CN213008969U - Food solid particle split charging equipment - Google Patents

Abstract

The utility model discloses a food solid particle partial shipment equipment, include: a transfer mechanism for transporting the food cans; the split charging mechanism is used for split charging solid particles, and comprises a driving mechanism, a supporting frame, a rotating frame, a support chassis and a blanking disc, wherein the driving mechanism is arranged on the supporting frame, the blanking disc is rotationally connected with the supporting frame, the driving mechanism drives the blanking disc to rotate, the support chassis is arranged below the blanking disc and is fixed with the supporting frame, the rotating frame is arranged below the support chassis and is rotationally connected with the supporting frame, the driving mechanism drives the rotating frame to rotate, a blanking hole is formed in the blanking disc, a fixing position is formed in the rotating frame, the blanking hole is in one-to-one correspondence with the fixing position, a blanking through groove is formed in the support chassis, and the blanking through groove is right opposite to the blanking hole above the fixing position. The utility model provides a food solid particle split charging device, which can realize high-speed split charging treatment and improve the whole split charging efficiency; and simultaneously, the split charging success rate of the solid particles in the food can is ensured.

Description

Food solid particle split charging equipment

Technical Field

The utility model belongs to the technical field of power equipment overhauls instrument technique and specifically relates to a food solid particle partial shipment equipment is related to.

Background

When canned food is filled, the food quantity in each food can needs to be ensured to be consistent as much as possible, and particularly, the solid particle quantity in each food can needs to be ensured to be consistent when solid particles are filled. Among the prior art, in order to guarantee that the solid particle is even, generally need carry out the partial shipment, the centrifugal force that the blanking dish produced is rotated through high-speed to the partial shipment equipment among the prior art, goes into the even dispersion of granule in the charging tray and inlays the blanking mouth around the charging tray, and the granule is kept in and waits for the filling in the blanking mouth of back taper structure. In the prior art, when canned food is filled, the contact time of a food can and a blanking port is short, so that the high-speed filling is not facilitated. And the existing blanking opening is usually straight-through type or conical. Adopt direct blanking mouth structure, under blanking dish quiescent condition, the granule can normally get into the blanking mouth and buffer memory, nevertheless after the blanking dish begins high-speed gyration, the intraoral granule of blanking receives centrifugal force and holds in the palm under the dual function of the frictional force of chassis, begins the collision of blanking mouth inner wall, beats, breaks away from the blanking mouth at last, and the result is that the granule can not keep in the blanking mouth, can't normally wait for the filling. The conical blanking port is also the same, so that the particles can more easily enter the blanking port, but the particles cannot be temporarily stored under the high-speed rotation of the blanking disk. Eventually resulting in a portion of the food can being free of the solid particles. Therefore, a solid particle split charging structure is needed to be designed, so that the particle raw materials can be stably and temporarily stored in the blanking port in a high-speed rotation state, and possibility is provided for subsequent high-speed addition.

Chinese patent application publication No. CN106697343A, the publication date is 2017, 05 and 24 days, the name is "a granule partial shipment device of traditional chinese medicine solid particle", a granule partial shipment device of traditional chinese medicine solid particle is disclosed, which comprises a frame, the helicla flute, granule passageway and partial shipment mechanism, the top of frame is provided with a plurality of helicla flutes, a plurality of helicla flutes respectively with install a plurality of granule passageways through connection in the frame, same partial shipment mechanism is connected jointly to the bottom of a plurality of granule passageways, partial shipment mechanism's overall structure is hourglass hopper-shaped, partial shipment mechanism is enclosed by roof and curb plate, and a plurality of gussets are installed to the inner wall of curb plate, all overlap on the excircle terminal surface of every granule passageway and be equipped with one section support portion. But this device is not suitable for portioning when filling food.

