CN201830841U - Quantitative adding trolley for large particle matter - Google Patents

Quantitative adding trolley for large particle matter Download PDF

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Publication number
CN201830841U
CN201830841U CN2010205817270U CN201020581727U CN201830841U CN 201830841 U CN201830841 U CN 201830841U CN 2010205817270 U CN2010205817270 U CN 2010205817270U CN 201020581727 U CN201020581727 U CN 201020581727U CN 201830841 U CN201830841 U CN 201830841U
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CN
China
Prior art keywords
dolly
particulate matter
large particulate
pumping board
hopper
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
CN2010205817270U
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Chinese (zh)
Inventor
张戈
武士学
张勇
苗洁
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Inner Mongolia Mengniu Dairy Group Co Ltd
Original Assignee
Inner Mongolia Mengniu Dairy Group Co Ltd
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Priority to CN2010205817270U priority Critical patent/CN201830841U/en
Application granted granted Critical
Publication of CN201830841U publication Critical patent/CN201830841U/en
Anticipated expiration legal-status Critical
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Abstract

The utility model provides a quantitative adding trolley for large particle matters, which comprises a bin (10) which is used for containing the large particle matters and is fixed on the trolley; a small pulling tray (20) which is arranged at the bottom of the bin, is provided with a feed hole (22) used for holding the large particle matters and can slide back and forth along a sliding direction; and a feed pipe (40) which is arranged at the bottom of the small pulling tray (20). By using the quantitative adding trolley for the large particle matters, the operation of manually adding the large particle matters can be avoided and the microbiological indicators of final food are ensured to satisfy standards.

