CN212221781U - Rotary adding shaft and food material quantitative adding device - Google Patents

Abstract

The utility model provides a rotatory axle of adding and this rotatory edible material ration of adding axle of collocation add device, the periphery side of rotatory axle that adds is opened has many silos, every silo connects the material back up, and the rotatory rotation of adding the axle makes silo unloading down, on each bus that has the silo distribution of rotatory axle that adds, the length in silo distribution area is not all equal, and the aforesaid is eaten the material ration and is added the device and including eating the material storage box and establishing the rotatory axle that adds in eating material storage box below, and the rotatory axle that adds as above, it connects the material back rotatory unloading from eating the material storage box. By adopting the device, because the lengths of the trough distribution areas are not all equal on each bus of the rotary adding shaft with trough distribution, the shapes of the food materials laid by a plurality of troughs can be suitable for quantitatively adding the food materials on the surface of non-rectangular food without wasting the food materials in the process of rotating the rotary adding shaft for one circle.

Description

Rotary adding shaft and food material quantitative adding device

Technical Field

The utility model relates to a device is added to the ration, especially relates to a can add the rotatory axle that adds of eating the material and eat material ration and add the device.

Background

At present, people generally adopt a mode of manually adding food materials to make foods such as pizza, hand-held pies or pancake fruits, wherein the foods need to be added with the food materials on the surface. However, the amount of the manually added food materials added each time is different, and the taste of the food cannot be guaranteed by quantitatively adding the food materials.

The utility model discloses a utility model patent application number 201721420604.7 discloses a powder ration adds device, and it sets up rotation axis and baffle in the below of storage bucket, and rotation axis and baffle form powder ration chamber, and the rotation through rotation axis and baffle adds the powder to food on. The food material spread by the powder quantitative adding device can be suitable for the surface of rectangular food, but the device is not suitable for round or oval food under the condition of not wasting the food material.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is how to add edible material and extravagant edible material at non-rectangle food surface ration, provide a rotatory axle of adding and this rotatory edible material ration of adding the axle of collocation and add the device for this reason.

The inventor has found that in the prior art, the material laid out by the rotating shaft is rectangular in shape because the distribution area of the powder quantitative cavity is equal in length on each generatrix of the rotating shaft where the powder quantitative cavity is distributed. The trough is arranged on the outer periphery of the rotating shaft and is equivalent to a powder quantitative cavity. Because the rotating shaft in the prior art can not lay out non-rectangular food materials, the inventor changes the lengths of trough distribution areas to be not all equal on each bus bar with trough distribution on the rotating shaft.

According to this, the utility model provides a rotatory axle that adds opens at rotatory axle periphery side and has many silos, and every silo connects the material back up, and the rotatory rotation of adding axle makes silo unloading down, on each bus that has the silo distribution of rotatory adding axle, silo distribution area's length is not all equal.

The utility model also provides an eat material ration and add device, it adds the axle including eating material storage box and foretell rotation, and the rotation is added the axle and is installed in eating material storage box below. After the material is received from food material storage box to the rotatory axle that adds, rotatory unloading.

By adopting the device, because the lengths of the trough distribution areas are not all equal on each bus of the rotary adding shaft with trough distribution, the shapes of the food materials laid by a plurality of troughs can be suitable for quantitatively adding the food materials on the surface of non-rectangular food without wasting the food materials in the process of rotating the rotary adding shaft for one circle.

Furthermore, in the rotary adding shaft, the trough is in a strip shape and is arranged along a bus of the rotary adding shaft.

As an improvement of the above-described rotation adding shaft, the respective troughs are distributed in a circular area on the developed surface on the outer peripheral side of the rotation adding shaft.

As another improvement of the above-described rotation adding shaft, the individual troughs are distributed in an elliptical region on the developed surface on the outer peripheral side of the rotation adding shaft.

Further, in the food material quantitative adding device, the food material quantitative adding device further comprises a shifting device, the shifting device enables the food material quantitative adding device and food to be added to move relatively, and the rotating adding shaft rotates in the moving process of the rotating adding shaft to enable the trough to feed materials downwards.

Further, the displacement means is a conveyor belt, which conveys the food to be filled below the food material dosing means.

Further, in above-mentioned edible material ration adds device, still include driving motor and transmission coupling mechanism, driving motor passes through transmission coupling mechanism drive rotation and adds the axle rotation.

