CN111283879A - Exempt from basis multi-direction and put bayonet oblique belt stirring station - Google Patents

Abstract

The invention relates to a foundation-free multidirectional placement plug-in type inclined belt mixing station, wherein a metering unit is arranged on a batching unit, the batching unit is arranged above a flat belt transmission mechanism, the bottom of the inclined belt transmission mechanism is arranged on a first multidirectional support, a first base is arranged below the inclined belt transmission mechanism, the bottom of a second multidirectional support is detachably connected to the first base, one end of a second transmission unit is arranged below one end of the first transmission unit, which is inclined upwards, a material receiving bin is arranged on one end of the second transmission unit, one end of the second transmission unit is butted with a material mixing unit, a host unit is arranged on the material mixing unit, the bottom of the material mixing unit is arranged on the second multidirectional support, a second base is arranged below the material mixing unit, and the bottom of the second multidirectional support is detachably connected to the second base; satisfy the demand of multiple transmission of stirring station and ejection of compact direction, guarantee that the material transports the smoothness, do not receive the restraint in material and place.

Description

Exempt from basis multi-direction and put bayonet oblique belt stirring station

Technical Field

The invention belongs to the technical field of concrete mixing equipment, and particularly relates to a foundation-free multidirectional placement plug-in type inclined belt mixing station.

Background

The concrete mixing plant is a combined device for mixing concrete, has high production efficiency due to high degree of mechanical automation, can save cement, and is commonly used for large-scale and medium-scale projects with large engineering quantity, long construction period, large-scale water conservancy, electric power, bridges and the like.

The host computer support frame of current traditional stirring station and the collapsible stirring station of integral type all sits on ground basis or integral type chassis, all belongs to fixed putting, and the host computer support of traditional stirring station all need make ground basis in advance. Then the host can be placed on the ground base. The one-piece collapsible blender station eliminates the floor foundation. But because of the integrated design, the host platform and the support frame of the platform are fixed into a whole and can be folded to be in a straight shape for placing and contracting. The host computer support frame and the oblique belt of current stirring station all belong to and do the basis earlier, then host computer and oblique belt platform support are located on the basis, consequently need spend a large amount of time and expense and manual work in advance, but the basis has been removed from to the collapsible stirring station of integral type. However, the belt bracket is designed integrally, so that the belt bracket is also inevitably fixed on the integrated underframe, and can be only arranged in a straight shape after being stretched; these two kinds of stirring stations all belong to fixed putting, and the direction of putting is too single, has the limitation.

In the technical field of the existing concrete mixing equipment, parts of a mixing plant are too scattered, the installation time is too long, an equipment foundation needs to be made in advance, the requirement on the foundation is too high, the cost is too high, the loading and unloading and moving performance of the equipment are slightly behind, the existing integrated type free-base mixing plant has too single feeding direction, the requirement that a customer selects according to site requirements cannot be met, and the popularization and the application of the integrated type free-base mixing plant are hindered.

Disclosure of Invention

Aiming at the defects in the technical field of the existing concrete mixing equipment, the invention aims to solve the technical problems that a host platform support frame and an inclined belt support frame of a traditional mixing station and an integrated mixing station are too single to be placed, and the rotating installation cannot be changed according to the field or the customer requirements to ensure that vehicles enter and exit from different directions, and provides a foundation-free multidirectional placement type inclined belt mixing station.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a foundation-free multidirectional placement plug-in type inclined belt mixing station comprises a batching unit, a metering unit, a first transmission unit, a first multidirectional support, a first base, a second transmission unit, a host unit, a mixing unit, a second multidirectional support and a second base, wherein the metering unit used for metering raw materials is arranged on the batching unit, the transmission unit comprises a flat belt transmission mechanism and an inclined belt transmission mechanism, a blanking hopper of the batching unit is arranged above the flat belt transmission mechanism, one end of the flat belt transmission mechanism, far away from the batching unit, is butted with one end of the inclined belt transmission mechanism, the bottom of the inclined belt transmission mechanism is arranged on the first multidirectional support, the first base is arranged below the inclined belt transmission mechanism, the bottom of the second multidirectional support is detachably connected to the first base in a steering manner, the other end of the inclined belt transmission mechanism is arranged in an upward inclined mode through a first multi-directional support, one end of a second transmission unit is arranged below one end of the first transmission unit in an inclined mode, the other end of the second transmission unit is arranged in an upward inclined mode through a support, the second transmission unit is close to one end of the first transmission unit and is provided with a material receiving bin used for being abutted to the conveying raw materials of the inclined belt transmission mechanism, the second transmission unit is far away from one end of the first transmission unit and abutted to the material mixing unit, the main machine unit is arranged on the material mixing unit, the bottom of the material mixing unit is arranged on the second multi-directional support, a second base is arranged below the material mixing unit, and the bottom of the second multi-directional support can be detachably turned and connected to the second base.

