CN114160003A - Double-shaft mixer - Google Patents

Abstract

The invention relates to the technical field of feed processing equipment, in particular to a double-shaft mixer which comprises a rack, a barrel, a mixing assembly, a gate assembly and a door opening assembly, wherein the barrel is arranged on the rack, a discharge hole is formed in the lower side of the barrel, the mixing assembly is arranged on the barrel, the gate assembly is used for sealing and covering the discharge hole, the door opening assembly is arranged on the rack and used for driving the gate assembly to swing, the gate assembly comprises an inner frame, an upper door plate and a lower door plate, the upper door plate is fixed on the surface of the inner frame and used for sealing the discharge hole, the lower door plate is fixed in the inner frame and arranged at the output end of the door opening assembly, the bottom surface of the upper door plate is overlapped with the top surface of the inner frame, the bottom surface of the lower door plate is overlapped with the bottom surface of the inner frame, and the thicknesses of the upper door plate and the lower door plate are one sixth to one third of the thickness of the inner frame. The double-shaft mixer disclosed by the invention can reduce the deformation of the gate component and the barrel body caused by the collision of the gate component and the lower side of the barrel body, prolong the service life of the gate component and the barrel body and reduce the energy consumption.

Description

Double-shaft mixer

Technical Field

The invention relates to the technical field of feed processing equipment, in particular to a double-shaft mixer.

Background

Mixing is one of the important links in feed production and processing, and when the feed is produced, the ingredients are mixed according to the proportion of the formula, so that the feed obtains corresponding nutrition. However, if those ingredients are not properly mixed, the important formulation and quality control systems lose the expected optimum results. The principle of the double-shaft mixer is that the materials are quickly and thoroughly mixed, and compared with a common horizontal mixer, the double-shaft mixer occupies small space and buffer, has low unit power consumption, can feed materials in all directions to meet different working requirements, and is often used for the mixing process of feeds.

Double-shaft mixer among the prior art, mostly include the frame, the barrel, mixing assembly, gate and drive gate wobbling subassembly that opens the door, the barrel downside is equipped with two discharge gates, it seals the discharge gate or exposes the discharge gate to correspond to have two gates, before the batching enters into the barrel and when being mixed by mixing assembly in the barrel, two gates of subassembly drive that opens the door are gone up the pendulum simultaneously and are sealed the discharge gate, after the batching mixes finishes, two gates of subassembly drive that opens the door are lower pendulum simultaneously, the fodder falls from the discharge gate, in order to be ready for the mixture of a groove fodder. The door opening assembly mostly adopts the forms of a cylinder driving connecting rod, a rotating shaft and a swing arm to drive two gates to synchronously act. In order to improve the neatness of the feed, the cylinder body and the gate are both made of stainless steel. However, in the working process of the double-shaft mixer, the gate and the lower side of the cylinder body collide for multiple times, if the thickness of the gate is thin, the weight is light, the strength is low, the gate is easy to deform after collision, and the service life of the gate is influenced; if gate thickness is thick and leads to intensity height in the quality, barrel downside collision back is out of shape easily, influences the life of barrel, and need choose for use the great opening door subassembly of promotion dynamics for use, and the energy consumption is great.

Disclosure of Invention

The invention aims to provide a double-shaft mixer, which can prolong the service life of a gate component and a cylinder and reduce energy consumption.

In order to solve the technical problem, the double-shaft mixer comprises a rack, a barrel, a mixing assembly, a gate assembly and a door opening assembly, wherein the barrel is installed on the rack, a discharge hole is formed in the lower side of the barrel, the mixing assembly is installed on the barrel, the gate assembly is used for covering the discharge hole, the door opening assembly is installed on the rack and used for driving the gate assembly to swing, the gate assembly comprises an inner frame, an upper door plate and a lower door plate, the upper door plate is fixed on the surface of the inner frame and used for sealing the discharge hole, the lower door plate is fixed in the inner frame and installed at the output end of the door opening assembly, the bottom surface of the upper door plate is overlapped with the top surface of the inner frame, the bottom surface of the lower door plate is overlapped with the bottom surface of the inner frame, and the thicknesses of the upper door plate and the lower door plate are one sixth to one third of the thickness of the inner frame.