Drawings

Fig. 1 is a general schematic diagram of a food material quantitative adding device.

Fig. 2 is an exploded view of a storage addition mechanism.

Fig. 3 is a front view of the inside of the food storage box.

Fig. 4 is a schematic view of a rotary adder shaft.

FIG. 5 is a B-B expanded view of the rotating adder shaft.

Fig. 6 is a schematic view of the connection between the storage addition mechanism and the drive motor by the spline coupling mechanism.

Fig. 7 is an exploded view of the transmission coupling mechanism of the food quantitative adding device.

Fig. 8 is a sectional view a-a of fig. 1.

Fig. 9 is a diagram of the effect of laying the food material.

Fig. 10 is a development view of another rotating adder shaft with the trough axially disposed.

Fig. 11 is a development view of another trough obliquely arranged rotary addition shaft.

Detailed Description

Referring to fig. 1, the food quantitative adding device comprises a storage adding mechanism 1, a transmission connecting mechanism 2 and a driving motor 3, wherein the driving motor 3 drives the storage adding mechanism 1 to operate through the transmission connecting mechanism 2. The storage adding mechanism 1 stores food materials, a conveyor belt (not shown in the figure) serving as a shifting device is arranged below the storage adding mechanism 1, the round pizza 4 to be added is placed on the conveyor belt, and under the conveying of the conveyor belt, the round pizza 4 moves towards the arrow direction below the figure 1, so that the round pizza passes below the storage adding mechanism 1, and meanwhile the food materials fall on the round pizza 4 from the bottom of the storage adding mechanism 1.

Referring to fig. 2, the storage and addition mechanism 1 includes a material storage box 5, a rotation and addition shaft 6, a front cover plate 7, a seated bearing 8, a damping hinge 9 and a protective cover 10, and the front cover plate 7 of the material storage box 5 can be detached. The rotary adding shaft 6 has a driven part 67 at the rear end and a connecting part 68 at the front end.

Referring to fig. 3, the food storage box 5 internally includes a storage part 11 and a discharging part 12, and food is placed in the storage part 11. The bottom of the storage part 11 is provided with two obliquely arranged scraping plates 13, the two scraping plates 13 are relatively inclined, the inclination direction is high at two sides and low in the middle, and a material receiving opening 14 leading to the blanking part 12 is formed in the middle of the two scraping plates 13. The blanking part 12 is enclosed by two baffles 16, and a blanking opening 17 for food materials to drop is formed at the bottom of the blanking part 12. The back plate of the food storage box 5 is provided with a hole 15 and four mounting holes 18 corresponding to the blanking part 12.

Referring to fig. 2 and 3, in the process of installing the rotary adding shaft 6, the pedestal bearing 8 is installed outside the four installation holes 18 of the back plate of the food material storage box 5, after the installation, the center hole of the pedestal bearing 8 is aligned with the hole 15 of the food material storage box 5, then the rotary adding shaft 6 is installed in the blanking part 12 of the food material storage box 5, the driven part 67 of the rotary adding shaft 6 firstly penetrates through the hole 15 of the food material storage box 5 in the installation process, then penetrates through and is installed on the center hole of the pedestal bearing 8, then the front cover plate 7 is installed, the connecting part 68 of the rotary adding shaft 6 penetrates through the hole 71 of the front cover plate 7, then the damping hinge 9 is installed on the connecting part 68 at the front end of the rotary adding shaft 6, and finally the protective cover 10 is installed outside the damping hinge 9 and fixes the damping.

Referring to fig. 4 and 5, five material grooves 61, 62, 63, 64, 65 are formed on the outer periphery of the rotary adding shaft 6 along the generatrix, and the five material grooves are long. Broken lines L1, L2, L3, L4, and L5 in fig. 5 indicate generatrices of the trough distribution of the rotating addition shaft 6, P1, P2, P3, P4, and P5 indicate trough distribution regions, and as shown in fig. 5, the lengths of P1, P2, P3, P4, and P5 are not completely equal. P1 and P5 are equal in length and the shortest in length, P2 and P4 are equal in length and the longer in length than P1 and P5, and P3 is the longest in length. During the installation of the rotary adding shaft 6, the first trough 61 of the rotary adding shaft 6 faces upwards to the receiving opening 14. The transmission coupling mechanism 2 comprises a spline coupling mechanism and a hasp fixing mechanism, and detachably couples the storage adding mechanism 1 and the driving motor 3, and particularly, see fig. 6 and 7.