Description

Large particulate matter quantitatively adds dolly
Technical field
The utility model relates to a kind of food processing equipment, particularly a kind of dolly that is used for adding at frozen large particulate matter.
Background technology
Frozen (as ice cream, ice cream etc.) is the based food that the consumer prefers.For satisfying the consumer, frozen producer also is at the diversiform food of interpolation in frozen of trying every means, such as add large particulate matter in frozen (as ice cream, ice cream etc.).The large particulate matter that adds can for whole fibert, bulky grain walnut, whole shelled peanut, whole Hawaii fruit etc. to enrich the content of frozen.At present,, manufacturer normally adds by artificial, though artificial interpolation can realize the production of this series products, is difficult to the microbiological indicator in the control production process, uses the production cost of artificial interpolation large particulate matter also higher simultaneously.
Summary of the invention
The purpose of this utility model provides a kind of large particulate matter and quantitatively adds dolly, solves the artificial microbiological indicator problem out of control that large particulate matter causes of adding, and reduces production costs simultaneously.
Another purpose of the present utility model is to improve the production efficiency of adding large particulate matter in the frozen food.
The utility model provides a kind of large particulate matter quantitatively to add dolly, comprises that one is used to hold large particulate matter and is fixed in hopper on the dolly, a little pumping board and a material blanking tube that is arranged on little pumping board bottom that is arranged on the hopper bottom.Wherein, little pumping board is provided with the blanking hole that is used to hold large particulate matter, and little pumping board can reciprocatingly slide along glide direction.
Quantitatively add in another schematic embodiment of dolly at large particulate matter, dolly also is provided with and is used to drive first cylinder that little pumping board slides along glide direction.
Quantitatively add in the another kind of schematically embodiment of dolly at large particulate matter, the top of hopper is provided with and is used to stir large particulate matter to fall into the bar of dialling in the blanking hole.Dial bar and be connected with hopper, and dial bar and can move along stirring direction around dial axis by a dial axis that is arranged on the hopper top.
Quantitatively add in the another kind of schematically embodiment of dolly at large particulate matter, the end face that group bar contacts with large particulate matter is provided with two shifting blocks.
Quantitatively add in the another kind of schematically embodiment of dolly at large particulate matter, little pumping board is provided with two blanking holes.
Quantitatively add in the another kind of schematically embodiment of dolly at large particulate matter, hopper side away from first cylinder on glide direction also is provided with a poker and one second cylinder, and second cylinder can drive poker and move back and forth on the direction perpendicular to little pumping board.
Quantitatively add in the another kind of schematically embodiment of dolly at large particulate matter, also be provided with a gathering sill between little pumping board and the material blanking tube.Angle between gathering sill and the little pumping board is 45 degree.Gathering sill is provided with a big pumping board, and what link to each other with big pumping board also is provided with one the 3rd cylinder, and the 3rd cylinder can drive big pumping board and move, and makes large particulate matter fall into material blanking tube.Also be provided with checkout gear and signal indicating device in the gathering sill, checkout gear can be used for detecting the degree of accuracy of large particulate matter input and reminds the operator by signal indicating device.
Use a kind of large particulate matter quantitatively to add dolly, avoided the interpolation process of artificial intervention large particulate matter, guaranteed the microbiological indicator of ultimate food.
Use a kind of large particulate matter quantitatively to add dolly, improved the order of accuarcy that large particulate matter adds, also improved the efficient that large particulate matter adds simultaneously.
Use a kind of large particulate matter quantitatively to add dolly, improved the mechanization degree of workshop large particulate matter frozen food, reduced production cost.
Description of drawings
The following drawings is only done the utility model and is schematically illustrated and explain, does not limit scope of the present utility model, wherein.
Fig. 1 is the structural representation that a kind of large particulate matter quantitatively adds a kind of exemplary embodiment of dolly.
Fig. 2 is the structural representation that a kind of large particulate matter quantitatively adds the another kind of exemplary embodiment of dolly.
Fig. 3 is the structural representation that a kind of large particulate matter quantitatively adds another exemplary embodiment of dolly.
Fig. 4 and Fig. 5 are used for schematically illustrating the interpolation process that Fig. 2 large particulate matter adds dolly.
Label declaration
10 hoppers, 12 dial axises, 14 groups of bars, 16 shifting blocks,
20 little pumping boards, 22 blanking holes,
30 first cylinders,
40 material blanking tubes,
50 gathering sills, 52 big pumping boards,
60 pokers,
70 second cylinders,
80 the 3rd cylinders,
90 large particulate matters.
The specific embodiment
Understand for technical characterictic, purpose and effect to utility model have more clearly, now contrast the description of drawings specific embodiment of the present utility model, identical label is represented the identical or structural similarity of structure but the identical part of function in each figure.
In this article, " bottom " and " top " represented along on the direction of large particulate matter whereabouts, the relative position relation of relevant portion.
Fig. 1 is the structural representation that a kind of large particulate matter quantitatively adds a kind of exemplary embodiment of dolly.As shown in the figure, large particulate matter quantitatively adds dolly and comprises 10, one little pumping boards 20 of a hopper and a material blanking tube 40.Hopper 10 is used to hold large particulate matter and hopper is fixed in dolly, and little pumping board 20 is provided with the blanking hole 22 and the little pumping board 20 that are used to hold large particulate matter and can reciprocatingly slides along glide direction, and material blanking tube 40 is arranged on little pumping board 20 bottoms.Large particulate matter as shown in Figure 1 quantitatively adds dolly, and driving little pumping board 20 is one first cylinder 30 along the mechanism that glide direction reciprocatingly slides, and material blanking tube 40 be arranged on along on the glide direction away from an end of first cylinder 30.It will be understood by those skilled in the art that and can also use electro-motor, modes such as hydraulic motor drive little pumping board.The large particulate matter of putting into hopper 10 can fall into the blanking hole of little pumping board, slides by the reciprocating motion drive large granular materials of little pumping board along glide direction, and large particulate matter slides into the opening part of material blanking tube 40, enters in the frozen food by material blanking tube.Blanking hole can be set to hold a size to two finely ground particle substances, and the number of times that reciprocatingly slides by little pumping board can quantitatively add large particulate matter in the frozen food like this.
