CN213090209U - Cold-stored all-in-one of batching - Google Patents

Cold-stored all-in-one of batching Download PDF

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Publication number
CN213090209U
CN213090209U CN202021263758.1U CN202021263758U CN213090209U CN 213090209 U CN213090209 U CN 213090209U CN 202021263758 U CN202021263758 U CN 202021263758U CN 213090209 U CN213090209 U CN 213090209U
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China
Prior art keywords
foodstuff
barrel
machine
foodstuff container
cold storage
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CN202021263758.1U
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Chinese (zh)
Inventor
傅峰峰
江志强
何静子
聂健基
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Guangzhou Fugang Life Intelligent Technology Co Ltd
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Guangzhou Fugang Wanjia Intelligent Technology Co Ltd
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Abstract

The utility model provides a batching and cold storage integrated machine, which comprises a refrigerating device and a refrigerating chamber, wherein the refrigerating device supplies cold to the refrigerating chamber, a material receiving area and a feeding device provided with a material bin are arranged, and the feeding device supplies foodstuff in the material bin to a foodstuff container positioned in the material receiving area; the refrigerating device is used for cooling the feeding bin. The refrigerating device supplies cold for the storage bin, so that the foodstuff in the storage bin is refrigerated all the time in the batching process, and the flavor deterioration and even deterioration of the foodstuff in the storage bin in the normal temperature environment for a long time in the batching process are avoided.