Referring to fig. 6, the spline coupling mechanism includes a spline shaft 22 and a spline housing 21. The spline shaft 22 has a spline 25 at its front end and an output shaft 31 coaxially coupled to the rear end of the drive motor 3. The spline housing 21 comprises a shaft sleeve 26 and a key sleeve 27 which are fixedly connected by bolts, the shaft sleeve 26 is arranged in front of the key sleeve 27, the shaft sleeve 26 is coaxially connected with a driven part 67 of the rotary adding shaft 6 in figure 2, and the center of the key sleeve 27 is provided with an axial spline groove 24.

Referring to fig. 7, the fastening mechanism includes two coupling seats 52 and two guide shaft seats 19, wherein the center holes of the two guide shaft seats 19 are respectively provided with oil-free bushings 50, and the center holes of the two coupling seats 52 are respectively provided with guide shafts 51. The driving motor 3 is fixed on the motor base 23, the two connecting bases 52 are respectively installed on the left and right sides of the motor base 23, and the two guide shaft bases 19 are respectively installed on the left and right sides of the lower portion of the food storage box 5. The lapping parts 40 of the hasps are respectively arranged below the two guide shaft seats 19, and the lapping blocks 43 of the hasps are respectively arranged below the two connecting seats 52.

When the storage adding mechanism 1 and the driving motor 3 are connected through the transmission connecting mechanism 2, as shown in fig. 6 and 7, the storage adding mechanism 1 is moved in the direction indicated by the arrow in fig. 7, so that the two guide shafts 51 respectively extend into the oilless bushings 50 in the two guide shaft seats 19 until the two guide shaft seats 19 respectively support against the two connecting seats 52, and at the moment, the spline 25 of the spline shaft 22 just extends into the spline groove 24 of the spline housing 21. Then, the hasp is put on, and the installation of the food quantitative adding device is completed, and the installation completed state is shown as figure 1. The driving motor 3 drives the spline shaft 22 and the spline housing 21 to rotate through the rotation of the output shaft 31, so as to drive the rotation adding shaft 6 in fig. 8 to rotate.

Initially, the first trough 61 of the rotary adding shaft 6 faces upwards to the material receiving opening 14, and the food material falls into the first trough 61. When the storing and adding mechanism 1 is operated, the rotating and adding shaft 6 rotates clockwise from the state of fig. 8, the food material in the first trough 61 rotates along with the first trough 61, and at the same time, the round pizza 4 moves continuously to the left side of fig. 8 under the transmission of a conveyor belt (not shown in the figure), which is equivalent to moving to the arrow direction below fig. 1, and passes below the storing and adding mechanism 1. First silo 61 passes through scraper blade 13 below after rotating, and scraper blade 13 scrapes away the edible material on first silo 61 surface, avoids rotatory interpolation axle 6 to rotate the in-process and is blocked by edible material. After the first trough 61 rotates to face the baffle 16, the food material is blocked by the baffle 16, continues to rotate along with the first trough 61, and cannot fall out of the first trough 61. The rotating adding shaft 6 rotates continuously, after the first trough 61 leaves, the second trough 62 faces upwards to the material receiving opening 14, the food material enters the second trough 62, the second trough 62 rotates along with the rotating adding shaft 6 and is gradually blocked by the baffle 16, the rotating adding shaft 6 rotates continuously, and the following troughs also repeat the material receiving action which is the same as that of the first trough 61 and the second trough 62 continuously, which is not described again. After the first trough 61 rotates to face downwards to the feed opening 17, the food material is not blocked by the baffle 16 any more, the round pizza 4 is just positioned below the feed opening 17 when the first trough 61 feeds the food material, and the food material falls into the round pizza 4 below the feed opening 17. After the first trough 61 finishes blanking, the adding shaft 6 rotates upwards to receive the material again to the material receiving port 14 along with rotation, and after the material receiving action is performed on the subsequent troughs, the blanking action the same as that of the first trough 61 is repeated, which is not described again.

