CN220611314U - Rice edulcoration device is used in rice flour processing - Google Patents

Abstract

The utility model discloses a rice impurity removing device for rice flour processing, which belongs to the technical field of rice flour processing and comprises a shell, a driving device, a screening device and a dust removing device, wherein the shell is horizontally arranged on the ground, the driving device is arranged on the shell, the screening device is arranged on the driving device and is positioned in the shell, the dust removing device is arranged at the side end of the shell, and the driving device drives the dust removing device and the screening device to move in a transmission way.

Description

Rice edulcoration device is used in rice flour processing

Technical Field

The utility model relates to the technical field of rice flour processing, in particular to a rice impurity removing device for rice flour processing.

Background

The rice flour manufacturing process is to stir the ground rice flour with water to prepare rice flour, in order to ensure the quality of finished products of the rice flour, impurities in the rice are needed to be screened and removed before grinding, and the impurities in the rice are generally screened and removed for a plurality of times to reach the qualified state of the needed follow-up ground rice.

Disclosure of Invention

The utility model aims at overcoming the defects of the prior art and providing a rice impurity removing device for rice flour processing so as to solve the technical problems.

The embodiment of the utility model adopts the following technical scheme: including casing, drive arrangement, screening plant and dust collector, the casing level sets up subaerial, drive arrangement establishes on the casing, screening plant establishes on drive arrangement and is located the casing, dust collector establishes at the casing side, dust collector and screening plant realize the transmission motion through drive arrangement.

Further, drive arrangement includes biax motor, backup pad, eccentric rod, belt pulley, belt and drive shaft, the backup pad is established on the casing, biax motor is established in the backup pad upper end, eccentric rod is equipped with two, two eccentric rod symmetry respectively is established on the output that biax motor corresponds, the belt pulley is equipped with two, two one of them is connected on the eccentric rod that corresponds of belt pulley, two another of belt pulley is connected on the drive shaft, the belt is established on two belt pulleys.

Further, screening plant includes the primary screening filter screen, goes up fixed block, vibrating plate, lower fixed block, dead lever and connecting rod, the fixed block is equipped with four down, four down the equal fixed connection of fixed block is on the casing, the vibrating plate is equipped with four, four the vibrating plate lower extreme all is connected with the lower fixed block that corresponds, go up the fixed block and be equipped with four, four go up the fixed block all establishes the vibrating plate upper end that corresponds, four go up the fixed block symmetry respectively establishes the both ends at the primary screening filter screen, the dead lever passes in the primary screening filter screen, the connecting rod is equipped with two, two the one end of connecting rod is all cup jointed on the dead lever and the other end is all cup jointed on two eccentric rods.

Further, dust collector includes dust absorption box, feeder hopper, interior dust absorption pipe, outer dust exhaust pipe dust removal box and two sieve filter screens, the feeder hopper is established on the casing and is located just over the preliminary screening filter screen, the side and the inside cavity of feeder hopper are established to the one end of interior dust absorption pipe, the other end and the casing connection including the dust absorption box is established to the dust absorption box, two sieve filter screens are established and are close to the one end of feeder hopper on the dust absorption pipe, be equipped with the main shaft with drive shaft connection in the dust absorption box, the cover is equipped with the flabellum on the main shaft, the upper end of outer dust exhaust pipe is connected on the dust absorption box and is located the below of drive shaft, the dust absorption box is established at the side of casing, the lower extreme of outer dust exhaust pipe is connected on the dust absorption box.

Further, the diameter of the filtering holes on the primary screen is larger than that of the filtering holes of the secondary screen.

Further, rice box is arranged in the shell and is positioned below the primary screening filter screen, and the shell is in sliding fit with the rice box.

The above at least one technical scheme adopted by the embodiment of the utility model can achieve the following beneficial effects:

according to the utility model, when the impurities in the rice are screened, rice hulls and some stone particles mixed in the rice can be screened and removed, and smaller impurities such as dust particles and broken rice hulls in the rice can be removed without screening for many times, so that the impurities in the rice can be screened to reach the qualified state of the required subsequent grinding rice, and the smaller impurities can be screened when the larger impurities in the rice are screened initially, so that the effect of saving energy consumption is achieved, and the rice screening cost is further saved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and do not constitute a limitation on the utility model. In the drawings:

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic diagram of a second perspective structure of the present utility model;

FIG. 3 is a schematic cross-sectional view of the present utility model;

FIG. 4 is a schematic view of the screening apparatus of the present utility model;

FIG. 5 is a schematic view of the structure of the screening device and the drive device of the present utility model;

FIG. 6 is a schematic view of the structure of the dust removing device and the driving device in the present utility model;

fig. 7 is a schematic cross-sectional view of a dust removing device according to the present utility model.

