Feeding system
Technical Field
The utility model relates to a powder equipment technical field, concretely relates to feeding system.
background
Polishing brick, archaized brick, ecological stone and other products, in order to meet the higher and higher aesthetic requirements of consumers and increase the market competitiveness of the products, more colors need to be added to the products by changing the process, in the traditional manual control feeding system, the storage bins are manually operated to discharge materials, the storage bins are respectively transferred to the next procedure through conveying pipelines, a plurality of technical workers need to be arranged for outputting various powder materials, thus the overlapping and crowding of manpower are caused, if the powder materials need to be mixed for a plurality of times, manual identification is needed, otherwise, the powder materials are easily confused, the decorative effect of the products is affected, the intelligent powder distribution in the prior art only replaces the manual discharge system control, the system controls the discharge of the storage bins, the powder distribution or slurry mixing is carried out to the next procedure through the conveying pipelines, if the powder materials need to be transferred to different material mixers, the conveying pipelines of the system are more, the layout is disordered, and if the premix is needed, the materials are transferred to a premix workshop for mixing and then manually transferred.
SUMMERY OF THE UTILITY MODEL
an object of the utility model is to provide a feeding system to the weak point among the prior art.
to achieve the purpose, the utility model adopts the following technical proposal: the feeding system is arranged on the blanking platform;
The feeding system comprises a storage bin, a conversion device, a conveying belt, a blanking bin and a rotary material belt;
The storage bins are arranged into a plurality of groups, a plurality of the storage bins of each group are arranged at intervals along a straight line, and the storage bins of each group are parallel to each other;
the conversion device is arranged below the storage bin and is used for receiving powder falling from the storage bin and then delivering the powder to the material conveying belt;
The feeding belt is arranged below the conversion device, and the blanking bin is arranged below one end of the feeding belt;
The rotary material belt is arranged below the blanking bin, the rotary material belt is arranged on the blanking platform, and the rotary material belt can rotate around the center of the rotary material belt by three hundred and sixty degrees; a plurality of blanking ports are formed in the blanking platform.
Preferably, the conversion device is composed of a plurality of conversion material belts which are arranged in parallel;
The arrangement direction of each conversion material belt is perpendicular to the arrangement direction of the storage bins of each group; each conversion material belt is arranged below the storage bins in the same row;
The conversion material belt comprises two small material receiving belts, the small material receiving belts are aligned to the storage bin above the small material receiving belts, and a discharge notch is formed between the two small material receiving belts;
the conveying belt is arranged right below the discharge notch.
preferably, the device further comprises a rotating device; the rotating material belt is arranged on the rotating device, and the rotating device drives the rotating material belt to rotate around the center of the rotating material belt by three hundred and sixty degrees;
the rotating device comprises a rotating guide rail, a rotating frame and a rotating motor;
a plurality of pulleys are arranged at the bottom of the rotating frame; the rotary guide rail is a circular guide rail, the rotary frame is arranged on the rotary guide rail, and the pulley and the rotary guide rail are matched for transmission;
The rotary material belt is arranged above the rotating frame, the rotary motor is arranged on the blanking platform, and the rotary motor is connected to the rotating frame.
preferably, the blanking bin with rotatory material area fixed connection, the blanking bin set up in the top in the middle part in rotatory material area.
preferably, the material conveying device further comprises an observation frame, wherein the observation frame is arranged below the conversion device, and the observation frame is arranged on two sides of the material conveying belt.
preferably, the climbing ladder is further comprised; the climbing ladder is connected to the observation frame.
preferably, the middle part of the bottom of the observation frame is provided with a movable notch; the blanking bin is arranged in the movable notch.
The utility model has the advantages that: among this technical scheme, only need selective control to open a certain or several storage silos and open, and control rotatory material area rotates to different positions, just can deliver to different blendors or mixers with the powder, can accomplish lean and high-efficient production, can only arrange alone and control and can realize accurate blanking, avoid appearing the manpower redundancy.
Drawings
the present invention will be further explained with reference to the drawings and examples.
Fig. 1 is a front view of an embodiment of the present invention;
Fig. 2 is a left side view of an embodiment of the present invention;
fig. 3 is a top view of an embodiment of the present invention.
wherein: the material storage bin 1, the conversion device 2, the conversion material belt 21, the material receiving small belt 211, the material discharging notch 212, the material conveying belt 3, the blanking bin 4, the rotary material belt 5, the blanking port 6, the rotating device 7, the rotating guide rail 71, the rotating frame 72, the rotating motor 73, the observation frame 8, the movable notch 81 and the climbing ladder 9.
Detailed Description
The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.
The feeding system is arranged on the blanking platform;
The feeding system comprises a storage bin 1, a conversion device 2, a material conveying belt 3, a blanking bin 4 and a rotary material belt 5;
The storage bins 1 are arranged into a plurality of groups, a plurality of storage bins 1 in each group are arranged at intervals along a straight line, and the storage bins 1 in the plurality of groups are in a parallel position relationship;
The conversion device 2 is arranged below the storage bin 1 and is used for receiving powder falling from the storage bin 1 and then delivering the powder onto the material conveying belt 3;
The conveying belt 3 is arranged below the conversion device 2, and the blanking bin 4 is arranged below one end of the conveying belt 3;
the rotary material belt 5 is arranged below the blanking bin 4, the rotary material belt 5 is arranged on the blanking platform, and the rotary material belt 5 can rotate around the center of the rotary material belt 5 by three hundred and sixty degrees; and a plurality of blanking ports 6 are arranged on the blanking platform.
