CN210415575U - Unloader with compounding effect - Google Patents

Abstract

The utility model discloses a blanking device with a material mixing effect, which comprises a blanking hopper, a V-shaped flowing guide groove and a baffle plate component; the blanking device is provided with a plurality of blanking hoppers and a plurality of groups of V-shaped flowing guide grooves, the plurality of blanking hoppers are arranged in parallel, and the feed inlets of the V-shaped flowing guide grooves are positioned right below the discharge outlets of the blanking hoppers; the V-shaped flow guide grooves are provided with a plurality of groups, and the V-shaped flow guide grooves are arranged in parallel along the length direction of the discharge hole of the blanking hopper; the baffle assemblies are arranged in parallel along the length direction of the discharge hole of the discharge hopper, and the arrangement positions of the baffle assemblies correspond to the arrangement positions of the V-shaped flow guide grooves one by one; the baffle plate assembly comprises a blanking plate and a blanking driving device, and the plurality of blanking plates are covered on the discharge hole of the blanking hopper, so that the discharge hole of the blanking hopper forms a plurality of opened or closed blanking holes. The unloader with compounding effect that this technical scheme provided is favorable to thick liquids to produce abundant mixed effect, improves ecological stone's texture abundance.

Description

Unloader with compounding effect

Technical Field

The utility model relates to a building ceramics technical field especially relates to an unloader with compounding effect.

Background

The surface of the ecological stone has the effect of natural stone, and the patterns can be changed variously. With the continuous development of social economy, the requirements of people on living quality and living environment are continuously improved, so that the decorative material with natural stone imitation, simplicity and nature is deeply loved by people.

In the prior art, for preparing the ecological stone slurry, a base slurry with a base color tone and a color slurry with a decorative effect are generally mixed into a mixed slurry by a mixing device, and then the materials are distributed. Because the interpolation type and the proportion of adding of basic thick liquids and colour thick liquids in the compounding device are generally that operating personnel adds to the compounding device according to actual demand, consequently degree of automation is lower, and the mixed effect of the mixed thick liquids that form from this is more single moreover, finally causes the formation of imitative natural texture pattern in the ecological stone comparatively to limit.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an unloader with compounding effect is favorable to thick liquids to produce abundant mixed effect, improves the texture abundance of ecological stone.

To achieve the purpose, the utility model adopts the following technical proposal:

a blanking device with a material mixing effect comprises a blanking hopper, a V-shaped flow guide groove and a baffle plate assembly;

the blanking device is provided with a plurality of blanking hoppers and a plurality of groups of V-shaped flowing guide grooves, the blanking hoppers are arranged in parallel, the V-shaped flowing guide grooves are arranged below the blanking hoppers, and the feed inlets of the V-shaped flowing guide grooves are positioned right below the discharge outlets of the blanking hoppers; the V-shaped flow guide grooves are provided with a plurality of groups, and the V-shaped flow guide grooves are arranged in parallel along the length direction of the discharge hole of the discharging hopper;

the blanking device is also provided with a plurality of groups of baffle assemblies, the baffle assemblies are arranged in parallel along the length direction of the discharge hole of the blanking hopper, and the arrangement positions of the baffle assemblies correspond to the arrangement positions of the V-shaped flowing guide grooves one by one; the baffle assembly comprises a blanking plate and a blanking driving device, the blanking plate covers the discharge hole of the blanking hopper, and the blanking driving device drives the blanking plate to be opened or closed, so that the discharge hole of the blanking hopper forms a plurality of opened or closed blanking holes.

Preferably, a stirring rod is installed inside the feeding hopper, a stirring driving device is installed outside the feeding hopper, the output end of the stirring driving device is connected with the stirring rod, and the stirring driving device drives the stirring rod;

spiral blades are arranged on the rod wall of the stirring rod in a surrounding mode, two adjacent spiral blades on the same plane are of horn-shaped structures, and the stirring rod is used for stirring and discharging slurry in the discharging hopper.

Preferably, the V-shaped flow guide groove includes a first flow groove and a second flow groove, the first flow groove and the second flow groove are disposed in an inclined manner to form a mixing flow channel with a V-shaped cross section, and a discharge port of the first flow groove is located right above the second flow groove.

