CN209917806U - Material mixing machine - Google Patents

Abstract

The utility model discloses a mixer, its characterized in that: the automatic material mixing device comprises a turnover discharging device, a turnover box, a material mixing device and a rack; a plurality of turnover boxes are arranged and detachably fixed on the turnover discharging device; the mixing device comprises a discharging hopper, a mounting frame, a mixing hopper and a transmission assembly; the mixing hopper and the transmission assembly are arranged on the mounting frame; the position of the discharging hopper is matched with the position of the turnover box; the turnover discharging device drives the turnover box to turn over so that the raw materials in the turnover box are dumped into the discharging hopper; the transmission assembly is arranged below the discharging hopper, and the tail end of the transmission assembly is matched with a feeding hole of the mixing hopper; the raw materials in the hopper pass through transmission assembly to the compounding fill down. The utility model discloses a upset unloader drive turnover case upset is carried out the unloading, and the raw materials loops through down hopper and transmission assembly and gets into and mix in the mixing hopper, and the raw materials is emptyd more completely, avoids the raw materials to remain in turnover case, practices thrift manufacturing cost, improves work efficiency.

Description

Material mixing machine

Technical Field

The utility model relates to a fireworks and crackers manufacturing technical field especially relates to a blendor.

Background

In the production of fireworks, manual production and manual operation machine equipment production exist in large quantity, the man-machine separation cannot be realized, casualty accidents occur occasionally, and the safety management difficulty is very high. In the process of setting off fireworks, after the explosive explodes in the air, the bright beads burn to present colorful luster. The bright beads are particles formed by granulating an oxidant, a reducing agent and a metal or metal oxide with a flame color reaction, and generally comprise an inner core medicament for generating corresponding effects and an outer wrapping medicament mainly for igniting. The outer parcel medicine is formed by multiple raw materials mixing, and the mode of producing outer parcel medicine is that several kinds of different raw materials pass through pipeline or slide and carry and mix in the compounding case, because the raw materials of producing outer parcel medicine is powdered, consequently can cause serious raw materials extravagant when production, improves manufacturing cost greatly, can't accomplish the accurate control of raw materials mixture ratio moreover in mixing process.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a reduction in production cost avoids causing the blendor of raw materials waste.

Realize the utility model discloses the technical scheme of purpose is: a blender mixer which is characterized in that: the automatic material mixing device comprises a turnover discharging device, a turnover box, a material mixing device and a rack; a plurality of turnover boxes are arranged and detachably fixed on the turnover discharging device; the mixing device comprises a discharging hopper, a mounting frame, a mixing hopper and a transmission assembly; the mounting frames of the turning and blanking device, the turnover box and the material mixing device are all arranged on the rack; the mixing hopper and the transmission assembly are arranged on the mounting frame; the position of the discharging hopper is matched with that of the turnover box; the turnover discharging device drives the turnover box to turn over so that the raw materials in the turnover box are dumped into the discharging hopper; the conveying assembly is arranged below the discharging hopper, and the tail end of the conveying assembly is matched with a feeding hole of the mixing hopper; the raw materials in the lower hopper are conveyed to the mixing hopper through the conveying assembly.

A plurality of mutually independent blanking channels with upper and lower openings are arranged in parallel in a blanking hopper of the material mixing device; the blanking channels correspond to the turnover positions of the turnover box one by one.

The mixing device further comprises an adjusting mechanism; the adjusting mechanism is arranged on the mounting frame below the discharging hopper; the adjusting mechanism is matched with a bottom outlet of a blanking channel outside the blanking hopper, and is used for adjusting the discharge amount of the bottom outlet of the blanking channel matched with the adjusting mechanism.

The adjusting mechanism of the mixing device comprises an adjusting rod, a gear, a movable baffle and a rack; the movable baffle is connected to the mounting frame in a sliding mode, and the end face of the movable baffle is close to the outlet edge of the bottom end of the blanking channel; the adjusting rod is rotatably connected to the mounting frame; the gear and the rack are respectively arranged on the adjusting rod and the movable baffle, and the gear is meshed with the rack.

The mixing hopper of the mixing device is rotatably connected to the front part of the mounting frame and is positioned below one end of the transmission assembly; the upper end and the lower end of the mixing hopper are provided with openings; a plurality of partition plate assemblies are sequentially arranged in the inner cavity of the mixing hopper from top to bottom; the baffle plate assembly comprises a middle arc baffle plate and two inclined plates which are respectively arranged above two sides of the middle arc baffle plate and incline to the middle arc baffle plate.