As an improvement of the above scheme, the discharge port is in a concave arc shape, and when the gate assembly seals the discharge port, the top surface of the upper door panel, the top surface of the inner frame and the bottom surface of the inner frame are arranged in a manner of offsetting relative to the axis of the discharge port.

As an improvement of the scheme, the thickness of the upper door plate is two-thirds to five-sixths of the thickness of the lower side of the cylinder.

As the improvement of above-mentioned scheme, barrel downside fixed mounting has the outline that the frame stretched into in supplying, just when the discharge gate subassembly sealed the discharge gate, the top surface of outline and the top surface coincidence of interior frame, the bottom surface of outline and the bottom surface coincidence of interior frame.

As an improvement of the scheme, the front, rear, left and right sides of the inner frame of the outer frame incline outwards from top to bottom, and when the gate assembly seals the discharge hole, the front, rear, left and right sides of the outer frame of the inner frame are correspondingly superposed with the front, rear, left and right sides of the inner frame of the outer frame one by one.

As an improvement of the scheme, the front, rear, left and right side surfaces of the upper door plate are correspondingly superposed with the front, rear, left and right side surfaces of the inner side frame one by one.

As an improvement of the scheme, the front side, the rear side, the left side and the right side of the outer frame are provided with accommodating grooves, and the accommodating grooves are provided with sealing rubber pads.

As the improvement of above-mentioned scheme, first connecting plate is installed to the subassembly output end department that opens the door, the gate subassembly still includes connecting bolt, coupling nut and fixes the second connecting plate in door plant bottom surface down, the second connecting plate is equipped with two interval parallel arrangement's rectangular through-hole, first connecting plate is equipped with two intervals and the same connecting round hole in rectangular through-hole interval, connecting bolt passes connecting round hole and rectangular through-hole and coupling nut threaded connection.

As an improvement of the above scheme, the gate assembly further comprises a fixing nut fixed at the first connecting plate and a fixing bolt in threaded connection with the fixing nut and having one end used for abutting against the bottom surface of the lower door panel.

As an improvement of the scheme, two first connecting plates are arranged at intervals on each gate assembly, and a plurality of second connecting plates in one-to-one correspondence with the first connecting plates are arranged at the output end of each gate opening assembly.

The implementation of the invention has the following beneficial effects:

according to the double-shaft mixer, the gate assembly is formed by combining the upper door plate, the lower door plate and the outer frame, and the cavity is enclosed, so that the quality of the gate assembly can be greatly reduced while the sufficient strength is provided for the gate assembly, the deformation of the gate assembly and the barrel body caused by the collision of the gate assembly and the lower side of the barrel body is reduced, the service lives of the gate assembly and the barrel body are prolonged, and meanwhile, an opening assembly with small pushing force can be selected, so that the energy consumption is reduced.

Drawings

FIG. 1 is a schematic view showing the external structure of a twin-shaft mixer according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a shutter assembly according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of the operation of the gate assembly in an embodiment of the present invention;

FIG. 4 is an enlarged view taken at A in FIG. 3;

FIG. 5 is a schematic view of the structure of the shutter assembly mounted to the door opening assembly according to the embodiment of the present invention;

fig. 6 is an enlarged view at B in fig. 5.

In the figure: 1. a frame; 2. a barrel; 21. a discharge port; 3. a mixing assembly; 5. a door opening assembly; 41. an inner frame; 42. an upper door panel; 43. a lower door panel; 22. an outer frame; 23. an accommodating recess; 24. sealing the rubber gasket; 51. a first connecting plate; 44. a connecting bolt; 45. a connecting nut; 46. a second connecting plate; 47. a strip through hole; 52. the connecting circular hole; 48. fixing a nut; 49. and (5) fixing the bolt.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments so as to more clearly understand the technical idea of the invention claimed. It is only noted that the invention is intended to be limited to the specific forms set forth herein, including any reference to the drawings, as well as any other specific forms of embodiments of the invention.