Description

Cold-stored all-in-one of batching
Technical Field
The utility model belongs to the technical field of refrigerator field and proportioning machine and specifically relates to cold-stored all-in-one of batching.
Background
In the prior art, a refrigerator (such as a refrigerator) only has a storage function, and if foodstuff in the refrigerator needs to be processed, the foodstuff needs to be taken out of the refrigerator firstly. In the prior art, the processing mode of the food materials comprises ingredients, namely, the ingredients distribute large food materials into a plurality of material containing barrels. The proportioning machine of prior art includes feed mechanism and is used for supplying empty flourishing feed cylinder to get into the connecing of proportioning machine and expects the entry, and feed mechanism is including the feed bin that is equipped with the foodstuff, and feed mechanism is right the warp connect the flourishing feed cylinder feed that the entry entered into the proportioning machine. And after the material containing barrel is filled with foodstuff, the feeding mechanism is closed, an operator takes out the material containing barrel filled with foodstuff, and then puts the next empty material containing barrel into the material receiving inlet so that the feeding mechanism can feed the material containing barrel.
The defects of the prior art are as follows: the foodstuff is taken out from the refrigerator and put into the batching machine, the batching machine needs a long time for completing batching, and the foodstuff can be deteriorated in flavor and even deteriorated in quality in the process of batching.
SUMMERY OF THE UTILITY MODEL
The utility model discloses aim at providing and prevent that the foodstuff flavor deterioration is rotten cold-stored all-in-one of batching even among the batching process.
The batching and refrigerating integrated machine comprises a refrigerating device and a refrigerating chamber, wherein the refrigerating device is used for refrigerating into the refrigerating chamber and is provided with a material receiving area and a feeding device provided with a material bin, and the feeding device is used for feeding foodstuff in the material bin to a foodstuff container positioned in the material receiving area; the refrigerating device is used for cooling the feeding bin.
Further, the refrigerator comprises a box body, wherein the storage bin, the feeding device and the material receiving area are located in the box body, and the refrigerating device supplies cold to the box body.
Further, the box body is a batching drawer.
Furthermore, the refrigerating device is used for cooling the material feeding area and the material feeding device.
Further, the machine body shell is provided with a barrel outlet, and the end part of the foodstuff container which is positioned in the material receiving area and receives materials is exposed out of the barrel outlet.
Further, be equipped with the forced induction base that bears the foodstuff container and put into in the walk-in, the forced induction base includes pedestal and pressure-sensitive inductor, is equipped with the blotter on the forced induction base, and the axial alignment pressure-sensitive inductor of blotter, blotter have the inserted block towards foodstuff container stretch out to make: when the foodstuff container is put in, the groove at the bottom of the foodstuff container is aligned with the insert block, and after the foodstuff container is put in, the insert block is positioned in the groove and laterally blocks the groove wall of the groove.
Further, the recess cross section of foodstuff container bottom is the rectangle, the inserted block has two side by side, and two inserted blocks are located the recess after foodstuff container puts into, and the groove wall of two mutual orientations that the recess was blocked to the side direction respectively is in order to prevent that foodstuff container from rotating.
Further, the buffer pad blocks the notch of the groove after the foodstuff container is put in.
Further, the foodstuff container is a foodstuff containing barrel.
Further, the foodstuff containing barrel is included.
Has the advantages that: the refrigerating device supplies cold for the storage bin, so that the foodstuff in the storage bin is refrigerated all the time in the batching process, and the flavor deterioration and even deterioration of the foodstuff in the storage bin in the normal temperature environment for a long time in the batching process are avoided.
Drawings
FIG. 1 is a schematic view of a refrigeration cabinet with the storage drawers open;
figure 2 is a schematic view of the cabinet concealing the cabinet housing;
FIG. 3 is a schematic view of the dispensing machine after the loading hopper has been removed from the roller assembly;
FIG. 4 is an exploded view of the dispensing machine;
FIG. 5 is a side-down view of the bucket;
fig. 6 is a schematic view of the open-cover operating device after the cartridge is loaded into the batching device (the cartridge loading hopper and the roller set are hidden);
fig. 7 is a schematic view of the lid opening operation device (with the loading bucket and roller group hidden);
FIG. 8 is a schematic view of a cartridge;
FIG. 9 is a schematic top view of the cartridge after it has been loaded into the dispensing unit (with the dispensing unit housing hidden);
FIG. 10 is a schematic front view of the cartridge after it has been loaded into the dispensing unit (with the dispensing unit housing hidden);
FIG. 11 is a side elevational view exploded schematic view of the cartridge pressure sensing mount;
FIG. 12 is a side down view exploded view of the cartridge pressure sensing mount;
FIG. 13 is a schematic cross-sectional view of a cartridge mounted on a pressure-sensitive base;
FIG. 14 is a schematic side elevational view of the second dispensing machine;
FIG. 15 is a schematic view showing the internal structure of the second dispensing machine (with the step conveyor hidden);