A top hopper cylinder is arranged behind the top hopper cylinder of the mixing device; and the cylinder body and the rod body of the top hopper cylinder are respectively hinged with the front part of the mounting frame and the rear part of the mixing hopper.

The utility model also comprises a frame; the mounting frames of the turning and blanking device, the turnover box and the material mixing device are all arranged on the rack; the overturning and blanking device comprises a plurality of overturning and blanking mechanisms which are arranged on the rack side by side; the overturning and blanking mechanism comprises a positioning frame and a connecting rod driving assembly; the positioning frame is rotatably connected to the top of the rack and is positioned above the discharging hopper; the positioning frame is used for positioning a turnover box, and a quick-assembling clamp for fixing the turnover box is arranged on the positioning frame; the connecting rod driving assembly is connected with the positioning frame and drives the positioning frame to overturn, so that raw materials in the turnover box are poured into the discharging hopper.

The connecting rod driving assembly of the overturning and blanking mechanism of the overturning and blanking device comprises a driving cylinder, a first connecting rod and a second connecting rod; the rear part of the frame is provided with a support frame which inclines upwards; one end of the first connecting rod and one end of the second connecting rod are respectively hinged with the positioning frame and the supporting frame; the cylinder body of the driving cylinder is hinged with the front part of the rack, and the rod body of the driving cylinder is hinged with the other end of the first connecting rod and the other end of the second connecting rod.

The transmission assembly of the mixing device is a synchronous belt transmitter; a plurality of convex ribs perpendicular to the transmission direction are uniformly arranged on a synchronous belt of the synchronous belt transmitter.

The positioning frame of the turnover blanking device comprises a limiting side plate, a connecting rod, a front connecting seat, a front limiting column, a front limiting sheet and a bottom reinforcing seat; two limiting side plates are arranged in parallel; two ends of the connecting rod are respectively connected with the two limiting side plates, and a plurality of connecting rods are arranged along the length direction of the limiting side plates; two ends of the front connecting seat are respectively fixed with the two limiting side plates and are positioned at the front ends of the limiting side plates; the front connecting seat is rotationally connected with the frame; the front limiting column is vertically arranged on the top end face of the front connecting seat; the front limiting sheet is arranged at the top end of the front limiting column and is attached to the top end of the front part of the turnover box; the bottom reinforcing seat is connected with the two limiting side plates and is positioned below the connecting rod.

By adopting the technical scheme, the utility model discloses following beneficial effect has:

(1) the utility model discloses a upset unloader drive turnover case upset is carried out the unloading, and the raw materials loops through down hopper and transmission assembly and gets into and mix in the mixing hopper, and the raw materials is emptyd more completely, avoids a large amount of raw materials to remain in the turnover case, practices thrift manufacturing cost, improves work efficiency.

(2) The discharging hopper of the mixing device of the utility model is internally provided with a plurality of discharging channels which are provided with upper and lower openings and are mutually independent side by side; the unloading passageway corresponds with the upset position one-to-one of turnover case, can realize that different raw materials carry out the unloading, is convenient for follow-up control to raw materials mixture ratio.

(3) The utility model discloses a compounding device still includes adjustment mechanism, realizes the control to the raw materials mixture ratio through the load of adjusting the export of unloading passageway bottom, improves the finished product quality greatly.

(4) The utility model discloses the compounding fill of compounding device rotates the front portion of connection at the mounting bracket to be located the below of transmission subassembly one end, both ends opening about the compounding is fought, be equipped with a plurality of baffle subassemblies from top to bottom in the inner chamber of compounding fill in proper order, baffle subassembly includes middle part circular arc baffle, and locate middle part circular arc baffle both sides top respectively, to two swash plates of middle part circular arc baffle slope, the compounding fill does not have the design of drive instrument formula and practices thrift manufacturing cost greatly, make the raw materials mix at the in-process of whereabouts by oneself through baffle subassembly, the structure is ingenious.

(5) The utility model discloses a rear of top fill cylinder of compounding device is equipped with top fill cylinder, the cylinder body and the body of rod of top fill cylinder are articulated with the front portion of mounting bracket and the rear portion of mixing hopper respectively, keep away to mix the raw materials ejection of compact and be the sand tower formula on bearing the weight of the container and pile up, make mixed raw materials pile up more evenly on bearing the weight of the container.

