CN210308403U - Continuous type material mixing device - Google Patents

Abstract

The utility model relates to the technical field of material processing equipment, in particular to a continuous material mixing device, which comprises a base, a mixing barrel, a rolling support mechanism, a driving gear and a driving mechanism; the mixing barrel comprises a barrel body and stirring blades, a mixing cavity is formed in the barrel body, the mixing cavity comprises a mixing section and a feeding section, the diameter of the feeding section is sequentially reduced from one side close to the feeding end of the mixing cavity to one side of the discharging end, and the stirring blades are circumferentially arranged along the inner wall of the mixing cavity; the rolling support mechanism comprises a first rolling ring, a second rolling ring, a carrier roller and a bearing with a seat, the first rolling ring and the second rolling ring are respectively sleeved at two ends of the outer cylinder wall of the mixing cavity, the first rolling ring and the second rolling ring are respectively arranged on the carrier roller at two sides of the cylinder body, and the carrier roller is fixed on the base through the bearing with the seat; the driving gear is sleeved on the side wall of the cylinder body; the driving mechanism is in transmission connection with the driving gear. Not only material mixing efficiency is high among this scheme material premixing device, and the material mixes more evenly moreover, and the mixed effect is fabulous.

Description

Continuous type material mixing device

Technical Field

The utility model relates to a material processing equipment technical field especially relates to a continuous type material mixing device.

Background

The material mixing is to mix two or more materials evenly by using mechanical force, gravity and the like, and the mixture is widely used in various industrial production.

In the field of powder production and processing, if some special powder needs to be produced, materials are directly and sequentially added into a pulverizer, and the obtained powder is very easy to cause uneven mixing of the materials. Such as: the production of the soft ceramic tile requires a mixture of stone powder and soil, and the non-uniform mixing easily causes the unqualified soft ceramic tile product, so before the powder is ground, the stone material and the soil need to be uniformly mixed; in the precision processing of the crude powder, sometimes a modifier is added for powder modification, and the quality of the powder obtained by premixing before precision grinding is higher.

At present, the mixing of multiple material adopts the hank cage machine more, and the hank cage machine is when carrying out the mixture between the drier, and mixing efficiency is lower, and the material mixing effect is also not good, and is using drier and wet material to carry out the hybrid, and the solidification appears very easily in the material, is that the hank cage machine blocks up or even blocks and dies, and equipment failure rate is high, and the material alleviates the effect not good.

Disclosure of Invention

Therefore, a continuous material mixing device is needed to be provided to solve the problems of low material mixing efficiency and poor mixing effect of the existing material mixer.

In order to achieve the above object, the inventor provides a continuous material mixing device, which comprises a base, a mixing barrel, a rolling support mechanism, a driving gear and a driving mechanism;

the mixing barrel comprises a barrel body and stirring blades, a mixing cavity is formed in the barrel body and comprises a mixing section and a feeding section, the mixing section is of a cylindrical structure, the feeding section is connected with the mixing section, the diameters of the feeding section from one side close to the feeding end of the mixing cavity to one side of the discharging end are sequentially reduced, and the stirring blades are circumferentially arranged along the inner wall of the mixing cavity;

the rolling support mechanism comprises a first rolling ring, a second rolling ring, a carrier roller and a bearing with a seat, the first rolling ring and the second rolling ring are respectively sleeved at two ends of the outer cylinder wall of the mixing cavity, the first rolling ring and the second rolling ring are respectively arranged on the carrier roller at two sides of the cylinder body, and the carrier roller is fixed on the base through the bearing with the seat;

the driving gear is sleeved on the side wall of the barrel body and is linked with the mixing barrel;

the driving mechanism is in transmission connection with the driving gear and is used for driving the driving gear to rotate.

As the utility model discloses a preferred structure, mixing arrangement is still including rotating stop gear, first rolling circle and second roll circle department and all be provided with rotation stop gear, and first rolling circle and second roll the circle and be provided with annular spout along the circle face, it includes bearing frame and rolling bearing to rotate stop gear, rolling bearing installs in annular spout, and rolling bearing is fixed in on the base via the bearing frame.

