CN217614320U - Homogeneous mixing device - Google Patents

Abstract

The embodiment of the utility model discloses homogeneity mixing arrangement, include: the rotary tank is provided with a first emptying valve at a discharge port, and the first emptying valve is provided with an operating rod for opening and closing the first emptying valve through rotation; the rotating device is used for driving the rotating tank to rotate so as to carry out blending operation; the turnover device is used for driving the rotary tank to turn over so that the rotary tank is switched between a blending position and a discharging position; and the discharging opening of the rotating tank corresponds to the opening of the discharging hopper, and the opening of the discharging hopper is provided with a control lever limiting part for limiting the rotation of the control lever. The utility model discloses a rotating device drive rotates jar and rotates and accomplish the switching action, has improved operating personnel's safe operation condition, and the upset action and the ooff valve action are mutually supported moreover, need not the first baiting valve of wait for operating personnel switch, and production efficiency is higher.

Description

Homogeneous mixing device

Technical Field

The utility model relates to a material mixing device technical field, more specifically say, relate to a homogeneity mixing arrangement.

Background

With the development of society and the improvement of economic level, people pay more and more attention to energy conservation and environmental protection, and especially pay more attention to the air pollution degree. According to survey, the air pollution source comes from the industry and the construction industry besides the automobile exhaust. For example, in the process of uniformly mixing industrial or building materials, the dust pollution caused is particularly prominent, and great influence is caused to the life of people.

In prior art, mixing arrangement generally includes the blending tank and sets up the agitating unit in the blending tank, and agitating unit generally is screw rod agitating unit and impeller agitating unit, stirs through agitating unit rotation in the blending tank, but no matter which kind of agitating unit is selected, at the in-process that mixes the stirring, because there is the material not to lead to mixing incompletely with agitating unit contact all the time, has caused the waste of material. The mixing device can generate noise and a large amount of dust in the operation process, cannot meet the high-standard production requirement, and has certain danger for inflammable and corrosive dust to be scattered in the air.

Still there is mixing arrangement in mixing among the prior art, and it includes the blending tank, does not set up corresponding agitating unit in the blending tank, but rotates around self axis through the drive blending tank, carries out the mixing operation to the material in the blending tank. After the mixing, need pour the material that mixes in the blending tank into down the hopper, operating personnel need manually open the baiting valve of blending tank for the material in the blending tank pours into down the hopper under the action of gravity. Therefore, although the mixing device can solve the technical problem of the previous mixing device, automatic discharging cannot be realized due to manual discharging, so that certain danger is generated in the discharging process of an operator, and the production efficiency is reduced due to manual discharging.

Therefore, how to improve the safety operation condition of the operator and improve the production efficiency becomes a technical problem to be solved urgently by the technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides a homogeneous mixing device to improve the safe operation condition of the operator and improve the production efficiency.

In order to achieve the above purpose, the utility model provides a following technical scheme:

a homogeneous mixing apparatus comprising:

the rotary tank is provided with a first discharge valve at a discharge port, and the first discharge valve is provided with an operating rod for opening and closing the first discharge valve through rotation;

the rotating device is used for driving the rotating tank to rotate so as to carry out blending operation;

the turnover device is used for driving the rotary tank to turn over so as to enable the rotary tank to be switched between a blending position and a discharging position;

the hopper is arranged, when the rotary tank is located at a discharging position, the discharging port of the rotary tank corresponds to the opening of the hopper, and the opening of the hopper is provided with a control lever limiting part for limiting the rotation of the control lever.

Optionally, in above-mentioned homogeneous mixing device, still include position detecting device, position detecting device is used for detecting whether the rotation jar is in the position of waiting to overturn under the mixing position state, when the rotation jar is by waiting to overturn the position upset to arrange the material position, the action bars can avoid the control lever locating part.

Optionally, the homogenizing and mixing device further comprises a material storage tank for placing the material to be mixed;

a second discharge valve is arranged at a discharge port of the material storage tank and used for controlling the on-off state of the discharge port;

the turnover device is used for driving the rotary tank to turn to a charging position, and when the rotary tank is located at the charging position, the feed inlet of the rotary tank corresponds to the discharge hole of the material storage tank.

Optionally, in the above homogeneous mixing apparatus, a discharge port of the material storage tank is connected to a magnetic telescopic pipe;

when the rotary tank is in the charging position, the magnetic telescopic pipe is in magnetic butt joint with the feed port.

