CN114798087A

CN114798087A - Jujube powder forming process device and method

Info

Publication number: CN114798087A
Application number: CN202210397982.7A
Authority: CN
Inventors: 肖建军
Original assignee: Hebei Zaonengyuan Food Co ltd
Current assignee: Hebei Zaonengyuan Food Co ltd
Priority date: 2022-04-12
Filing date: 2022-04-12
Publication date: 2022-07-29

Abstract

The invention provides a jujube powder forming process device, which comprises a barrel body and a vibration structure, wherein the barrel body is provided with a plurality of through holes; effect through elevating module, and the vibrations section of thick bamboo that makes can separate with the lower extreme of staving, at this moment again through the effect of vibrations subassembly, and make a vibrations section of thick bamboo produce vibrations, the jujube powder that rolls the completion in the section of thick bamboo that shakes sieves, and the graininess red date that persists in the jujube powder then can stay in a vibrations section of thick bamboo, utilize elevating module's effect afterwards, and make the lateral wall of a vibrations section of thick bamboo enter into to inserting in the slot part, and at this moment shake the bottom plate in the section of thick bamboo and roll the wheel contact, utilize supporting component to support under the bottom plate outside of a vibrations section of thick bamboo afterwards, recycle and roll the structure and roll it, to sieve and roll as an organic whole, just so avoided the process of transporting graininess red date repeatedly.

Description

Jujube powder forming process device and method

Technical Field

The invention relates to a process device for forming jujube powder, in particular to a device for combining sieving and rolling jujube powder.

Background

The red dates have higher nutrient substances and are often eaten by people directly due to the unique taste, or the red dates are made into jujube pulp and then mixed with other foods for use, or the jujube pulp can be made into jujube beverage for people to enjoy.

With the continuous improvement of life, people can eat red dates in a more rapid and convenient mode, and the red dates are made into date powder, so that the red dates are more convenient to brew or carry.

Because the jujube powder need be dried the red date earlier when the preparation, the jujube after the stoving then smashes through crushing structure, form the graininess, later pass through the structure of rolling again and roll it, form the jujube powder, still have certain graininess in this moment the jujube powder, just need sieve it, sieve out the jujube powder, leave graininess red date, again to remaining graininess red date, put into again and roll it to rolling in the structure, it is very troublesome to operate like this repeatedly.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a process device for forming the jujube powder by combining sieving and rolling.

The invention provides a jujube powder forming process device, which comprises a barrel body and a vibration structure;

the bottom of the barrel body is of an open structure, a feed inlet is formed in the upper end of the barrel body, a rolling structure is arranged in the barrel body, three support rods are uniformly arranged at intervals in the circumferential direction of the outer side of the barrel body, a support assembly is arranged on each support rod, an insertion groove part is formed in the lower end of the barrel body, and an insertion hole of each insertion groove part is formed in the end part of the lower end of the barrel body;

the utility model discloses a vibrations structure, including vibrations subassembly, lifting unit, vibrations section of thick bamboo, vibrations subassembly, vibrations section of thick bamboo, vibrations subassembly, lifting unit, the lower extreme setting of vibrations section of thick bamboo vibrations subassembly, the lower extreme setting of vibrations subassembly the lifting unit, the vibrations subassembly is used for driving vibrations section of thick bamboo vibrations, lifting unit is used for driving vibrations subassembly and vibrations section of thick bamboo and rises or descend, the vibrations section of thick bamboo with insert the separable cooperation of slot part, be provided with a plurality of filtration pores of crossing on the bottom plate in the vibrations section of thick bamboo, supporting component is used for supporting a vibrations section of thick bamboo.

Above-mentioned beneficial effect does, effect through elevating module, and the vibrations section of thick bamboo that makes can separate with the lower extreme of staving, at this moment through the effect of vibrations subassembly again, and make vibrations section of thick bamboo produce vibrations, the jujube powder that rolls the completion in the section of thick bamboo that shakes sieves, and the graininess red date that persists in the jujube powder then can stay in a vibrations section of thick bamboo, utilize elevating module's effect afterwards, and make the lateral wall of a vibrations section of thick bamboo enter into to inserting the slot part in, and at this moment, the bottom plate in the vibrations section of thick bamboo contacts with the rolling wheel, utilize supporting component to support under the bottom plate outside of a vibrations section of thick bamboo afterwards, reuse rolls the structure and rolls it, sieve and roll as an organic whole, just so avoided the process of transporting graininess red date repeatedly.