As a preferred structure of the utility model, rolling bearing is bolt type gyro wheel bearing, the bearing frame is bolt type bearing frame, bolt type gyro wheel bearing is fixed in on the base via bolt type bearing frame.

As the utility model discloses a preferred structure, stirring vane is laid to the discharge end by the feed end along the inner wall in compounding chamber, contained angle β is predetermine to having between the straight line at stirring vane place and the central line in compounding chamber.

As a preferred structure of the present invention, the angle of the preset included angle β is 6 ° to 26 °.

As a preferred structure of the utility model, actuating mechanism includes motor, pulley group and drive gear, the motor sets up on the base, pulley group includes belt and belt pulley, the belt pulley is coaxial with drive gear, drive gear and drive gear meshing, the motor passes through the belt and is connected with the belt pulley.

As the utility model discloses a preferred structure, actuating mechanism still includes the pinion stand, drive gear passes through the pinion stand to be fixed on the base.

As the utility model discloses a preferred structure, mixing arrangement still includes feed mechanism, feed mechanism includes feeder hopper and inlet pipe, inlet pipe one end and feeder hopper intercommunication, the other end of inlet pipe stretches into in the feeding chamber of compounding section of thick bamboo.

As a preferred structure of the present invention, the mixing device further includes a first supporting member, and the feeding mechanism is fixed to the base through the first supporting member.

As the utility model discloses a preferred structure, mixing arrangement still includes discharge mechanism, discharge mechanism includes play feed cylinder and discharging pipe, it is located one side of feed cylinder discharge end to go out the feed cylinder, it is fixed in on the base through second support piece to go out the feed cylinder, the discharging pipe communicates with the lateral wall bottom of play feed cylinder.

Different from the prior art, the technical scheme has the following advantages: the utility model relates to a continuous material mixing device, the carrier roller of a rolling supporting mechanism is fixed on a base by a bearing with a seat, a mixing barrel is lifted to a certain height by a first rolling ring and a second rolling ring which are sleeved on the outer wall of a mixing cavity and limits the front and back displacement when the mixing barrel rotates, a driving mechanism drives a driving gear sleeved on the side wall of the barrel to rotate, so that the mixing barrel rotates, materials to be mixed are added into the mixing cavity of the mixing barrel, stirring blades spirally distributed on the inner wall of the mixing cavity drive the materials to roll along with the rotation of the mixing barrel, after the materials reach a certain height in the rising process, the materials do parabolic motion under the action force of the gravity and the stirring blades, the materials are evenly scattered downwards, the thrown materials in different stirring blades are mutually staggered, so that the materials are evenly mixed with each other, because the diameters of the mixing cavity from a feeding end to a discharging end are reduced in sequence, the mixture moves from the feeding end to the discharging end of the mixture cavity under the driving of the stirring blades and drops for many times in the process. The material can be fed in succession and continuously carry out material mixing work in this device, and not only material mixing efficiency is high, and the material mixes more evenly moreover, and the mixing effect is fabulous.

Drawings

FIG. 1 is a schematic perspective view of a continuous mixing device according to an embodiment;

FIG. 2 is a schematic side view of a continuous mixing apparatus according to one embodiment;

FIG. 3 is a schematic cross-sectional view taken along the line B-B shown in FIG. 2;

fig. 4 is an enlarged schematic view of the area a in fig. 1.

Description of reference numerals:

1. a base;

2. a mixing barrel;

21. a barrel; 211. a mixing chamber; 2111. a mixing section; 2112. a feeding section; 212. a feed cavity;

22. a stirring blade;

3. a rolling support mechanism;

31. a first rolling ring;

32. a second rolling ring;

33. an annular chute;

34. a carrier roller;

35. a pedestal bearing;

4. a drive gear;

5. a drive mechanism;

51. a motor;

52. a pulley set;

53. a transmission gear;

54. a gear seat;

6. a rotation limiting mechanism;

61. bolt-type roller needle bearings;

62. a bolt-type bearing seat;

7. a feeding mechanism;

71. a feed hopper;

72. a feed pipe;

8. a first support member;

9. a discharging mechanism;

91. a discharging barrel;

92. a discharge pipe;

10. a second support member.