Disclosure of Invention

The utility model provides a food solid particle split charging device, which can realize high speed split charging treatment and improve the whole split charging efficiency, in order to overcome the defect that the solid particle split charging device in the prior art can not carry out high speed split charging; and simultaneously, the split charging success rate of the solid particles in the food can is ensured.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a food solid particle dispensing apparatus comprising:

a transfer mechanism for transporting the food cans;

the split charging mechanism is used for split charging solid particles, and comprises a driving mechanism, a supporting frame, a rotating frame, a support chassis and a blanking disc, wherein the driving mechanism is arranged on the supporting frame, the blanking disc is rotationally connected with the supporting frame, the driving mechanism drives the blanking disc to rotate, the support chassis is arranged below the blanking disc and is fixed with the supporting frame, the rotating frame is arranged below the support chassis and is rotationally connected with the supporting frame, the driving mechanism drives the rotating frame to rotate, a blanking hole is formed in the blanking disc, a fixing position is formed in the rotating frame, the blanking hole is in one-to-one correspondence with the fixing position, a blanking through groove is formed in the support chassis, and the blanking through groove is right opposite to the blanking hole above the fixing position.

Among the above-mentioned technical scheme, actuating mechanism includes driving motor and drive mechanism, and drive mechanism includes a plurality of gear combinations, is provided with a plurality of power output shaft, and the power of driving motor output passes through drive mechanism's speed reduction and transmission, transmits power to each needs pivoted mechanism on to guarantee the synchronous rotation of each mechanism. The working process of the split charging equipment is as follows: the food cans are conveyed to the inlet of the rotating frame by the conveying mechanism, enter the rotating frame, are fixed on the fixed position and rotate along with the rotating frame; the blanking disc rotates along the axis, solid particles to be subpackaged are placed on the blanking disc, when the blanking disc is static or rotates, the solid particles can enter the blanking port from the upper end of the blanking port, and when the blanking port rotates to a position above the blanking through groove, the solid particles fall into a food can below the blanking port through the blanking through groove; the food cans which are packaged completely leave from the outlet of the rotary frame, enter the conveying mechanism and are conveyed away through the conveying mechanism. Among the above-mentioned technical scheme, because blanking mouth and fixed position one-to-one, the food jar can be in the blanking mouth below for a long time, even the partial shipment is fast, also can be through increasing the length that the blanking led to the groove, control blanking time can guarantee that the sufficient time of solid particle drops in the food jar, avoids the condition of neglected loading, and then can improve holistic partial shipment efficiency, can reach 800 jar/minute high-speed partial shipment processing.

Preferably, the blanking through groove is an arc-shaped long groove, and a plurality of blanking ports are correspondingly arranged above the blanking through groove. The structure can ensure enough blanking time.

Preferably, a blowing device is arranged right above the blanking through groove and fixed with the support frame, the blowing device is arranged above the blanking disc, and a blowing port is arranged on the blowing device and is opposite to the blanking through groove. When the charging tray revolves to adding the station, can blow off aseptic compressed gas through gas blowing device, blow off the raw materials from the blanking mouth in, the raw materials is successfully added and is got into the food jar, for falling naturally by gravity, above-mentioned scheme can shorten the blanking time, raises the efficiency. The blowing means also prevent solid particles from entering the blanking opening there.

Preferably, the rotating frame comprises an outer limiting ring, a bottom supporting piece and a first planet ring, the outer limiting ring is fixed with the supporting frame, the first planet ring is arranged on the inner side of the outer limiting ring, the first planet ring is provided with arc-shaped positioning grooves used for positioning the food cans, the arc-shaped positioning grooves correspond to the blanking ports in a one-to-one mode, the arc-shaped positioning grooves, the outer limiting ring and the bottom supporting piece form a fixed position, the first planet ring is rotatably connected with the supporting frame, and the bottom supporting piece is fixed with the first planet ring.

In the technical scheme, the first planet ring consists of two identical planet rings which are used for supporting the upper part and the lower part of the food can respectively and are beneficial to keeping the stability of the food can body. The first planetary ring and the head of the blanking disc rotate synchronously, and the food can is always aligned with the blanking port above. The fixed position can be with stable the fixing in blanking mouth below of food jar.