According to a preferred scheme, the rolling structure comprises a rotating shaft rod, a rotating motor, rolling wheels, shifting plates, a first connecting plate and a second connecting plate, wherein the rotating shaft rod is arranged in a barrel body, the rotating motor is arranged at the upper end of the barrel body, an output shaft of the rotating motor penetrates through the upper end of the barrel body and is connected with the rotating shaft rod, the first connecting plate is arranged on each of two sides of the lower end of the rotating shaft rod, the outer ends of the first connecting plates on two sides are fixedly connected with the outer end of the second connecting plate respectively, the inner ends of the two second connecting plates are provided with the rotatable rolling wheels respectively, and the shifting plates are arranged below the outer ends of the first connecting plates;

the support assemblies comprise three groups of support assemblies, and the three groups of support assemblies are respectively arranged on three support rods.

One preferred scheme is, the vibrations subassembly includes vibrations spring, fixed disk, shock dynamo, rolling disc, vertical board, rolling plate and spliced pole, a vibrations section of thick bamboo lower extreme outside circumference direction is provided with a plurality of vibrations springs, and is a plurality of be connected on shock spring's the lower extreme and the fixed disk outside, shock dynamo sets up the central point position in the fixed disk upper end, shock dynamo's output shaft and rolling disc are connected, the upper end of rolling disc sets up vertical board, the rolling plate is connected with vertical board, the spliced pole sets up the upper end at the rolling plate, the upper end of spliced pole is connected with the bottom plate of a vibrations section of thick bamboo.

One preferred scheme is that the lifting assembly comprises supporting legs, a connecting disc, a rotating screw, a rotating gear and an L-shaped rotating rod, wherein a plurality of supporting legs are arranged below the outer side of the connecting disc, the upper end center of the connecting disc is provided with the rotating screw, the lower end center of the connecting disc is provided with a driving motor, a conveying shaft of the driving motor penetrates through the connecting disc to be connected with the rotating screw, the lower end of the L-shaped rotating rod is provided with a U-shaped plate, a fixed shaft is arranged on the U-shaped plate in a penetrating manner, the rotating gear is arranged on the fixed shaft in the U-shaped plate, the two ends of the fixed shaft are rotatably arranged on a fixed block at the upper end of the connecting disc, the rotating gear is meshed with the rotating screw, the upper end of the L-shaped rotating rod is hinged and connected with the outer side of the lower end of the fixed disc, the L-shaped rotating rods are three groups, the rotating gears at the lower end of the L-shaped rotating rod are respectively meshed with the rotating screw, the upper ends of the three groups of L-shaped rotating rods are respectively hinged with the outer side of the lower end of the fixed disc.

The working method of the jujube powder forming process device provided by the invention comprises the following steps;

firstly, the lifting component drives the vibration component and the vibration cylinder to rise, so that the outer side wall of the vibration cylinder enters the insertion groove part from the insertion hole, when the outer side wall of the vibration cylinder completely enters the insertion groove part, the bottom plate of the vibration cylinder seals the open structure, the outer side of the bottom plate of the vibration cylinder is supported by the support component, the rolling structure is contacted with the bottom plate in the vibration cylinder, then dried granular red dates are added into the cylinder body through the feed port and fall onto the bottom plate in the vibration cylinder, then the granular red dates are rolled by the rolling structure to form date powder, after rolling for a certain time, the support component loses effect on the vibration cylinder, then the vibration cylinder is moved out from the insertion groove part through the effect of the lifting component, then the vibration cylinder is driven to vibrate through the effect of the vibration component, so that the date powder is screened out from the filtering hole, stay the graininess red date in a vibrations section of thick bamboo, then make a vibrations section of thick bamboo enter into to inserting the slot part through lifting unit's effect once more, reuse rolls the structure and rolls it, combines together sieving and rolling, has just so removed the process of transporting repeatedly.