Detailed Description

To explain technical contents, structural features, and objects and effects of the technical solutions in detail, the following detailed description is given with reference to the accompanying drawings in conjunction with the embodiments.

Referring to fig. 1 and 4, the present invention provides a continuous material mixing device, which is preferably used for mixing materials before powder grinding, and of course, for mixing construction materials on a construction site, wherein the mixed materials include dry materials and wet materials. Specifically, the mixing device comprises a base 1, a mixing barrel 2, a rolling support mechanism 3, a driving gear 4 and a driving mechanism 5;

as shown in fig. 3, the mixing drum 2 serves as a material receiving and mixing device. Specifically, mixing barrel includes barrel 21 and stirring vane 22, barrel 21 is inside to have mixing chamber 211, mixing chamber 211 includes compounding section 2111 and pay-off section 2112, compounding section 2111 is cylindric structure, pay-off section 2112 is connected with compounding section 2111, and pay-off section 2112 reduces in proper order by a lateral diameter to the discharge end of a side that is close to compounding chamber feed end, stirring vane is the circular form along the inner wall of compounding chamber 211 and arranges. The mixing section 2111 is of a cylindrical structure, the mixing effect of the material is better, and the material is mixed by the mixing section and then enters the feeding section 2112. The diameter of the feeding section 2112 is sequentially reduced from one side close to the feeding end of the mixing cavity to one side of the discharging end, and the feeding section 2112 is arranged in such a structure, so that the mixing time of materials in the mixing cavity 211 can be increased, and the mixing effect is further improved; on the other hand makes the distribution that sets up stirring vane 22 on mixing chamber 211 inner wall also be by the feed end to the discharge end shrink, and stirring vane distributes into annular helical structure on mixing intracavity circumference, and this structure can make when mixing section of thick bamboo 2 rotates toward same direction the material also can be by the one end in mixing chamber 211 to the other end when removing, in order to make things convenient for the ejection of compact of mixture, makes the utility model discloses material mixing device can carry out continuous feeding and last the material mixing to improve the mixing efficiency of material, simplify the operation process of compounding work, no matter add the dry charge simultaneously or the wet material can not take place the material solidification to block up. Stirring vane 22 one side is fixed on barrel 21 inner wall, and the opposite side extends to inside for the material adds to and mixes behind the material chamber 211, all can rise to a take the altitude under stirring vane 22's drive, then under material self gravity and stirring vane 22's effort, makes the material drop downwards, and the material that is the parabola motion is evenly scattered, and the material that different stirring vane 22 throwed is crisscross each other, and the material mixes each other, in order to guarantee the homogeneous mixing of material. And the material removes the in-process in compounding chamber 211, can drop through the material many times and mix for the material mixes the effect better, and the quality of mixture is better.

As shown in fig. 1, the rolling support mechanism 3 is used for lifting the mixing cylinder 2 to a certain height, so that the mixing cylinder 2 can smoothly rotate, and meanwhile, the mixing cylinder 2 is prevented from moving back and forth when rotating, which leads to unstable operation and even failure of the device. Specifically, the rolling support mechanism 3 includes a first rolling ring 31, a second rolling ring 32, a carrier roller 34 and a bearing with a seat 35, the first rolling ring 31 and the second rolling ring 32 are respectively sleeved at two ends of the outer cylinder wall of the mixing cavity 211, the first rolling ring 31 and the second rolling ring 32 are respectively installed on the carrier roller 34 at two sides of the cylinder 21, and the carrier roller 34 is fixed on the base 1 through the bearing with a seat 35; the first ring 31 and the second of rolling that the cover was located on the outer wall of mixing chamber 211 outer tube are rolled the circle 32 and are installed on bearing roller 34 for mixing barrel 2 lifts and leaves base 1, and mixing barrel 2 is when rotating, and first rolling circle 31 and second are rolled the circle 32 and are taken place to rotate along bearing roller 34 equally, are the limiting displacement of bearing roller 34 again simultaneously, make mixing barrel 2 displacement around can't appearing, and mixing barrel 2 pivoted is more stable. Specifically, the bearing with seat 35 is also called a bearing with seat and an outer spherical surface, and specifically, the UCPH series bearing with seat 35 may be adopted.