Preferably, the conveying mechanism comprises a conveying belt and an arranging mechanism, the arranging mechanism comprises a first planet wheel and a guide plate, and the first planet wheel and the guide plate are arranged at the inlet of the rotating frame; the first planet wheel is provided with a first positioning groove matched with the food can, the first planet wheel is rotatably connected with the support frame, and the driving mechanism drives the first planet wheel to rotate. Among the above-mentioned technical scheme, can be with in the orderly swivel mount that sends into of food can on the conveyer belt. Two guide grooves are arranged on the guide plate to guide the food cans at the inlet and the outlet of the rotating frame respectively.

Preferably, the arrangement mechanism further comprises a screw and a driving motor, the screw is transversely arranged, the driving motor drives the screw to rotate, grooves which are spirally distributed are formed in the outer side wall of the screw, and the grooves are matched with the food cans. The groove on the screw rod is in contact with the side wall of the food can, when the screw rod rotates, the food can moves forward along the groove, the distance between the food cans changes along with the change of the distance between the grooves by setting the spiral, and the distance between the food cans is consistent with the distance between the arc-shaped positioning grooves when the food cans enter the arc-shaped positioning grooves.

Preferably, the arrangement mechanism further comprises a second planet wheel, and the second planet wheel is arranged at the outlet of the rotating frame; and a second positioning groove matched with the food can is formed in the second planet wheel, the second planet wheel is rotatably connected with the support frame, and the driving mechanism drives the second planet wheel to rotate. The structure allows the food cans to be removed from the carousel onto a conveyor.

Preferably, a cover plate is arranged above the blanking plate. The structure can avoid solid particles from popping out.

Preferably, a conical disc is arranged in the blanking disc, and the middle of the conical disc is high, and the periphery of the conical disc is low. The conical disc makes it easier for solid particles to enter the blanking opening provided at the outer edge.

Preferably, the blanking port is of an inverted cone structure, and an opening at the upper end of the blanking port is smaller than an opening at the lower end of the blanking port.

Among the above-mentioned technical scheme, the blanking dish is rotating the axis, the solid particle who treats the partial shipment has been put on the blanking dish, when blanking dish is static or rotatory, solid particle can get into the blanking mouth from the blanking mouth upper end, after solid particle got into the blanking mouth, when the blanking dish rotates, under the effect of centrifugal force, solid particle hugs closely the blanking mouth and leans on the interior lateral wall that revolves in the outside, because the existence of back taper, solid particle has received inside and decurrent reaction force, and rotation rate is big more, centrifugal force's increase, the downward pressure that solid particle received also increases, make the stable saving of solid particle wait to add in the blanking mouth. Meanwhile, due to the design that the blanking port is small at the top and big at the bottom, solid particles in the blanking port can deviate from the center of the blanking port under the dual actions of friction and centrifugal force and are close to the outer side of the blanking port, so that the solid particles are not easy to separate. When the blanking port rotates to a specified position, the blanking through groove is formed in the tray, and solid particles fall into a bottle below from the blanking through groove to realize split charging.

Preferably, the taper of the blanking opening is 10-20 °. The proper inverted cone angle of 10-20 degrees is obtained through design calculation and multiple tests, and the stable addition of solid particles at a higher speed is ensured. The solid particles are not easy to separate from the blanking port, and the solid particles can be ensured to easily enter the blanking port.

The utility model has the advantages that: (1) high-speed subpackage processing can be realized, and the integral subpackage efficiency is improved; (2) the subpackaging success rate of the solid particles in the food can be ensured; (3) can ensure that the particle raw material can be stably and temporarily stored in the blanking port in a high-speed rotation state.

Drawings

Fig. 1 is a schematic view of a first structure of the present invention;

fig. 2 is a second schematic structural view of the present invention;

fig. 3 is a bottom view of the present invention;

fig. 4 is a schematic view of a third structure of the present invention;

FIG. 5 is a schematic structural view of the screw rod of the present invention;

FIG. 6 is a schematic structural view of embodiment 2.