FIG. 16 is an enlarged, fragmentary view of the middle portion of FIG. 15;
FIG. 17 is a schematic cross-sectional view of a cartridge falling through a hopper onto a set of rollers;
FIG. 18 is a schematic view showing the process cartridge being moved up from the process nut block so that the process slot is disengaged from the process locking block;
FIG. 19 is a schematic bottom view of the second dispensing machine;
in the figure: 1. a burdening and refrigerating integrated machine; 2. a storage drawer; 3. a batching drawer; 4. an empty cartridge storage drawer; 5. a barrel outlet; 6. a cylinder placing groove; 7. a batching device; 10. a barrel mouth; 30. a feeding mechanism; 31. a lid opening operation device; 32. loading a barrel bucket; 33. a baffle plate; 34. a cylinder opening is fallen; 35. a material containing barrel; 350. a process cylinder; 351. a process card slot; 360. a stroke returning cylinder; 36. a roller set; 361. a back stroke clamping groove; 369. a roller motor; 37. a screw rod; 38. a nut moving block; 39. a cover opening motor; 40. an output shaft of the motor; 41. a rotating shaft; 42. a material receiving area; 420. a material receiving inlet; 43. pushing the plate; 44. a color sensor; 45. a drum; 450. an axial temporary storage groove; 46. a narrow opening; 47. a cylinder cover; 48. a material poking part; 49. a groove; 50. a cross-shaped end; 51. an insertion block; 52. a cross groove; 53. a discharge port; 54. a storage bin; 55. a feeding motor; 56. a screw pusher bar; 57. a cushion pad; 570. inserting a block; 58. a pressure sensor; 59. a magnetic base; 60. a stepping cover opener; 62. a back stroke nut block; 620. a step-back fixture block; 63. a process nut block; 630. a process fixture block; 65. a step-by-step conveyor belt; 66. a progress lever; 67. a retreating lever; 68. a second motor; 69. color blocks; 70. a driving wheel; 71. opening the cover piece; 72. a step of returning to the working position; 73. and (6) processing stations.
Detailed Description
Example one
As shown in fig. 1, a cabinet-shaped ingredient refrigeration all-in-one machine 1 comprises a controller, a storage drawer 2, an empty tube storage drawer 4 and an ingredient drawer 3. As shown in fig. 2 to 3, the batching equipment 7, the cover opening operation device 31, the pusher device a and the roller set 36 are arranged in the batching drawer 3, and the cover opening operation device 31 is fixedly arranged on a push plate 43 of the pusher device a. The dispensing apparatus 7 includes a material receiving area 42 and a feeding mechanism 30 (the material receiving area 42 is shown in fig. 9 and 10, the material receiving area 42 is tied inside the dispensing apparatus 7, and the material receiving inlet 420 is an opening on the dispensing apparatus), and the feeding mechanism 30 is filled with foodstuff therein. An operator takes a plurality of empty material containing barrels 35 (serving as food containers and material containing containers in the embodiment) from the empty barrel storage drawer 4 and then puts the empty barrels 35 into the barrel containing hopper 32, the empty barrels 35 fall onto the roller set 36 from the barrel containing hopper 32, the push plate 43 of the barrel pushing device A pushes the empty barrels 35 on the roller set 36 into the material receiving area 42 through the material receiving inlet 420, the cover opening operation device 31 opens the empty barrels 35 to receive food, then the operator takes the filled material containing barrels 35 out through the barrel outlet 5 of the ingredient drawer 3, and the taken material containing barrels 35 are stored in the storage drawer 2 serving as a refrigerating chamber by the operator. The refrigeration device of the burdening and refrigeration integrated machine 1 supplies cold to the storage drawer 2, and food in the material containing barrel 35 placed in the storage drawer 2 is kept fresh. The refrigerating device also supplies cold into the ingredient drawer 3 (ingredient drawer 3 is the box in this embodiment) to cool the feed bin 54, keeping the foodstuff therein fresh. Of course, the feed bin 54 may be cooled by direct cooling into the bin 54
The specific process of pushing the empty barrel 35 into the material receiving inlet 420 by the barrel pushing device a is shown in fig. 3-5 and fig. 17, the barrel pushing device a is located above the roller set 36 with a fixed position, and the barrel loading hopper 32 is fixedly arranged above the barrel pushing device a and the roller set 36. The narrow opening 46 of the barrel containing bucket 32 is hinged with a roller 45 to block the barrel falling opening 34 of the barrel containing bucket 32, the barrel falling opening 34 faces to the side, and the side baffle 33 is arranged outside the barrel falling opening 34. The side wall of the roller 45 is provided with three axial temporary storage grooves 450 which are uniformly distributed around the circumference, only one material containing barrel 35 falls into one axial temporary storage groove 450 horizontally, the empty barrel 35 obtained from the empty barrel storage drawer 4 is put into the barrel loading hopper 32 by an operator, one empty barrel 35 falls into the axial temporary storage groove 450, the roller 45 rotates around the barrel shaft until the axial temporary storage groove 450 is aligned with the barrel falling opening 34, and the material containing barrel 35 leaves the axial temporary storage groove 450 to fall out from the barrel falling opening 34 in a horizontal state; the baffle 33 prevents the material containing barrel 35 from passing over the roller set 36, thereby ensuring that the material containing barrel 35 can fall on the roller set 36 and lie horizontally, and the material containing barrel 35 lying on the roller set 36 is aligned with the material receiving inlet 420 of the feeding mechanism 30. Subsequently, the roller set 36 as a circumferential toggle element toggles the