the rotating shaft rod is driven to rotate by the rotating motor, the first connecting plate and the second connecting plate are driven to rotate in sequence, the rolling wheel is enabled to rotate in the barrel in the circumferential direction, the rolling wheel rotates in the circumferential movement process, granular quasi-red dates on the bottom plate in the vibrating cylinder are rolled, and when the first connecting plate rotates in the circumferential direction in the vibrating cylinder, the poking plate is driven to rotate in the circumferential direction and poke granular red dates on the bottom plate in the vibrating cylinder, so that the rolling wheel can better roll the granular red dates;

after the bottom plate of a vibrations section of thick bamboo contacted with rolling wheel, the lateral wall of a vibrations section of thick bamboo got into completely to inserting the slot part after promptly, utilizes the cylinder to drive the upper end of L shape rotor plate and moves down at this moment, and L shape rotor plate rotates on the fixed axle pole, and the lower extreme of L shape rotor plate then upwards rotates to with the bottom plate outside contact of a vibrations section of thick bamboo, support a vibrations section of thick bamboo, avoided the in-process that rolling wheel rolled on the bottom plate of a vibrations section of thick bamboo through such setting, a motion that one went up appears in the vibrations section of thick bamboo.

make a vibrations section of thick bamboo shift out the back in the insertion groove portion through lifting unit, at this moment vibrating motor drives the carousel and rotates, and the rolling disc rotates and drives vertical board and rotate, and vertical board drives the rolling plate and rotates, and the spliced pole is followed and is rotated simultaneously, because the spliced pole setting is on the rolling plate, makes the rolling disc drive spliced pole eccentric rotation in succession, is utilizing the effect of vibrations spring, and the vibrations section of thick bamboo that makes produces vibrations to sieve out the jujube powder in a vibrations section of thick bamboo.

the rotary screw rod rotates under the action of the driving motor, the rotary screw rod drives the rotary gear to rotate, the rotary gear rotates to enable the fixed shaft to rotate on the fixed block, the L-shaped rotary rod is driven to rotate upwards through the rotation of the fixed shaft, the upper end of the L-shaped rotary rod drives the vibration cylinder to ascend, the vibration cylinder enters the insertion groove portion from the insertion hole, and when the driving motor rotates reversely, the vibration cylinders are sequentially moved out from the insertion groove portion.

Drawings

FIG. 1 is a schematic structural view of a process apparatus for forming jujube powder according to the present invention;

FIG. 2 is a schematic view of a partial structure of a process apparatus for forming jujube powder according to the present invention;

FIG. 3 is a schematic view of a partial structure of a process apparatus for forming jujube powder according to the present invention;

FIG. 4 is a schematic structural diagram of a rolling structure of a process device for forming jujube powder according to the present invention;

FIG. 5 is a schematic structural diagram of a rolling structure of a process device for forming jujube powder according to the present invention;

FIG. 6 is an enlarged schematic view of region A in FIG. 1;

FIG. 7 is an enlarged schematic view of region B in FIG. 1;

FIG. 8 is a partial schematic structural view of a process apparatus for forming jujube powder according to the present invention;

FIG. 9 is an enlarged view of region C of FIG. 8;

fig. 10 is a schematic structural view of a lifting assembly of a date powder forming process device of the present invention.

Detailed Description

The first embodiment:

as shown in fig. 1 to 3, the present invention provides a process device for forming jujube powder, which comprises a barrel 10 and a vibration structure 50;

the bottom of the barrel body 10 is an open structure 11, the upper end of the barrel body 10 is provided with a feed inlet 12, a rolling structure 20 is arranged in the barrel body 10, three support rods 13 which are uniformly spaced are arranged in the circumferential direction of the outer side of the barrel body 10, a support assembly 30 is arranged on each support rod 13, the lower end of the barrel body 10 is provided with an insertion groove part 14, and an insertion hole 15 of the insertion groove part 14 is arranged at the end part of the lower end of the barrel body 10;

the utility model discloses a vibrations structure 50, including vibrations subassembly 60, lifting unit 70 and a vibrations section of thick bamboo 80, vibrations structure 50 sets up the below at staving 10, vibrations structure 50 includes vibrations subassembly 60, lifting unit 70 and a vibrations section of thick bamboo 80, the lower extreme setting of vibrations section of thick bamboo 80 vibrations subassembly 60, the lower extreme setting of vibrations subassembly 60 lifting unit 70, vibrations subassembly 60 is used for driving a vibrations section of thick bamboo 80 vibrations, lifting unit 70 is used for driving vibrations subassembly 60 and a vibrations section of thick bamboo 80 to rise or descend, a vibrations section of thick bamboo 80 with insert the separable cooperation of slot part 14, be provided with a plurality of filtration pores 82 on the bottom plate 81 in the vibrations section of thick bamboo 80, supporting component 30 is used for supporting a vibrations section of thick bamboo 80.

