CN215399421U - Quantitative subpackaging system for grains - Google Patents
Quantitative subpackaging system for grains Download PDFInfo
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- CN215399421U CN215399421U CN202120717177.9U CN202120717177U CN215399421U CN 215399421 U CN215399421 U CN 215399421U CN 202120717177 U CN202120717177 U CN 202120717177U CN 215399421 U CN215399421 U CN 215399421U
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Abstract
The utility model discloses a quantitative grain subpackaging system which comprises a subpackaging platform, wherein the subpackaging platform comprises a top surface and a top platform, the top surface is an inclined surface, the top platform is arranged right above the top surface, and the top platform is supported on the subpackaging platform through a support spring; the top platform is a flat structure, and the support spring can be elastically compressed to under the action of gravity of grain package on the top platform: the bottom surface of the top platform is attached to the top surface. The sub-packaging system can realize the characteristic of energy-saving output of grain packaging from a packaging station.
Description
Technical Field
The utility model relates to the technical field of grain packaging equipment, in particular to a quantitative subpackaging system for grains.
Background
Grain storage has important significance for national economy and social stability. With the continuous development of national economy and the continuous improvement of the living standard of people's materials, the demand of people for commercial food is changing from the past saturated type to the quality type. The existing grain market puts higher and higher requirements on the taste, nutrition and the like of grains, and the sales circulation of the existing grains is also led to the global market economy from the prior local dominance by combining the continuous development of the urbanization of China and the massive transformation of rural labor.
In the grain sale process, grain packaging is an important link, and quantitative packaging is one of factors which must be considered in grain packaging.
In the prior art, a grain packaging line generally comprises a packaging station and a filling system, along with the development of a sensing technology, a control technology and an information technology, the packaging station is provided with a weight sensor, the filling system is provided with a grain filling tube or a lifting auger, the working state of the filling system is controlled by the output value of the weight sensor, and the quantification of grain packaging is completed by automatic filling.
Further optimization of the grain packaging system undoubtedly promotes the development of grain processing and production industries.
SUMMERY OF THE UTILITY MODEL
Aiming at the technical problem that the development of grain processing and production industries can be undoubtedly promoted by further optimizing the grain packaging system, the utility model provides a quantitative subpackaging system for grains. The sub-packaging system can realize the characteristic of energy-saving output of grain packaging from a packaging station.
Aiming at the problems, the quantitative subpackaging system for the grains provided by the utility model solves the problems through the following technical key points: the quantitative grain subpackaging system comprises a subpackaging platform, wherein the subpackaging platform comprises a top surface which is an inclined surface and a top platform which is arranged right above the top surface, and the top platform is supported on the subpackaging platform through a support spring;
the top platform is a flat structure, and the support spring can be elastically compressed to under the action of gravity of grain package on the top platform: the bottom surface of the top platform is attached to the top surface.
In the prior art, a subpackaging station is provided with a subpackaging platform for quantitatively subpackaging grain, a discharging pipe is arranged above the subpackaging platform, after the grain is placed on the subpackaging platform by a package, a weighing part on the subpackaging platform realizes the weight of the supported package, and when the weight reaches a set value, the discharging pipe stops outputting the grain to the package. In order to complete the grain loading of the next package, a transmission system is needed to unload the package which completes the grain loading from the sub-packaging platform.
In the specific structural design of the scheme, the top platform is a flat plate mounting structure and is supported above the split charging platform through a supporting spring, the top surface of the split charging platform is an inclined surface, when in specific application, the supporting spring with proper elastic coefficient is selected according to the required packaging specification, along with the continuous increase of the weight of grains in the grain package on the top platform, the elastic deformation of the supporting spring is gradually increased, the top platform is continuously descended in the process, after lowering into contact with the top surface and with further filling, the top of the top platform finally lies flat against the top surface, like this, the top platform reaches the biggest gradient, and like this, the holding surface that provides direct support for grain package is the inclined plane, and grain package can be under self gravity or gravity cooperation external force's combined action down by the roll-off on the top platform, reaches the purpose that realizes grain package by energy-conserving output or no consumption output on the packing station. After the grain package slides out of the top platform, the top platform resets in position and inclination under the action of the supporting spring, so that the next grain package is conveniently put in place.