cartridge 35 circumferentially so that its cartridge opening 10 faces upwards. As will be understood from fig. 4 in conjunction with fig. 8 to 10, the roller set 36 is provided with the color sensor 44 as a visual sensor in this embodiment, the cylinder opening 10 is opened on the side wall of the material containing cylinder 35, and the color block 69 (as a marker) for the sensor to sense is provided beside the cylinder opening 10. The roller set 36 comprises two laterally adjacent horizontal rotating rollers, the material containing barrel 35 falling onto the roller set 36 is parallel to the two rotating rollers, is horizontally arranged between the two rotating rollers and is commonly supported by the two rotating rollers, and the rotating rollers are driven by a rotating roller motor 369 to rotate so as to circumferentially shift the material containing barrel 35 until the color block 69 is sensed by the color sensor 44 to be upward, which means that the barrel opening 10 of the material containing barrel 35 is also upward. Next, the barrel pushing device a as a biasing device is ready to push the material containing barrel 35 with the barrel opening 10 facing upward on the roller set 36 into the material receiving inlet 420. The pushing cylinder device a comprises a screw rod 37, a nut moving block 38 screwed on the screw rod 37, and a pushing plate 43 which is fixedly connected with the nut moving block 38 and extends above the roller set 36, as shown in fig. 7, and the cover opening operating device 31 is arranged on the pushing plate 43. The controller controls the nut moving block 38 to move along the screw rod 37, so that the material containing barrel 35 on the roller group 36 is pushed into the material receiving inlet 420 through the cover opening member 71 of the cover opening operating device 31, namely, the state of fig. 3 is changed into the state of fig. 6. The receiving section 42 is short enough to expose the rear end of the cartridge 35 from the receiving inlet 420 to facilitate the next opening operation of the cartridge 35 by the opening operation device 31. It should be noted that the roller group 36 and the pusher device a constitute a lateral conveying device in the present embodiment, and the lateral conveying device and the batching device 7 constitute a foodstuff-holding cartridge conveying device in the present embodiment.
The uncovering operation device 31 uncovers the material containing barrel 35, and the specific process is as follows. Firstly, looking at fig. 8 alone, a barrel cover 47 of the material containing barrel 35 is arranged on the side wall of the material containing barrel 35 in a circumferential rotating mode, a mandrel is arranged in the material containing barrel 35, the tail end of the mandrel penetrates out of a groove 49 at the tail end of the material containing barrel 35 to form a cross end 50 serving as an operation part, and the mandrel is fixedly connected with the barrel cover 47; the rear end of the charging barrel 35 is axially recessed to form a groove 49, and the cross-shaped end 50 is positioned in the groove 49. As shown in fig. 6 to 7, the process of opening the cap of the hollow cylinder 35 is that the cap opening operation device 31 includes a cap opening motor 39 (as a driving device) fixed on the push plate 43, a rotating shaft 41 penetrating the distal end of the push plate 43, and an insertion block 51 movably penetrated by the rotating shaft 41. The motor output shaft 40 and the rotating shaft 41 of the lid opening motor 39 penetrate out from the back of the push plate 43 and are respectively fixedly connected with a driving wheel 70 (the driving wheel 70 can refer to fig. 3, and is hidden in fig. 6), and the two driving wheels 70 are connected through a driving belt. The insertion block 51 is provided with a circumferentially rotatable lid opening member 71, the front face of which is recessed to form a cross-shaped recess 52. The barrel pushing device A pushes the cross end 50 through the opening cover 71 to push the material containing barrel 35 on the roller set 36 into the material receiving inlet 420, so that when the material containing barrel 35 is located in the material receiving area 42, the inserting block 51 of the cover opening operation device 31 is inserted into the groove 49 of the material containing barrel 35 and the cross groove 52 catches the cross end 50, the following cover opening operation can be performed: the controller controls the uncovering motor 39 to drive the rotating shaft 41 to rotate so as to drive the uncovering part 71 to rotate, so as to screw the cross head 50; the rotation of the cross head 50 drives the spindle to rotate, thereby driving the cylinder cover 47 to rotate circumferentially to open the cylinder opening 10. As shown in fig. 8, the material-pulling portion 48 in the material-containing barrel 35 is fixed to the mandrel, and the barrel cover 47 rotates circumferentially to open the barrel mouth 10, and at the same time, the material-pulling portion 48 also rotates circumferentially to pull out the foodstuff in the barrel through the barrel mouth 10.