firstly, the lifting component 70 drives the vibration component 60 and the vibration cylinder 80 to rise, the outer side wall 83 of the vibration cylinder 80 enters the insertion groove part 14 from the insertion hole 15, when the outer side wall 83 of the vibration cylinder 80 completely enters the insertion groove part 14, the open structure 11 is sealed by the bottom plate 81 of the vibration cylinder 80, the outer side of the bottom plate 81 of the vibration cylinder 80 is supported by the supporting component 30, the rolling structure 20 is contacted with the bottom plate 81 in the vibration cylinder 80, then the dried granular red dates are added into the barrel body 10 through the feeding hole 12 and fall onto the bottom plate 81 in the vibration cylinder 80, then the granular red dates are rolled by the rolling structure 80 to form date powder, after rolling for a certain time, the supporting component 30 loses the effect on the vibration cylinder 80, then the vibration cylinder 80 is moved out from the insertion groove part 14 through the effect of the lifting component 70, and then the vibration cylinder 80 is driven to vibrate through the effect of the vibration component 60, the jujube powder that makes is sieved in filtering hole 82, and the graininess red date of staying in a vibrations section of thick bamboo 80 then passes through lifting unit 70's effect once more, and makes a vibrations section of thick bamboo 80 enter into to inserting in slot part 14, utilizes again to roll structure 20 and rolls it, after descending, shakes in a flexible way, sieves, combines sieving and rolling together, has just so removed the process of transporting repeatedly.

Second embodiment:

as shown in fig. 4 to 7, the rolling structure 20 includes a rotating shaft 21, a rotating motor 22, rolling wheels 23, a shifting plate 24, a first connecting plate 25 and a second connecting plate 26, the rotating shaft 21 is disposed in the barrel 10, the rotating motor 22 is disposed at the upper end of the barrel 10, an output shaft of the rotating motor 22 penetrates through the upper end of the barrel 10 to be connected with the rotating shaft 21, the first connecting plates 25 are respectively disposed at two sides of the lower end of the rotating shaft 21, the outer ends of the first connecting plates 25 at two sides are respectively fixedly connected with the outer ends of the second connecting plates 26, the inner ends of the two second connecting plates 26 are respectively provided with the rotatable rolling wheels 23, and the shifting plate 24 is disposed below the outer end of the first connecting plate 25;

the support assemblies 30 comprise openings 31, L-shaped rotating plates 32 and air cylinders 33, the openings 31 are formed in the middle of the support rods 13, fixed shaft rods 34 are arranged in the openings 31, the L-shaped rotating plates 32 are rotatably arranged on the fixed shaft rods 34, namely the openings 31, the upper ends of the L-shaped rotating plates 32 are hinged to the air cylinders 33, the upper ends of the air cylinders 33 are hinged to the outer sides of the support rods 13, the support assemblies 30 are three groups, and the three groups of support assemblies 30 are respectively arranged on the three support rods 13.

the rotating shaft rod 21 is driven to rotate by the rotating motor 22, the first connecting plate 25 and the second connecting plate 26 are driven to rotate in sequence, so that the rolling wheel 23 rotates in the barrel body 10 in the circumferential direction, the rolling wheel 23 rotates in the circumferential movement process to roll granular quasi-shaped red dates on the bottom plate 81 in the vibrating barrel 80, and in addition, when the first connecting plate 25 rotates in the circumferential direction in the barrel body 10, the poking plate 24 is driven to rotate in the circumferential direction at the same time, granular red dates on the bottom plate 81 in the vibrating barrel 80 are poked, so that the rolling wheel 23 can better roll the granular red dates;

after the bottom plate 81 of the vibration cylinder 80 contacts the rolling wheel 23, that is, after the outer side wall 83 of the vibration cylinder 80 completely enters the insertion groove portion 14, the air cylinder 33 is utilized to drive the upper end of the L-shaped rotating plate 32 to move downwards, the L-shaped rotating plate 32 rotates on the fixed shaft rod 34, the lower end of the L-shaped rotating plate 32 rotates upwards and contacts with the outer side of the bottom plate 81 of the vibration cylinder 80 to support the vibration cylinder 80, and through the arrangement, the vibration cylinder 80 is prevented from moving one after another in the process of rolling the rolling wheel 23 on the bottom plate 81 of the vibration cylinder 80. In addition, the air cylinder can be replaced by a pressure cylinder.