Optionally, in the above homogeneous mixing apparatus, the feed inlet of the rotating tank is provided with a feed valve;

the feed valve is hinged to the inner wall of the rotary tank, is in a closed state under the action of the reset elastic piece, and is in an open state under the action of material gravity.

Optionally, in the above homogeneous mixing apparatus, when the rotating tank is in the blending position, the axis of the rotating tank is in a horizontal state; when the rotary tank is located at the charging position and the discharging position, the axis of the rotary tank is in a vertical state.

Optionally, in the above homogeneous mixing apparatus, the turning apparatus comprises:

one end of the turning support is hinged to the fixed support, and the rotating tank is arranged on the turning support;

one end of the piston cylinder is hinged to the fixed support, and the other end of the piston cylinder is hinged to the overturning support.

Optionally, in the above homogeneous mixing apparatus, a first end of the turning support is hinged to a fixed support, the fixed support has a support portion for supporting a second end of the turning support, and the rotating tank is located at the mixing position when the second end of the turning support is turned to abut against the support portion.

Alternatively, in the above homogeneous mixing apparatus, the rotating means may include:

the driving motor is arranged on the overturning bracket, and an output shaft of the driving motor is provided with a driving gear;

and the driven gear ring is fixedly sleeved on the rotating tank and meshed with the driving gear.

Optionally, in the above homogeneous mixing device, a first rotary supporting device and/or a second rotary supporting device is further included;

the first rotating support device comprises a guide ring groove arranged at the end part of one end, far away from the discharge port, of the rotating tank and a guide roller in rolling fit with the guide ring groove, and the guide roller is rotatably arranged on the overturning bracket;

the second rotary supporting device comprises an annular guide rail arranged on the outer peripheral surface of the rotary tank and a supporting seat arranged on the turnover support, and the supporting seat is provided with a supporting groove in sliding fit with the annular guide rail.

Alternatively, in the above-mentioned homogeneous mixing apparatus, the inner wall of the rotary tank is uniformly provided with the convex grooves.

Optionally, in the above homogeneous mixing apparatus, the first discharge valve is an iris discharge valve.

The utility model provides a homogeneity mixing arrangement when rotating jar needs mixing operation, at first need will rotate jar upset to the mixing position through turning device, then rotate jar rotation through the rotating device drive for the interior material of treating the mixing of rotation jar is turned repeatedly along with the rotation of rotating the jar under the action of gravity, until reaching the mixing. After the material was mixed, through the turning device drive it overturns to arrange the material position to rotate the jar, and the discharge gate that rotates the jar this moment is corresponding with the opening of hopper down, then rotates the jar through the rotating device drive and rotates, and the first baiting valve that rotates jar discharge gate department follows and rotates the jar rotation, and to the action bars of first baiting valve by the spacing back of control lever locating part, the action bars can't continue to rotate along with rotating the jar to realize opening the purpose of first baiting valve, rotate the material after the jar interior mixing under the action of gravity, get into down in the hopper. After the emptying is completed, the rotating device drives the rotating tank to rotate reversely, so that the first emptying valve can be closed, and the next blending operation can be performed conveniently. The utility model discloses owing to do not need the first baiting valve of operating personnel hand switch, accessible rotating device drive rotates the jar and rotates and accomplish the switching action, has consequently improved operating personnel's safe operation condition, and the upset action and the switching valve action are accomplished at one go moreover, need not to wait for the first baiting valve of operating personnel switch, and production efficiency is higher.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of a homogenizing and mixing device according to an embodiment of the present invention in a horizontal position;

fig. 2 is a schematic structural view of a homogenizing and mixing device provided by an embodiment of the present invention in a vertical position;

FIG. 3 is a schematic view of a homomixer in a charging and discharging state according to an embodiment of the present invention;

fig. 4 is a schematic view of an internal structure of a homogeneous mixing device according to an embodiment of the present invention.

The device comprises a rotating tank 100, a feed inlet 101, a discharge outlet 102, a first discharge valve 103, an operating rod 104, a guide ring groove 105, a feed valve 106, a driven gear ring 107, an annular guide rail 108, a position detection device 109, a tank wall 110, a convex groove 111, a driving motor 200, a driving gear 201, a fixed support 300, a hinge shaft 301, a support base 302, an overturning support 303, a guide roller 304, a horizontal support 305, a vertical support 306, a shock absorption member 307, a base 308, a piston cylinder 400, a first hinge shaft 401, a second hinge shaft 402, a piston rod 403, a material storage tank 500, a second discharge valve 501, a magnetic suction telescopic pipe 502, a discharge hopper 600 and a control rod stopper 601.