Preferably, the batching unit comprises more than two feed hoppers for adding raw materials and a discharging hopper for discharging.

Preferably, the metering unit comprises weighing hoppers, the number of the weighing hoppers is matched with that of the weighing hoppers, one weighing hopper is arranged below each weighing hopper, an electromagnetic control valve used for controlling the blanking of a blanking port at the bottom of each weighing hopper is arranged on each weighing hopper, and the upper parts of the blanking hoppers are in butt joint with the blanking ports of the weighing hoppers.

Preferably, the first transmission unit includes a motor, a driving wheel, a driven wheel, a middle rotating wheel and a transmission belt, the motor is disposed on one side of the transmission unit, an output end of the motor is in transmission connection with the driving wheel, the middle rotating wheel is disposed between the driving wheel and the driven wheel, the driving wheel is in transmission connection with the driven wheel through the transmission belt, the flat belt transmission mechanism includes the driving wheel, the middle rotating wheel and the transmission belt between the driving wheel and the middle rotating wheel, and the oblique belt transmission mechanism includes the middle rotating wheel, the driven wheel and the transmission belt between the driven wheel and the middle rotating wheel.

Preferably, the angle between the conveying belt of the inclined belt conveying mechanism and the horizontal direction is 10-30 degrees.

Preferably, the angle between the transmission belt of the second transmission unit and the horizontal bracket is 20-45 degrees.

Preferably, the first multidirectional support comprises a first mounting seat for mounting the second transmission unit and more than three first support columns arranged at the bottom of the first mounting seat, first connection holes are formed in the bottom of each first support column, first support plates are arranged at the lower ends of the first support columns, first connection holes corresponding to the bottoms of the first support columns are formed in the first support plates, and first limiting rods which are opposite to the first support columns in number and are matched with the first connection holes in shape are arranged on the first base.

Preferably, the number of the first supports is four, four first support columns are respectively arranged at four corners of a square, the first connecting holes are cylindrical holes, the four first support plates are arranged on the same horizontal plane, the number of the first limiting rods is four, and the first limiting rods are arranged into a conical shape with a small upper part and a large lower part.

Preferably, the second multidirectional support comprises a second mounting seat for mounting the mixing unit and more than three second supporting columns arranged at the bottom of the second mounting seat, the lower ends of the four second supporting columns are provided with second limiting rods, second connecting holes which are opposite to the second supporting columns in number and are matched with the second limiting rods in shape are formed in the second base, a second supporting plate is arranged at the position, corresponding to the second connecting holes, of the second base, and second connecting holes corresponding to the second connecting holes are formed in the second supporting plate.

Preferably, the number of the second supporting posts is four, the second supporting posts are respectively arranged at four corners of a square, the second connecting holes are square holes, the four second supporting plates are arranged on the same horizontal plane, the number of the second limiting rods is four, and the second limiting rods are arranged in a pyramid shape with a large upper part and a small lower part.