The driving gear 4 is used for directly driving the mixing cylinder 2 to rotate. Specifically, the driving gear 4 is sleeved on the side wall of the cylinder body 21, and the driving gear 4 is linked with the mixing cylinder 2;

the driving mechanism 5 is used for providing driving force for the rotation of the mixing barrel 2. Specifically, the driving mechanism 5 is in transmission connection with the driving gear 4 and is used for driving the driving gear 4 to rotate.

In practical use, the utility model relates to a continuous material mixing device, the carrier roller 34 of the rolling support mechanism 3 is fixed on the base 1 by the bearing 35 with a seat, the mixing barrel 2 is lifted to a certain height by the first rolling ring 31 and the second rolling ring 32 which are sleeved on the outer wall of the mixing cavity 211 and limits the front and back displacement when the mixing barrel 2 moves, the driving mechanism 5 drives the driving gear 4 sleeved on the side wall of the barrel 21 to rotate, so that the mixing barrel 2 rotates, the material to be mixed is added into the mixing cavity 211 of the mixing barrel 2, the stirring blades 22 spirally distributed on the inner wall of the mixing cavity 211 roll along with the rotation of the mixing barrel 2, the material is driven to roll after reaching a certain height in the rising process of material rising, the material makes parabolic motion under the action force of the gravity and the stirring blades 22, the material uniformly and downwards scatters, the thrown materials in different stirring blades 22 are mutually staggered, make the material homogeneous mixing each other, because the material mixing chamber 211 reduces to the discharge end diameter by the feed end in proper order, so the mixture is under stirring vane 22's drive, moves and falls through throwing many times at this in-process by the feed end in material mixing chamber 211 to the discharge end. The material can be fed in succession and continuously carry out material mixing work in this device, and not only material mixing efficiency is high, and the material mixes more evenly moreover, and the mixing effect is fabulous.

Please refer to fig. 1 and fig. 4, as a preferred embodiment of the present invention, the mixing device further includes a rotation limiting mechanism 6, the setting of the rotation limiting mechanism 6 is to prevent the mixing cylinder 2 from displacement and play in four directions, so as to further ensure the rotation stability of the mixing cylinder 2 and improve the material mixing effect. Specifically, the first rolling ring 31 and the second rolling ring 32 are both provided with a rotation limiting mechanism 6, the first rolling ring 31 and the second rolling ring 32 are provided with an annular sliding groove 33 along the ring surface, the rotation limiting mechanism 6 comprises a bearing seat and a rotating bearing, the rotating bearing is installed in the annular sliding groove 33, and the rotating bearing is fixed on the base 1 through the bearing seat. The rotation limiting mechanism 6 also limits the movement of the mixing cylinder 2 linked with the first rolling ring 31 and the second rolling ring 32 by limiting the movement of the first rolling ring 31 and the second rolling ring 32. The limiting rotating mechanism is arranged in the annular sliding groove 33 of the rolling ring through the rotating bearing, the rotating bearing is fixed through the bearing seat, the first rolling ring 31 and the second rolling ring 32 are not influenced to rotate with the mixing barrel 2, the limiting effect is excellent, and the structure is simple. In a preferred embodiment, the rotating bearing is a bolt-type roller needle roller bearing 61, the bearing seat is a bolt-type bearing seat 62, the bolt-type roller needle roller bearing 61 is fixed on the base 1 through the bolt-type bearing seat 62, and the bolt-type roller needle roller bearing 61 and the bolt-type bearing seat 62 are simple to match and firm to fix, are very suitable for the structure, and are strong in axial supporting force and not easy to damage.