(6) The utility model discloses a upset unloader includes a plurality of upset unloading mechanisms that set up in the frame side by side, and upset unloading mechanism includes positioning frame and connecting rod drive assembly, makes the turnover case upset, stable in structure through connecting rod drive assembly drive positioning frame upset.

(7) The connecting rod driving component of the turnover discharging mechanism of the turnover discharging device comprises a driving cylinder, a first connecting rod and a second connecting rod; the rear part of the frame is provided with a support frame which inclines upwards; one end of the first connecting rod and one end of the second connecting rod are respectively hinged with the positioning frame and the supporting frame; the cylinder body of driving actuating cylinder is articulated with the front portion of frame, and the body of rod that drives actuating cylinder is articulated with the other end of head rod and the other end of second connecting rod, makes head rod promote the upset of positioning frame through driving actuating cylinder drive head rod and second connecting rod, and the transmission is stable.

(8) The utility model discloses a transmission assembly of compounding device is hold-in range transmitter, evenly is equipped with the protruding muscle of a plurality of perpendicular to transmission direction on hold-in range transmitter's the hold-in range, is convenient for carry raw materials.

Drawings

In order that the present invention may be more readily and clearly understood, the following detailed description of the present invention is given in conjunction with the accompanying drawings, in which

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the dust-proof cover of the present invention.

Fig. 3 is a rear view of the dust cover of the present invention.

Fig. 4 is a side view of the dust-proof cover of the present invention.

Fig. 5 is a schematic structural diagram of the positioning frame of the turnover discharging mechanism of the turnover discharging device of the present invention.

Fig. 6 is a perspective view of the mixing device of the present invention.

Fig. 7 is a top view of the mixing device of the present invention.

Fig. 8 is a perspective view of the cooperation state of the discharging hopper, the mounting frame and the adjusting mechanism of the mixing device.

Fig. 9 is a bottom view of the cooperation state of the discharge hopper, the mounting frame and the adjusting mechanism of the mixing device of the present invention.

Fig. 10 is a top view of the mixing hopper of the mixing device of the present invention.

Fig. 11 is a sectional view a-a of fig. 10.

The reference numbers in the drawings are:

the automatic feeding device comprises a turnover discharging device 1, a positioning frame 1-1, a limiting side plate 1-1-1, a connecting rod 1-1-2, a front connecting seat 1-1-3, a front limiting column 1-1-4, a front limiting sheet 1-1-5, a bottom reinforcing seat 1-1-6, a quick-assembling clamp 1-2, a driving cylinder 1-3, a first connecting rod 1-4 and a second connecting rod 1-5;

a turnover box 2;

the device comprises a material mixing device 3, a discharging hopper 3-1, a partition plate 3-1-1, a discharging channel 3-1-2, a first baffle plate 3-1-3, a second baffle plate 3-1-4, a mounting frame 3-2, a displacement tank, a material mixing hopper 3-4, a middle arc partition plate 3-4-1, an inclined plate 3-4-2, a material baffle plate 3-4-3, an adjusting mechanism 3-5, an adjusting rod 3-5-1, a gear 3-5-2, a movable baffle plate 3-5-3, an L-shaped pointer 3-5-3-1, a rack 3-5-4, a locking ring 3-5-5, a threaded handle 3-5-6 and a top hopper cylinder 3-6;

a frame 4 and a support frame 4-1;

a synchronous belt transmitter 5 and a convex rib 5-1;

the material receiving box moving mechanism 6, the bottom frame 6-1, the movable frame 6-2, the material receiving box 6-3 and the pushing cylinder 6-4;

and a dust cover 7.

Detailed Description

(example 1)

Referring to fig. 1 to 11, the mixer of the embodiment includes an overturning and blanking device 1, a turnover box 2, a mixing device 3, a frame 4, a receiving box moving mechanism 6 and a dust cover 7. The turnover box 2 is three and is detachably fixed on the turnover discharging device 1. The mixing device 3 comprises a discharging hopper 3-1, a mounting frame 3-2, a mixing hopper 3-4 and a transmission assembly. The overturning and blanking device 1, the turnover box 2 and the mounting rack 3-2 of the mixing device 3 are all arranged on the frame 4. The mixing hopper 3-4 and the transmission component are arranged on the mounting frame 3-2. The position of the lower hopper 3-1 is matched with that of the turnover box 2. The turnover blanking device 1 drives the turnover box 2 to turn over so that the raw materials in the turnover box 2 are dumped into the blanking hopper 3-1. The transmission component is arranged below the discharging hopper 3-1, and the tail end of the transmission component is matched with the feeding hole of the mixing hopper 3-4. The raw materials in the lower hopper 3-1 pass through a conveying assembly to the mixing hopper 3-4. The dust cover 7 covers the frame 4 and is positioned below the lower hopper 3-1.