By adopting the technical scheme, the invention has the following beneficial effects:

a foundation-free multidirectional placement plug-in type inclined belt mixing station comprises a material distribution unit fixedly arranged at a position suitable for conveying raw materials, a first base, a second base and a material mixing unit arranged at a suitable distance and position, the batching unit is provided with a metering unit, a flat belt transmission mechanism of the first transmission unit is arranged below the batching unit, one end of an inclined belt transmission mechanism is butted with the output end of the flat belt transmission mechanism, the inclined belt transmission mechanism is arranged on a first multidirectional support, the inclined belt transmission mechanism is arranged on a first base through the first multidirectional support, when the angle of the inclined belt transmission mechanism needs to be adjusted, the first multidirectional support is detached from the first base, then after the fixed angle of the first base is adjusted adaptively, the first multidirectional support is installed on the first base, and the material conveying direction can be adjusted by adjusting the angle of the inclined belt conveying mechanism; one end of the second transmission unit is in butt joint with the output end of the inclined belt transmission mechanism, the other end of the second transmission unit is in butt joint with the inlet end of the mixing unit, the mixing unit is installed on the second base through the second multi-directional support, when the angle of the mixing unit needs to be adjusted, the second multi-directional support is detached from the second base, then the second multi-directional support is installed on the second base after the fixed angle of the second base is adaptively adjusted, the discharging direction of the materials can be adjusted by adjusting the angle of the mixing unit, and subsequent transfer and transportation are facilitated; compare in traditional stirring station and integral type stirring station, can effectual solution put the problem because of the equipment that place reason brought, have advantages such as easy dismounting is swift, structural stability is good, equipment fixing angle is nimble.

The raw materials are led in through the material mixing unit, the raw materials are metered through the metering unit, the control of material proportioning is realized, the metered and proportioned materials fall onto the first conveying unit from the blanking hopper, the collected materials are conveyed to one side of the inclined belt conveying mechanism by the flat belt conveying mechanism, then the materials are obliquely lifted and conveyed to one side of the second conveying unit by the inclined belt conveying mechanism, the materials falling from one end, close to the second conveying unit, of the inclined belt conveying mechanism are received by the material receiving bin on the second conveying unit, then the materials are obliquely lifted and conveyed to one side of the material mixing unit by the second conveying unit, the materials falling from one end, close to the material mixing unit, of the second conveying unit are led into the material mixing unit, the material mixing unit is driven by the host unit to fully stir the led-in materials, and the uniformly stirred materials are led out and conveyed away from the lower part of the material mixing unit; the concrete mixing plant integrates the existing concrete mixing plants in scattered transportation, installation and debugging states into an integrated structure convenient to disassemble and assemble, reduces the cost of the traditional concrete mixing plant as a foundation, meets the requirements of the mixing plant in various transmission and discharging directions, is not restricted by materials and fields, ensures smooth material transportation, is convenient to move and adjust, and has good practicability.

Drawings

FIG. 1 is a schematic structural view of a foundation-free multidirectional placement plug-in type inclined belt mixing station of the present invention;

FIG. 2 is a schematic view of a base-free multi-directional placement plug-in type inclined belt mixing station structure with a first multi-directional support turning direction;

FIG. 3 is a schematic view of a second multi-directional support of the foundation-free multi-directionally placed plug-in type inclined belt mixing station according to the present invention;

FIG. 4 is a schematic view of a part of a steering structure of a first multidirectional bracket of a foundation-free multidirectional placement plug-in type inclined belt mixing station of the present invention;

FIG. 5 is a schematic view of a second multi-directional support of the foundation-free multi-directional placement plug-in type inclined belt mixing station according to the present invention.

In the drawings, 1: dosing unit, 2: metering unit, 3: first transmission unit, 4: first multidirectional bracket, 5: first pedestal, 6: second transmission unit, 7: host unit, 8: compounding unit, 9: second multidirectional bracket, 10: second mount, 11: flat belt transmission mechanism, 12: oblique belt transmission device, 13: hopper, 14: material receiving bin, 15: feed hopper, 16: weighing hopper, 17: motor, 18: drive wheel, 19: driven wheel, 20: middle runner, 21: conveying belt, 22: first mount, 23: first support column, 24: first support plate, 25: first connection hole, 26: first stopper rod, 27: second mount, 28: second support column, 29: second support plate, 30: second connection hole, 31: a second limiting rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