Detailed Description

The core of the utility model lies in providing a homogeneity mixing arrangement to improve operating personnel's safe operating condition, improve production efficiency.

Hereinafter, embodiments will be described with reference to the drawings. The embodiments described below do not limit the scope of the invention described in the claims. Further, the entire contents of the configurations shown in the following embodiments are not limited to those necessary as a solution of the invention described in the claims.

As shown in fig. 1, the embodiment of the present invention discloses a homogeneous mixing device, which comprises a rotating tank 100, a rotating device, a turnover device and a discharging hopper 600.

The rotating tank 100 is used for placing materials to be mixed for mixing operation, the rotating tank 100 is provided with a discharge port 102, and the materials after mixing can be discharged through the discharge port 102 so as to carry out the next mixing operation. It should be noted that the rotary tank 100 generally has a feed opening 101, so that the material to be mixed is poured into the rotary tank 100 through the feed opening 101. It will be appreciated by those skilled in the art that in some particular applications, the outlet 102 and the inlet 101 are the same inlet/outlet, i.e., the inlet/outlet is used to feed and discharge materials. In the case where the rotary tank 100 has both the outlet port 102 and the inlet port 101, the inlet port 101 and the outlet port 102 may be provided at both ends of the rotary tank 100, respectively.

The discharge port 102 of the rotary tank 100 is provided with a first discharge valve 103, and the first discharge valve 103 is provided with an operating lever 104 for opening and closing the first discharge valve 103 by rotating, for example, the first discharge valve 103 is opened by rotating the operating lever 104 clockwise, the operating lever 104 is rotated counterclockwise, the first discharge valve 103 is closed, or the first discharge valve 103 is opened by rotating the operating lever 104 counterclockwise, the operating lever 104 is rotated clockwise, and the first discharge valve 103 is closed. After the operation lever 104 is restricted, the operation of opening and closing the first discharge valve 103 can be similarly performed by rotating the rotary tank 100 and the first discharge valve 103 to perform the same operation as the rotation of the operation lever 104, as long as the relative rotation of the first discharge valve 103 and the operation lever 104 can be performed.

First baiting valve 103 can be the light ring baiting valve, and light ring baiting valve comprises two valve discs, is last valve disc and lower valve disc respectively, and two valve discs can rotate relatively, go up the valve disc and rotate jar 100 discharge gate 102 rigid coupling, are provided with action bars 104 on the lower valve disc, through blockking action bars 104, the rotatory jar 100 that rotates for go up the valve disc and take place the relative rotation with lower valve disc, realize opening and closing of light ring baiting valve.

The rotating device is used for driving the rotating tank 100 to rotate, and the matching relationship between the rotating device and the rotating tank 100 can be the same as that in the prior art, and the application is not focused on this and will not be described in detail. The rotating device can drive the rotating tank 100 to rotate around the central shaft of the rotating tank 100, so that the problem that the eccentric rotation of the rotating tank 100 causes vibration to affect the service life can be avoided while the blending effect can be achieved.

In a specific embodiment, the rotating device may be configured to drive the rotating tank 100 in a first position, such that the rotating tank 100 drives the first discharge valve 103 to open and close, and the first position may be that the central axis of the rotating tank 100 is perpendicular to the horizontal plane; the central axis of the rotary tank 100 and the vertical plane may form a first preset included angle, that is, the central axis of the rotary tank 100 and the horizontal plane are not perpendicular to each other, as long as the material can fall under the action of gravity, that is, as long as the discharge port 102 can be located at the lowest position or close to the lowest position of the rotary tank 100, and the first position is the discharge position of the rotary tank 100.

In another specific embodiment, the rotating device may be configured to drive the rotating tank 100 in the second position to rotate, so as to stir the materials in the rotating tank 100 uniformly, at this time, the first discharge valve 103 is in a closed state, the second position may be that the central axis of the rotating tank 100 is parallel to the horizontal plane, or that the central axis forms a second preset included angle with the horizontal plane, and the second position is the blending position of the rotating tank 100. It should be noted that the first preset included angle and the second preset included angle can be set by those skilled in the art according to actual situations.