Reference numerals

The device comprises a shell 1, a driving device 2, a double-shaft motor 21, a supporting plate 22, an eccentric rod 23, a belt pulley 24, a belt 25, a driving shaft 26, a screening device 3, a primary screening screen 31, an upper fixing block 32, a vibrating plate 33, a lower fixing block 34, a fixing rod 35, a connecting rod 36, a dust removing device 4, a dust collecting box 41, a feeding hopper 42, an inner dust collecting pipe 43, an outer dust discharging pipe 44, a dust collecting box 45, a secondary screening screen 46, a main shaft 47, fan blades 48 and a rice box 5.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be clearly and completely described below with reference to specific embodiments of the present utility model and corresponding drawings. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The following describes in detail the technical solutions provided by the embodiments of the present utility model with reference to the accompanying drawings.

The embodiment of the utility model provides a rice impurity removing device for rice flour processing, which comprises a shell 1, a driving device 2, a screening device 3 and a dust removing device 4, wherein the shell 1 is horizontally arranged on the ground, the driving device 2 is arranged on the shell 1, the screening device 3 is arranged on the driving device 2 and is positioned in the shell 1, the dust removing device 4 is arranged at the side end of the shell 1, the dust removing device 4 and the screening device 3 realize transmission movement through the driving device 2, when the device screens impurities in rice, rice hulls and some stone particles mixed in the rice can be screened and removed, and small impurities such as mixed dust particles and crushed rice hulls in the rice can be removed without screening for many times, so that the screening of the impurities of the rice reaches the qualified state of the required follow-up ground rice, the screening of the small impurities can be realized when the larger impurities in the rice are primarily screened, the effect of saving energy consumption is also realized, and the screening cost of the rice is further saved.

Further, the driving device 2 comprises a double-shaft motor 21, a supporting plate 22, eccentric rods 23, belt pulleys 24, a belt 25 and a driving shaft 26, wherein the supporting plate 22 is arranged on the shell 1, the double-shaft motor 21 is arranged at the upper end of the supporting plate 22, the eccentric rods 23 are arranged at two, the eccentric rods 23 are symmetrically arranged at the corresponding output ends of the double-shaft motor 21 respectively, the belt pulleys 24 are arranged at two, one of the belt pulleys 24 is connected to the corresponding eccentric rod 23, the other of the belt pulleys 24 is connected to the driving shaft 26, the belt 25 is arranged on the two belt pulleys 24, when in use, workers pour the rice mixed with sundries into the shell 1 from a feed hopper 42 on the shell 1, the rice mixed with sundries falls into a primary screening screen 31 from a feed opening to be screened, and the double-shaft motor 21 works in the screening process of the primary screening screen 31.

Further, screening plant 3 includes preliminary screening 31, goes up fixed block 32, vibrating plate 33, lower fixed block 34, dead lever 35 and connecting rod 36, lower fixed block 34 is equipped with four, four down fixed block 34 is all fixed connection on casing 1, vibrating plate 33 is equipped with four, four vibrating plate 33 lower extreme all is connected with corresponding lower fixed block 34, go up fixed block 32 is equipped with four, four go up fixed block 32 all establishes at corresponding vibrating plate 33 upper end, four go up fixed block 32 symmetry respectively establishes at the both ends of preliminary screening 31, dead lever 35 passes in the preliminary screening 31, connecting rod 36 is equipped with two, two connecting rod 36's one end is all cup jointed on dead lever 35 and the other end is all cup jointed on two eccentric rods 23, connecting rod 36 that cup joints on eccentric rod 23 rotates the motion along with eccentric rod 23 and drives the dead lever 35 and preliminary screening 31 activity of front end, preliminary screening 31 moves along with eccentric rod 23 activity, four go up fixed block 32 both ends at preliminary screening 31 respectively symmetry establish at the both ends of preliminary screening 31, the vibration sieve 31 is effective to mix some rice particles that shake.