As shown in attached figures 1-5, the base-free multidirectional placement plug-in type inclined belt mixing station comprises a batching unit 1, a metering unit 2, a first transmission unit 3, a first multidirectional support 4, a first base 5, a second transmission unit 6, a main unit 7, a mixing unit 8, a second multidirectional support 9 and a second base 10, wherein the metering unit 2 for metering raw materials is arranged on the batching unit 1, the transmission unit comprises a flat belt transmission mechanism 11 and an inclined belt transmission mechanism 12, a discharge hopper 13 of the batching unit 1 is arranged above the flat belt transmission mechanism 11, one end of the flat belt transmission mechanism 11, which is far away from the batching unit 1, is butted with one end of the inclined belt transmission mechanism 12, the bottom of the inclined belt transmission mechanism 12 is arranged on the first multidirectional support 4, the first base 5 is arranged below the inclined belt transmission mechanism 12, the bottom of the second multi-directional support 9 is detachably connected to the first base 5 in a turning manner, the other end of the inclined belt transmission mechanism 12 is arranged in an upward inclined manner through the first multi-directional support 4, one end of the second transmission unit 6 is arranged below one end of the first transmission unit 3 in an inclined manner, the other end of the second transmission unit 6 is arranged in an upward inclined manner through the support, one end of the second transmission unit 6 close to the first transmission unit 3 is provided with a material receiving bin 14 for butt joint of the inclined belt transmission mechanism 12 for conveying raw materials, one end of the second transmission unit 6 far away from the first transmission unit 3 is butt joint with the material mixing unit 8, the host unit 7 is arranged on the material mixing unit 8, the bottom of the material mixing unit 8 is arranged on the second multi-directional support 9, and a second base 10 is arranged below the material mixing unit 8, the bottom of the second multidirectional support 9 is detachably connected to the second base 10 in a turning manner.

The batching unit 1 of the invention is fixedly arranged at a position suitable for conveying raw materials, and then a first base 5, a second base 10 and a mixing unit 8 are arranged at a suitable distance and position, the dosing unit 1 is provided with a metering unit 2, a flat belt transmission mechanism 11 of a first transmission unit 3 is arranged below the dosing unit 1, one end of an inclined belt transmission mechanism 12 is butted with the output end of the flat belt transmission mechanism 11, the inclined belt transmission mechanism 12 is arranged on a first multidirectional support 4, the inclined belt transmission mechanism 12 is arranged on a first base 5 through the first multidirectional support 4, when the angle of the inclined belt transmission mechanism 12 needs to be adjusted, the first multidirectional bracket 4 is detached from the first base 5, then, after the fixed angle of the first base 5 is adjusted adaptively, the first multidirectional support 4 is installed on the first base 5, and the material conveying direction can be adjusted by adjusting the angle of the inclined belt conveying mechanism 12; one end of the second transmission unit 6 is in butt joint with the output end of the inclined belt transmission mechanism 12, the other end of the second transmission unit 6 is in butt joint with the inlet end of the mixing unit 8, the mixing unit 8 is installed on the second base 10 through the second multi-directional support 9, when the angle of the mixing unit 8 needs to be adjusted, the second multi-directional support 9 is detached from the second base 10, then the second multi-directional support 9 is installed on the second base 10 after the fixed angle of the second base 10 is adjusted in a adaptability mode, the discharging direction of materials can be adjusted through adjusting the angle of the mixing unit 8, and subsequent transfer and transportation are facilitated; compare in traditional stirring station and integral type stirring station, can effectual solution put the problem because of the equipment that place reason brought, have advantages such as easy dismounting is swift, structural stability is good, equipment fixing angle is nimble.

The raw materials are guided in by the batching unit 1, the raw materials are metered by the metering unit 2, the control of material proportioning is realized, the metered and proportioned materials fall onto the first transmission unit 3 from the blanking hopper 13, the collected materials are firstly conveyed to one side of the inclined belt transmission mechanism 12 by the flat belt transmission mechanism 11, then the materials are obliquely lifted and conveyed to one side of the second transmission unit 6 by the inclined belt transmission mechanism 12, the materials falling from one end of the inclined belt transmission mechanism 12 close to the second transmission unit 6 are received by the material receiving bin 14 on the second transmission unit 6, the material falling from one end, close to the mixing unit 8, of the second transmission unit 6 is guided into the mixing unit 8, the main unit 7 drives the mixing unit 8 to sufficiently stir the guided material, and the uniformly stirred material is guided out from the lower part of the mixing unit 8 and conveyed away; the concrete mixing plant integrates the existing concrete mixing plants in scattered transportation, installation and debugging states into an integrated structure convenient to disassemble and assemble, reduces the cost of the traditional concrete mixing plant as a foundation, meets the requirements of the mixing plant in various transmission and discharging directions, is not restricted by materials and fields, ensures smooth material transportation, is convenient to move and adjust, and has good practicability.