As shown in fig. 1 to 6, a double-shaft mixer in an embodiment of the present invention includes a frame 1, a barrel 2 mounted on the frame 1 and having a discharge port 21 at a lower side, a mixing assembly 3 mounted on the barrel 2, a gate assembly for covering the discharge port 21, and a gate assembly 5 mounted on the frame 1 and used for driving the gate assembly to swing, in practice, a feed port for feeding ingredients and a feed gate (not shown in the drawings) mounted at the feed port are provided at an upper side of the barrel 2, and two sets of discharge ports 21 are correspondingly provided at left and right sides of the lower side of the barrel 2; as shown in fig. 1, the mixing assembly 3 has two stirring shafts with opposite rotation directions; door opening assembly 5 includes the mode drive two sets of gate assemblies synchronization motion of cylinder, connecting rod, swing arm and rotation axis, and this embodiment no longer gives unnecessary details to mixing subassembly 3 and door opening assembly 5's structure and theory of operation one by one. The batching gets into from 2 upside feed inlets of barrel, mixes the back through mixing module 3, 5 drive two sets of gate assemblies downswings of subassembly that open the door, the fodder leaves from 2 downside discharge gates 21 of barrel to can carry next process by external conveyor.

As shown in fig. 2, the gate assembly includes an inner frame 41, an upper door plate 42 fixed on the surface of the inner frame 41 and used for sealing the discharge hole 21, and a lower door plate 43 fixed in the inner frame 41 and installed at the output end of the door opening assembly 5, wherein the bottom surface of the upper door plate 42 coincides with the top surface of the inner frame 41, the bottom surface of the lower door plate 43 coincides with the bottom surface of the inner frame 41, and the thickness of the upper door plate 42 and the lower door plate 43 is one sixth to one third of the thickness of the inner frame 41. In this embodiment, the preferred 5mm of thickness of going up door plant 42 and lower door plant 43, the preferred 20mm of thickness of interior frame 41, the combination through going up door plant 42, lower door plant 43 and outline 22 forms the gate subassembly that the gross thickness is 25mm and encloses a thickness and be 15 mm's cavity, when providing sufficient intensity for the gate subassembly, can also the quality of the gate subassembly that significantly reduces, reduce the gate subassembly and 2 downside collisions of barrel and lead to the deformation of gate subassembly and barrel 2, the life of extension gate subassembly and barrel 2, the less door subassembly 5 that opens of promotion dynamics can also be chooseed for use simultaneously, reduce the energy consumption.

For convenience of understanding, the left gate assembly in fig. 3 is in an open state, the right gate assembly is in a closed state, and actually, the two gate assemblies should be in a closed state or an open state at the same time, and actually, as shown in fig. 2 and 3, the discharge port 21 is preferably in a concave arc shape, so that the lower part of the cylinder 2 is in two arc concave cavities, and the dead angle position of the mixing space of the cylinder 2 is reduced corresponding to the two mixing shafts of the mixing assembly 3; when the gate assembly seals the discharge port 21, the top surface of the upper door panel 42, the top surface of the inner frame 41 and the bottom surface of the inner frame 41 are offset relative to the axis of the discharge port 21, that is, the upper door panel 42 and the inner frame 41 are also in a concave arc shape and offset relative to the axis of the discharge port 21, so that the door panel and the inner frame 41 are more attached to the discharge port 21 when the gate assembly seals the discharge port 21, and the sealing degree between the gate assembly and the discharge port 21 is improved. In addition, the lower door panel 43 may be parallel to the upper door panel 42 or may have other shapes (the lower door panel 43 may be parallel to the upper door panel 42 as illustrated in the drawings). Further, as shown in fig. 3 and 4, the thickness of the upper door plate 42 is preferably two thirds to five sixths of the thickness of the lower side of the cylinder 2, and the thickness of the upper door plate 42 is five sixths of the thickness of the lower side of the cylinder 2, so that the upper door is prevented from extending into the mixing space of the cylinder 2, and meanwhile, the joint area between the upper door plate 42 and the discharge port 21 is ensured, and the sealing effect of the gate assembly is ensured.