Further, the dust collector 4 includes dust collection box 41, feeder hopper 42, interior dust collection pipe 43, dust collection box 45, outer dust exhaust pipe 44 and two sieve filter screens 46, the feeder hopper 42 is established on casing 1 and is located just above the preliminary screening filter screen 31, the one end of interior dust collection pipe 43 is established at the side of feeder hopper 42 and inside cavity is linked together, the other end of dust collection pipe 43 is established to dust collection box 41 and is connected with casing 1, two sieve filter screens 46 are established on interior dust collection pipe 43 and are close to the one end of feeder hopper 42, be equipped with the main shaft 47 that is connected with drive shaft 26 in the dust collection box 41, the cover is equipped with flabellum 48 on the main shaft 47, the upper end of outer dust exhaust pipe 44 is connected on dust collection box 41 and is located the below of drive shaft 26, dust collection box 45 is established at the side of casing 1, the lower extreme of outer dust exhaust pipe 44 is connected on dust collection box 45, and one of two eccentric rods 23 is connected with belt pulley 24 when biax motor 21 operation drives preliminary screening 31 vibration screening, belt pulley 24 passes through belt 25 to drive another main shaft 25 to rotate, thereby drive the filter screen 26 rotation of two sieve filter screens 48 to rotate, and the dust collection box 41 rotates to the main shaft 48 and is driven by the main shaft 48 to rotate, thereby the filter screen rotation of the main shaft is driven by the main shaft 25 rotation of the main shaft 48 to rotate, and the filter screen is driven by the main shaft 25 rotation of the main shaft is rotated.

Further, the diameter of the filtering holes of the primary screen 31 is larger than that of the secondary screen 46, and the dust collection box 41 will not suck the rice and the larger particles into the inner dust collection pipe 43 when the smaller particles of the rice are absorbed by the dust collection box 41, and the smaller particles such as the dust particles and the broken rice hulls enter the outer dust discharge pipe 44 because the diameter of the secondary screen 46 is smaller.

Further, the rice box 5 is arranged in the shell 1 and is located below the primary screening screen 31, the shell 1 is in sliding fit with the rice box 5, smaller sundries entering the outer dust exhaust pipe 44 finally enter the dust removal box 45, the rice screened by the primary screening screen 31 falls into the rice box 5, and when the rice box 5 is stored to a certain amount, a worker can draw out the rice box 5 from the shell 1.

Working principle: when the device is used, workers pour the rice mixed with sundries into the shell 1 from the feed hopper 42 on the shell 1, the rice mixed with sundries falls into the primary screening screen 31 from the feed opening of the feed hopper 42 for screening, the double-shaft motor 21 operates in the screening process of the primary screening screen 31 to drive the eccentric rods 23 on two sides to rotate synchronously, the connecting rod 36 sleeved on the eccentric rods 23 drives the front fixing rod 35 and the primary screening screen 31 to move along with the rotating movement of the eccentric rods 23, the primary screening screen 31 drives the vibrating plate 33 to vibrate along with the moving of the eccentric rods 23, the four vibrating plates 33 vibrate, the primary screening screen 31 can effectively screen the rice mixed with rice hulls and some stone particles, one of the two eccentric rods 23 is connected with the belt pulley 24 while the double-shaft motor 21 operates to drive the primary screening screen 31 to vibrate for screening, the belt pulley 24 is driven by the belt 25, so that the other belt pulley 24 is driven by the belt 25 to rotate, thereby driving the driving shaft 26 to rotate, and then the main shaft 47 of the dust collection box 41 rotates to drive the fan blades 48 in the dust collection box 41 to rotate, the small-particle sundries in the rice are absorbed by the dust collection box 41 to enter the dust collection pipe through the two-screen filter screen 46, the small-particle sundries in the rice are absorbed by the dust collection box 41 when absorbed by the dust collection box 41, the small-particle sundries such as dust particles and broken rice hulls enter the outer dust collection pipe 44, the small-particle sundries entering the outer dust collection pipe 44 finally enter the dust collection box 45, the rice screened by the primary-screen filter screen 31 falls into the rice box 5, after the rice box 5 is stored to a certain amount, the worker can withdraw the rice box 5 from the shell 1, when this device sieves the debris in the rice, not only can sieve to get rid of the rice husk and some stone granule that mix in the rice, can also get rid of less debris such as mixed dust particulate matter and broken rice husk in the rice, need not to sieve and make the debris screening of rice reach the qualified state of required follow-up grinding rice many times to realize in preliminary sieving the great debris in the rice, also can sieve less debris, play the effect of saving the energy consumption, and then saved the rice screening cost.