The batching unit 1 comprises more than two feed hoppers 15 for adding raw materials and a discharging hopper 13 for discharging, and the plurality of feed hoppers 15 are selected according to the types of materials to respectively feed the materials, so that the materials and the subsequent metered materials are convenient to count; the metering unit 2 comprises weighing hoppers 16 the quantity of which is matched with that of the feed hoppers 15, one weighing hopper 16 is arranged below each feed hopper 15, an electromagnetic control valve used for controlling the blanking of a blanking port at the bottom of each weighing hopper 16 is arranged on each weighing hopper 16, the upper part of each blanking hopper 13 is in butt joint with the blanking port of each weighing hopper 16, after various raw materials led in from each feed hopper 15 enter each weighing hopper 16, as the electromagnetic control valve seals the blanking port at the bottom of each weighing hopper 16, each weighing hopper 16 carries out weighing metering on the raw materials led in by the corresponding feed hopper 15, and after the metering is finished, the blanking port is opened through the electromagnetic control valve, so that the materials fall into the first transmission unit 3.

The first transmission unit 3 comprises a motor 17, a driving wheel 18, a driven wheel 19, a transfer wheel 20 and a transmission belt 21, the motor 17 is arranged on one side of the transmission unit, the output end of the motor 17 is in transmission connection with the driving wheel 18, the transfer wheel 20 is arranged between the driving wheel 18 and the driven wheel 19, the driving wheel 18 is in transmission connection with the driven wheel 19 through the transmission belt 21, the driving wheel 18 is driven to rotate through the motor 17, the transmission belt 21 and the driven wheel 19 are driven to operate by the driving wheel 18, and the first transmission unit 3 is divided into a flat belt transmission mechanism 11 and an inclined belt transmission mechanism 12 through the transfer wheel 20, so that the smooth transition of the transfer is realized without adopting a plurality of motors for driving; the flat belt transmission mechanism 11 comprises a driving wheel 18, a transfer wheel 20 and a transmission belt 21 between the driving wheel 18 and the transfer wheel 20, the inclined belt transmission mechanism 12 comprises a middle rotating wheel 20, a driven wheel 19 and a transmission belt 21 between the driven wheel 19 and the middle rotating wheel 20, an included angle between the transmission belt 21 of the inclined belt transmission mechanism 12 and the horizontal direction is 10-30 degrees, materials proportioned by the batching unit 1 fall onto the flat belt transmission mechanism 11, the motor 17 drives the transmission belt 21 to run, materials are conveyed from the flat belt transmission mechanism 11 to the inclined belt transmission mechanism 12, and the materials are conveyed to a second conveying unit 6 by an inclined belt conveying mechanism 12, an included angle between a conveying belt 21 of the second conveying unit 6 and a support in the horizontal direction is 20-45 degrees, the materials are conveyed to a material mixing unit 8 by the second conveying unit 6, and finally the materials are uniformly mixed by driving the material mixing unit 8 through a main machine unit 7.