As the color of the decorative surface is rich and various needed powder materials (including base materials and auxiliary materials) are also more, a plurality of storage bins 1 are arranged to store various powder materials. In this embodiment, the plurality of storage bins 1 are divided into two groups, and the two groups of storage bins 1 are linearly arranged at intervals. A stirrer or a mixer can be arranged below each blanking opening 6.
the utility model discloses a feeding system's working process as follows: by controlling one or more storage bins 1 to be opened, the powder falls onto the conversion device 2 after falling from the storage bins 1, then falls onto the material conveying belt 3 in a unified and centralized manner, and the powder falls into the blanking bin 4 after being conveyed by the material conveying belt 3. By controlling the rotary material belt 5 to rotate to different positions and aligning one end of the rotary material belt with the upper part of one of the blanking ports 6, the powder falls on the rotary material belt 5, and after the powder is transmitted, the powder uniformly falls into one of the blanking ports 6 from the end part of the rotary material belt 5.
In this technical scheme, only need selective control to open a certain or several storage silo 1, and control rotatory material area 5 rotates to different positions, just can deliver to different blendors or mixers with the powder, can accomplish lean and high-efficient production, can only arrange alone and control and can realize accurate blanking, avoid appearing the manpower redundancy. If the powder needs to be premixed in advance, a plurality of storage bins 1 which need to mix materials can be selectively controlled to be opened, various powder materials can be simultaneously conveyed to the rotary material belt 5, the stacked premixed materials are rotated to the appointed blanking port 6 through the rotary material belt 5, and the rotary material belt 5 rotates for blanking.
furthermore, the converting device 2 is composed of a plurality of converting material belts 21 arranged in parallel;
The arrangement direction of each conversion material belt 21 is perpendicular to the arrangement direction of each group of the storage bins 1; each conversion material belt 21 is arranged below the storage bins 1 in the same row;
the conversion material belt 21 comprises two material receiving small belts 211, the material receiving small belts 211 are aligned with the storage bin 1 above the material receiving small belts, and a discharge notch 212 is arranged between the two material receiving small belts 211;
the material conveying belt 3 is arranged right below the discharge notch 212.
The powder falling from different storage bins 1 falls onto the small receiving belt 211 below the small receiving belt, finally falls from the discharge notch 212, and then falls onto the conveying belt 3 in a centralized manner. Different powder materials can fall onto different material receiving small belts 211, so that mutual mixing and clamping are avoided.
Furthermore, a rotating device 7 is also included; the rotary material belt 5 is arranged on the rotating device 7, and the rotating device 7 drives the rotary material belt 5 to rotate around the center of the rotary material belt by three hundred and sixty degrees;
The rotating device 7 comprises a rotating guide rail 71, a rotating frame 72 and a rotating motor 73;
A plurality of pulleys are arranged at the bottom of the rotating frame 72; the rotating guide rail 71 is a circular guide rail, the rotating frame 72 is arranged on the rotating guide rail 71, and the pulleys are matched with the rotating guide rail 71 for transmission;
The rotary material belt 5 is installed above the rotating frame 72, the rotary motor 73 is installed on the blanking platform, and the rotary motor 73 is connected to the rotating frame 72.
The rotating motor 73 drives the rotating frame 72 to rotate along the rotating guide rail 71, so that the rotating material belt 5 can be driven to move, and blanking at a rotating position and angle is facilitated.
Furthermore, the blanking bin 4 is fixedly connected with the rotary material belt 5, and the blanking bin 4 is disposed above the middle of the rotary material belt 5.
work as during the rotation of rotatory material area 5, blanking storehouse 4 also can follow the rotation, guarantees blanking storehouse 4 with blanking position between the rotatory material area 5 is unchangeable, and blanking storehouse 4 is located the center of rotation's top, in fact its with the relative position of defeated material area 3 does not change, still can guarantee effective blanking.
furthermore, the conveying belt device further comprises an observation frame 8, wherein the observation frame 8 is arranged below the conversion device 2, and the observation frame 8 is arranged on two sides of the conveying belt 3.
People can stand on the observation frame 8, so that the blanking conditions of the material conveying belt 3 and the blanking bin 4 can be observed conveniently.
Furthermore, a climbing ladder 9 is also included; the climbing ladder 9 is connected to the observation frame 8.
people get on and off the climbing ladder 9, thereby facilitating the access to the observation shelf 8.
furthermore, a movable notch 81 is formed in the middle of the bottom of the observation frame 8; the blanking bin 4 is arranged in the movable notch 81.
since the blanking bin 4 is rotated around its center, it does not interfere with the movement of the conveyor belt 3 even if it is movable.
The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.