The third embodiment:

as shown in fig. 8 and 9, the vibration assembly 60 includes a vibration spring 61, a fixed disk 62, a vibration motor 63, a rotating disk 64, a vertical plate 65, a rotating plate 66 and a connecting column 67, the circumferential direction of the outer side of the lower end of the vibration cylinder 80 is provided with a plurality of vibration springs 61, a plurality of the lower ends of the vibration springs 61 are connected with the outer side of the fixed disk 62, the vibration motor 63 is arranged at the central position of the upper end of the fixed disk 62, the output shaft of the vibration motor 63 is connected with the rotating disk 64, the upper end of the rotating disk 64 is arranged on the vertical plate 65, the rotating plate 66 is connected with the vertical plate 65, the connecting column 67 is arranged at the upper end of the rotating plate 66, and the upper end of the connecting column 67 is connected with the bottom plate 81 of the vibration cylinder 80.

make a vibrations section of thick bamboo 80 follow through lifting unit 70 and shift out the back in inserting slot part 14, at this moment shock dynamo 63 drives rolling disc 64 and rotates, rolling disc 64 rotates and drives vertical board 65 and rotate, vertical board 65 drives rolling plate 66 and rotates, spliced pole 67 follows simultaneously and rotates, because spliced pole 67 sets up on the rolling plate, in succession make rolling disc 64 drive spliced pole 67 eccentric rotation, utilize the effect of vibrations spring 61, the vibrations of a vibrations section of thick bamboo 80 that even makes produce vibrations, and sieve out the jujube powder in a vibrations section of thick bamboo 80.

The fourth embodiment:

as shown in fig. 10, the lifting assembly 70 includes a support leg 71, a connection disc 72, a rotary screw 73, a rotary gear 74 and an L-shaped rotary rod 75, a plurality of support legs 72 are provided under the outer side of the connection disc 72, the upper end center of the connection disc 72 is provided with the rotary screw 73, the lower end center of the connection disc 72 is provided with a driving motor 76, a conveying shaft of the driving motor 76 is connected with the rotary screw 73 through the connection disc 72, the lower end of the L-shaped rotary rod 75 is provided with a U-shaped plate 77, a fixing shaft 78 is provided on the U-shaped plate 77 through the fixing shaft, the rotary gear 74 is provided on the fixing shaft 78 in the U-shaped plate 77, both ends of the fixing shaft 78 are rotatably provided on a fixing block 79 at the upper end of the connection disc 72, the rotary gear 74 is engaged with the rotary screw 73, the upper end of the L-shaped rotary rod 75 is hinged with the outer side of the lower end of the fixing disc 62, l shape dwang 75 is three groups, three groups the running gear 74 of L dwang 75 lower extreme meshes with rotatory screw 73 respectively, and three groups the upper end of L shape dwang 75 then is connected with fixed disk 62 lower extreme outside is articulated respectively.

the rotation of the rotary screw 73 by the driving motor 76 causes the rotary screw 73 to rotate, the rotary screw 73 drives the rotary gear 74 to rotate, the rotary gear 74 rotates the fixed shaft 78 on the fixed block 79, the L-shaped rotary lever 75 is driven to rotate upward by the rotation of the fixed shaft 78, the upper end of the L-shaped rotary lever 75 drives the vibration cylinder 80 to ascend, and the vibration cylinder 80 enters the insertion slot portion 14 from the insertion port 15, and when the driving motor 76 rotates reversely, the vibration cylinder 80 is sequentially moved out of the insertion slot portion 14.

In other embodiments, as shown in fig. 9, the rotating plate 66 is detachably connected to the vertical plate 65 through a screw 91, the rotating plate 66 is rotatably disposed on the screw 91, and the screw 91 is engaged with a nut 92.

Through such setting can adjust the vibration range of vibrations section of thick bamboo 80, at first nut 92 is unscrewed, can make rotor plate 66 rotate downwards or upwards on screw rod 91, just so makes spliced pole 67 drive one side of vibrations section of thick bamboo 80 and moves downwards or upwards, adjusts to the position that needs after, then screws up nut 92, makes rotor plate 66 unable rotation, and vibrations section of thick bamboo 80 is by the fixed column, and when vibrations section of thick bamboo 80 produced vibrations, vibration range just can change. By adjusting in this way, the angle of the rotating plate 66 and the vertical plate 65 is adjusted, so that the amplitude is changed to adapt to different degrees of screening requirements.