When the packaging machine is specifically used, the inclination of the top surface is preferably selected, the friction coefficient between the packaging and the top platform is preferably selected, after the top platform reaches the maximum inclination, the component force of the gravity of the grain packaging is not enough to enable the packaging to automatically slide, so that the packaging is finished by utilizing the state, and then the packaging anti-scattering output is realized by adopting a pushing mode such as a push rod. After the top platform reaches the maximum inclination, the component force of the gravity of the grain package enables the package to automatically slide on the top platform, so that the utilization rate of the subpackaging stations is improved. The skilled person can select flexibly according to the specific packaging type and capacity when selecting specifically.
The further technical scheme is as follows:
for the stability of promoting the top platform, the grain packing of being convenient for simultaneously is taken one's place at the accuracy on the top platform, adopts: the top platform is supported on the split charging platform through a plurality of supporting springs distributed at different positions; the top platform is supported by a support spring in a free state as follows: the top surface is a horizontal plane.
As a technical scheme that indirect rigid constraint can be provided for the top platform in a specific direction so as to improve the stability and reliability of the top platform, the method comprises the following steps: the supporting spring is a spiral spring, and a vertical rod is arranged in the internal space of the supporting spring; the upper end of the vertical rod is fixedly connected with the lower end of the top platform; the partial shipment platform includes the backup pad, and the lower extreme of supporting spring supports in the backup pad, still is provided with the bar hole in the backup pad, the length direction in bar hole is for adapting to top platform pivoted direction: when the vertical rod rotates along with the top platform, the vertical rod moves downwards and slides along the length direction of the strip-shaped hole; both sides of the vertical rod are in contact with the hole wall of the strip-shaped hole in the length direction. In the scheme, the vertical rods are subjected to shearing force, so that rigid restraint in a specific direction is formed between the top platform and the supporting plate.
For doing benefit to the measurement accuracy, the integral weighing scheme of the part overall arrangement of being convenient for simultaneously weighs adopts: still including the support column that is used for supporting the backup pad, the bottom of each support column all is provided with weight sensor.
For the protection weight sensor and the cooperation on this scheme is vice, adopt: the split charging platform also comprises a shell, and the weight sensor and the support plate are packaged in the shell; the top surface is a top surface of the housing.
As a technical scheme that the surface is smooth and the cleanness of a packaging field is facilitated, the method adopts the following steps: the top platform is a stainless steel plate.
As a technical scheme convenient for providing a structural foundation for automatic distribution, the method comprises the following steps: still including setting up the discharging pipe in top platform top, still be provided with the solenoid valve on the discharging pipe.
For avoiding remaining grain granule influence grain packing output on the top platform, adopt: the top platform is used for supporting the top surface of the top platform.
The utility model has the following beneficial effects:
in the specific structural design of the scheme, the top platform is a flat plate mounting structure and is supported above the split charging platform through a supporting spring, the top surface of the split charging platform is an inclined surface, when in specific application, the supporting spring with proper elastic coefficient is selected according to the required packaging specification, along with the continuous increase of the weight of grains in the grain package on the top platform, the elastic deformation of the supporting spring is gradually increased, the top platform is continuously descended in the process, after lowering into contact with the top surface and with further filling, the top of the top platform finally lies flat against the top surface, like this, the top platform reaches the biggest gradient, and like this, the holding surface that provides direct support for grain package is the inclined plane, and grain package can be under self gravity or gravity cooperation external force's combined action down by the roll-off on the top platform, reaches the purpose that realizes grain package by energy-conserving output or no consumption output on the packing station. After the grain package slides out of the top platform, the top platform resets in position and inclination under the action of the supporting spring, so that the next grain package is conveniently put in place.
