a plurality of lug plates; the upper surface of the lug plate is provided with a threaded hole;

the lower surface of the base plate is provided with a plurality of second thread grooves; and the second thread groove is fixedly connected with the threaded hole through a fastening bolt.

The invention has the following beneficial effects:

1. according to the invention, through the design of the first centrifugal mechanism, the second centrifugal mechanism, the rotary driving assembly, the movable driving mechanism and the packaging supporting mechanism, when the rotary driving assembly is used for screening grains in the first centrifugal mechanism and the second centrifugal mechanism, centrifugal packaging of the grains is realized by using centrifugal force, so that integration of grain screening and centrifugal packaging is realized, the grain packaging efficiency is greatly increased, and the labor intensity of workers is greatly reduced.

2. According to the invention, the plurality of first feeding mechanisms are arranged outside the first centrifugal mechanism, and the plurality of second feeding mechanisms are arranged outside the second centrifugal mechanism, so that under the action of centrifugal force generated by rotation of the centrifugal sieve plate, multi-channel centrifugal feeding and packaging of grains on the centrifugal sieve plate in the first centrifugal mechanism and grains on the centrifugal sieve plate in the second centrifugal mechanism are realized simultaneously, the grain packaging efficiency is greatly improved, and the requirement of batch grain packaging is met.

3. According to the invention, through the design of the guide groove, the positioning groove, the first mounting groove, the spring, the second mounting groove, the first annular sliding groove, the annular sliding rail, the locking mechanism, the L-shaped mounting rod, the arc-shaped material passing hole, the clamping plate and the clamping groove, the clamping connection between the first centrifugal mechanism and the second centrifugal mechanism can be realized, the detachable sliding connection of the centrifugal sieve plate on the sieve plate mounting assembly is realized, and the clamping connection of the sieve plate mounting assembly in the first guide ring and the second guide ring is realized, so that the replacement of the centrifugal sieve plates in the first centrifugal mechanism and the second centrifugal mechanism is facilitated, the requirements of screening and packaging of grains with different grain diameters are met, and the application range of the invention is greatly increased.

4. According to the invention, the accumulation-preventing inclined plate is arranged at the position close to the filling nozzle in the discharging channel, so that excessive accumulation of grains entering the discharging channel in the discharging channel can be effectively reduced, the filling nozzle is prevented from being blocked in the centrifugal grain packaging process, the operation continuity of the centrifugal grain packaging equipment is ensured, and the high efficiency of grain packaging is ensured to a certain extent.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of a centrifugal grain packaging apparatus based on screen assemblies;

FIG. 2 is a front view of the structure of FIG. 1;

FIG. 3 is a schematic structural view of a fixing bracket;

FIG. 4 is a schematic view of a portion of the structure of FIG. 3;

FIG. 5 is a schematic view of the bottom view of FIG. 4;

FIG. 6 is a schematic structural view of a first centrifugal mechanism;

FIG. 7 is a top view of the structure of FIG. 6;

FIG. 8 is an exploded view of the structure of FIG. 6;

FIG. 9 is a schematic view of a first guide assembly;

FIG. 10 is an enlarged view of a portion of the structure at A in FIG. 9;

FIG. 11 is a schematic view of the bottom view of FIG. 10;

FIG. 12 is a schematic structural view of a second centrifugal mechanism;

FIG. 13 is an exploded view of the structure of FIG. 12;

FIG. 14 is a schematic structural view of a second guide assembly;

FIG. 15 is a schematic view of the bottom view of FIG. 14;

fig. 16 is a schematic structural view of a screen deck mounting assembly;

FIG. 17 is a schematic structural view of a centrifuge screen assembly;

FIG. 18 is a schematic structural view of the locking mechanism;

FIG. 19 is a longitudinal structural sectional view of the first feed mechanism;

FIG. 20 is a schematic view of the rotary drive assembly;

FIG. 21 is a schematic view of the mobile drive mechanism;

FIG. 22 is a schematic view of a portion of the structure of FIG. 21;

FIG. 23 is a schematic view of a threaded rod;

FIG. 24 is a schematic view of the package support mechanism;

FIG. 25 is a schematic view of the structure of the material receiving box;

in the drawings, the components represented by the respective reference numerals are listed below:

1-a fixed support, 2-a first centrifugal mechanism, 3-a second centrifugal mechanism, 4-a rotary driving assembly, 401-a rotary shaft, 402-a driving block, 403-a fluted disc, 5-a locking mechanism, 501-a sliding rod, 502-a movable locking block, 6-a movable driving mechanism, 601-a fixed disc, 602-a driving motor, 603-an internal toothed plate, 604-a supporting plate, 605-a fourth through hole, 606-a threaded rod, 607-a tray, 608-an internal threaded ring, 7-a packaging supporting mechanism, 701-an arc-shaped rotary table, 702-an arc-shaped sliding strip, 703-a container placing groove, 8-a material receiving box, 801-an ear plate, 802-a threaded hole, 101-a chassis, 102-L-shaped fixed rods, 103-an annular fixed plate, 104-support bar, 105-second annular chute, 106-mounting hole, 107-second threaded groove, 11-first feeding mechanism, 1101-discharge channel, 1102-filling nozzle, 1103-accumulation-preventing inclined plate, 12-second feeding mechanism, 1201-first threaded groove, 21-first guide assembly, 2101-first guide ring, 2102-arc discharge hole, 2103-guide groove, 2104-positioning groove, 2105-first mounting groove, 2106-spring, 2107-movable plate, 2108-second through hole, 2109-snap-gauge, 22-screen plate mounting assembly, 2201-mounting ring, 2202-first annular chute, 2203-L-shaped mounting bar, 2204-arc discharge hole, 23-centrifugal screen assembly, 2301-centrifugal screen plate, 2302-first through hole, 2303-connecting block, 2304-annular slide rail, 2305-limiting groove, 31-second guide component, 3101-second guide ring, 3102-second mounting groove, 3103-third through hole, and 3104-clamping groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1-7 and 12-19, the present invention is a centrifugal grain packaging apparatus based on a screen assembly, comprising a stationary frame 1; the fixed bracket 1 comprises a chassis 101; the upper surface of the chassis 101 is fixedly connected with a plurality of L-shaped fixing rods 102 along the annular direction; one end face of the L-shaped fixing rod 102 is fixedly connected with an annular fixing plate 103;

the lower surface of the annular fixing plate 103 is fixedly connected with a plurality of first feeding mechanisms 11 along the annular direction; the top of the first feeding mechanism 11 is fixedly connected with a supporting rod 104; the upper end of the supporting rod 104 is fixedly connected with a second feeding mechanism 12; the first feeding mechanism 11 and the second feeding mechanism 12 are respectively used for feeding the grains with different grain diameters for packaging;

the first feeding mechanism 11 and the second feeding mechanism 12 both comprise a discharging channel 1101;

wherein, a discharge channel 1101 of the first feeding mechanism 11 is fixedly connected with a first centrifugal mechanism 2 near the curved surface of the center of the annular fixing plate 103; the top of the first centrifugal mechanism 2 is clamped with a second centrifugal mechanism 3; the outer wall of the second centrifugal mechanism 3 is in clearance fit with a curved surface of a discharge channel 1101 of the second feeding mechanism 12, which is close to the center of the annular fixing plate 103;

the first centrifugal mechanism 2 comprises a first guide assembly 21;

the second centrifugal mechanism 3 comprises a second guide assembly 31;

the sieve plate mounting assembly 22 is clamped in the first guide assembly 21 and the second guide assembly 31; the upper surface of the sieve plate mounting component 22 is connected with a centrifugal sieve component 23 in a sliding way; centrifugal screen assemblies 23 may be mounted within first guide assembly 21 and within second guide assembly 31 using screen mounting assembly 22, and centrifugal feed packing of grain may be achieved using centrifugal force generated by rotation by rotating centrifugal screen assemblies 23.

Referring to FIGS. 1-19, the first guide assembly 21 includes a first guide ring 2101; the second guide assembly 31 includes a second guide ring 3101; a plurality of arc discharge holes 2102 are formed in the outer wall of the first guide ring 2101 and the outer wall of the second guide ring 3101 in the circumferential direction;

an arc-shaped discharging hole 2102 of the first guide ring 2101 is arranged along the tangential direction of the outer wall of the first guide ring 2101; the arc discharge holes 2102 of the second guide ring 3101 are arranged along the tangential direction of the outer wall of the second guide ring 3101; the centrifugal force generated by the rotation of the centrifugal screen assembly 23 makes the grains move along the tangential direction of the inner wall of the first guide ring 2101 and the tangential direction of the inner wall of the second guide ring 3101 respectively, so that the grains roll down along the arc-shaped discharge holes 2102 to the discharge channels 1101 in the corresponding first feeding mechanism 11 and second feeding mechanism 12;

