CN115608207A - Quartz stone raw material stirring method and stirring device - Google Patents

Abstract

The invention provides a quartz stone raw material stirring method and a stirring device, and relates to the technical field of quartz stone raw material stirring. The quartz stone raw material stirring device comprises a rotation motor, a revolution motor, a motor gear box mounting seat, four groups of stirring rod mechanisms and a connecting disc; four stirring areas which are arranged in a cross shape are formed in the quartz stone raw material stirring area, when the quartz stone raw material is stirred, stirring assemblies are arranged on the periphery of the quartz stone raw material and are rotated and circularly stirred at the same time, the whole stirring area can be simultaneously covered, and one stirring area is formed in the adjacent two stirring areas, so that the central area of the adjacent raw material is stirred, and the other stirring area is formed in the edge position of the adjacent raw material, so that the raw material is stirred and mixed more finely and uniformly; in addition, the stirring mode of the near-far adjacent collocation can well avoid the phenomenon that the quartz stone raw material is attached to the inner wall of the stirring barrel due to the too fast stirring, and further the stirring speed of the quartz stone raw material can be improved.

Description

Quartz stone raw material stirring method and stirring device

Technical Field

The invention relates to the technical field of quartz stone raw material stirring, in particular to a quartz stone raw material stirring method and a quartz stone raw material stirring device.

Background

Quartz is a mineral resource with stable physical and chemical properties, and quartz is a short name for the plate produced by the quartz plate manufacturers at present, and is called as quartz because the main component of the plate is the quartz content of more than 93 percent. The production process flow of the quartz stone comprises the following steps: collecting raw materials, selecting materials, mixing, stirring, distributing, pressing a plate by a vacuum forming press, heating, curing and shaping, sizing by a thicknessing machine, trimming by a trimming machine, polishing by a polishing machine, inspecting, laminating and warehousing.

The stirring of the quartz stone raw material needs to fully stir and mix the unsaturated polyaldehyde resin, the pigment, the auxiliary agent and the particle powder by using stirring equipment. The existing stirring equipment generally adopts a mode of rotation and revolution by utilizing double motors to drive a stirring rod, namely one motor is used as a rotation motor, the other motor is used as a revolution motor, the automatic motor drives the stirring rod to perform automation, and the revolution motor also drives the whole stirring rod to rotate around the automatic motor, so that a better stirring effect is achieved.

For example, a chinese patent application publication No. CN106925167a entitled "a mixer" discloses a mixer structure for mixing quartz stone raw materials, which discloses a mixer structure using a pair of linearly arranged mixing paddles, and mentions that a large mixing paddle and a small mixing paddle are used for simultaneous mixing, so that no dead angle is formed during the mixing process, the raw materials are more detailed and uniform during the mixing process, and the material and the uniform speed are faster. As will be understood from the disclosure of this application, and from the drawings attached to this specification, the various sizes of the paddle fingers used in this application are different in physical size.

In addition, another application publication No. CN112246144A, the invention name of which is "a stirrer", discloses a method for stirring quartz stone raw materials by adopting 4 stirring components in a linear arrangement mode, wherein the 4 stirring components are arranged to realize stirring without dead angles, so that the structural stability of the whole stirrer is improved, and the stirring effect is ensured.

In current quartz raw materials stirring structure and in above-mentioned patent document, the agitated vessel that trade personnel adopted is no matter to adopt stirring subassembly structural style that many quantity or size shape are different, and it all arranges the stirring subassembly on collinear, and the stirring in-process, it has just changed stirring vane's length and size quite, and its whole effect is similar to a stirring vane's stirring effect. Consequently at the actual stirring in-process, the effort that the regional quartz raw materials of different positions received still exists the difference, and the stirring mixes the effect also differently, especially to the stirring raw materials that is located border position department, if accelerate stirring speed just so that the stirring raw materials easily adheres on the inner wall of agitator, influence stirring effect.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a quartz stone raw material stirring method and a quartz stone raw material stirring device, aiming at improving the uniformity of the quartz stone raw material in the stirring process and improving the stirring and mixing effect and the stirring efficiency.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

in a first aspect, the present application provides a quartz stone raw material stirring method, including: in the quartz stone raw materials stirring process, four stirring regions that are the cross arrangement are formed in the stirring region of quartz stone raw materials, two relative stirring regions are formed in the region of neighbouring quartz stone raw materials center, two relative stirring regions are formed in the region of keeping away from quartz stone raw materials center, four stirring regions are in the whole in-process to the rotatory stirring of quartz stone raw materials still independent rotation stirring separately simultaneously.

Further, the stirring angular velocities of the four stirring areas which are independently stirred are the same.

In a second aspect, the present application further provides an agitating unit for realizing the above quartz stone raw material stirring method, the agitating unit includes rotation motor, revolution motor and motor gear box mount pad, rotation motor and revolution motor are installed respectively on the motor gear box mount pad, its characterized in that, agitating unit still includes four stirring rod mechanisms of group and connection pad, the connection pad horizontal rotation is installed on the motor gear box mount pad, the revolution motor through be provided with the linkage subassembly with the connection pad links to each other for the drive connection pad horizontal rotation, four groups stirring rod mechanism rotates and installs the connection pad bottom, four groups stirring rod mechanism is the cross and arranges, the rotation motor is through being provided with drive assembly and four groups stirring rod mechanism links to each other for drive four groups stirring rod mechanism rotates, two groups set up relatively stirring rod mechanism sets up in the neighbouring the center below region of rotation motor, another two groups set up relatively stirring rod mechanism sets up and keeping away from the center below region of rotation motor.