In the preferred embodiment shown in fig. 3, the stirring blades 22 are arranged along the inner wall of the mixing cavity 211 from the feeding end to the discharging end, and a preset included angle β is formed between the straight line of the stirring blades 22 and the central line of the mixing cavity 211, in this embodiment, the size of the preset included angle β between the straight line of the stirring blades 22 and the central line of the mixing cavity 211 can control the discharging speed of the materials entering the mixing cylinder 2, the dropping and mixing times of the materials, and the mixing effect of the materials, when the mixing cylinder 2 rotates at a certain speed, the discharging speed is faster when the angle of the preset included angle β is larger, the dropping and mixing times of the materials are smaller, the mixing effect of the materials is relatively good, therefore, a user needs to select an appropriate preset included angle β according to actual needs, so that the discharging speed and the mixing effect of the mixed materials reach requirements, in some preferred embodiments, the angle of the preset β is 6 ° to 26, which is more suitable for detecting the premixed included angle of the ground materials according to actual use.

Referring to fig. 1, as a preferred embodiment of the present invention, the driving mechanism 5 includes a motor 51, a pulley set 52 and a transmission gear 53, the motor 51 is disposed on the base 1, the pulley set 52 includes a belt and a pulley, the pulley is coaxial with the transmission gear 53, the transmission gear 53 is engaged with the driving gear 4, and the motor 51 is connected to the pulley through the belt. The motor 51 rotates to enable the belt pulley to rotate through the belt, so that the transmission gear 53 coaxially arranged with the belt pulley is driven to rotate, and finally the transmission gear 53 drives the driving gear 4 meshed with the transmission gear to rotate. Specifically, the transmission gear 53 is a pinion, the driving gear 4 is a bull gear, and the pinion drives the bull gear to control the transmission ratio, so that the mixing cylinder 2 cannot rotate too fast, and the device is unstable in operation. In a specific embodiment, the driving mechanism 5 further comprises a gear seat 54, and the transmission gear 53 is fixed on the base 1 through the gear seat 54.

As shown in fig. 1 and fig. 3, as a preferred structure of the present invention, the mixing device further includes a feeding mechanism 7, the feeding mechanism 7 includes a feeding hopper 71 and a feeding pipe 72, one end of the feeding pipe 72 is communicated with the feeding hopper 71, and the other end of the feeding pipe 72 extends into the feeding cavity 212 of the mixing barrel 2. The feeding mechanism 7 is arranged to facilitate the addition of the materials to be mixed into the mixing cylinder 2, the feeding hopper 71 is arranged to prevent the materials from being scattered, and the materials fed into the feeding hopper 71 are fed into the feeding cavity 212 of the mixing cylinder 2 through the feeding pipe 72. And the feeding mechanism 7 and the mixing cylinder 2 are mutually independent, and the movement of the mixing cylinder 2 does not interfere with the feeding mechanism 7. In a preferred embodiment, the mixing device further comprises a first support 8, and the feeding mechanism 7 is fixed to the base 1 through the first support 8. The first support 8 is used for supporting the feeding mechanism 7.

As shown in fig. 1 to fig. 3, as a preferred embodiment of the present invention, the mixing device further includes a discharging mechanism 9, the discharging mechanism 9 includes a discharging barrel 91 and a discharging pipe 92, the discharging barrel 91 is located at one side of the discharging end of the mixing barrel 2, the discharging barrel 91 is fixed on the base 1 through a second supporting member 10, and the discharging pipe 92 is communicated with the bottom of the side wall of the discharging barrel 91. The mixture delivered by the discharge end of the mixing bowl 2 first enters the discharge bowl 91 and then is discharged along the discharge pipe 92 into the mixture collection device. And the discharging barrel 91 and the mixing barrel 2 are independent from each other, and the discharging barrel 91 does not rotate along with the mixing barrel 2, so that the discharging barrel 91 is supported and fixed by the second supporting piece 10.