the interior of the discharge channel 1101 of the first feeding mechanism 11 is communicated with the interior of the arc-shaped discharge hole 2102 of the first guide ring 2101, so that grains moving along the tangential direction of the inner wall of the first guide ring 2101 flow into the discharge channel 1101 of the first feeding mechanism 11, and then grain packaging is realized; the inside of the discharging channel 1101 of the second feeding mechanism 12 is communicated with the inside of the arc-shaped discharging hole 2102 of the second guide ring 3101, so that grains moving along the tangential direction of the inner wall of the second guide ring 3101 flow into the discharging channel 1101 of the second feeding mechanism 12, and further, the grains are packaged;

the centrifugal screen assembly 23 comprises a centrifugal screen plate 2301; a first through hole 2302 is formed in the center of the upper surface of the centrifugal sieve plate 2301; the inside joint of first through-hole 2302 has rotation driving assembly 4, can order about two centrifugation sieve 2301 that set up through rotation driving assembly 4 and rotate to carry out the centrifugal separation of cereal.

Referring to fig. 11-19, the upper surface of the centrifugal sieve plate 2301 near the circumferential side surface of the centrifugal sieve plate 2301 is fixedly connected with a plurality of connecting blocks 2303 along the circumferential direction; the lower surface of the connecting block 2303 is fixedly connected with an annular sliding rail 2304;

the screen mounting assembly 22 includes a mounting ring 2201; the outer wall of a mounting ring 2201 in the first guide ring 2101 is in clearance fit with the inner wall of the first guide ring 2101;

the outer wall of the mounting ring 2201 in the second guide ring 3101 is in clearance fit with the inner wall of the second guide ring 3101;

a first annular chute 2202 is arranged on the upper surface of the mounting ring 2201 along the annular direction; the inner wall of the first annular chute 2202 is in sliding fit with the peripheral side surface of the annular slide rail 2304;

the upper surface of the mounting ring 2201, the inner bottom of the discharge channel 1101 and the upper surface of the centrifugal sieve plate 2301 are in the same plane; through sliding fit between first annular spout 2202 and annular slide rail 2304, can realize the detachable installation between centrifugal sieve subassembly 23 and the sieve installation component 22 to can carry out the nimble change of centrifugal sieve board 2301 according to the particle diameter of the cereal that needs to sieve, greatly increased centrifugal feeder's application scope.

Referring to fig. 13-15, the upper surface of the first guide ring 2101 and the upper surface of the second guide ring 3101 are both provided with a plurality of guide slots 2103 along the circumferential direction; a positioning groove 2104 is formed on one inner side surface of the guide groove 2103 close to the bottom;

the interior of the guide groove 2103 and the positioning groove 2104 on the first guide ring 2101 are communicated with the interior of the first guide ring 2101;

the interior of the guide groove 2103 and the positioning groove 2104 on the second guide ring 3101 are communicated with the interior of the second guide ring 3101; the screen panel mounting assembly 22 may be snapped into the positioning channel 2104 by sliding the screen panel mounting assembly 22 along the guide slots 2103, thereby providing a separable mounting of the screen panel mounting assembly 22 on the first guide ring 2101 and the second guide ring 3101.

Referring to fig. 9-18, a first mounting groove 2105 is formed at the bottom of the positioning groove 2104 of the first guide ring 2101; a plurality of springs 2106 are fixedly connected to the bottom in the first mounting groove 2105; a movable plate 2107 is fixedly connected to the upper end of the spring 2106; the upper surface of the movable plate 2107 and the bottom in the first mounting groove 2105 are both provided with a second through hole 2108;

a second mounting groove 3102 is formed at the top part in the positioning groove 2104 on the second guide ring 3101; a third through hole 3103 is formed in the second mounting groove 3102 at the top;

the inside of the second through hole 2108 and the inside of the third through hole 3103 are both slidably connected with a locking mechanism 5; the locking mechanism 5 comprises a sliding rod 501; one end of the sliding rod 501 is fixedly connected with a movable locking block 502; the movable locking block 502 is driven to move up and down by external force, so that the sieve plate mounting assembly 22 is clamped and connected, and centrifugal separation of grains is facilitated;

the bottom of the movable locking block 502 in the first mounting groove 2105 is fixedly connected with the upper surface of the movable plate 2107;

the bottom of the movable lock block 502 in the second mounting groove 3102 is attached to the bottom of the corresponding positioning groove 2104.