In the figure: the device comprises a conveying mechanism 1, a conveying belt 1.1, an arrangement mechanism 1.2, a first planet wheel 1.2.1, a first positioning groove 1.2.1.1, a guide plate 1.2.2, a screw 1.2.3, a groove 1.2.3.1, a second planet wheel 1.2.4, a second positioning groove 1.2.4.1, a split charging mechanism 2, a driving mechanism 2.1, a support frame 2.2, a rotating frame 2.3, an outer limiting ring 2.3.1, a bottom support piece 2.3.2, a first planet ring 2.3.3, an arc-shaped positioning groove 2.3.1, a fixing position 2.3.4, a bottom supporting disc 2.4, a blanking through groove 2.4.1, a blanking hole 2.5, a blanking hole 2.5.1, a blowing device 2.6, a blowing hole 2.6.1, a cover plate 2.7 and a conical disc 2.8.

Detailed Description

The invention is further described with reference to the accompanying drawings and specific embodiments.

Example 1:

as shown in fig. 1 and 5, a food solid particle subpackaging device comprises a conveying mechanism 1 and a subpackaging mechanism 2; the conveying mechanism 1 comprises a conveying belt 1.1 and an arranging machine, the arranging mechanism 1.2 comprises a first planet wheel 1.2.1, a guide plate 1.2.2, a screw 1.2.3, a driving motor and a second planet wheel 1.2.4, and the first planet wheel 1.2.1 and the guide plate 1.2.2 are arranged at the inlet of a rotating frame 2.3; be equipped with on the first planet wheel 1.2.1 with the first constant head tank 1.2.1.1 of food jar adaptation, first planet wheel 1.2.1 rotates with support frame 2.2 to be connected, actuating mechanism 2.1 drive first planet wheel 1.2.1 rotates. The second planet wheel 1.2.4 is arranged at the outlet of the rotating frame 2.3; and a second positioning groove 1.2.4.1 matched with the food can is formed in the second planet wheel 1.2.4, the second planet wheel 1.2.4 is rotatably connected with the support frame 2.2, and the driving mechanism 2.1 drives the second planet wheel 1.2.4 to rotate. The arrangement allows the food cans to be removed from the carousel 2.3 onto the conveyor 1.1. The screw rod 1.2.3 transversely sets up, and driving motor drive screw rod 1.2.3 rotates, is equipped with the recess 1.2.3.1 of spiral distribution on the lateral wall of screw rod 1.2.3, recess 1.2.3.1 and food jar adaptation.

As shown in fig. 1, 2 and 4, the subpackaging mechanism 2 includes a driving mechanism 2.1, a support frame 2.2, a rotating frame 2.3, a bottom supporting disc 2.4 and a blanking disc 2.5, the driving mechanism 2.1 is arranged on the support frame 2.2, the blanking disc 2.5 is rotatably connected with the support frame 2.2, the driving mechanism 2.1 drives the blanking disc 2.5 to rotate, the bottom supporting disc 2.4 is arranged below the blanking disc 2.5 and fixed with the support frame 2.2, the blanking disc 2.5 is provided with a blanking opening 2.5.1, the rotating frame 2.3 is provided with a fixing position 2.3.4, the blanking openings 2.5.1 are in one-to-one correspondence with the fixing position 2.3.4, the bottom supporting disc 2.4 is provided with a through groove 2.4.1, the blanking through groove 2.4.1 is an arc-shaped long groove, and a plurality of the blanking openings 2.5.1 are corresponding to the upper side of the through groove 2.. The blanking through groove 2.4.1 is an arc-shaped long groove, and a plurality of blanking ports 2.5.1 are correspondingly arranged above the blanking through groove 2.4.1.