In other embodiments, the rotating plate 66 can be angularly adjusted relative to the vertical plate 65 and fixed at different angles by various other means known in the art, such as temporary fixation by bolts. Moreover, the vibration screening of the vibration drum 80 can be implemented by other types of vibration, such as vibration screening by directly driving the vibration drum 80 with a vibration motor. In addition, other existing types of structures can be adopted for the lifting assembly, such as a screw rod lifting driving mode or an air cylinder driving mode.

The poking plate 24 is the preferable scheme, and the materials on the bottom plate 81 can be poked together in time through the poking plate 24 for subsequent grinding and crushing, so that the efficiency is improved. In addition, when the bottom plate 81 is cleaned, the striking plate 24 may also serve to scrape the surface of the bottom plate.

In another embodiment, the rolling structure 20 has a lifting function, that is, the rolling structure 20 can move vertically along the barrel 10, in some cases, when the vibrating cylinder 80 is at a low position for screening, the rolling structure 20 drives the rolling wheel 23 to descend to contact with the vibrating bottom plate 81 at this time, and at this time, the rolling wheel 23 of the rolling structure 20 continuously rolls the material on the bottom plate 81, so that the rolling state is maintained in the vibrating screening process, and the rolling wheel 25 does not touch the outer side wall 83 of the vibrating cylinder 80, so that the processes of rolling and screening simultaneously are realized, the screening efficiency can be accelerated, the overflow is avoided, and the working efficiency is improved.

Claims

1. A jujube powder forming process device is characterized by comprising:

the barrel body is of an open structure at the bottom, a feed inlet is formed in the upper end of the barrel body, a rolling structure is arranged in the barrel body, three support rods are uniformly arranged at intervals in the circumferential direction of the outer side of the barrel body, a support assembly is arranged on each support rod, an insertion groove part is formed in the lower end of the barrel body, and an insertion hole of each insertion groove part is formed in the end part of the lower end of the barrel body;

the vibrations structure, the vibrations structure sets up the below at the staving, the vibrations structure includes vibrations subassembly, lifting unit and a vibrations section of thick bamboo, the lower extreme of a vibrations section of thick bamboo sets up the vibrations subassembly, the lower extreme of vibrations subassembly sets up lifting unit, the vibrations subassembly is used for driving a vibrations section of thick bamboo vibrations, lifting unit is used for driving vibrations subassembly and a vibrations section of thick bamboo and rises or descend, a vibrations section of thick bamboo with insert the separable cooperation of slot part, be provided with a plurality of filtration pores on the bottom plate in the vibrations section of thick bamboo, supporting component is used for supporting a vibrations section of thick bamboo.

2. The structure of the jujube powder forming process device according to claim 1, wherein the rolling structure comprises a rotating shaft rod, a rotating motor, rolling wheels, a stirring plate, a first connecting plate and a second connecting plate, the rotating shaft rod is arranged in the barrel body, the rotating motor is arranged at the upper end of the barrel body, an output shaft of the rotating motor penetrates through the upper end of the barrel body and is connected with the rotating shaft rod, the first connecting plate is respectively arranged at two sides of the lower end of the rotating shaft rod, the outer ends of the first connecting plates at two sides are respectively and fixedly connected with the outer ends of the second connecting plates, the inner ends of the two second connecting plates are respectively provided with the rotatable rolling wheels, and the stirring plate is arranged below the outer end of the first connecting plate;

3. The structure of jujube powder formation process device of claim 1, characterized in that, vibrations subassembly includes vibrations spring, fixed disk, shock dynamo, rolling disk, vertical board, rolling plate and spliced pole, a vibrations section of thick bamboo lower extreme outside circumference direction is provided with a plurality of vibrations springs, and is a plurality of be connected on the lower extreme of vibrations spring and the fixed disk outside, shock dynamo sets up the central point position in the fixed disk upper end, shock dynamo's output shaft and rolling disk are connected, the upper end setting of rolling disk vertical board, the rolling plate is connected with vertical board, the spliced pole sets up the upper end at the rolling plate, be connected under the upper end of spliced pole and the bottom plate of a vibrations section of thick bamboo.