The upper end and the lower end of a lower hopper 3-1 of the mixing device 3 are opened, and two partition plates 3-1-1 are arranged in the inner cavity of the lower hopper 3-1 in parallel. The two clapboards 3-1-1 divide the inner cavity of the blanking hopper 3-1 into three vertically extending blanking passages 3-1-2. The three blanking channels 3-1-2 correspond to the turning positions of the three turnover boxes 2 respectively.

The mixing device 3 also comprises an adjusting mechanism 3-5. The mounting rack 3-2 is arranged below the discharging hopper 3-1. Two adjusting mechanisms 3-5 are arranged and are respectively arranged on two sides of the mounting rack 3-2. The two adjusting mechanisms 3-5 are respectively matched with outlets at the bottom ends of the two blanking channels 3-1-2 at the outer sides of the blanking hoppers 3-1, and the adjusting mechanisms 3-5 are used for adjusting the discharging amount of the outlets at the ends of the blanking channels 3-1-2 matched with the adjusting mechanisms. When three different raw materials respectively pass through the three blanking passages 3-1-2, the proportion control of the mixed raw materials can be realized by adjusting the discharge amount of the outlet at the end of the blanking passage 3-1-2 through the adjusting mechanism 3-5.

The adjusting mechanism 3-5 of the mixing device 3 comprises an adjusting rod 3-5-1, a gear 3-5-2, a movable baffle 3-5-3, a rack 3-5-4 and a positioning component. The movable baffle 3-5-3 is connected to the mounting frame 3-2 in a sliding mode, and the end face of the movable baffle 3-5-3 is close to the outlet edge of the bottom end of the blanking channel 3-1-2. The adjusting rod 3-5-1 is rotatably connected to the mounting frame 3-2. The gear 3-5-2 and the rack 3-5-4 are respectively arranged on the adjusting rod 3-5-1 and the movable baffle 3-5-3, and the gear 3-5-2 is meshed with the rack 3-5-4. When the adjusting mechanism 3-5 is used, the adjusting rod 3-5-1 is rotated, the gear 3-5-2 drives the rack 3-5-4, so that the movable baffle 3-5-3 moves towards the other side along one side of the bottom outlet of the blanking channel 3-1-2, and the movable baffle 3-5-3 shields one part of the bottom outlet of the blanking channel 3-1-2.

An L-shaped pointer 3-5-3-1 is arranged on a movable baffle 3-5-3 of an adjusting mechanism 3-5 of the mixing device 3. The mounting rack 3-2 is provided with a first displacement groove for one end of the L-shaped pointer 3-5-3-1 to penetrate through and provide a displacement space. A second displacement groove for penetrating one end of the L-shaped pointer 3-5-3-1 and providing a displacement space is arranged on the dust cover 7, and a scale mark matched with the L-shaped pointer 3-5-3-1 is arranged at the edge of the second displacement groove

The positioning component of the adjusting mechanism 3-5 of the mixing device 3 is used for positioning the axial position of the adjusting rod 3-5-1. The positioning assembly comprises a locking ring 3-5-5 and a threaded shank 3-5-6. One end of the adjusting rod 3-5-1 penetrates through the front part of the mounting frame 3-2 and is rotatably connected with the mounting frame 3-2. The locking ring 3-5-5 is sleeved on the adjusting rod 3-5-1 and is fixedly connected with the mounting frame 3-2. The locking ring 3-5-5 is provided with a gap extending from the outer peripheral surface to the inner peripheral surface. One end of the threaded handle 3-5-6 penetrates through one side of the locking ring 3-5-5, the gap of the locking ring 3-5-5 and the other side of the locking ring 3-5-5 in sequence and is in threaded connection with the locking ring 3-5-5.