The first multidirectional support 4 comprises a first mounting seat 22 for mounting the inclined belt transmission mechanism 12 and four first support columns 23 arranged at the bottoms of the first mounting seat 22, the four first support columns 23 are respectively arranged at the positions of four corners of a square, first connection holes 25 are formed at the bottoms of the four first support columns 23, the first connection holes 25 are cylindrical holes, first support plates 24 are arranged at the lower ends of the four first support columns 23, the four first support plates 24 are arranged on the same horizontal plane, first connection holes 25 corresponding to the bottoms of the first support columns 23 are formed in the first support plates 24, first limiting rods 26 which are opposite to the first support columns 23 in number and are matched with the first connection holes 25 in shape are arranged on the first base 5, the number of the first limiting rods 26 is four, and the first limiting rods 26 are arranged into a conical shape with a small upper part and a large lower part; the inclined belt transmission mechanism 12 is installed on the first installation seat 22 of the first multidirectional support 4, four cylindrical first connection holes 25 at the bottoms of four first support columns 23 are detachably inserted into and connected with four first limit rods 26 on the first base 5, the depth of the first limit rods 26 inserted into the first base 5 is limited by the first support plates 24 on the same horizontal plane, the upper portion is small, the lower portion is not large, the conical first limit rods 26 are conveniently positioned and installed in the first connection holes 25, the weight of the large-scale equipment is heavy due to the application, the equipment is not required to be fixed through other fasteners after being inserted, and the stability of the equipment can be guaranteed through the self weight.

The second multidirectional support 9 comprises a second mounting seat 27 for mounting the mixing unit 8 and four second supporting columns 28 arranged at the bottom of the second mounting seat 27, the four second supporting columns 28 are respectively arranged at the positions of four corners of a square, the lower ends of the four second supporting columns 28 are provided with second limiting rods 31, the second limiting rods 31 are arranged into a pyramid shape with a large upper part and a small lower part, second connecting holes 30 which are opposite to the second supporting columns 28 in number and have the shape matched with the second limiting rods 31 are arranged on the second base 10, second supporting plates 29 are arranged at the positions, corresponding to the second connecting holes 30, of the second base 10, the four second supporting plates 29 are arranged on the same horizontal plane, second connecting holes 30 corresponding to the second connecting holes 30 are formed in the second supporting plates 29, and the second connecting holes 30 are square holes; the mixing unit 8 is installed on the second installation seat 27 of the second multidirectional support 9, four second limiting rods 31 at the bottoms of four second support columns 28 are detachably inserted into and connected with four square second connection holes 30 on the second base 10, the depth of the second limiting rods 31 inserted into the second connection holes 30 is limited by second support plates 29 on the same horizontal plane, the second limiting rods 31 are installed in the second connection holes 30 through the convenient positioning of the pyramid-shaped second limiting rods 31 with large upper parts and small lower parts, and the mixing unit is heavy in weight due to the application, does not need to be fixed through other fasteners after being inserted, and can ensure the stability of the equipment through the self weight.

The inclined belt support frame is designed to be a square tube insertion type support frame, so that the problem of equipment placement caused by site reasons can be effectively solved; the inclined belt square tube insertion type support frame designed by the application can achieve the effect of stabilizing equipment through self weight; the inclined belt square insertion type support frame can be designed into a square pipe to be welded with a flange plate, and a hole in the flange plate is fixed by using a bolt; the utility model provides a host computer platform square bayonet support frame also can design into triangle or polygon structure, also can reach the rotatory purpose of equipment equally to the limitation in effectual solution place.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. A foundation-free multidirectional placement plug-in type inclined belt mixing station is characterized by comprising a batching unit, a metering unit, a first transmission unit, a first multidirectional support, a first base, a second transmission unit, a host unit, a mixing unit, a second multidirectional support and a second base, wherein the metering unit used for metering raw materials is arranged on the batching unit, the transmission unit comprises a flat belt transmission mechanism and an inclined belt transmission mechanism, a blanking hopper of the batching unit is arranged above the flat belt transmission mechanism, one end, far away from the batching unit, of the flat belt transmission mechanism is butted with one end of the inclined belt transmission mechanism, the bottom of the inclined belt transmission mechanism is arranged on the first multidirectional support, a first base is arranged below the inclined belt transmission mechanism, and the bottom of the second multidirectional support is detachably connected to the first base in a steering manner, the other end of the inclined belt transmission mechanism is arranged in an upward inclined mode through a first multi-directional support, one end of a second transmission unit is arranged below one end of the first transmission unit in an inclined mode, the other end of the second transmission unit is arranged in an upward inclined mode through a support, the second transmission unit is close to one end of the first transmission unit and is provided with a material receiving bin used for being abutted to the conveying raw materials of the inclined belt transmission mechanism, the second transmission unit is far away from one end of the first transmission unit and abutted to the material mixing unit, the main machine unit is arranged on the material mixing unit, the bottom of the material mixing unit is arranged on the second multi-directional support, a second base is arranged below the material mixing unit, and the bottom of the second multi-directional support can be detachably turned and connected to the second base.