Referring to fig. 6-17, a plurality of L-shaped mounting rods 2203 are fixedly connected to the upper surface of the mounting ring 2201 near the outer wall of the mounting ring 2201 along the circumferential direction; the peripheral side surface of the L-shaped mounting rod 2203 is in sliding fit with the inner wall of the guide groove 2103;

the peripheral side surface of the L-shaped mounting rod 2203 is in clearance fit with the inner wall of the positioning groove 2104;

an arc-shaped material passing hole 2204 is formed in one side face of the L-shaped mounting rod 2203; through the arrangement of the arc-shaped through hole 2204, grains centrifugally rolled to the mounting ring 2201 can pass through the arc-shaped through hole 2204 in the rotating centrifugal screening process of the centrifugal screen plate 2301, so that the accumulation of the grains on the mounting ring 2201 is effectively avoided;

the upper surface of the first guide ring 2101 is fixedly connected with a plurality of clamping plates 2109 along the circumferential direction;

the lower surface of the second guide ring 3101 is provided with a plurality of clamping grooves 3104 along the circumferential direction; the inside of the clamping groove 3104 is clamped with the peripheral side surface of the clamping plate 2109, so that the separable fixed connection between the first centrifugal mechanism 2 and the second centrifugal mechanism 3 can be realized, and the replacement of the centrifugal screen assembly 23 inside the first centrifugal mechanism 2 and the second centrifugal mechanism 3 is facilitated.

Referring to fig. 17-21, the rotation driving assembly 4 includes a rotation shaft 401; a driving block 402 arranged up and down is fixedly connected to the peripheral side surface of the rotating shaft 401;

the upper surface of the centrifugal sieve plate 2301 is provided with a plurality of limiting grooves 2305; the limiting groove 2305 is arranged along the circumferential direction of the first through hole 2302;

the peripheral side surface of the driving block 402 is clamped with the inner wall of the limiting groove 2305;

the peripheral side surface of the rotating shaft 401 is in sliding fit with the inner wall of the first through hole 2302;

a fluted disc 403 is fixedly connected to the top end of the rotating shaft 401; the side surface of the fluted disc 403 is engaged with a movable driving mechanism 6; can control rotary drive assembly 4 to rotate through portable actuating mechanism 6, and then drive two centrifugation sieve 2301 that set up from top to bottom and rotate, realize the centrifugal feed packing of cereal.

Referring to fig. 6 and fig. 17-23, the movable driving mechanism 6 includes a fixed tray 601; a driving motor 602 is fixedly arranged on the upper surface of the fixed disc 601; the lower end of the output shaft of the driving motor 602 is fixedly connected with an inner toothed plate 603; the inner wall of the inner toothed plate 603 is meshed with the circumferential side surface of the fluted disc 403; the bottom end of a rotating shaft 401 of a rotating driving assembly 4 is inserted into a centrifugal sieve plate 2301 in a first centrifugal mechanism 2, the rotating shaft 401 is clamped with two vertically arranged centrifugal sieve plates 2301 by a driving block 402 on the rotating shaft 401, and the two vertically arranged centrifugal sieve plates 2301 synchronously rotate by the meshing action between a fluted disc 403 at the top end of the rotating shaft 401 and an inner toothed plate 603, so that the centrifugal sieving package of grains is realized;

the peripheral side surface of the fixed disc 601 is fixedly connected with a plurality of supporting plates 604; the upper surface of the supporting plate 604 is provided with a fourth through hole 605; a threaded rod 606 is slidably fitted into the fourth through hole 605; the peripheral side surface of the threaded rod 606 is fixedly connected with a tray 607; the upper surface of the tray 607 is attached to the lower surface of the supporting plate 604;

referring to fig. 4 and 17-23, the threaded shaft 606 is threadedly coupled to an internally threaded ring 608; the lower surface of the internal thread ring 608 is attached to the upper surface of the support plate 604;

a first thread groove 1201 is formed at the outer top of the discharging channel 1101 of the second feeding mechanism 12; the interior of the first thread groove 1201 is in threaded connection with the lower end of the threaded rod 606; the top end of the threaded rod 606 is inserted into the fourth through hole 605 on the support plate 604, the bottom end of the threaded rod 606 is inserted into the first threaded groove 1201 on the second feeding mechanism 12, the threaded rod 606 is rotated to fixedly connect the threaded rod 606 with the first threaded groove 1201, the internal threaded ring 608 is rotated finally, the fixed mounting between the support plate 604 and the threaded rod 606 is realized by utilizing the thread matching effect between the internal threaded ring 608 and the threaded rod 606, the driving motor 602 is started to rotate the internal toothed plate 603, and the rotation driving assembly 4 is driven to drive the centrifugal screen plate 2301 to rotate by utilizing the meshing effect between the internal toothed plate 603 and the toothed plate 403.

