CN105855169B

CN105855169B - A kind of grain separating machine

Info

Publication number: CN105855169B
Application number: CN201610377128.9A
Authority: CN
Inventors: 杨海
Original assignee: Wuhan Yunhe Grain Machinery Plant
Current assignee: Wuhan Zhuhe Grain Machinery Co., Ltd.
Priority date: 2016-05-31
Filing date: 2016-05-31
Publication date: 2018-10-30
Anticipated expiration: 2036-05-31
Also published as: CN105855169A

Abstract

The present invention relates to a kind of grain separating machines, including pedestal, vibration screening mechanism, vibrating mechanism, feeding warehouse, loading hopper and dust removal of pneumatic separation system, vibrating mechanism is fixed on pedestal, vibration screening mechanism is arranged in vibrating mechanism side, and it is connected with the driving end of vibrating mechanism, its bottom is hinged on by more connecting rods on pedestal, vibration screening mechanism upper end is equipped with feed inlet, lower end is equipped with discharge port, feeding warehouse is set to above feed inlet, its bottom is connected to feed inlet, loading hopper is set to above feeding warehouse, its bottom is connected at the top of feeding warehouse, dust removal of pneumatic separation system is set to loading hopper bottom and the junction at the top of feeding warehouse.Advantage：Simple in structure, by selection by winnowing and vibration screening two this screening process, effective to take out rice bran dust impurity, efficiency is higher, while the problem of avoid compass screen surface absorption dust, influence normal use, reduces the mainteinance repair frequency of machine, saves cost.

Description

A kind of grain separating machine

Technical field

The present invention relates to a kind of cereal separation equipment, more particularly to a kind of grain separating machine.

Background technology

Currently, during paddy processing, with impurity such as a large amount of rice bran and dusts after hulling machine is peeled off, at this time The separation of rice and chaff must be carried out by grain separating machine.

For traditional grain separating machine only with single vibration screening, the impurity such as dust in material are liable to stick to compass screen surface On, normal use extremely is influenced, has aggravated the cost and frequency of later stage mainteinance repair, and in the case where rice bran is more, is sieved Select effect not satisfactory, screening efficiency is extremely low, must can just obtain high quality white rice through multiple manufacturing procedure, virtually increase life Produce the cost of processing.

Invention content

Technical problem to be solved by the invention is to provide a kind of grain separating machine, the effective solution paddy of the prior art In vibration screening, the impurity such as dust in material are liable to stick on compass screen surface rough seperator, are influenced normal use extremely, are added The problem of having weighed the cost and frequency of later stage mainteinance repair, in addition, also solving in the case where rice bran is more, screening effect is not Too ideal, screening efficiency is extremely low, must can just obtain high quality white rice through multiple manufacturing procedure, increases lacking for the cost of production and processing It falls into.

The technical solution that the present invention solves above-mentioned technical problem is as follows：A kind of grain separating machine, including pedestal, vibration screening Mechanism, vibrating mechanism, feeding warehouse, loading hopper and dust removal of pneumatic separation system, above-mentioned vibrating mechanism is fixed on above-mentioned pedestal, above-mentioned Vibration screening mechanism setting is connected in vibrating mechanism side, and with the driving end of vibrating mechanism, and bottom is cut with scissors by more connecting rods It is connected on above-mentioned pedestal, above-mentioned vibration screening mechanism upper end is equipped with feed inlet, and lower end is equipped with discharge port, and above-mentioned feeding warehouse is set to Above above-mentioned feed inlet, bottom is connected to above-mentioned feed inlet, and above-mentioned loading hopper is set to above feeding warehouse, in the connection of bottom It states at the top of feeding warehouse, above-mentioned dust removal of pneumatic separation system is set to loading hopper bottom and the junction at the top of feeding warehouse.

The beneficial effects of the invention are as follows：It is simple in structure, it is effective to take out by selection by winnowing and vibration screening two this screening process Rice bran dust impurity, efficiency is higher, while avoiding the problem of compass screen surface adsorbs dust, influences normal use, reduces machine Mainteinance repair frequency, saves cost.

Based on the above technical solution, the present invention can also be improved as follows.