Preferably, the flow guide groove is detachably mounted on the first flow groove and/or the second flow groove.

Preferably, a handle is protrudingly arranged at the top end of the diversion trench and used for mounting or dismounting the diversion trench.

Preferably, the handle is a plate-shaped structure, the handle is perpendicular to the bottom plate of the diversion trench, and the direction of the handle faces the bottom surface of the diversion trench.

Preferably, the surface of the bottom plate of the diversion trench is protrudingly provided with a diversion sheet for guiding the flow of the slurry in the diversion trench.

Preferably, the flow guide device further comprises a flow guide grid, wherein the flow guide grid is detachably mounted on the discharge port of the first flow groove and/or the second flow groove.

Preferably, the top end of the first flow groove and/or the second flow groove is provided with a rotating shaft and a rotating driving device, the top end of the first flow groove and/or the second flow groove is connected to the output end of the rotating driving device, the rotating driving device drives the first flow groove and/or the second flow groove, and the first flow groove and/or the second flow groove can rotate relative to the rotating shaft.

Preferably, the automatic feeding device further comprises a discharging guide groove, wherein the discharging guide groove is arranged above the discharging hopper, and a discharging hole of the discharging guide groove is positioned right above a feeding hole of the discharging hopper.

The utility model has the advantages that: the unloader with compounding effect that this technical scheme provided is favorable to thick liquids to produce abundant mixed effect, improves ecological stone's texture abundance.

Drawings

The accompanying drawings are provided to further illustrate the present invention, but the content in the accompanying drawings does not constitute any limitation to the present invention.

Fig. 1 is a schematic structural view of the blanking device with material mixing effect of the present invention.

Fig. 2 is a cross-sectional view of a discharging hopper in the discharging device with a material mixing effect.

Fig. 3 is a side view of the discharging hopper and the second flow groove in the discharging device with material mixing effect of the present invention.

Fig. 4 is a cross-sectional view of a V-shaped flow guide groove in a blanking device with a material mixing effect.

Wherein: the stirring device comprises a lower hopper 11, a stirring rod 111, a stirring driving device 112, a V-shaped flow guide groove 12, a first flow groove 121, a second flow groove 122, a guide groove 123, a handle 1231, a guide sheet 1232, a guide grid 124, a rotating shaft 125, a baffle plate assembly 13, a lower plate 131, a lower driving device 132, a lower guide groove 14 and a spiral blade 221.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

A blanking device with a material mixing effect comprises a blanking hopper 11, a V-shaped flowing guide groove 12 and a baffle plate assembly 13;

the blanking device is provided with a plurality of blanking hoppers 11 and a plurality of groups of V-shaped flowing guide grooves 12, the blanking hoppers 11 are arranged in parallel, the V-shaped flowing guide grooves 12 are arranged below the blanking hoppers 11, and the feed inlets of the V-shaped flowing guide grooves 12 are positioned right below the discharge outlets of the blanking hoppers 11; a plurality of groups of V-shaped flow guide grooves 12 are arranged, and the V-shaped flow guide grooves 12 are arranged in parallel along the length direction of the discharge hole of the blanking hopper 11;

the blanking device is further provided with a plurality of groups of baffle assemblies 13, the baffle assemblies 13 are arranged in parallel along the length direction of the discharge hole of the blanking hopper 11, and the arrangement positions of the baffle assemblies 13 correspond to the arrangement positions of the V-shaped flowing guide grooves 12 one by one; the baffle assembly 13 includes a plurality of blanking plates 131 and a blanking driving device 132, the blanking plates 131 are covered on the discharge port of the blanking hopper 11, and the blanking driving device 132 drives the blanking plates 131 to open or close, so that the discharge port of the blanking hopper 11 forms a plurality of open or closed blanking holes.

In the prior art, for preparing ecological stone slurry, a base slurry with stone slab base color tone and a color slurry with decoration effect are generally mixed into a mixed slurry by a mixing device, and then the materials are distributed. Because the interpolation type and the proportion of adding of basic thick liquids and colour thick liquids in the compounding device are generally that operating personnel adds to the compounding device according to actual demand, consequently degree of automation is lower, and the mixed effect of the mixed thick liquids that form from this is more single moreover, finally causes the formation of imitative natural texture pattern in the ecological stone comparatively to limit.