It should be noted that, although the above embodiments have been described herein, the scope of the present invention is not limited thereby. Therefore, based on the innovative concept of the present invention, the changes and modifications of the embodiments described herein, or the equivalent structure or equivalent process changes made by the contents of the specification and the drawings of the present invention, directly or indirectly apply the above technical solutions to other related technical fields, all included in the protection scope of the present invention.

Claims (10)

1. A continuous material mixing device is characterized in that the mixing device comprises a base, a mixing barrel, a rolling supporting mechanism, a driving gear and a driving mechanism;

the mixing barrel comprises a barrel body and stirring blades, a mixing cavity is formed in the barrel body and comprises a mixing section and a feeding section, the mixing section is of a cylindrical structure, the feeding section is connected with the mixing section, the diameters of the feeding section from one side close to the feeding end of the mixing cavity to one side of the discharging end are sequentially reduced, and the stirring blades are circumferentially arranged along the inner wall of the mixing cavity;

the rolling support mechanism comprises a first rolling ring, a second rolling ring, a carrier roller and a bearing with a seat, the first rolling ring and the second rolling ring are respectively sleeved at two ends of the outer cylinder wall of the mixing cavity, the first rolling ring and the second rolling ring are respectively arranged on the carrier roller at two sides of the cylinder body, and the carrier roller is fixed on the base through the bearing with the seat;

the driving gear is sleeved on the side wall of the barrel body and is linked with the mixing barrel;

the driving mechanism is in transmission connection with the driving gear and is used for driving the driving gear to rotate.

2. The continuous material mixing device of claim 1, further comprising a rotation limiting mechanism, wherein the rotation limiting mechanism is disposed at each of the first rolling ring and the second rolling ring, the first rolling ring and the second rolling ring are provided with an annular sliding groove along a ring surface, the rotation limiting mechanism comprises a bearing seat and a rotation bearing, the rotation bearing is mounted in the annular sliding groove, and the rotation bearing is fixed on the base through the bearing seat.

3. The continuous material mixing apparatus of claim 2, wherein the rotary bearing is a bolt-type needle roller bearing, the bearing housing is a bolt-type bearing housing, and the bolt-type needle roller bearing is fixed to the base via the bolt-type bearing housing.

4. The continuous material mixing device of claim 1, wherein the stirring blades are arranged along the inner wall of the mixing cavity from the feeding end to the discharging end, and a preset included angle β is formed between the straight line of the stirring blades and the central line of the mixing cavity.

5. The continuous material mixing device of claim 4, wherein the predetermined included angle β is between 6 ° and 26 °.

6. The continuous material mixing device of claim 1, wherein the driving mechanism comprises a motor, a pulley set and a transmission gear, the motor is arranged on the base, the pulley set comprises a belt and a pulley, the pulley is coaxial with the transmission gear, the transmission gear is meshed with the driving gear, and the motor is connected with the pulley through the belt.

7. The continuous material mixing device of claim 6, wherein the drive mechanism further comprises a gear seat, and the transmission gear is fixed on the base through the gear seat.

8. The continuous material mixing device of claim 1, further comprising a feeding mechanism, wherein the feeding mechanism comprises a feed hopper and a feed pipe, one end of the feed pipe is communicated with the feed hopper, and the other end of the feed pipe extends into the feed cavity of the mixing drum.

9. The continuous material mixing device of claim 8, further comprising a first support member, wherein the feeding mechanism is fixed to the base by the first support member.

10. The continuous material mixing device of claim 1, further comprising a discharge mechanism, the discharge mechanism comprising a discharge barrel and a discharge pipe, the discharge barrel being located at one side of the discharge end of the mixing barrel, the discharge barrel being fixed to the base by a second support member, the discharge pipe being in communication with the bottom of the side wall of the discharge barrel.

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