Next, the controller controls the feeding mechanism 30 to prepare to feed the cartridge 35 that has been pushed into the receiving area 42 through the receiving inlet 420 and has been opened the cartridge cover 47. In addition to the material receiving area 42, as shown in fig. 9 and 10, the feeding mechanism 30 is provided with six open-topped bins 54 inside, each bin 54 is provided with an auger ram 56 inside and a feeding motor 55 outside, the controller controls the feeding motor 55 to be started, and the feeding motor 55 drives the auger ram 56 to rotate, so that the foodstuff in the bin 54 is fed out of the bin 54 through the discharge port 53 by the auger ram 56, and the foodstuff leaving the bin 54 freely falls into the barrel opening 10 of the material containing barrel 35. The cap closing process is similar to the cap opening process, and the controller controls the cap opening motor 39 to rotate reversely to drive the rotating shaft 41 to rotate reversely, so that the filled material containing barrel 35 is driven to close the barrel cover 47. After closing, the cartridge 35 is removed by the operator through the cartridge outlet 5 of the ingredient drawer 3 and placed in the storage drawer 2, see fig. 1. The storage drawer 2 is provided with a plurality of barrel placing grooves 6 for the barrel holding materials 35 to be placed in transversely, the barrel holding materials 35 taken out by an operator are aligned with the barrel placing grooves 6 in a mode that the front end provided with a handle faces to the right and the rear end provided with a groove 49 faces to the left, and then the installation can be prepared. As shown in fig. 11 to 13, the barrel accommodating groove 6 includes a pressure sensing base for receiving the accommodating barrel 35, the bottom of the accommodating barrel 35 is provided with a magnetic attraction piece, the pressure sensing base includes a magnetic base 59 (in this embodiment, as a magnetic attraction piece corresponding to the magnetic attraction piece of the accommodating barrel 35) and a pressure sensor 58, the pressure sensing base is provided with a buffer pad 57, specifically, as shown in fig. 11, the buffer pad 57 is located at the left of the pressure sensor 58, and the buffer pad 57 extends leftwards to form two parallel insertion blocks 570. The operator places the cartridge 35 in the cartridge slot 6 with the bottom facing the pressure-sensitive base (some pressure-sensitive bases having top faces facing upwards for the cartridge 35 to be placed downwards, see fig. 12; some pressure-sensitive bases having top faces facing transversely for the cartridge 35 to be placed transversely, see fig. 11), the groove 49 in the bottom of the cartridge 35 is aligned with the insert 570, the groove 49 has a rectangular cross-section, the two inserts 570 are located in the groove 49 and laterally block the two mutually facing walls of the groove 49, respectively, to prevent the cartridge 35 from rotating, and the cushion 57 blocks the notch of the groove 49.
It should be noted that the supply mechanism 30 supplies the opened material containing barrel 35 staying in the material receiving area 42, and the material receiving area 42 is short enough to expose the rear end of the material containing barrel 35 from the material receiving inlet 420, so that the opening-cover member 71 operates the cross-shaped end 50. A barrel outlet 5 is formed in the shell of the burdening and refrigerating integrated machine 1; the batching device 7 is provided with a material receiving outlet (blocked in the figure) with one end leading to the material receiving inlet 420 and the other end leading to the barrel outlet 5, the handle at the front end of the barrel body is exposed from the barrel outlet 5 through the material receiving outlet when the foodstuff material containing barrel 35 stays in the material receiving area 42.
Example two
Based on the first embodiment, as shown in fig. 14 to 15 and fig. 18 to 19, the uncapping operation device 31 is changed to a step uncapping machine 60. The step-by-step lid opener 60 includes a pusher unit B, and a step-by-step conveyor 65, which is provided with a plurality of vertically arranged barrel-placing positions, and on each barrel-placing position, a material-containing barrel 35 is horizontally laid. Referring to fig. 16, the pusher device B includes two lead screws 37, i.e., a forward stroke lever 66 and a backward stroke lever 67, a forward stroke nut block 63 (serving as a reciprocating member in this embodiment) on the forward stroke lever 66, and a second motor 68, wherein the forward stroke lever 66 and the backward stroke lever 67 are respectively located below a forward stroke station 73 and a backward stroke station 72. The process nut block 63 extends upwards to form a process clamping block 630, the stepping conveyor belt 65 drives the process barrel 350 to move in a stepping mode, the process clamping groove 351 formed in the lower portion of the process barrel 350 is clamped into the process clamping block 630, and therefore the process nut block 63 can push and/or pull the material containing barrel 35. The stepping conveyor belt 65 sequentially and longitudinally steps the material containing barrels 35 to the position where the front ends of the barrels are aligned with the material receiving inlets 420 and stops (namely, a process station 73), then the pushing barrel device B transversely pushes the horizontally-arranged material containing barrels 35, the front ends of which are aligned with the material receiving inlets 420, into the batching device 7 through the material receiving inlets 420, the batching device 7 supplies materials to the material containing barrels 35, and then the pushing barrel device B transversely pulls out the material containing barrels 35 until the material containing barrels are transversely reset.
The process of the back-off is as follows. The back stroke rod 67 is provided with a back stroke nut block 62, the back stroke nut block 62 extends upwards to form a back stroke clamping block 620, the stepping conveyor belt 65 drives the back stroke cylinder 360 to move in a stepping mode, and a back stroke clamping groove 361 formed below the back stroke cylinder 360 is clamped into the back stroke clamping block 620; the stepping conveyor belt 65 longitudinally steps to drive the transversely reset material containing barrel 35 to the backward stroke station 72, the forward stroke barrel 350 becomes a new backward stroke barrel 360, the rear end of the material containing barrel 35 is aligned to the barrel outlet 5 of the shell of the burdening and refrigerating all-in-one machine 1 in the state, and the barrel pushing device B pulls the material containing barrel 35 out until the rear end of the material containing barrel 35 is exposed out of the barrel outlet 5 so as to be taken away by an operator.