The mixing hopper 3-4 of the mixing device 3 is rotatably connected to the front part of the mounting frame 3-2 and is positioned below one end of the transmission component. The upper and lower ends of the mixing hopper 3-4 are opened. A plurality of baffle plate assemblies are sequentially arranged in the inner cavities of the mixing hoppers 3-4 from top to bottom. The baffle plate component comprises a middle arc baffle plate 3-4-1 and two inclined plates 3-4-2 which are respectively arranged above two sides of the middle arc baffle plate 3-4-1 and inclined towards the middle arc baffle plate 3-4-1. The convex surface of the middle arc clapboard 3-4-1 is upward. The top end of the front part of the mixing hopper 3-4 is provided with a material baffle 3-4-3 which is inclined backwards. A top bucket cylinder 3-6 is arranged behind the top bucket cylinder 3-6 of the mixing device 3. The cylinder body and the rod body of the top hopper cylinder 3-6 are respectively hinged with the front part of the mounting frame 3-2 and the rear part of the mixing hopper 3-4.

The cross-sectional area of the top of a blanking channel 3-1-2 of a blanking hopper 3-1 of the material mixing device 3 is larger than that of the bottom. The cross-sectional area of the top of the mixing hopper 3-4 is larger than the cross-sectional area of the bottom.

The transmission component of the mixing device 3 is a synchronous belt transmitter 5. A plurality of convex ribs 5-1 vertical to the transmission direction are uniformly arranged on the synchronous belt of the synchronous belt transmitter 5.

The overturning and blanking device 1 comprises three overturning and blanking mechanisms which are arranged on the rack 4 side by side. The overturning and blanking mechanism comprises a positioning frame 1-1 and a connecting rod driving assembly. The positioning frame 1-1 is rotatably connected to the top of the frame 4, and the positioning frames 1-1 of the three overturning blanking mechanisms are respectively positioned above the rear parts of the three blanking channels 3-1-2. The positioning frame 1-1 is used for positioning the turnover box 2, and the positioning frame 1-1 is provided with a fast-assembling clamp 1-2 used for fixing the turnover box 2. The connecting rod driving assembly is connected with the positioning frame 1-1 and drives the positioning frame 1-1 to turn.

The connecting rod driving component of the overturning and blanking mechanism of the overturning and blanking device 1 comprises a driving cylinder 1-3, a first connecting rod 1-4 and a second connecting rod 1-5. The rear part of the frame 4 is provided with a support frame 4-1 which inclines upwards. One end of the first connecting rod 1-4 and one end of the second connecting rod 1-5 are respectively hinged with the positioning frame 1-1 and the supporting frame 4-1. The length of the first connecting rod 1-4 is greater than the length of the second connecting rod 1-5. The cylinder body of the driving cylinder 1-3 is hinged with the front part of the frame 4, and the rod body of the driving cylinder 1-3 is hinged with the other end of the first connecting rod 1-4 and the other end of the second connecting rod 1-5.

The material receiving box moving mechanism 6 is arranged below the material mixing hoppers 3-4 of the material mixing device 3. The material receiving box moving mechanism 6 comprises a bottom frame 6-1, a movable frame 6-2, a material receiving box 6-3 and a pushing cylinder 6-4. The movable frame 6-2 is connected to the bottom frame 6-1 in a sliding manner. The material receiving boxes 6-3 are arranged on the movable frame 6-2 along the length direction of the movable frame 6-2. The pushing cylinder 6-4 is fixed at one end of the bottom frame 6-1, and the pushing cylinder 6-4 drives the movable frame 6-2 to move.

Two sides and the front part of the top of a lower hopper 3-1 of the mixing device 3 are provided with first baffle plates 3-1-3 extending upwards. The top of each baffle 3-1-1 of the lower hopper 3-1 is provided with a second baffle 3-1-4 extending upwards.