For the mixed effect of abundant thick liquids, improve ecological stone's texture abundance, this technical scheme provides a unloader with compounding effect, including hopper 11, the mobile guide slot 12 of V type and baffle subassembly 13 down. The working process of the blanking device of the technical scheme is as follows: the lower hopper 11 is filled with basic slurry or color slurry, and an operator can control the slurry in different lower hoppers 11 to be discharged from the lower hopper 11 at different discharging amounts or different discharging times through the baffle plate assembly 13, and the slurry falls onto the V-shaped flowing guide groove 12, so that different mixing effects are generated.

The V-shaped flow guide grooves 12 are provided with a plurality of groups, the V-shaped flow guide grooves 12 are arranged in parallel along the length direction of the discharge hole of the blanking hopper 11, and after slurry is discharged from the blanking hopper 11, the slurry is mixed through the different V-shaped flow guide grooves 12, so that the slurry can be mixed in multiple modes, the mixing effect of the slurry is improved, and the richness of texture patterns is improved; in addition, the thick liquids in the hopper 11 are followed down hopper 11 unloading with different unloading volume or different unloading time under the different control of operating personnel accessible baffle subassembly 13, thereby control the ejection of compact proportion of different thick liquids, be favorable to the thick liquids to produce different mixed effect, improve the texture abundance, still be favorable to the nature of colour texture mixed change, baffle subassembly 13's setting, be favorable to improving the unloading controllability of different thick liquids in the hopper 11 down, be favorable to opening or closing through control unloading board 131, thereby control the different unloading volume or the unloading time of thick liquids, be favorable to adjusting the proportion of adding of different thick liquids in the mixed thick liquids, realize different texture patterns in the ecological stone, improve cloth system's suitability.

More specifically, a stirring rod 111 is installed inside the lower hopper 11, a stirring driving device 112 is installed outside the lower hopper 11, an output end of the stirring driving device 112 is connected to the stirring rod 111, and the stirring driving device 112 drives the stirring rod 111;

spiral blades 221 are arranged on the wall of the stirring rod 111 in a surrounding mode, two adjacent spiral blades 221 located on the same plane are of a horn-shaped structure, and the stirring rod 111 is used for stirring and discharging slurry in the discharging hopper 11.

The stirring rod 111 is installed inside the lower hopper 11, and the stirring driving device 112 drives the stirring rod 111, so that on one hand, the stirring rod 111 is used for stirring the slurry in the lower hopper 11, which is beneficial to preventing the slurry from solidifying, maintaining the fluidity of the slurry and ensuring the uniform mixing of the slurry in the lower hopper 11.

On the other hand, because the spiral blades 221 are arranged around the wall of the stirring rod 111, and two adjacent spiral blades 221 located on the same plane are in a horn-shaped structure, when the stirring rod 111 rotates, slurry can be extruded by the spiral blades 221 in the horn-shaped structure to be forcibly discharged from the discharging hopper 11, so that the stirring rod 111 has a function of forcibly discharging the slurry, and smooth discharging of the slurry is ensured; in addition, the operator can also control the rotation speed of the stirring rod through the stirring driving device 112, so as to control the blanking speed of the slurry in the non-blanking hopper 11, thereby generating different mixing effects.

Preferably, at least two stirring rods 111 are provided, and the two stirring rods 111 are vertically arranged inside the lower hopper 11 along the discharging direction of the slurry.

Further, the V-shaped flow guiding groove 12 includes a first flow groove 121 and a second flow groove 122, the first flow groove 121 and the second flow groove 122 are disposed in an inclined manner to form a mixing flow channel with a V-shaped cross section, and a discharge port of the first flow groove 121 is located right above the second flow groove 122.