As shown in fig. 4, the rotating frame 2.3 is disposed below the supporting chassis 2.4 and rotatably connected to the supporting frame 2.2, the driving mechanism 2.1 drives the rotating frame 2.3 to rotate, the rotating frame 2.3 includes an outer limit ring 2.3.1, a bottom support member 2.3.2 and a first planet ring 2.3.3, the outer limit ring 2.3.1 is fixed to the supporting frame 2.2, the first planet ring 2.3.3 is composed of two identical planet rings, the first planet ring 2.3.3 is disposed inside the outer limit ring 2.3.1, the first planet ring 2.3.3.3 is provided with an arc-shaped positioning groove 2.3.1 for positioning the food can, the arc-shaped positioning groove 2.3.3.1 corresponds to the blanking port 2.5.1 one by one, the arc-shaped positioning groove 2.3.3.1, the outer limit ring 2.3.1 and the bottom support member 2.3.2 form a fixed position 2.3.4, and the first planet ring 2.3.3 is connected to the supporting frame 2.2.3.3 and is fixed to the first planet ring 2.3.

As shown in fig. 3, the driving mechanism 2.1 includes a driving motor and a transmission mechanism, the transmission mechanism includes a plurality of gear combinations and is provided with a plurality of power output shafts, the power output by the driving motor is transmitted to each mechanism to be rotated through the speed reduction and transmission of the transmission mechanism, and the synchronous rotation of each mechanism is ensured.

As shown in fig. 1 and 2, a cover plate 2.7 is arranged above the blanking disc 2.5. The material dropping plate 2.5 is internally provided with a conical plate 2.8, and the middle of the conical plate 2.8 is high and the periphery is low.

The working process of the split charging equipment is as follows: the conveying mechanism 1 conveys the food cans to the inlet of the rotating frame 2.3, the food cans enter the rotating frame 2.3 and are fixed on the fixed position 2.3.4 and rotate along with the rotating frame 2.3; the blanking disc 2.5 rotates around the axis, solid particles to be subpackaged are placed on the blanking disc 2.5, when the blanking disc 2.5 is static or rotates, the solid particles can enter the blanking opening 2.5.1 from the upper end of the blanking opening 2.5.1, when the blanking opening 2.5.1 rotates to the position above the blanking through groove 2.4.1, the air blowing device 2.6 blows out sterile compressed air, raw materials are blown out from the blanking opening 2.5.1, and the raw materials are successfully added into the food can; the food cans which are subjected to split charging leave from the outlet of the rotating frame 2.3, enter the conveying mechanism 1 and are conveyed away through the conveying mechanism 1. Among the above-mentioned technical scheme, because blanking mouth 2.5.1 and fixed position 2.3.4 one-to-one, the food jar can be in blanking mouth 2.5.1 below for a long time, even the partial shipment is fast, also can be through increasing the length that the blanking led to groove 2.4.1, control blanking time, can guarantee that the sufficient time of solid particle drops in the food jar, avoid the condition of neglected loading, and then can improve holistic partial shipment efficiency, can reach 800 jars/minute's high-speed partial shipment processing.

Example 2:

as shown in fig. 6, based on embodiment 1, the blanking opening 2.5.1 is an inverted cone structure, and an opening at the upper end of the blanking opening 2.5.1 is smaller than an opening at the lower end. The taper of the blanking opening 2.5.1 is 10-20 degrees.

Among the above-mentioned technical scheme, blanking disc 2.5 rotates around the axis, the solid particle who treats the partial shipment has been put on blanking disc 2.5, when blanking disc 2.5 is static or rotatory, the solid particle can be followed blanking mouth 2.5.1 upper end entering blanking mouth 2.5.1, after the solid particle got into blanking mouth 2.5.1, blanking disc 2.5 was rotatory, under the effect of centrifugal force, the solid particle hugs closely the interior lateral wall of spiraling that blanking mouth 2.5.1 is close to the outside, because the existence of back taper, the solid particle has received inside and decurrent reaction force, and the rotation rate is big more, centrifugal force's increase, the downward pressure that the solid particle received also increases, make stable the saving of solid particle wait to add in blanking mouth 2.5.1. Meanwhile, due to the design that the blanking port 2.5.1 is small at the top and big at the bottom, the solid particles in the blanking port 2.5.1 can deviate from the center of the blanking port 2.5.1 under the double actions of friction force and centrifugal force and are close to the outer side of the blanking port 2.5.1, so that the solid particles are not easy to separate. When the blanking port 2.5.1 rotates to a specified position, the blanking through groove 2.4.1 is arranged on the tray 2.4, and solid particles fall into a bottle below from the blanking through groove 2.4.1 to realize split charging.