The turning device is used for driving the rotary tank 100 to turn over so that the rotary tank 100 is switched between the blending position and the discharging position, and the matching relationship between the turning device and the rotary tank 100 can be the same as that in the prior art.

Referring to fig. 2 and 3, when the rotary tank 100 is at the discharging position, the discharging port 102 of the rotary tank 100 is in butt joint with the opening of the discharging hopper 600, and a lever limiting piece 601 for limiting the rotation of the operating lever 104 is disposed at one side of the opening of the discharging hopper 600, that is, when the operating lever 104 rotates with the rotary tank 100 to abut against the lever limiting piece 601, the operating lever 104 cannot continue to rotate with the rotary tank 100, so that the operating lever 104 and the first discharging valve 103 rotate relatively, and the first discharging valve 103 is opened and closed.

The control lever limiting part 601 may be a common limiting baffle, and when the turnover device drives the rotating tank 100 to turn over to the material discharging position at the blending position, the control lever 104 is required to avoid the control lever limiting part 601 to avoid interference, so that the occupied space of the control lever limiting part 601 can be reduced as much as possible, and the difficulty of the control lever 104 avoiding the control lever limiting part 601 is reduced. However, when the turning device drives the rotating tank 100 to turn to the discharging position at the blending position, the distance between the operating rod 104 and the operating rod limiting member 601 is usually far, and at this time, the rotating device is used to rotate the rotating tank 100, because the operating rod 104 has a certain distance from the operating rod limiting member 601, so that a certain vacancy is provided, the operating rod 104 can rotate for a certain distance along with the first discharging valve 103 until being blocked by the operating rod limiting member 601, the operating rod 104 and the first discharging valve 103 can rotate relatively, and the first discharging valve 103 can be opened and closed.

Certainly, when the rotation angle of the rotation tank 100 can be accurately controlled, the control rod limiting part 601 can also be a baffle plate with a groove, when the rotation tank 100 is driven by the turnover device to be turned over to the discharging position at the blending position, the operation rod 104 just falls into the groove of the baffle plate, at the moment, the rotation tank 100 is rotated by the rotation device, because the operation rod 104 is located in the groove of the baffle plate, the operation rod 104 and the first discharging valve 103 basically have no vacant position, the operation rod 104 and the first discharging valve 103 can be rapidly rotated relatively, and the first discharging valve 103 can be opened and closed.

The embodiment of the utility model discloses homogeneity mixing arrangement when rotating jar 100 needs mixing operation, at first need will rotate jar 100 upset to the mixing position through turning device, then rotate jar 100 rotation through the rotating device drive for the material of treating the mixing in the rotation jar 100 is turned along with the rotation that rotates jar 100 under the action of gravity repeatedly, until reaching the mixing.

After the material is mixed, rotate jar 100 upset to the row's material position through the turning device drive, the discharge gate 102 that rotates jar 100 this moment is corresponding with the opening of hopper 600 down, then rotate jar 100 through the rotating device drive, the first baiting valve 103 that rotates jar 100's discharge gate 102 department rotates with rotating jar 100, after the action bars 104 to first baiting valve 103 is spacing by control rod locating part 601, action bars 104 can't continue to rotate along with rotating jar 100, thereby realize opening the purpose of first baiting valve 103, the material after the mixing in the rotation jar 100 is under the action of gravity, get into down in the hopper 600. After discharging, the rotating device drives the rotating tank 100 to rotate reversely to close the first discharging valve 103, so as to perform the next blending operation.

The utility model discloses because do not need the first baiting valve of operating personnel hand switch 103, accessible rotating device drive blending tank rotates and accomplishes the switch action, has consequently improved operating personnel's safe operating condition, and the action of the first baiting valve of upset action and switch 103 is finished at one go moreover, need not to wait for the first baiting valve of operating personnel switch 103, and production efficiency is higher.

The embodiment of the utility model discloses homogeneous mixing device still can include position detection device 109, position detection device 109 can install on rotation jar 100, also can set up on turning device, be used for detecting rotation jar 100 when the mixing position, under turning device's effect, whether turn to and treat the upset position, treat the upset position for rotate jar 100 by the mixing position upset to arrange the material position time promptly, action bars 104 can avoid the position of control rod locating part 601, when needs are by mixing position upset to arranging the material position, at first need judge rotation jar 100 whether be in and treat the upset position, only be in and treat the upset position, just can be to rotation jar 100 by mixing position upset to arranging the material position.