Drawings
Fig. 1 is a schematic structural view of a specific embodiment of the quantitative grain packaging system according to the present invention, wherein a top platform is in a free state;
fig. 2 is a schematic partial structure diagram of a specific embodiment of the quantitative grain subpackaging system according to the scheme, which is used for embodying a specific installation manner of a top platform on a subpackaging platform;
FIG. 3 is a schematic structural view of an embodiment of the quantitative racking system for food according to the present disclosure, wherein the top platform is pressed and attached to the top surface
The reference numbers in the drawings are respectively: 1. discharging pipe, 2, solenoid valve, 3, top platform, 4, support spring, 5, montant, 6, shell, 7, top surface, 8, backup pad, 9, support column, 10, weight sensor.
Detailed Description
The present invention will be described in further detail with reference to the following examples, but the present invention is not limited to the following examples:
example 1:
as shown in fig. 1 to 3, the quantitative grain subpackaging system comprises a subpackaging platform, wherein the subpackaging platform comprises a top surface 7 which is an inclined surface and a top platform 3 which is arranged right above the top surface 7, and the top platform 3 is supported on the subpackaging platform through a support spring 4;
In the prior art, a subpackaging station is provided with a subpackaging platform for quantitatively subpackaging grain, a discharging pipe 1 is arranged above the subpackaging platform, after the grain is placed on the subpackaging platform with a package, a weighing part on the subpackaging platform realizes the weight of the package supported by the weighing part, and when the weight reaches a set value, the discharging pipe 1 stops outputting the grain to the package. In order to complete the grain loading of the next package, a transmission system is needed to unload the package which completes the grain loading from the sub-packaging platform.
In the specific structural design of the scheme, the top platform 3 is a flat plate structure, the top platform 3 is supported above the split charging platform through the supporting springs 4, the top surface 7 of the split charging platform is an inclined surface, when the split charging platform is used specifically, the supporting springs 4 with proper elastic coefficient are selected according to the required packaging specification, along with the continuous increase of the grain weight in the grain package on the top platform 3, the elastic deformation of the supporting springs 4 is gradually increased, the top platform 3 is continuously descended in the process, and finally the top of the top platform 3 is flatly attached to the top surface 7 after the top platform is descended to the top surface 7 and along with the further proceeding of filling, so that the top platform 3 reaches the maximum inclination, the supporting surface for directly supporting the grain package is an inclined surface, the grain package can slide out from the top platform 3 under the self gravity or the combined action of gravity matching external force, the purpose of realizing energy-saving output or no-power consumption output of grain packages from a packaging station is achieved. After the grain package slides out of the top platform 3, the top platform 3 resets in position and inclination under the action of the supporting spring 4, so that the next grain package is conveniently put in place.
During specific application, the inclination of the top surface 7 and the friction coefficient between the package and the top platform 3 are preferably selected, after the top platform 3 reaches the maximum inclination, the component force of the gravity of the grain package is not enough to enable the package to automatically slide, so that the package is packaged in the state, and then the package is prevented from being scattered and output in a pushing and extruding mode by using a push rod. Or after the top platform 3 reaches the maximum inclination, the component force of the gravity of the grain package enables the package to automatically slide on the top platform 3, so that the utilization rate of the split charging station is improved. The skilled person can select flexibly according to the specific packaging type and capacity when selecting specifically.
The further optimization scheme based on the basic concept is as follows:
for the stability of promotion top platform 3, the grain packing of being convenient for simultaneously is taken one's place in the accuracy on top platform 3, adopts: the top platform 3 is supported on the split charging platform through a plurality of supporting springs 4 distributed at different positions; the top platform 3 is supported by the supporting spring 4 in a free state: the top surface 7 is a horizontal surface.
As a technical solution that can provide indirect rigid constraint for the top platform 3 in a specific direction to improve the stability and reliability of the top platform 3, adopt: the supporting spring 4 is a spiral spring, and a vertical rod 5 is further arranged in the inner space of the supporting spring 4; the upper end of the vertical rod 5 is fixedly connected with the lower end of the top platform 3; the partial shipment platform includes backup pad 8, and the lower extreme of supporting spring 4 supports in backup pad 8, still is provided with the bar hole in backup pad 8, the length direction in bar hole is for adapting to 3 pivoted directions in top platform: when the vertical rod 5 rotates along with the top platform 3, the vertical rod 5 moves downwards and slides along the length direction of the strip-shaped hole; both sides of the vertical rod 5 are in contact with the hole wall of the strip-shaped hole in the length direction. In the scheme, the vertical rod 5 is subjected to shearing force, so that the rigid constraint in a specific direction is formed between the top platform 3 and the supporting plate 8.