2. The foundation-free multidirectional placement plug-in type inclined belt mixing station as claimed in claim 1, wherein the batching unit comprises more than two feeding hoppers for adding raw materials and discharging hoppers for discharging.

3. The foundation-free multidirectional placement type inclined belt mixing station as claimed in claim 2, wherein the metering unit comprises weighing hoppers, the number of the weighing hoppers is matched with that of the feeding hoppers, one weighing hopper is arranged below each feeding hopper, an electromagnetic control valve used for controlling the blanking of a blanking port at the bottom of each weighing hopper is arranged on each weighing hopper, and the upper portions of the blanking hoppers are in butt joint with the blanking ports of the weighing hoppers.

4. The foundation-free multidirectional placement type inclined belt mixing station as claimed in any one of claims 1 to 3, wherein the first transmission unit comprises a motor, a driving wheel, a driven wheel, a middle rotating wheel and a transmission belt, the motor is arranged on one side of the transmission unit, an output end of the motor is in transmission connection with the driving wheel, the middle rotating wheel is arranged between the driving wheel and the driven wheel, the driving wheel is in transmission connection with the driven wheel through the transmission belt, the flat belt transmission mechanism comprises the driving wheel, the middle rotating wheel and the transmission belt between the driving wheel and the middle rotating wheel, and the inclined belt transmission mechanism comprises the middle rotating wheel, the driven wheel and the transmission belt between the driven wheel and the middle rotating wheel.

5. The foundation-free multidirectional placement plug-in type inclined belt mixing station as claimed in claim 4, wherein an included angle between a conveying belt of the inclined belt conveying mechanism and a horizontal direction is 10-30 degrees.

6. The foundation-free multidirectional placement plug-in type inclined belt mixing station as claimed in claim 5, wherein an included angle between the transmission belt of the second transmission unit and the horizontal direction support is 20-45 degrees.

7. The foundation-free multidirectional placement-type inclined belt mixing station as claimed in claim 6, wherein the first multidirectional support comprises a first mounting seat for mounting the second transmission unit and more than three first support columns arranged at the bottom of the first mounting seat, first connection holes are formed in the bottom of each first support column, first support plates are arranged at the lower ends of the first support columns, first connection holes corresponding to the bottoms of the first support columns are formed in the first support plates, and first limiting rods are arranged on the first base, are opposite to the first support columns in number, and are matched with the first connection holes in shape.

8. The foundation-free multidirectional placement-type inclined belt mixing station as claimed in claim 7, wherein the number of the first supports is four, the four first support columns are respectively arranged at four corners of a square, the first connecting holes are cylindrical holes, the four first support plates are arranged on the same horizontal plane, the number of the first limiting rods is four, and the first limiting rods are arranged in a conical shape with a small upper part and a large lower part.

9. The foundation-free multidirectional placement plug-in type inclined belt mixing station as claimed in claim 8, wherein the second multidirectional support comprises a second mounting seat for mounting the mixing unit and more than three second supporting columns arranged at the bottom of the second mounting seat, a second limiting rod is arranged at the lower end of each second supporting column, second connecting holes which are opposite to the second supporting columns in number and are matched with the second limiting rods in shape are formed in the second base, a second supporting plate is arranged at the position, corresponding to the second connecting holes, of the second base, and second connecting holes corresponding to the second connecting holes are formed in the second supporting plate.

10. The foundation-free multidirectional placement-type inclined belt mixing station as claimed in claim 9, wherein the number of the second supports is four, the four second support columns are respectively arranged at four corners of a square, the second connecting hole is a square hole, the four second support plates are arranged on the same horizontal plane, the number of the second limiting rods is four, and the second limiting rods are arranged in a pyramid shape with a large upper portion and a small lower portion.

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