Fig. 2 is the structural representation that a kind of large particulate matter quantitatively adds the another kind of exemplary embodiment of dolly.As shown in the figure, the top of hopper 10 is provided with and is used to stir large particulate matter to fall into group bar 14 in the blanking hole 22.Dial bar 14 and is connected with hopper 10, dial bar 14 and can stir direction around dial axis 12 rotations and edge and back and forth stir large particulate matter in the hopper 10 by a dial axis 12 that is arranged on hopper 10 tops.
By be provided with dialling bar 14, can stir the large particulate matter in the hopper 10, avoid stuck mutually and influence the interpolation of large particulate matter between the large particulate matter.
As shown in Figure 2, hopper 10 also is provided with a poker 60 and one second cylinder 70, the second cylinders 70 away from a side of first cylinder 30 and can drives poker 60 and move back and forth on the direction perpendicular to little pumping board 20 on glide direction.Also be provided with a gathering sill 50 between little pumping board 20 and the material blanking tube 40.By gathering sill 50 is set, can play cushioning effect to the large particulate matter that falls by blanking hole 22, avoid large particulate matter before entering the mould that holds frozen food, to be damaged.Can adjust angle between gathering sill and the little pumping board accordingly according to the quality of large particulate matter, to adjust the cushioning effect of gathering sill.Quantitatively add in a kind of exemplary embodiment of dolly at large particulate matter, angle between gathering sill 50 and the little pumping board 20 is 45 degree, can make large particulate matter enter gathering sill smoothly like this, and don't, influence the testing result of checkout gear (not shown) as for excessive velocities.
When large particulate matter is stuck in the blanking hole 22, poker 60 can be dredged the large particulate matter that is stuck in the blanking hole 22.
As shown in Figure 2, gathering sill 50 is provided with a big pumping board 52, and what link to each other with big pumping board 52 also is provided with one the 3rd cylinder, 80, the three cylinders 80 and can drives big pumping board 52 and move, and makes large particulate matter fall into material blanking tube 40.Also be provided with checkout gear (not shown) and signal indicating device (not shown) in the material blanking tube 40, checkout gear can be used for detecting the degree of accuracy of the amounts of particles that large particulate matter throws in and reminds the operator by signal indicating device.
It will be appreciated by those skilled in the art that, by checkout gear is set, detection that can be real-time falls into the quantity and/or the quality of the large particulate matter that holds the frozen food mould at every turn, and by signal indicating device prompting operator, when feasible addition when large particulate matter is not enough or too much, the operator can revise timely, realizes simultaneously interpolation large particulate matter quantitative in the frozen food.By big pumping board being set and driving the 3rd cylinder that big pumping board moves, can control large particulate matter falls in the material blanking tube, in the interpolation process of large particulate matter, go wrong, for example the addition of large particulate matter exceeds standard or when not enough, can stop large particulate matter to enter in the material blanking tube and enter in the frozen food, cause irremediable loss.
Fig. 3 is the structural representation that a kind of large particulate matter quantitatively adds another exemplary embodiment of dolly.Dial the end face that bar 14 contacts with large particulate matter and be provided with two shifting blocks 16.Little pumping board 20 is provided with two blanking holes 22.By two shifting blocks are set, it is more abundant to the stirring of large granular materials to increase group bar, guarantees that large particulate matter can enter in the blanking hole smoothly.By two blanking holes are set, can increase large particulate matter and add quantity in the frozen food to.Can also further increase the quantity of shifting block and blanking hole as required, to satisfy the demand of adding the varying number large particulate matter in the frozen food.
Fig. 4 and Fig. 5 are used for schematically illustrating the interpolation process that Fig. 2 large particulate matter adds dolly.Fig. 4 is the original state schematic diagram that large particulate matter quantitatively adds dolly, and large particulate matter 90 falls into blanking hole 22.At this moment, first cylinder 30 begins to promote little push pedal 20 and moves along the direction of direction shown in the arrow B towards material blanking tube 40.As shown in Figure 5, when the blanking hole 22 of little push pedal 20 move to poker 60 under the time, under the effect of second cylinder 70, poker 60 is towards blanking hole 22 motions, and pass blanking hole 22, the large granular materials 90 that assurance is contained in the blanking hole 22 can break away from smoothly from blanking hole 22, and falls in the gathering sill 50.
Checkout gear (not shown) in the gathering sill 50 detects large particulate matter 90, if the quantity of the large particulate matter 90 that adds meets the requirements, then the vertical up-or-down movement by the 3rd cylinder 80 drives the motion that big pumping board 52 and little pumping board are miter angle, makes that the large particulate matter 90 shown in the dotted line falls into material blanking tube 40 and enters the mould that holds frozen food among the figure.
Large particulate matter adds the interpolation process and the above-mentioned interpolation similar process of dolly among Fig. 3, does not repeat them here.
Use a kind of large particulate matter quantitatively to add dolly, avoided the interpolation process of artificial intervention large particulate matter, guaranteed the microbiological indicator of ultimate food.
Use a kind of large particulate matter quantitatively to add dolly, improved the order of accuarcy that large particulate matter adds, also improved the efficient that large particulate matter adds simultaneously.
Use a kind of large particulate matter quantitatively to add dolly, improved the mechanization degree of field large particulate matter frozen food, reduced production cost.
In this article, " schematically " expression " is served as example, example or explanation ", any diagram, the embodiment that is described to " schematically " in this article should be interpreted as a kind of preferred or have more the technical scheme of advantage.Be to be understood that, though this specification is described according to each embodiment, but be not that each embodiment only comprises an independently technical scheme, this narrating mode of specification only is for clarity sake, those skilled in the art should make specification as a whole, technical scheme among each embodiment also can form other embodiments that it will be appreciated by those skilled in the art that through appropriate combination.
Above listed a series of detailed description only is specifying at feasibility embodiment of the present utility model; they are not in order to limiting protection domain of the present utility model, allly do not break away from equivalent embodiment or the change that the utility model skill spirit done and all should be included within the protection domain of the present utility model.