Further, above-mentioned dust removal of pneumatic separation system includes wind turbine and goes out dirt channel, and above-mentioned wind turbine is set to loading hopper bottom With feeding warehouse at the top of junction side outer wall on, outlet air end stretches into above-mentioned loading hopper, it is above-mentioned go out dirt channel be set to At the top of the loading hopper bottom and feeding warehouse opposite with above-mentioned wind turbine on the other side outer wall of junction, and it is connected in loading hopper Portion

Advantageous effect using above-mentioned further scheme is that dust removal of pneumatic separation system structure is simple, reasonable design, using comparing It is convenient.

Further, it is above-mentioned go out dirt channel be laterally arranged, be equipped with moveable gear up and down vertically with loading hopper connectivity part Aerofoil.

Advantageous effect using above-mentioned further scheme is reasonable design, and air output is adjusted convenient for passing through wind shield so that Chaff, meter Feng Xuan separating effects are preferable.

Further, there are two above-mentioned vibration screening mechanism is set, and the both sides of above-mentioned vibrating mechanism are symmetrically distributed in, and thereon End is obliquely installed to close to the direction of above-mentioned vibrating mechanism, above-mentioned feeding warehouse two bottom sides be respectively communicated with corresponding two it is above-mentioned The above-mentioned feed inlet of vibration screening mechanism.

Advantageous effect using above-mentioned further scheme is worked at the same time by two vibration screening mechanisms, and it is rough to improve paddy Separative efficiency

Further, above-mentioned vibration screening mechanism includes feeding-passage, sub-material storehouse, screening storehouse and backgauge shell, and above-mentioned charging is logical Road bottom is connected to above-mentioned sub-material storehouse one end, and above-mentioned feed inlet is arranged at the top of feeding-passage, in the connection of the above-mentioned sub-material storehouse other end Screening storehouse one end is stated, above-mentioned backgauge shell is installed on the above-mentioned screening storehouse other end, and above-mentioned sub-material storehouse and the inside of screening storehouse are formed One cereal sieves chamber, forms a discharging chamber inside above-mentioned backgauge shell between end of the screening storehouse far from sub-material storehouse, above-mentioned It is arranged at intervals with multilayer sieving plate up and down between the cavity wall of cereal screening intracavitary both sides, and the above-mentioned sieving plate of multilayer is located in sub-material storehouse The upward bending in one end to above-mentioned feeding-passage bottom part down, every layer of above-mentioned sieving plate is equal close to the side of above-mentioned vibrating mechanism Setting is tilted down, above-mentioned discharge port is arranged in above-mentioned backgauge shell bottom.

Advantageous effect using above-mentioned further scheme is simple in construction, easy to disassemble and assemble, is maintained convenient for later stage dismounting, is clear It washes, reasonable design, meanwhile, sieving plate tilts installation, the more conducively separation of rice bran.

Further, vertically set in above-mentioned backgauge shell there are two uniformly and the discharge partition plate that is spaced apart, and above-mentioned discharging every Plate is resisted against one end end of the above-mentioned sieving plate of multilayer far from sub-material storehouse, and above-mentioned discharge partition plate is set perpendicular to the above-mentioned sieving plate of multilayer Set, above-mentioned discharging chamber is separated into three and goes out material for making clothes chamber by two above-mentioned discharge partition plates, above-mentioned backgauge shell bottom set there are three with it is upper State out material for making clothes chamber above-mentioned discharge port correspondingly.

It is easy for using the advantageous effect of above-mentioned further scheme mixed to rice, chaff, rice bran by being convenient for by discharge partition plate Object is closed to be effectively separated.

Further, the lower section of the three above-mentioned discharge ports in above-mentioned backgauge shell bottom is equipped with pulp-collecting box, and above-mentioned pulp-collecting box is fixed on On above-mentioned pedestal, above-mentioned pulp-collecting box upper end opening, lower end set there are three with the one-to-one material guide port of above-mentioned discharge port.

It is easy for the different materials isolated through the pulp-collecting box into one using the advantageous effect of above-mentioned further scheme Step transports next processing link.

Further, above-mentioned feeding warehouse two bottom sides and the junction of the feed inlet of two above-mentioned vibration screening mechanisms are set respectively It is useful for the active plugboard of control material flow.

It is easy for controlling feeding warehouse importing vibrating screen by the active plugboard using the advantageous effect of above-mentioned further scheme Select material amount within the organization.

Description of the drawings

Fig. 1 is the positive structure schematic of the grain separating machine of the present invention；

Fig. 2 is the side structure schematic diagram of the grain separating machine of the present invention.