Claims (10)

1. Cold-stored all-in-one of batching, including refrigerating plant and walk-in, refrigerating plant supplies cold to the walk-in, its characterized in that: the feeding device is provided with a material receiving area and a feeding device provided with a bin, and the feeding device supplies foodstuff in the bin to a foodstuff container positioned in the material receiving area; the refrigerating device is used for cooling the feeding bin.
2. The ingredient cold storage all-in-one machine of claim 1, wherein: the refrigerator comprises a box body, wherein a storage bin, a feeding device and a material receiving area are arranged in the box body, and a refrigerating device supplies cold to the box body.
3. The ingredient cold storage all-in-one machine of claim 2, wherein: the box body is a batching drawer.
4. The ingredient cold storage all-in-one machine of claim 1 or 2, wherein: the refrigerating device supplies cold to the material receiving area and the material supplying device.
5. The ingredient cold storage all-in-one machine of claim 1, wherein: the machine body shell is provided with a barrel outlet, and the end part of a foodstuff container which is positioned in the material receiving area and receives materials is exposed from the barrel outlet.
6. The ingredient cold storage all-in-one machine according to claim 1, wherein a pressure sensing base for receiving a foodstuff container is arranged in the cold storage chamber, the pressure sensing base comprises a base body and a pressure sensor, a buffer pad is arranged on the pressure sensing base, the buffer pad is axially aligned with the pressure sensor, and an insert block extends out of the buffer pad towards the foodstuff container, so that: when the foodstuff container is put in, the groove at the bottom of the foodstuff container is aligned with the insert block, and after the foodstuff container is put in, the insert block is positioned in the groove and laterally blocks the groove wall of the groove.
7. The ingredient cold storage all-in-one machine of claim 6, wherein: the recess cross section of foodstuff container bottom is the rectangle, the inserted block has two side by side, and two inserted blocks are located the recess after the foodstuff container is put into, and the cell wall that blocks two mutual orientations of recess respectively the side direction is in order to prevent that the foodstuff container from rotating.
8. The ingredient cold storage all-in-one machine of claim 6, wherein: after the foodstuff container is placed, the cushion blocks the notch of the groove.
9. The ingredient cold storage all-in-one machine according to any one of claims 6 to 8, wherein: the foodstuff container is a foodstuff material containing cylinder.
10. The ingredient cold storage all-in-one machine of claim 9, wherein: comprising the foodstuff containing barrel.
CN202021263758.1U 2020-07-01 2020-07-01 Cold-stored all-in-one of batching Active CN213090209U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202021263758.1U CN213090209U (en) 2020-07-01 2020-07-01 Cold-stored all-in-one of batching

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202021263758.1U CN213090209U (en) 2020-07-01 2020-07-01 Cold-stored all-in-one of batching

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111829252A (en) * 2020-07-01 2020-10-27 广州富港万嘉智能科技有限公司 Cold-stored all-in-one of batching

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111829252A (en) * 2020-07-01 2020-10-27 广州富港万嘉智能科技有限公司 Cold-stored all-in-one of batching

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Effective date of registration: 20220310

Address after: 510700 501-2, Guangzheng science and Technology Industrial Park, No. 11, Nanyun 5th Road, Science City, Huangpu District, Guangzhou City, Guangdong Province

Patentee after: GUANGZHOU FUGANG LIFE INTELLIGENT TECHNOLOGY Co.,Ltd.

Address before: 510700 501-1, Guangzheng science and Technology Industrial Park, No. 11, Yunwu Road, Science City, Huangpu District, Guangzhou City, Guangdong Province

Patentee before: GUANGZHOU FUGANG WANJIA INTELLIGENT TECHNOLOGY Co.,Ltd.

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