Claims (10)

1. a large particulate matter quantitatively adds dolly, it is characterized in that described dolly comprises:
One is used to hold described large particulate matter and is fixed in hopper (10) on the described dolly;
A little pumping board (20) that is arranged on described hopper bottom, described little pumping board (20) is provided with the blanking hole (22) that is used to hold described large particulate matter, and described little pumping board (20) can reciprocatingly slide along glide direction; With
A material blanking tube (40) that is arranged on described little pumping board (20) bottom.
2. dolly as claimed in claim 1, wherein said dolly also are provided with and are used to drive first cylinder (30) that described little pumping board (20) slides along described glide direction.
3. dolly as claimed in claim 1, the top of wherein said hopper (10) are provided with and are used to stir described large particulate matter to fall into group bar (14) in the described blanking hole (22).
4. dolly as claimed in claim 3, wherein said group of bar (14) is connected with described hopper (10) by a dial axis (12) that is arranged on described hopper (10) top, and described group of bar (14) can move along stirring direction around described dial axis (12).
5. dolly as claimed in claim 4, the end face that wherein said group of bar (14) contacts with described large particulate matter is provided with two shifting blocks (16).
6. dolly as claimed in claim 1, wherein said little pumping board (20) is provided with two blanking holes (22).
7. dolly as claimed in claim 1, wherein said hopper (10) side away from described first cylinder (30) on described glide direction also is provided with a poker (60) and one second cylinder (70), and described second cylinder (70) can drive described poker (60) and move back and forth on the direction perpendicular to described little pumping board (20).
8. dolly as claimed in claim 1, also be provided with a gathering sill (50) between wherein said little pumping board (20) and the described material blanking tube (40), described gathering sill (50) is provided with a big pumping board (52), also being provided with one the 3rd cylinder (80) links to each other with described big pumping board (52), described the 3rd cylinder (80) can drive described big pumping board (52) and move, and makes described large particulate matter fall into described material blanking tube (40).
9. dolly as claimed in claim 8, the angle between wherein said gathering sill (50) and the described little pumping board (20) are 45 degree.
10. dolly as claimed in claim 8, wherein said gathering sill also is provided with checkout gear and signal indicating device in (50), and described checkout gear can be used for detecting the input degree of accuracy of described large particulate matter amounts of particles and reminds the operator by described signal indicating device.
CN2010205817270U 2010-10-28 2010-10-28 Quantitative adding trolley for large particle matter Expired - Lifetime CN201830841U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2010205817270U CN201830841U (en) 2010-10-28 2010-10-28 Quantitative adding trolley for large particle matter

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2010205817270U CN201830841U (en) 2010-10-28 2010-10-28 Quantitative adding trolley for large particle matter

Publications (1)

Publication Number Publication Date
CN201830841U true CN201830841U (en) 2011-05-18

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Application Number Title Priority Date Filing Date
CN2010205817270U Expired - Lifetime CN201830841U (en) 2010-10-28 2010-10-28 Quantitative adding trolley for large particle matter

Country Status (1)

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CN (1) CN201830841U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107432679A (en) * 2017-08-03 2017-12-05 中山市奥斯精工机械科技有限公司 Automatic watering adds a meter equipment

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107432679A (en) * 2017-08-03 2017-12-05 中山市奥斯精工机械科技有限公司 Automatic watering adds a meter equipment

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Granted publication date: 20110518