In attached drawing, parts list represented by the reference numerals are as follows：

1, pedestal, 2, vibration screening mechanism, 3, vibrating mechanism, 4, feeding warehouse, 5, loading hopper, 6, dust removal of pneumatic separation system, 7, connecting rod, 8, pulp-collecting box, 21, feeding-passage, 22, sub-material storehouse, 23, screening storehouse, 24, backgauge shell, 25, sieving plate, 41, activity inserts Plate, 61, wind turbine, 62, go out dirt channel, 63, wind shield, 241, discharge partition plate.

Specific implementation mode

The principle and features of the present invention will be described below with reference to the accompanying drawings, and the given examples are served only to explain the present invention, and It is non-to be used to limit the scope of the present invention.

Embodiment：As shown in Figure 1, the grain separating machine of the present embodiment includes pedestal 1, vibration screening mechanism 2, vibrating mechanism 3, feeding warehouse 4, loading hopper 5 and dust removal of pneumatic separation system 6, above-mentioned vibrating mechanism 3 are fixed on above-mentioned pedestal 1, above-mentioned vibrating screen The setting of mechanism 2 is selected to be connected in 3 side of vibrating mechanism, and with the driving end of vibrating mechanism 3, bottom is hinged by more connecting rods 7 On above-mentioned pedestal 1,2 upper end of above-mentioned vibration screening mechanism is equipped with feed inlet, and lower end is equipped with discharge port, and above-mentioned feeding warehouse 4 is arranged Above above-mentioned feed inlet, bottom is connected to above-mentioned feed inlet, and above-mentioned loading hopper 5 is set to 4 top of feeding warehouse, and bottom connects Lead to 4 top of above-mentioned feeding warehouse, above-mentioned dust removal of pneumatic separation system 6 is set to the junction of 5 bottom of loading hopper and 4 top of feeding warehouse.

During use, peeling off that treated, rice bran mixture is put by loading hopper 5, through 6 profit of dust removal of pneumatic separation system It is fallen into feeding warehouse 4 after removing dust and part chaff matter with wind-force, enters vibration screening mechanism 2, bobbing machine by feed inlet Structure 3 drives the vibration of vibration screening mechanism 2 to carry out rice bran separation to selection by winnowing treated rice bran mixture, is finally gone out by discharge port Material, whole process, again through vibrosieve, effectively ensure the mixing into vibration screening mechanism 2 by dust removal of pneumatic separation, removal of impurities Trifle in the world amount is preferably minimized in material, during being used for a long time, is reduced trifle in the world and is deposited in vibration screening mechanism 2 to its damage Evil, reduces the frequency and cost of maintenance, maintenance, meanwhile, (selection by winnowing, vibration screening) is screened twice improves production and processing effect Rate.

Preferably, above-mentioned dust removal of pneumatic separation system 6 includes wind turbine 61 and goes out dirt channel 62, and above-mentioned wind turbine 61 is set to charging leakage Struggle against on the side outer wall of 5 bottoms and 4 top junction of feeding warehouse, outlet air end stretches into above-mentioned loading hopper 5, it is above-mentioned go out dirt it is logical Road 62 is set on the other side outer wall of 5 bottom of loading hopper opposite with above-mentioned wind turbine 61 and 4 top junction of feeding warehouse, and It being connected to inside loading hopper 5, when rice bran mixture is through between loading hopper 5 and feeding warehouse 4, material is blowed in wind turbine 61, Because chaff and rice quality difference rice are heavier, chaff matter and trifle in the world are lighter, therefore part chaff matter and lighter trifle in the world enter after wind blows Go out the discharge of dirt channel 62, relatively simple for structure, above-mentioned wind turbine wind speed is adjustable, to adapt to different types of feed separation.

Preferably, it is above-mentioned go out the laterally setting of dirt channel 62, be equipped with vertically with 5 connectivity part of loading hopper moveable up and down The size of 62 dust mouth of dirt channel is adjusted out by the wind shield 63 wind shield 63, that is, adjusts the chaff matter and trifle in the world of discharge Amount, the material for being also suitable for different quality carry out separation dedusting, and use is more flexible, can arbitrarily be adjusted according to actual production situation The amount of chaff, dirt is discharged in it.

In some embodiments, there are two above-mentioned vibration screening mechanism 2 is set, and it is symmetrically distributed in above-mentioned vibrating mechanism 3 Both sides, and the upper end is obliquely installed to close to the direction of above-mentioned vibrating mechanism 3,4 two bottom sides of above-mentioned feeding warehouse are respectively communicated with The above-mentioned feed inlet of corresponding two above-mentioned vibration screening mechanisms 2 is processed by two 2 synchronous productions of vibration screening mechanism, into One step improves the efficiency of the rough separation of paddy.