In one embodiment, the position detecting device 109 may be a proximity switch having a position detecting function mounted on the rotary tank 100. When the proximity switch senses that the rotary tank 100 rotates to the position to be turned over, the rotary device is closed, the turning device is started, and the rotary tank 100 is switched to the material discharging position from the uniformly mixing position.

As shown in fig. 3, in order to facilitate charging, in this embodiment, the homogeneous mixing apparatus may further include a material storage tank 500 for storing the material to be mixed, a second discharging valve 501 is disposed at the discharging port of the material storage tank 500, and the open/close state of the discharging port is controlled by opening and closing the second discharging valve 501. The opening time of the second baiting valve 501 can be set according to the volume of the rotary tank 100 and the charging speed, so that the second baiting valve 501 can be automatically closed, full-automatic unmanned operation is realized, the manual input is reduced, and the benefit is improved.

The turnover device is used for driving the rotary tank 100 to turn over to a charging position from a blending position, and when the rotary tank 100 is located at the charging position, a feed port 101 of the rotary tank 100 is in butt joint with a discharge port of the material storage tank 500.

After the materials mixed in the rotating tank 100 are placed into the discharging hopper 600, if the rotating tank 100 is needed to continue the mixing operation, the feeding position needs to be kept through the rotating tank 100, so that the feeding port 101 of the rotating tank 100 is in butt joint with the discharging port of the material storage tank 500, and then the materials to be mixed in the material storage tank 500 are poured into the rotating tank 100.

The feed port 101 and the discharge port 102 of the rotary drum 100 are respectively located at both ends of the rotary drum 100 so that the charging position and the discharging position of the rotary drum 100 are the same. The lower hopper 600 may be disposed at a lower portion of the rotary tank 100, and the material storage tank 500 may be disposed at an upper portion of the rotary tank 100. When the rotary tank 100 is in the kneading position, the axis of the rotary tank 100 is preferably horizontal; the axis of the rotary tank 100 is preferably in a vertical state when the rotary tank 100 is in the charging position and the discharging position.

Wherein, the feed inlet 101 of the rotary tank 100 is made of magnetic conductive material or the mouth part is provided with a magnet.

Further, the drain hole of the material storage tank 500 is connected with a magnetic flexible pipe 502, when the rotating tank 100 is rotated from the blending position to the feeding position, the magnetic flexible pipe 502 is drawn close to the feed port 101 of the rotating tank 100 by magnetic attraction and is stretched until being butted with the feed port 101. The utility model discloses a flexible pipe 502 of magnetism is inhaled and is realized the drain hole of material storage tank 500 and the butt joint of the feed inlet 101 of rotation jar 100, appears the raise dust phenomenon when can avoiding reinforced.

When the rotary tank 100 needs to be switched from the charging position to the blending position, the magnetic telescopic tube 502 can be easily separated from the charging port 101 of the rotary tank 100 under the action of the turning device.

In order to further place the rotary tank 100 in the feeding process and cause dust emission, as shown in fig. 1, a feeding valve 106 is arranged at the position of a feeding port 101 of the rotary tank 100, the feeding valve 106 is hinged to the inner wall of the rotary tank 100, so that the feeding valve 106 can move around a hinge shaft to open and close the feeding port 101, a return elastic member is arranged at the hinge shaft, under the action of the return elastic member, the feeding valve 106 is in a closed state, when the rotary tank 100 is in the feeding position, a second discharging valve 501 of the material storage tank 500 is opened to enable the material to enter the feeding port 101 of the rotary tank 100, and after a certain amount of the material reaches, under the action of gravity of the material, the feeding valve 106 overcomes the elastic force of the return elastic member and rotates around the hinge shaft to an open state; after the second discharge valve 501 of the material storage tank 500 is closed, the feed valve 106 is restored to the closed state under the elastic force of the elastic restoring member, and at this time, the rotary tank 100 can be switched from the feeding position to the blending position to perform blending operation.

The utility model discloses an increase feed valve 106 for when not adding the material, feed valve 106 is in the closed condition, and the material is spilt when can preventing raise dust and upset. The utility model discloses it is applicable in multiple materials such as granule and powder, with low costs, easy operation, the material suitability is strong, mixes effectually, does not raise dust, reduces environmental pollution.