The basic slurry and the color slurry are firstly discharged from a discharging hopper 11 at different discharging speeds, different discharging amounts or different discharging times, and then fall into a V-shaped flowing guide groove 12 to form first mixing of the slurry; the first flow groove 121 and the second flow groove 122 are used for flowing and mixing the slurry, and then the mixed slurry can be further fused with each other through the joint of the first flow groove 121 and the second flow groove 122, so that a richer mixing effect is generated, the mixing is uniform, and the transition is natural.

Further illustratively, a guide groove 123 is further included, and the guide groove 123 is detachably mounted to the first flow groove 121 and/or the second flow groove 122.

The guide groove 123 is detachably installed in the first flow groove 121 and/or the second flow groove 122, and after the distribution system finishes distributing the slurry, the guide groove 123 can be detached from the first flow groove 121 and/or the second flow groove 122, so that the V-shaped flow guide groove 12 can be conveniently cleaned.

More specifically, a handle 1231 protrudes from a top end of the guiding gutter 123, and the handle 1231 is used for mounting or dismounting the guiding gutter 123.

The handle 1231 is protrudingly disposed at the top end of the guide groove 123, so that an operator can conveniently mount or dismount the guide groove 123, and meanwhile, due to the protrusive arrangement of the handle 1231, the guide groove 123 can be stably mounted on the first flow groove 121 and/or the second flow groove 122.

More specifically, the handle 1231 has a plate-shaped structure, the handle 1231 is perpendicular to the bottom plate of the guiding groove 123, and the direction of the handle 1231 is toward the bottom surface of the guiding groove 123.

Handle 1231 is platelike structure, makes things convenient for operating personnel's the grabbing to take, and handle 1231 perpendicular to guiding gutter 123's bottom plate, and handle 1231's direction is towards the bottom surface of guiding gutter 123, is favorable to preventing that handle 1231 from sheltering from the feed inlet of V type flow guide slot 12, is favorable to the smooth unloading of thick liquids, still is favorable to operating personnel to observe the mixed condition of thick liquids from the feed inlet of V type flow guide slot 12 simultaneously, at any time to the mixed condition countermeasures of thick liquids.

Further, a baffle 1232 protrudes from a surface of the bottom plate of the guiding groove 123, and the baffle 1232 is used for guiding the slurry to flow in the guiding groove 123.

The surface of the bottom plate of the guiding groove 123 is protrudingly provided with a guiding sheet 1232, and the slurry can flow randomly in the guiding groove 123 under the guidance of the guiding sheet 1232, so that the texture of the ecological stone is further enriched. Furthermore, the slurry is enabled to generate texture patterns in a mode of guiding the slurry to flow, and the formed texture patterns are transited naturally, so that the formed ecological stone can better accord with the texture of natural stone, and the natural imitation effect of the ecological stone is further improved.

Further, the flow guide grid 124 is further included, and the flow guide grid 124 is detachably mounted on the discharge port of the first flow groove 121 and/or the second flow groove 122.

The flow guide grids 124 have the function of shunting the slurry, when the slurry in the V-shaped flow guide groove 12 falls to the feeding hopper through the flow guide grids 124, the slurry is separated and then mixed, the slurry is fully mixed, and therefore the mixing effect of the mixed slurry is improved.

Further, the top end of the first flow groove 121 and/or the second flow groove 122 is provided with a rotating shaft 125 and a rotation driving device, the top end of the first flow groove 121 and/or the second flow groove 122 is connected to the output end of the rotation driving device, the rotation driving device drives the first flow groove 121 and/or the second flow groove 122, and the first flow groove 121 and/or the second flow groove 122 can rotate relative to the rotating shaft 125.

The rotation driving device drives the first flow groove 121 and/or the second flow groove 122 to enable the first flow groove 121 and/or the second flow groove 122 to rotate relative to the rotating shaft 125, so that an operator can conveniently adjust the inclination angles of the first flow groove 121 and the second flow groove 122, and the adjustment of the blanking speed of slurry in the blanking device is facilitated, and the distribution beat of the distribution system is controlled.

Further, the material discharging device further comprises a material discharging guide groove 14, wherein the material discharging guide groove 14 is arranged above the material discharging hopper 11, and a material discharging opening of the material discharging guide groove 14 is positioned right above a material feeding opening of the material discharging hopper 11.