As shown in Fig. 2, above-mentioned vibration screening mechanism 2 includes feeding-passage 21, sub-material storehouse 22, screening storehouse 23 and backgauge shell 24,21 bottom of above-mentioned feeding-passage is connected to above-mentioned 22 one end of sub-material storehouse, and above-mentioned feed inlet setting is above-mentioned at the top of feeding-passage 21 Sub-material storehouse 22 other end is connected to above-mentioned 23 one end of screening storehouse, and above-mentioned backgauge shell 24 is installed on 23 other end of above-mentioned screening storehouse, and on The inside for stating sub-material storehouse 22 and screening storehouse 23 forms a cereal screening chamber, 24 inside of above-mentioned backgauge shell and separate point of screening storehouse 23 A discharging chamber is formed between the end of feed bin 22, and multilayer is arranged at intervals with up and down between the cavity wall of above-mentioned cereal screening intracavitary both sides Sieving plate 25, and the above-mentioned sieving plate 25 of multilayer is located at the upward bending in one end in sub-material storehouse 22 to 21 bottom of above-mentioned feeding-passage Lower section, every layer of above-mentioned sieving plate 25 tilt down setting close to the side of above-mentioned vibrating mechanism 3, and above-mentioned 24 bottom of backgauge shell is set Set above-mentioned discharge port, material through feeding-passage 21 fall into sub-material storehouse 22 in the cavity of 25 bending one end of multilayer sieving plate into Row sub-material, after along each sieving plate 25 downwards slide to its straight portion, carry out vibrosieve on the portion, because every layer it is above-mentioned Sieving plate 25 tilts down setting close to one end of above-mentioned vibrating mechanism 2, therefore the characteristic to be varied in weight using rice, chaff, meter It can be moved along the side that sieving plate 25 is tilted down to it in vibration processes, until the side of sieving plate 25 is converged to, and chaff is then another Side retains, and middle part is then rice bran mixture, and later in vibration processes, rice, rice bran mixture, chaff are then from different positions It falls place's sieving plate 25 to enter in discharging chamber, and discharge is fallen by discharge port respectively.

Preferably, vertically set in above-mentioned backgauge shell 24 there are two uniformly and the discharge partition plate 241 that is spaced apart, and it is above-mentioned go out Material partition board 241 is resisted against above-mentioned one end end of the sieving plate 25 far from sub-material storehouse 22 of multilayer, and above-mentioned discharge partition plate 241 is perpendicular to more The above-mentioned sieving plate 25 of layer is arranged, and above-mentioned discharging chamber is separated into three and goes out material for making clothes chamber, above-mentioned backgauge by two above-mentioned discharge partition plates 241 24 bottom of shell set there are three with it is above-mentioned go out material for making clothes chamber above-mentioned discharge port correspondingly, three go out that material for making clothes chamber corresponds to rice, rice bran mixes Three kinds of object, chaff different materials are closed, effectively it can be separated by discharge partition plate 241, and respectively by corresponding below Discharge port is discharged, wherein rice is discharged into next process by corresponding discharge port, and rice bran mixture conveys throwing by pipeline again Enter in loading hopper 5 and continue to screen, chaff is then discharged by corresponding discharge port and is collected.

In some embodiments, the lower section of the 24 three above-mentioned discharge ports in bottom of above-mentioned backgauge shell is equipped with pulp-collecting box 8, above-mentioned to connect Magazine 8 is fixed on above-mentioned pedestal 1,8 upper end opening of above-mentioned pulp-collecting box, lower end set there are three with above-mentioned discharge port correspond Material guide port 81, convenient for three kinds of different materials are carried out classification processing by the pulp-collecting box 8.

Preferably, 4 two bottom sides of above-mentioned feeding warehouse and the junction of the feed inlet of two above-mentioned vibration screening mechanisms 2 are distinguished Equipped with the active plugboard 41 for controlling material flow, the depth being inserted into feed inlet by mobile active plugboard 41 is expected to control Object falls the doses that intracavitary is sieved into cereal, operates more convenient, more realistic production.

The foregoing is merely presently preferred embodiments of the present invention, is not intended to limit the invention, it is all the present invention spirit and Within principle, any modification, equivalent replacement, improvement and so on should all be included in the protection scope of the present invention.