The return spring may be a torsion spring, and in the mechanical field, the return function of the oscillating or rotating member is usually selected to be a torsion spring. A torsion spring is sleeved on the hinge shaft of the inner wall of the rotary tank 100, one torsion arm of the torsion spring is abutted with the feed valve 106, and the other torsion arm is abutted with the rotary tank 100.

Further, with reference to fig. 1 and 2, the flipping mechanism includes a flipping bracket 303 and a piston cylinder 400.

The overturning bracket 303 is hinged to the fixed bracket 300 through a hinged shaft 301, and can be freely switched at a feeding position, a discharging position and a uniformly mixing position around the hinged shaft 301 under the action of the piston cylinder 400, and the rotating tank 100 is arranged on the overturning bracket 303 and can be overturned together with the overturning bracket 303.

The piston cylinder 400 is hinged to the fixed bracket 300 by a first hinge shaft 401 and to the flip bracket 303 by a second hinge shaft 402. When the turning support 303 needs to be switched to the feeding position and the discharging position from the blending position, a piston rod 403 in the piston cylinder 400 extends out to push the turning support 303 to rotate around a hinge shaft 301 to the feeding position and the discharging position; when the turning support 303 needs to be switched to the blending position from the feeding position and the discharging position, the piston rod 403 in the piston cylinder 400 retracts, and the turning support 303 is pulled to rotate around the hinge shaft 301 to the blending position.

Further, the first end of upset support 303 articulates on fixed bolster 300, and fixed bolster 300 has the supporting part that supports the second end of upset support 303, and when upset support 303 was in the mixing position, the second end of upset support 303 and the supporting part butt of fixed bolster 300 to improve the stability of upset support 303. When the turning bracket 303 is rotated to the charging position and the discharging position about the hinge shaft 301, the second end of the turning bracket 303 is separated from the supporting portion of the fixing bracket 300.

In a specific embodiment of the present invention, the rotating device includes a driving motor 200 and a driven ring gear 107.

The driving motor 200 is fixedly mounted on the overturning bracket 303 through a fastener or a welding mode, so that the driving motor 200 and the overturning bracket 303 can rotate to a feeding position and a discharging position together, the driving gear 201 is arranged on an output shaft of the driving motor 200, and the driving gear 201 can be fixed on the output shaft through an interference or key connection mode.

The driven ring gear 107 is fixedly secured to the rotary tub 100 and is engaged with the drive gear 201. The driving motor 200 outputs torque, and drives the driven gear ring 107 to rotate through the transmission relationship between the driving gear 201 and the driven gear ring 107, so as to drive the rotating tank 100 to rotate correspondingly.

As shown in fig. 1, in order to improve the stability of the rotating tank 100 during rotation, in the present embodiment, the homomixer may further include a first rotation support means and/or a second rotation support means.

The first rotation supporting device comprises a guide ring groove 105 arranged at the end part of one end, far away from the discharge hole 102, of the rotation tank 100 and a guide roller 304 in rolling fit with the guide ring groove 105, the guide roller 304 is rotatably arranged on the turnover support 303, and the rotation tank 100 is supported through the fit between the guide roller 304 and the guide ring groove 105. The notch of the guide ring groove 105 faces the axis of the rotary can 100, and the guide roller 304 is located in the guide ring groove 105 near one side of the tilt bracket 303.

When the rotary can 100 is rotated, the guide ring groove 105 rotates with the rotary can 100 and each position passes through the guide roller 304 in sequence, and is in rolling friction with the guide roller 304, thereby reducing the rotational resistance of the rotary can 100.

The second rotary supporting means includes a ring rail 108 provided on the outer peripheral surface of the rotary tank 100, and a support base 302 provided on the turn bracket 303, the support base 302 having a support groove slidably engaged with the ring rail 108, the ring rail 108 sliding on the support groove when the rotary tank 100 is rotated. Balls may also be inserted into the circular guide 108 and/or the support grooves to achieve rolling friction and reduce the rotational resistance of the rotary tank 100.

As shown in fig. 4, in order to make the material more uniformly stirred, the inner wall of the rotating tank 100 is uniformly provided with the convex grooves 111, each convex groove 111 can penetrate through the whole tank body, and when the rotating tank 100 rotates, the material is not easy to gather at the bottom of the tank due to the existence of the convex grooves 111, so that the material is fully contacted, and the purpose of uniform mixing is achieved.