4. The structure of the jujube powder forming process device according to claim 1, wherein the lifting assembly comprises supporting legs, a connecting disc, a rotating screw, a rotating gear and an L-shaped rotating lever, a plurality of supporting legs are arranged under the outer side of the connecting disc, the upper end center of the connecting disc is provided with the rotating screw, the lower section center of the connecting disc is provided with a driving motor, an output shaft of the driving motor is connected with the rotating screw by penetrating through the connecting disc, the lower end of the L-shaped rotating lever is provided with a U-shaped plate, a fixing shaft is arranged on the U-shaped plate by penetrating, the rotating gear is arranged on the fixing shaft in the U-shaped plate, the two ends of the fixing shaft are rotatably arranged on fixing blocks at the upper end of the connecting disc respectively, the rotating gear is meshed with the rotating screw, the upper end of the L-shaped rotating lever is hinged with the outer side of the lower end of the fixing disc, l shape dwang is three groups, three groups the rotating gear of L dwang lower extreme meshes with rotatory screw rod respectively, three groups the upper end of L shape dwang then is connected with fixed disk lower extreme outside is articulated respectively.

5. The method of operating a date powder forming process apparatus according to claim 1, comprising the steps of;

firstly, the lifting component drives the vibration component and the vibration cylinder to rise, so that the outer side wall of the vibration cylinder enters the insertion groove part from the insertion hole, when the outer side wall of the vibration cylinder completely enters the insertion groove part, the bottom plate of the vibration cylinder seals the open structure, the outer side of the bottom plate of the vibration cylinder is supported by the support component, the rolling structure is contacted with the bottom plate in the vibration cylinder, then dried granular red dates are added into the cylinder body through the feed port and fall onto the bottom plate in the vibration cylinder, then the granular red dates are rolled by the rolling structure to form date powder, after rolling for a certain time, the support component loses effect on the vibration cylinder, then the vibration cylinder is moved out from the insertion groove part through the effect of the lifting component, then the vibration cylinder is driven to vibrate through the effect of the vibration component, so that the date powder in the vibration cylinder is screened out from the filtering hole, stay the graininess red date in a vibrations section of thick bamboo, then again through lifting unit's effect, and make a vibrations section of thick bamboo enter into to inserting the slot part in, reuse rolls the structure and rolls it, combines sieving and roll together, has just so removed the process of transporting repeatedly.

6. The method of operating a process apparatus for forming jujube powder as claimed in claim 2, comprising the steps of;

the rotating shaft rod is driven to rotate by the rotating motor, the first connecting plate and the second connecting plate are driven to rotate in sequence, the rolling wheel rotates in the barrel in the circumferential direction, the rolling wheel rotates in the circumferential movement process to roll granular red dates on the bottom plate in the vibrating cylinder, in addition, when the first connecting plate rotates in the circumferential direction, the poking plate is driven to rotate in the circumferential direction at the same time, the granular red dates on the bottom plate in the vibrating cylinder are poked, the rolling wheel can better roll the granular red dates, after the bottom plate of the vibrating cylinder is contacted with the rolling wheel, namely the outer side wall of the vibrating cylinder completely enters the insertion groove part, the upper end of the L-shaped rotating plate is driven to move downwards by the air cylinder, the L-shaped rotating plate rotates on the fixed shaft rod, and the lower end of the L-shaped rotating plate rotates upwards and is contacted with the outer side of the bottom plate of the vibrating cylinder, the vibrating cylinder is supported, and the phenomenon that the vibrating cylinder moves up and down in the process of rolling the rolling wheel on the bottom plate of the vibrating cylinder is avoided through the arrangement.

7. The operating method of the jujube powder forming process device according to claim 3, comprising the following steps;

8. The method of claim 4, comprising the steps of;

the rotating screw rod rotates under the action of the driving motor, the rotating screw rod drives the rotating gear to rotate, the rotating gear rotates to enable the fixing shaft to rotate on the fixing block, the L-shaped rotating rod is driven to rotate upwards through the rotation of the fixing shaft, the upper end of the L-shaped rotating rod drives the fixing disc to ascend, the vibrating cylinders are driven to ascend in succession, the vibrating cylinders enter the insertion groove portion from the insertion hole, and when the driving motor rotates reversely, the vibrating cylinders are moved out from the insertion groove portion in succession.