Claims

1. a kind of grain separating machine, it is characterised in that：Including pedestal (1), vibration screening mechanism (2), vibrating mechanism (3), charging Storehouse (4), loading hopper (5) and dust removal of pneumatic separation system (6), the vibrating mechanism (3) is fixed on the pedestal (1), described to shake Dynamic sorting mechanism (2) setting is connected in vibrating mechanism (3) side, and with the driving end of vibrating mechanism (3), and bottom passes through more Connecting rod (7) is hinged on the pedestal (1), and vibration screening mechanism (2) upper end is equipped with feed inlet, and lower end is equipped with discharge port, The feeding warehouse (4) is set to above the feed inlet, and bottom is connected to the feed inlet, and the loading hopper (5) is set to Above feeding warehouse (4), bottom is connected at the top of the feeding warehouse (4), and the dust removal of pneumatic separation system (6) is set to loading hopper (5) bottom and the junction at the top of feeding warehouse (4)；

Vibration screening mechanism (2) upper end is obliquely installed to the direction close to the vibrating mechanism (3)；

The vibration screening mechanism (2) includes feeding-passage (21), sub-material storehouse (22), screening storehouse (23) and backgauge shell (24), institute It states feeding-passage (21) bottom and is connected to described sub-material storehouse (22) one end, the feed inlet setting is at the top of feeding-passage (21), institute It states sub-material storehouse (22) other end and is connected to described screening storehouse (23) one end, it is another that the backgauge shell (24) is installed on the screening storehouse (23) One end, and the sub-material storehouse (22) and the inside of screening storehouse (23) form a cereal and sieve chamber, the backgauge shell (24) is internal Form a discharging chamber between end of the screening storehouse (23) far from sub-material storehouse (22), cereal screening intracavitary both sides cavity wall it Between be arranged at intervals with multilayer sieving plate (25) up and down, and sieving plate described in multilayer (25) be located at one end in sub-material storehouse (22) to Upper bending is to the feeding-passage (21) bottom part down, and every layer of sieving plate (25) is close to the side of the vibrating mechanism (3) Setting is tilted down, the discharge port is arranged in backgauge shell (24) bottom；

The dust removal of pneumatic separation system (6) includes wind turbine (61) and goes out dirt channel (62), and the wind turbine (61) is set to loading hopper (5) at the top of bottom and feeding warehouse (4) on the side outer wall of junction, outlet air end stretches into the loading hopper (5), it is described go out Dirt channel (62) is set to the another of junction at the top of loading hopper (5) bottom opposite with the wind turbine (61) and feeding warehouse (4) On the outer wall of side, and it is internal to be connected to loading hopper (5)；Vertically set that there are two uniformly and be spaced apart in the backgauge shell (24) Discharge partition plate (241), and the discharge partition plate (241) is resisted against the one end of sieving plate described in multilayer (25) far from sub-material storehouse (22) End, the discharge partition plate (241) are arranged perpendicular to sieving plate described in multilayer (25), and two discharge partition plates (241) are by institute State discharging chamber and be separated into three and go out material for making clothes chamber, backgauge shell (24) bottom set there are three with it is described go out material for making clothes chamber it is one-to-one The discharge port.

2. a kind of grain separating machine according to claim 1, it is characterised in that：It is described go out dirt channel (62) laterally be arranged, It is equipped with moveable wind shield (63) up and down vertically with loading hopper (5) connectivity part.

3. a kind of grain separating machine according to claim 1, it is characterised in that：The vibration screening mechanism (2) is equipped with two It is a, and the both sides of the vibrating mechanism (3) are symmetrically distributed in, feeding warehouse (4) two bottom sides are respectively communicated with corresponding two The feed inlet of the vibration screening mechanism (2).

4. a kind of grain separating machine according to claim 3, it is characterised in that：Described in backgauge shell (24) bottom three The lower section of discharge port is equipped with pulp-collecting box (8), and the pulp-collecting box (8) is fixed on the pedestal (1), pulp-collecting box (8) upper end Opening, lower end set there are three with the one-to-one material guide port of the discharge port (81).

5. a kind of grain separating machine according to claim 3 or 4, it is characterised in that：Feeding warehouse (4) two bottom sides with The junction of the feed inlet of two vibration screening mechanisms (2) is respectively provided with the active plugboard of control material flow (41)。