For doing benefit to the measurement accuracy, the integral weighing scheme of the part overall arrangement of being convenient for simultaneously weighs adopts: the device also comprises supporting columns 9 for supporting the supporting plates 8, and the bottom of each supporting column 9 is provided with a weight sensor 10.
For protection weight sensor 10 and the cooperation on this scheme is vice, adopt: the split charging platform further comprises a shell 6, and the weight sensor 10 and the support plate 8 are packaged in the shell 6; the top surface 7 is the top surface of the housing 6.
As a technical scheme that the surface is smooth and the cleanness of a packaging field is facilitated, the method adopts the following steps: the top platform 3 is a stainless steel plate.
As a technical scheme convenient for providing a structural foundation for automatic distribution, the method comprises the following steps: still including setting up discharging pipe 1 above top platform 3, still be provided with solenoid valve 2 on discharging pipe 1.
For avoiding remaining grain granule influence grain packing output on top platform 3, adopt: and also comprises air injection means for purging the top surface 7 of the top platform 3.
The foregoing is a more detailed description of the present invention in connection with specific preferred embodiments thereof, and it is not intended that the specific embodiments of the present invention be limited to these descriptions. For those skilled in the art to which the utility model pertains, other embodiments that do not depart from the gist of the utility model are intended to be within the scope of the utility model.
Claims (8)
1. The quantitative grain subpackaging system comprises a subpackaging platform and is characterized in that the subpackaging platform comprises a top surface (7) which is an inclined surface and a top platform (3) arranged right above the top surface (7), and the top platform (3) is supported on the subpackaging platform through a support spring (4);
top platform (3) are flat structure, and supporting spring (4) can be compressed by elasticity to under top platform (3) grain package's the action of gravity: the bottom surface of the top platform (3) is attached to the top surface (7).
2. The quantitative racking system for grain according to claim 1, wherein said top platform (3) is supported on said racking platform by a plurality of support springs (4) distributed at different locations; the top platform (3) is supported by a support spring (4) in a free state as follows: the top surface is a horizontal plane.
3. The quantitative grain distribution system according to claim 1, wherein the support spring (4) is a spiral spring, and a vertical rod (5) is further arranged in the inner space of the support spring (4); the upper end of the vertical rod (5) is fixedly connected with the lower end of the top platform (3); the partial shipment platform includes backup pad (8), and the lower extreme of supporting spring (4) supports on backup pad (8), still is provided with the bar hole on backup pad (8), the length direction in bar hole is for adapting to top platform (3) pivoted direction: when the vertical rod (5) rotates along with the top platform (3), the vertical rod (5) moves downwards and slides along the length direction of the strip-shaped hole; both sides of the vertical rod (5) are in contact with the hole wall in the length direction of the strip-shaped hole.
4. A quantitative food portioning system according to claim 3, further comprising support columns (9) for supporting the support plates (8), wherein a weight sensor (10) is provided at the bottom of each support column (9).
5. The quantitative grain racking system according to claim 4, wherein said racking platform further comprises a housing (6), said weight sensor (10) and said support plate (8) being enclosed within said housing (6); the top surface (7) is the top surface of the housing (6).
6. A quantitative racking system for food product according to claim 1 wherein said top platform (3) is a stainless steel plate.
7. The quantitative grain racking system according to claim 1, further comprising a discharge pipe (1) disposed above the top platform (3), said discharge pipe (1) further having a solenoid valve disposed thereon.
8. The quantitative racking system for food product of claim 1 further comprising an air jet means for purging the top surface of the top platform (3).
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CN202120717177.9U CN215399421U (en) | 2021-04-08 | 2021-04-08 | Quantitative subpackaging system for grains |
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CN202120717177.9U CN215399421U (en) | 2021-04-08 | 2021-04-08 | Quantitative subpackaging system for grains |
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CN215399421U true CN215399421U (en) | 2022-01-04 |
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