Referring to fig. 4-5 and fig. 19-24, the upper surface of the annular fixing plate 103 and the upper surface of the chassis 101 are both provided with a second annular chute 105; a plurality of package supporting mechanisms 7 are connected inside the second annular sliding groove 105 in a sliding manner;

the package supporting mechanism 7 on the annular fixing plate 103 is matched with the second feeding mechanism 12 in position;

the package supporting mechanism 7 on the chassis 101 is matched with the first feeding mechanism 11 in position;

the package supporting mechanism 7 comprises an arc-shaped rotary table 701; the bottom of the arc-shaped rotary table 701 is fixedly connected with an arc-shaped sliding strip 702; the peripheral side surface of the arc-shaped sliding strip 702 is in sliding fit with the inner wall of the second annular sliding groove 105;

the upper surface of the arc-shaped rotary table 701 is provided with a plurality of container placing grooves 703; the method includes the steps that a container tank for packaging grains is placed in a container placing groove 703, and an arc-shaped rotating table 701 is rotated along a second annular sliding groove 105, so that the grains are packaged in batches;

a filling nozzle 1102 is arranged at the outer bottom of the discharge channel 1101; an anti-accumulation sloping plate 1103 is arranged at the bottom in the discharge channel 1101; through preventing setting up of amasss swash plate 1103, can make the centrifugation roll the cereal grain that falls to discharging channel 1101 flow along filling mouth 1102, effectively avoided the cereal grain to lead to the fact discharging channel 1101 to block up in inside piling up of discharging channel 1101 to the stability and the high efficiency of cereal centrifugal feed equipment for packing operation have been guaranteed.

Referring to fig. 1-5 and 17-25, a mounting hole 106 is formed at the center of the upper surface of the chassis 101; the inner wall of the mounting hole 106 is in clearance fit with the material receiving box 8; the outer wall of the material receiving box 8 is fixedly connected with a plurality of lug plates 801; the upper surface of the ear plate 801 is provided with a threaded hole 802;

the lower surface of the chassis 101 is provided with a plurality of second thread grooves 107; the second thread groove 107 is fixedly connected with the threaded hole 802 through a fastening bolt; through connect the detachable fixed mounting between workbin 8 and the chassis 101, be convenient for connect taking out of cereal in the workbin 8, through will connect workbin 8 to set up under first centrifugal mechanism 2, can make the granule footpath cereal after the centrifugal sieve plate 2301 filters in first centrifugal mechanism 2 pass this centrifugal sieve plate 2301 and fall to and connect workbin 8 and store.

Example two:

referring to figures 1-17 of the drawings,

in a centrifugal grain packing apparatus based on screen assemblies according to the embodiment, the diameter of the centrifugal sieve plate 2301 in the second centrifugal mechanism 3 is larger than that of the centrifugal sieve plate 2301 in the first centrifugal mechanism 2, so that larger grains are packed by centrifugal feeding on the centrifugal sieve plate 2301 in the second centrifugal mechanism 3, smaller grains pass through the centrifugal sieve plate 2301 in the second centrifugal mechanism 3, fall into the centrifugal sieve plate 2301 in the first centrifugal mechanism 2 and are packed by centrifugal feeding, and the smallest grains pass through the centrifugal sieve plate 2301 in the first centrifugal mechanism 2 and are stored and collected in the material receiving box 8;

the centrifugal screen assembly 23 in the first centrifugal mechanism 2 and the first centrifugal mechanism 2 are fixedly installed in a separable mode, the centrifugal screen assembly 23 in the second centrifugal mechanism 3 and the second centrifugal mechanism 3 are also fixedly installed in a separable mode, the size of a centrifugal screen plate 2301 in the centrifugal screen assembly 23 can be flexibly changed, centrifugal feeding and packaging of grains with different grain sizes are achieved, diversified grain packaging requirements are met, and the application range of the centrifugal screen plate packing machine is greatly widened.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.