It is worth mentioning, as shown in fig. 3 and 4, the preferable fixed mounting of barrel 2 downside has the outline 22 that interior frame 41 of confession stretched into, just when the discharge gate subassembly sealed discharge gate 21, the top surface of outline 22 and the top surface coincidence of interior frame 41, the bottom surface of outline 22 and the bottom surface coincidence of interior frame 41. Before the gate subassembly collided with barrel 2 downside, interior frame 41 top surface got into outline 22 earlier, played the translation rate who slows down the gate subassembly under outline 22's guide effect, further reduced the gate subassembly and collided and lead to the deformation of gate subassembly and barrel 2 with barrel 2 downside, the life of extension gate subassembly and barrel 2.

Further, as shown in fig. 3 and 4, the front, rear, left and right side surfaces of the inner frame of the outer frame 22 are preferably inclined from top to bottom to outside, so that the inner frame of the outer frame 22 has a positioning function on the outer frame of the inner frame 41, thereby preventing the deviation of the gate assembly and ensuring that the position of the gate assembly when closed corresponds to the discharge port 21; when the gate assembly seals the discharge port 21, the front, rear, left and right sides of the outer frame of the inner frame 41 and the front, rear, left and right sides of the inner frame of the outer frame 22 are overlapped in a one-to-one correspondence manner, so that the outer side of the inner frame 41 is more attached to the inner side of the inner block when the inner frame 41 completely enters the outer frame 22, and the sealing performance of the gate assembly and the discharge port 21 is ensured. In this embodiment, the front, rear, left, and right sides of the upper door panel 42 are preferably overlapped with the front, rear, left, and right sides of the inner frame 41 in a one-to-one correspondence, so as to enhance the guiding function of the outer frame 22. Furthermore, as shown in fig. 4, the outer frame 22 is preferably provided with accommodating grooves 23 at the front, rear, left, and right sides, and the accommodating grooves 23 are provided with sealing rubber gaskets 24, so as to further improve the sealing performance between the gate assembly and the discharge port 21.

In a preferred embodiment, as shown in fig. 5 and 6, a first connecting plate 51 is preferably mounted at the output end of the door opening assembly 5, the gate assembly further preferably comprises a connecting bolt 44, a connecting nut 45 and a second connecting plate 46 fixed to the bottom surface of the lower door panel 43, the second connecting plate 46 is provided with two elongated through holes 47 arranged in parallel at intervals, the first connecting plate 51 is provided with two connecting circular holes 52 arranged at the same intervals as the elongated through holes 47, and the connecting bolt 44 passes through the connecting circular holes 52 and the elongated through holes 47 to be in threaded connection with the connecting nut 45. Each first connecting plate 51 is provided with two connecting circular holes 52, each second connecting plate 46 is provided with two elongated through holes 47, and correspondingly, there are two sets of connecting bolts 44 and connecting nuts 45. In an assembly mode, the threaded connection between the connecting bolt 44 and the connecting nut 45 is loosened, the threaded connection between the connecting nut 45 is locked after the position of the inner frame 41 is adjusted, and the attaching degree of the gate assembly and the discharge hole 21 can be guaranteed.

Further, as shown in fig. 4, 5 and 6, the shutter assembly preferably further includes a fixing nut 48 fixed at the first connection plate 51 and a fixing bolt 49 threadedly coupled to the fixing nut 48 and having one end for abutting against the bottom surface of the lower door panel 43. After the position of the inner frame 41 is adjusted, the threaded connection of the connecting nut 45 is locked, and the fixing bolt 49 is rotated to enable one end of the fixing bolt 49 to be abutted against the bottom surface of the lower door plate 43, so that the probability that the gate assembly cannot seal the discharge port 21 due to the fact that the drinking gate assembly collides with the lower side of the cylinder 2 for multiple times to change the position of the inner frame 41 is avoided.