A positioning frame 1-1 of the turnover blanking device 1 comprises a limiting side plate 1-1-1, a connecting rod 1-1-2, a front connecting seat 1-1-3, a front limiting column 1-1-4, a front limiting sheet 1-1-5 and a bottom reinforcing seat 1-1-6. Two limiting side plates 1-1-1 are arranged in parallel. Two ends of the connecting rod 1-1-2 are respectively connected with the two limiting side plates 1-1-1, and a plurality of connecting rods are arranged along the length direction of the limiting side plates 1-1-1. Two ends of the front connecting seat 1-1-3 are respectively fixed with the two limiting side plates 1-1-1 and are positioned at the front ends of the limiting side plates 1-1-1. The front connecting seat 1-1-3 is rotationally connected with the frame 4. The front limiting column 1-1-4 is vertically arranged on the top end surface of the front connecting seat 1-1-3. The front limiting sheet 1-1-5 is arranged at the top end of the front limiting column 1-1-4 and is attached to the top end of the front part of the turnover box 2. The bottom reinforcing seat 1-1-6 is connected with the two limiting side plates 1-1-1 and is positioned below the connecting rod 1-1-2.

When in use, the turnover box 2 respectively taking different raw materials is respectively placed on the positioning frames 1-1 of the three turnover discharging mechanisms by manpower or external turnover equipment, the turnover box 2 is fixed by the fast-assembling clamp 1-2, the discharging amount of the bottom outlet of the discharging channel 3-1-2 at the two sides of the two discharging hoppers 3-1 is respectively adjusted by the two adjusting mechanisms 3-5 of the mixing device 3, the axial position of the adjusting rod 3-5-1 of the adjusting mechanism 3-5 is positioned by the positioning component of the adjusting mechanism 3-5, the position of the movable baffle 3-5-3 is fixed, the three turnover discharging mechanisms of the turnover discharging device 1 work, the driving cylinder 1-3 of the turnover discharging mechanism drives the joint of the first connecting rod 1-4 and the second connecting rod 1-5 to move backwards, the first connecting rod 1-4 pushes the positioning frame 1-1 to turn forwards, so that raw materials in the turnover boxes 2 fixed on the positioning frames 1-1 of the turnover blanking mechanisms are poured into the blanking channels 3-1-2, the raw materials in the three turnover boxes 2 respectively fall onto the synchronous belt conveyor 5 through outlets at the bottoms of the three blanking channels 3-1-2, the synchronous belt conveyor 5 conveys the raw materials into the mixing hopper 3-4, the raw materials fall in the mixing hopper 3-4 by gravity and are mixed under the action of the middle arc partition plate 3-4-1 and the inclined plate 3-4-2 of the mixing component, and finally fall into the material receiving box 6-3 through an outlet at the bottom end of the mixing hopper 3-4.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A blender mixer which is characterized in that: comprises a turnover blanking device (1), a turnover box (2), a mixing device (3) and a frame (4); a plurality of turnover boxes (2) are arranged and detachably fixed on the turnover discharging device (1); the mixing device (3) comprises a discharging hopper (3-1), a mounting rack (3-2), a mixing hopper (3-4) and a transmission assembly; the mounting frames (3-2) of the turnover blanking device (1), the turnover box (2) and the mixing device (3) are all arranged on the rack (4); the mixing hopper (3-4) and the transmission assembly are arranged on the mounting frame (3-2); the position of the discharging hopper (3-1) is matched with that of the turnover box (2); the turnover discharging device (1) drives the turnover box (2) to turn over so that the raw materials in the turnover box (2) are dumped into the discharging hopper (3-1); the conveying assembly is arranged below the discharging hopper (3-1), and the tail end of the conveying assembly is matched with a feeding hole of the mixing hopper (3-4); the raw materials in the lower hopper (3-1) are conveyed to the mixing hopper (3-4) through a conveying component.

2. The blender mixer of claim 1, wherein: a plurality of mutually independent blanking channels (3-1-2) with upper and lower openings are arranged in parallel in a blanking hopper (3-1) of the material mixing device (3); the blanking channels (3-1-2) correspond to the turnover positions of the turnover box (2) one by one.

3. The blender mixer of claim 2, wherein: the mixing device (3) further comprises an adjusting mechanism (3-5); the adjusting mechanism (3-5) is arranged on the mounting rack (3-2) below the discharging hopper (3-1); the adjusting mechanism (3-5) is matched with a bottom outlet of a blanking channel (3-1-2) at the outer side of the blanking hopper (3-1), and the adjusting mechanism (3-5) is used for adjusting the discharging amount of the bottom outlet of the blanking channel (3-1-2) matched with the adjusting mechanism.