The foregoing is merely exemplary of the present utility model and is not intended to limit the present utility model. Various modifications and variations of the present utility model will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are to be included in the scope of the claims of the present utility model.

Claims (6)

1. The utility model provides a rice edulcoration device for rice flour processing, its characterized in that, includes casing (1), drive arrangement (2), screening plant (3) and dust collector (4), casing (1) level sets up subaerial, drive arrangement (2) are established on casing (1), screening plant (3) are established on drive arrangement (2) and are located casing (1), dust collector (4) are established at casing (1) side, dust collector (4) and screening plant (3) realize the transmission motion through drive arrangement (2).

2. The rice impurity removing apparatus for rice flour processing as claimed in claim 1, wherein: the driving device (2) comprises a double-shaft motor (21), a supporting plate (22), eccentric rods (23), belt pulleys (24), a belt (25) and a driving shaft (26), wherein the supporting plate (22) is arranged on the shell (1), the double-shaft motor (21) is arranged at the upper end of the supporting plate (22), the eccentric rods (23) are arranged at two positions, the two eccentric rods (23) are symmetrically arranged at the corresponding output ends of the double-shaft motor (21), the belt pulleys (24) are arranged at two positions, one of the belt pulleys (24) is connected to the corresponding eccentric rod (23), the other of the belt pulleys (24) is connected to the driving shaft (26), and the belt (25) is arranged on the two belt pulleys (24).

3. A rice impurity removing apparatus for rice flour processing as claimed in claim 2, wherein: screening plant (3) are including prescreening filter screen (31), go up fixed block (32), vibrating plate (33), down fixed block (34), dead lever (35) and connecting rod (36), lower fixed block (34) are equipped with four, four down fixed block (34) all fixed connection is on casing (1), vibrating plate (33) are equipped with four, four vibrating plate (33) lower extreme all is connected with corresponding lower fixed block (34), go up fixed block (32) are equipped with four, four go up fixed block (32) all establish at vibrating plate (33) upper end that corresponds, four go up fixed block (32) symmetry respectively and establish the both ends at prescreening filter screen (31), dead lever (35) pass in prescreening filter screen (31), connecting rod (36) are equipped with two, two one end of connecting rod (36) all cup joints on dead lever (35) and the other end all cup joints on two eccentric rods (23).

4. A rice impurity removing apparatus for rice flour processing as claimed in claim 3, wherein: dust collector (4) are including dust absorption box (41), feeder hopper (42), interior dust absorption pipe (43), outer dust exhaust pipe (44), dust removal box (45) and two sieve filter screens (46), feeder hopper (42) are established on casing (1) and are located just above preliminary sieve filter screen (31), the side and the inside cavity of feeder hopper (42) are established to the one end of interior dust absorption pipe (43), the other end and the casing (1) of dust absorption pipe (43) are established in dust absorption box (41) are connected, the one end that is close to feeder hopper (42) on interior dust absorption pipe (43) is established to two sieve filter screens (46), be equipped with main shaft (47) that are connected with drive shaft (26) in dust absorption box (41), the cover is equipped with flabellum (48) on main shaft (47), the upper end of outer dust exhaust pipe (44) is connected on dust absorption box (41) and is located the below of drive shaft (26), dust removal box (45) are established at the side end of casing (1), the lower extreme of dust exhaust pipe (44) is connected on dust removal box (45).

5. The rice impurity removing apparatus for rice flour processing as claimed in claim 4, wherein: the diameter of the filtering holes on the primary screen (31) is larger than that of the filtering holes of the secondary screen (46).

6. A rice impurity removing apparatus for rice flour processing as claimed in claim 3, wherein: the rice box (5) is arranged in the shell (1) and is positioned below the primary screening filter screen (31), and the shell (1) is in sliding fit with the rice box (5).