The utility model has the advantages that: (1) high-speed subpackage processing can be realized, and the integral subpackage efficiency is improved; (2) the subpackaging success rate of the solid particles in the food can be ensured; (3) can ensure that the particle raw material can be stably and temporarily stored in the blanking port in a high-speed rotation state.

Claims (8)

1. The utility model provides a food solid particle partial shipment equipment which characterized by includes:

a transfer mechanism for transporting the food cans;

the split charging mechanism is used for split charging solid particles and comprises a driving mechanism, a supporting frame, a rotating frame, a supporting base plate and a blanking plate, the driving mechanism is arranged on the supporting frame, the blanking plate is rotatably connected with the supporting frame, the driving mechanism drives the blanking plate to rotate, the supporting base plate is arranged below the blanking plate and fixed to the supporting frame, the rotating frame is arranged below the supporting base plate and rotatably connected with the supporting frame, the driving mechanism drives the rotating frame to rotate, a blanking hole is formed in the supporting base plate, a fixing position is formed in the rotating frame, the blanking hole corresponds to the fixing position one to one, a blanking through groove is formed in the supporting base plate, and the blanking through groove is right opposite to the blanking hole above the position.

2. The food solid particle split charging equipment according to claim 1, wherein the blanking through groove is an arc-shaped long groove, and a plurality of blanking ports are correspondingly arranged above the blanking through groove.

3. The food solid particle subpackaging equipment according to claim 1 or 2, wherein the rotating frame comprises an outer limiting ring, a bottom supporting piece and a first planet ring, the outer limiting ring is fixed with the supporting frame, the first planet ring is arranged on the inner side of the outer limiting ring, the first planet ring is provided with arc-shaped positioning grooves for positioning the food cans, the arc-shaped positioning grooves correspond to the blanking openings one by one, the arc-shaped positioning grooves, the outer limiting ring and the bottom supporting piece form a fixed position, the first planet ring is rotatably connected with the supporting frame, and the bottom supporting piece is fixed with the first planet ring.

4. A food solid particle dispensing apparatus as claimed in claim 1 or 2 wherein the conveying means comprises a conveyor belt and an aligning means comprising a first planet and a guide plate, the first planet and the guide plate being disposed at the inlet of the rotating frame; the first planet wheel is provided with a first positioning groove matched with the food can, the first planet wheel is rotatably connected with the support frame, and the driving mechanism drives the first planet wheel to rotate.

5. The food solid particle subpackaging equipment according to claim 4, wherein the arrangement mechanism further comprises a screw rod and a driving motor, the screw rod is transversely arranged, the driving motor drives the screw rod to rotate, the outer side wall of the screw rod is provided with spirally distributed grooves, and the grooves are matched with the food cans.

6. The food solid particle subpackaging equipment according to claim 4, wherein the arrangement mechanism further comprises second planet wheels, and the second planet wheels are arranged at the outlet of the rotating frame; and a second positioning groove matched with the food can is formed in the second planet wheel, the second planet wheel is rotatably connected with the support frame, and the driving mechanism drives the second planet wheel to rotate.

7. The food solid particle subpackaging equipment according to claim 1 or 2, wherein a cover plate is arranged above the blanking plate.

8. The food solid particle split charging equipment according to claim 1 or 2, wherein the blanking port is of an inverted cone structure, and an opening at the upper end of the blanking port is smaller than an opening at the lower end.

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