The rotary adding shaft 6 continuously rotates without intermittence, the conveyor belt also continuously drives without intermittence, when the rotary adding shaft 6 rotates for one circle, the conveyor belt transmits one round pizza 4 to pass through the discharging opening 17, and the five material grooves sequentially add food materials on the round pizza 4. Although the troughs in fig. 5 are arranged in an elliptical region, the shapes of the food materials to be added to the round pizza 4 are distributed in a circular region since the rotation of the rotary adding shaft 6 is fast. The food material adding effect is shown in fig. 9, so that the food material can be quantitatively added on the surface of the round pizza 4 by the storage and adding mechanism 1, and no waste is caused. The next round pizza 4 is placed behind the first round pizza 4 and continuously moves leftwards along with the conveyor belt, when the food material in the fifth trough 65 falls onto the first round pizza 4, the first round pizza 4 leaves the lower part of the storage and adding mechanism 1, and the storage and adding mechanism 1 adds food material on the next round pizza 4.

When the rotating addition shaft 6 needs to be removed, the snap is opened, and then the storage addition mechanism 1 is moved in the direction opposite to the arrow of fig. 7 until the two guide shafts 51 are completely separated from the respective oilless bushes 50 and the spline shaft 22 is completely separated from the spline housing 21. Referring to fig. 6, a force is applied to the spline housing 21 away from the driven portion 67, thereby disengaging the spline housing 21 from the driven portion 67. Referring to fig. 2, the protective cover 10 and the damping hinge 9 are removed, the front cover 7 of the food storage box 5 is removed, and the rotary adding shaft 6 is taken out, so that the rotary adding shaft 6 is removed and can be cleaned or replaced.

The trough layout of the rotary adding shaft 6 of the food quantitative adding device is not limited to the embodiment shown in fig. 5, and other layout modes can be adopted to feed on the surface of non-rectangular food and avoid wasting food. For example, fig. 10 shows that the troughs are distributed in a circular area, for example, fig. 11 shows that the troughs are distributed in an octagonal area, the broken lines L1, L2, L3, L4 and L5 in the two figures respectively represent the generatrices of the rotary adding shaft 6 with trough distribution, the broken lines P1, P2, P3, P4 and P5 in the two figures respectively represent trough distribution areas, and the lengths of P1, P2, P3, P4 and P5 in the two figures are not completely equal, so that the rotary adding shaft 6 adopting the two trough layout modes can cut off on the surface of non-rectangular food and does not waste food materials. As long as on the rotatory generating line that adds axle 6 has the silo to distribute, silo distribution area's length is not all equal to make the rotatory axle 6 that adds can be at non-rectangular food surface unloading, and the overall arrangement mode of eating the material not extravagant, all be in the utility model discloses a protection within range.

The drive mode of eating material ration and adding the device is not restricted to the drive of driving motor 3, also can use manually or other can make the rotation add 6 pivoted drive modes, all is in the utility model discloses a protection scope.

Claims (8)

1. The utility model provides a rotatory axle (6) that adds, the periphery side is opened there are many silos, and every silo connects the material back up, rotatory axle (6) that adds makes silo unloading down, characterized by: on each bus of the rotary adding shaft (6) with trough distribution, the lengths of trough distribution areas are not all equal.

2. A rotary adder spindle (6) according to claim 1, characterised in that: the trough is in a long strip shape and is arranged along a bus of the rotary adding shaft (6).

3. A rotary adder spindle (6) according to claim 2, characterised in that: on the developed surface of the outer periphery side of the rotary adding shaft (6), all the material grooves are distributed in a circular area.

4. A rotary adder spindle (6) according to claim 2, characterised in that: on the developed surface of the outer periphery side of the rotary adding shaft (6), all the material grooves are distributed in an elliptical area.

5. The utility model provides a eat material ration and add device, includes that eat material storage box (5) and establish at the rotatory axle (6) that adds of material storage box (5) below, rotatory axle (6) that add connect the rotatory unloading after material, characterized by from eating material storage box (5): the rotary addition shaft (6) is as claimed in any one of claims 1 to 4.

6. The food material quantitative adding device according to claim 5, characterized in that: the food material quantitative adding device and food to be added move relatively by the shifting device, and the rotating adding shaft (6) rotates in the moving process to enable the trough to feed downwards.

7. The food material quantitative adding device according to claim 6, characterized in that: the shifting device is a conveyor belt which conveys the food to be charged below the food quantitative adding device.

8. The food material quantitative adding device according to claim 7, characterized in that: the rotary adding device is characterized by further comprising a driving motor (3) and a transmission connecting mechanism (2), wherein the driving motor (3) drives the rotary adding shaft (6) to rotate through the transmission connecting mechanism (2).

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