The terms "first" and "second," and the like in the description and claims of the present invention and in the above-described drawings, are used for distinguishing between different objects and not for describing a particular order. Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not set forth for a listed step or element but may include steps or elements not listed.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (12)

1. A homogeneous mixing apparatus comprising:

the device comprises a rotating tank (100), wherein a discharge hole (102) of the rotating tank (100) is provided with a first discharging valve (103), and the first discharging valve (103) is provided with an operating rod (104) for opening and closing the first discharging valve (103) through rotation;

the rotating device is used for driving the rotating tank (100) to rotate so as to carry out blending operation;

the overturning device is used for driving the rotary tank (100) to overturn so that the rotary tank (100) is switched between a blending position and a discharging position;

the discharging hopper (600) is arranged, when the rotating tank (100) is located at a discharging position, a discharging hole (102) of the rotating tank (100) corresponds to an opening of the discharging hopper (600), and an operating lever limiting part (601) used for limiting the rotation of the operating lever (104) is arranged at the opening of the discharging hopper (600).

2. The homogeneous mixing apparatus according to claim 1, further comprising a position detecting device (109), wherein the position detecting device (109) is configured to detect whether the rotatable tank (100) is at a position to be turned over in the state of the blending position, and when the rotatable tank (100) is turned over from the position to be turned over to the discharging position, the operating rod (104) can avoid the operating rod limiting member (601).

3. The homomixer of claim 1, further comprising a material reservoir (500) for holding the material to be blended;

a second discharging valve (501) is arranged at a discharging port of the material storage tank (500), and the second discharging valve (501) is used for controlling the on-off state of the discharging port;

the turnover device is used for driving the rotary tank (100) to turn to a charging position, and when the rotary tank (100) is located at the charging position, a feeding hole (101) of the rotary tank (100) corresponds to a discharging hole of the material storage tank (500).

4. A homogeneous mixing apparatus according to claim 3, wherein the discharge port of the material storage tank (500) is connected with a magnetic telescopic tube (502);

when the rotary tank (100) is at the charging position, the magnetic telescopic pipe (502) is in magnetic butt joint with the feed port (101).

5. A homomixer according to claim 3, wherein the inlet opening (101) of the rotary tank (100) is provided with an inlet valve (106);

the feeding valve (106) is hinged to the inner wall of the rotary tank (100), the feeding valve (106) is in a closed state under the action of the reset elastic piece, and the feeding valve (106) is in an open state under the action of material gravity.

6. The homomixer according to claim 3, wherein the axis of the rotating tank (100) is horizontal when the rotating tank (100) is in the mixing position; when the rotary tank (100) is at the charging position and the discharging position, the axis of the rotary tank (100) is in a vertical state.

7. The homomixer of any of claims 1-6, wherein said inverting means comprises:

one end of the overturning bracket (303) is hinged to the fixed bracket (300), and the rotating tank (100) is arranged on the overturning bracket (303);

and one end of the piston cylinder (400) is hinged to the fixed support (300), and the other end of the piston cylinder is hinged to the overturning support (303).

8. A homomixer according to claim 7, wherein the first end of the turn-over stand (303) is hinged to a fixed stand (300), the fixed stand (300) has a support portion for supporting the second end of the turn-over stand (303), and the rotary tank (100) is in the homogenizing position when the second end of the turn-over stand (303) is turned over to abut against the support portion.

9. The homo-mixing device of claim 7, wherein the rotating means comprises:

the driving motor (200) is arranged on the overturning bracket (303), and an output shaft of the driving motor (200) is provided with a driving gear (201);

and the driven gear ring (107) is fixedly sleeved on the rotating tank (100) and is meshed with the driving gear (201).

10. The homomixer of claim 9, further comprising a first rotary support means and/or a second rotary support means;

the first rotating support device comprises a guide ring groove (105) arranged at the end part of one end, far away from the discharge hole (102), of the rotating tank (100), and a guide roller (304) in rolling fit with the guide ring groove (105), wherein the guide roller (304) is rotatably arranged on the overturning bracket (303);

the second rotary supporting device comprises an annular guide rail (108) arranged on the outer peripheral surface of the rotary tank (100) and a supporting seat (302) arranged on the overturning support (303), and the supporting seat (302) is provided with a supporting groove in sliding fit with the annular guide rail (108).

11. The homomixer according to any of claims 1-6 and 8-10, wherein the inner wall of the rotating tank (100) is uniformly provided with the convex grooves (111).

12. The homomixer according to any of claims 1-6 and 8-10, wherein said first discharge valve (103) is an iris discharge valve.

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