In fact, each of the gate assemblies is preferably provided with two first connecting plates 51 at intervals, and the output end of the door opening assembly 5 is provided with a plurality of second connecting plates 46 which are positioned in one-to-one correspondence with the first connecting plates 51. Each of the gate assemblies is connected to the second connecting plate 46 by two pairs of first connecting plates 51, reinforces the gate assembly with the output end of the door opening assembly 5 and has a plurality of position and angle adjustment gate assemblies. In fact, a set of gate assemblies is installed on one rotation shaft of the door opening assembly 5, each set of gate assemblies is provided with one or more gate assemblies, the specific number is selected as required, and fig. 5 illustrates the case where each set of gate assemblies is provided with two gate assemblies, so that one rotation shaft of the door opening assembly 5 is also provided with four second connecting plates 46 for installing four first connecting plates 51 of the two gate assemblies.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A double-shaft mixer characterized in that: including the frame, install in the frame and be equipped with the barrel of discharge gate in the downside, install the hybrid module on the barrel, be used for the gate assembly of closing cap discharge gate and install in the frame and be used for driving the swing subassembly that opens the door of gate assembly, the gate assembly includes interior frame, fixes interior frame surface department and is used for sealing the last door plant of discharge gate, fixes and installs the lower door plant at the subassembly output end department that opens the door including in the frame, go up the bottom surface and interior frame top surface coincidence of door plant, the bottom surface of door plant and the bottom surface coincidence of interior frame down, go up the door plant and the thickness of lower door plant is one sixth to one third of the thickness of interior frame.

2. The twin-shaft mixer of claim 1, wherein: the discharge gate is recessed circular-arc, just when the gate subassembly seals the discharge gate, go up door plant top surface, interior frame top surface and the relative axle center skew setting of discharge gate of interior frame bottom surface.

3. The twin-shaft mixer of claim 2, wherein: the thickness of the upper door plate is two-thirds to five-sixths of the thickness of the lower side of the cylinder.

4. A twin-shaft mixer as defined in claim 3 wherein: the barrel downside fixed mounting has the outline that the frame stretched into in the confession, just when the discharge gate was sealed to the gate subassembly, the top surface of outline and the top surface coincidence of interior frame, the bottom surface of outline and the bottom surface coincidence of interior frame.

5. The twin-shaft mixer of claim 4, wherein: the four sides all around of outline inner frame from the top down outwards slope, just when the gate subassembly seals the discharge gate, the four sides all around of inner frame outer frame coincide with four sides all around of outline inner frame one-to-one.

6. The twin-shaft mixer of claim 5, wherein: the front, back, left and right sides of the upper door plate are correspondingly superposed with the front, back, left and right sides of the inner side frame one by one.

7. The twin-shaft mixer of claim 6, wherein: the outer frame is provided with accommodating grooves in the positions of the front side, the rear side, the left side and the right side, and the accommodating grooves are provided with sealing rubber pads.

8. The twin-shaft mixer of claim 2, wherein: first connecting plate is installed to the subassembly output end department that opens the door, the gate subassembly still includes connecting bolt, coupling nut and fixes the second connecting plate in door plant bottom surface down, the second connecting plate is equipped with two interval parallel arrangement's rectangular through-hole, first connecting plate is equipped with two intervals and the same connecting round hole in rectangular through-hole interval, connecting bolt passes connecting round hole and rectangular through-hole and coupling nut threaded connection.

9. The twin-shaft mixer of claim 8, wherein: the gate assembly further comprises a fixing nut fixed at the first connecting plate and a fixing bolt in threaded connection with the fixing nut, and one end of the fixing bolt is used for abutting against the bottom surface of the lower door plate.

10. The twin-shaft mixer of claim 9, wherein: every the gate subassembly interval is provided with two first connecting plates, it is equipped with the second connecting plate of a plurality of positions and first connecting plate one-to-one to open door subassembly output end department.

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