The blanking device is further provided with a blanking guide groove 14, the blanking guide groove 14 is arranged above the blanking hopper 11, a discharge hole of the blanking guide groove 14 is located right above a feed port of the blanking hopper 11, when basic slurry or color slurry needs to be poured into the blanking hopper 11, the slurry can be poured into the blanking guide groove 14, pouring of the slurry is facilitated, and the slurry is prevented from being poured into other places outside the blanking hopper 11.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. The utility model provides a unloader with compounding effect which characterized in that: comprises a blanking hopper, a V-shaped flowing guide groove and a baffle plate component;

the blanking device is provided with a plurality of blanking hoppers and a plurality of groups of V-shaped flowing guide grooves, the blanking hoppers are arranged in parallel, the V-shaped flowing guide grooves are arranged below the blanking hoppers, and the feed inlets of the V-shaped flowing guide grooves are positioned right below the discharge outlets of the blanking hoppers; the V-shaped flow guide grooves are provided with a plurality of groups, and the V-shaped flow guide grooves are arranged in parallel along the length direction of the discharge hole of the discharging hopper;

the blanking device is also provided with a plurality of groups of baffle assemblies, the baffle assemblies are arranged in parallel along the length direction of the discharge hole of the blanking hopper, and the arrangement positions of the baffle assemblies correspond to the arrangement positions of the V-shaped flowing guide grooves one by one; the baffle assembly comprises a blanking plate and a blanking driving device, the blanking plate covers the discharge hole of the blanking hopper, and the blanking driving device drives the blanking plate to be opened or closed, so that the discharge hole of the blanking hopper forms a plurality of opened or closed blanking holes.

2. The blanking device with the material mixing effect as claimed in claim 1, wherein: a stirring rod is arranged in the discharging hopper, a stirring driving device is arranged outside the discharging hopper, the output end of the stirring driving device is connected with the stirring rod, and the stirring driving device drives the stirring rod;

spiral blades are arranged on the rod wall of the stirring rod in a surrounding mode, two adjacent spiral blades on the same plane are of horn-shaped structures, and the stirring rod is used for stirring and discharging slurry in the discharging hopper.

3. The blanking device with the material mixing effect as claimed in claim 1, wherein: the V-shaped flow guide groove comprises a first flow groove and a second flow groove, the first flow groove and the second flow groove are arranged in an inclined mode to form a mixing flow channel with a V-shaped section, and a discharge hole of the first flow groove is located right above the second flow groove.

4. The blanking device with the material mixing effect as claimed in claim 3, wherein: the flow guide groove is detachably arranged on the first flow groove and/or the second flow groove.

5. The blanking device with the material mixing effect as claimed in claim 4, wherein: the handle is arranged at the top end of the diversion trench in a protruding mode and used for installing or detaching the diversion trench.

6. The blanking device with the material mixing effect as claimed in claim 5, wherein: the handle is of a plate-shaped structure, is perpendicular to the bottom plate of the diversion trench, and faces the bottom surface of the diversion trench.

7. The blanking device with the material mixing effect as claimed in claim 4, wherein: the surface of the bottom plate of the diversion trench is convexly provided with a diversion sheet, and the diversion sheet is used for guiding the slurry to flow in the diversion trench.

8. The blanking device with the material mixing effect as claimed in claim 3, wherein: the flow guide grating is detachably arranged at the discharge port of the first flow groove and/or the second flow groove.

9. The blanking device with the material mixing effect as claimed in claim 3, wherein: the top end of the first flow groove and/or the second flow groove is provided with a rotating shaft and a rotating driving device, the top end of the first flow groove and/or the second flow groove is connected with the output end of the rotating driving device, the rotating driving device drives the first flow groove and/or the second flow groove, and the first flow groove and/or the second flow groove can rotate relative to the rotating shaft.

10. The blanking device with the material mixing effect as claimed in claim 1, wherein: the discharging device is characterized by further comprising a discharging guide groove, wherein the discharging guide groove is formed in the upper portion of the discharging hopper, and a discharging opening of the discharging guide groove is located right above a feeding opening of the discharging hopper.

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