4. The blender mixer of claim 3, wherein: the adjusting mechanism (3-5) of the mixing device (3) comprises an adjusting rod (3-5-1), a gear (3-5-2), a movable baffle (3-5-3) and a rack (3-5-4); the movable baffle (3-5-3) is connected to the mounting frame (3-2) in a sliding manner, and the end face of the movable baffle (3-5-3) is close to the outlet edge at the bottom end of the blanking channel (3-1-2); the adjusting rod (3-5-1) is rotatably connected to the mounting rack (3-2); the gear (3-5-2) and the rack (3-5-4) are respectively arranged on the adjusting rod (3-5-1) and the movable baffle (3-5-3), and the gear (3-5-2) is meshed with the rack (3-5-4).

5. The blender mixer of claim 1, wherein: a mixing hopper (3-4) of the mixing device (3) is rotatably connected to the front part of the mounting frame (3-2) and is positioned below one end of the conveying assembly; the upper end and the lower end of the mixing hopper (3-4) are opened; a plurality of partition plate assemblies are sequentially arranged in the cavity of the mixing hopper (3-4) from top to bottom; the baffle plate assembly comprises a middle arc baffle plate (3-4-1) and two inclined plates (3-4-2) which are respectively arranged above two sides of the middle arc baffle plate (3-4-1) and inclined towards the middle arc baffle plate (3-4-1).

6. The blender mixer of claim 1, wherein: a top bucket cylinder (3-6) is arranged behind the top bucket cylinder (3-6) of the mixing device (3); the cylinder body and the rod body of the top hopper cylinder (3-6) are respectively hinged with the front part of the mounting frame (3-2) and the rear part of the mixing hopper (3-4).

7. The blender mixer of claim 1, wherein: the overturning and blanking device (1) comprises a plurality of overturning and blanking mechanisms which are arranged on the rack (4) side by side; the overturning and blanking mechanism comprises a positioning frame (1-1) and a connecting rod driving assembly; the positioning frame (1-1) is rotatably connected to the top of the rack (4) and is positioned above the discharging hopper (3-1); the positioning frame (1-1) is used for positioning a turnover box (2), and the positioning frame (1-1) is provided with a quick-assembling clamp (1-2) for fixing the turnover box (2); the connecting rod driving assembly is connected with the positioning frame (1-1) and drives the positioning frame (1-1) to overturn, so that raw materials in the turnover box (2) are poured into the discharging hopper (3-1).

8. The blender mixer of claim 7, wherein: the connecting rod driving assembly of the overturning and blanking mechanism of the overturning and blanking device (1) comprises a driving cylinder (1-3), a first connecting rod (1-4) and a second connecting rod (1-5); the rear part of the frame (4) is provided with a support frame (4-1) which inclines upwards; one end of the first connecting rod (1-4) and one end of the second connecting rod (1-5) are respectively hinged with the positioning frame (1-1) and the supporting frame (4-1); the cylinder body of the driving cylinder (1-3) is hinged with the front part of the rack (4), and the rod body of the driving cylinder (1-3) is hinged with the other end of the first connecting rod (1-4) and the other end of the second connecting rod (1-5).

9. The blender mixer of claim 1, wherein: the transmission component of the mixing device (3) is a synchronous belt transmitter (5); a plurality of convex ribs (5-1) vertical to the transmission direction are uniformly arranged on the synchronous belt of the synchronous belt transmitter (5).

10. The blender mixer of claim 7, wherein: the positioning frame (1-1) of the turnover blanking device (1) comprises a limiting side plate (1-1-1), a connecting rod (1-1-2), a front connecting seat (1-1-3), a front limiting column (1-1-4), a front limiting sheet (1-1-5) and a bottom reinforcing seat (1-1-6); two limiting side plates (1-1-1) are arranged in parallel; two ends of the connecting rod (1-1-2) are respectively connected with the two limiting side plates (1-1-1), and a plurality of connecting rods are arranged along the length direction of the limiting side plates (1-1-1); two ends of the front connecting seat (1-1-3) are respectively fixed with the two limiting side plates (1-1-1) and are positioned at the front ends of the limiting side plates (1-1-1); the front connecting seat (1-1-3) is rotationally connected with the frame (4); the front limiting column (1-1-4) is vertically arranged on the top end surface of the front connecting seat (1-1-3); the front limiting sheet (1-1-5) is arranged at the top end of the front limiting column (1-1-4) and is attached to the top end of the front part of the turnover box (2); the bottom reinforcing seat (1-1-6) is connected with the two limiting side plates (1-1-1) and is positioned below the connecting rod (1-1-2).

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