Further, the connection pad includes four outside installation departments that extend, four the installation department is the cross and arranges the edge of connection pad, wherein a pair of relative setting linear distance between the installation department is greater than another relative setting linear distance between the installation department, four groups puddler mechanism corresponds the level and rotates and install four on the installation department.

Furthermore, each puddler mechanism includes planet axle, center cover and a plurality of puddler subassembly, the top of planet axle is rotated and is installed on the connection pad, the fixed suit of center cover is in the outer peripheral face of planet axle, it is a plurality of puddler subassembly interval fixed mounting be in the bottom edge of center cover.

Furthermore, the linkage assembly comprises a transmission gear, a rotary bearing seat and a rotary supporting piece, the rotary bearing seat is horizontally and rotatably installed on the motor gear box installation seat, the rotary supporting piece is fixedly installed on the outer peripheral surface of the rotary bearing seat, gear teeth meshed with the transmission gear are arranged on the outer peripheral surface of the rotary supporting piece, the transmission gear is fixedly installed at the bottom end of the rotary motor, the transmission gear is meshed with the rotary supporting piece, and the connecting disc is fixedly installed at the bottom end of the rotary bearing seat.

Furthermore, the transmission assembly comprises a main transmission gear and four groups of gear sets, the main transmission gear is fixedly installed at the bottom end of the rotation motor, and the main transmission gear is respectively in transmission connection with the four groups of stirring rod mechanisms through the four groups of gear sets.

Further, the number of the stirring rod assemblies is between 2 and 24, wherein a plurality of stirring rod assemblies are uniformly arranged at the bottom end edge of the central sleeve at intervals.

Further, in the four groups of the stirring rod mechanisms distributed in the cross shape, the external dimensions of the two opposite groups of the stirring rod mechanisms are larger than the external dimensions of the other two opposite groups of the stirring rod mechanisms, wherein the four groups of the stirring rod mechanisms comprise the following four layout modes: the distances from the stirring assemblies in the four groups of stirring rod mechanisms to the central sleeve are equal; the distances from the stirring assemblies in the four groups of stirring rod mechanisms to the center sleeve are different; the distances from the stirring assemblies in one group of the stirring rod mechanisms with larger overall dimensions to the central sleeve are not equal, and the distances from the stirring assemblies in the other group of the stirring rod mechanisms with smaller overall dimensions to the central sleeve are equal; the distances from the stirring assemblies in the group of stirring rod mechanisms with larger overall dimensions to the central sleeve are equal, and the distances from the stirring assemblies in the other group of stirring rod mechanisms with smaller overall dimensions to the central sleeve are unequal.

The invention has the beneficial effects that:

four stirring areas which are arranged in a cross shape are formed in the quartz stone raw material stirring area, the four stirring areas are arranged in pairs in an opposite mode, one pair of stirring areas are oppositely arranged at two sides close to the center of the quartz stone raw material, and the other pair of stirring areas are oppositely arranged at the other two sides far away from the center of the quartz stone raw material; when the quartz stone raw material is stirred, the stirring assemblies are arranged around the quartz stone raw material and are rotated and circularly stirred at the same time, the whole stirring area can be covered at the same time, and one stirring area is formed at the central area of the adjacent raw material and the other stirring area is formed at the edge position of the adjacent raw material, so that the raw material is stirred and mixed more finely and uniformly; in addition, the stirring mode of the near-far adjacent collocation can well avoid the phenomenon that the quartz stone raw material is attached to the inner wall of the stirring barrel due to the too fast stirring, and further the stirring speed of the quartz stone raw material can be improved.

Drawings

Fig. 1 is a schematic perspective view of a quartz stone raw material stirring apparatus in an embodiment of the present application.

Fig. 2 is a schematic perspective view of the quartz stone raw material stirring apparatus in another angular direction in the embodiment of the present application.

Fig. 3 is a schematic structural diagram of a quartz stone raw material stirring apparatus in a top view in an embodiment of the present application.

Fig. 4 is a schematic structural diagram of a transmission assembly in an embodiment of the present application.

Fig. 5 is a schematic structural diagram of the transmission gear and the revolving support in the embodiment of the present application in meshing engagement.

Fig. 6 is a schematic perspective view of a connection disc in an embodiment of the present application.

Fig. 7 is a schematic structural diagram of a rotating bearing seat, a rotating support member and a transmission gear in an embodiment of the present application.

Fig. 8 is a partially enlarged structural view of a portion a in fig. 5.

In the figure:

100-quartz stone raw material stirring device, 1-rotation motor, 2-revolution motor, 3-motor gear box mounting seat, 4-connecting disc, 41-mounting part, 5-stirring rod mechanism, 51-first stirring rod mechanism, 52-second stirring rod mechanism, 53-planet shaft, 54-center sleeve, 55-stirring rod assembly, 6-main transmission gear, 7-gear set, 8-transmission gear, 9-rotary supporting piece and 10-rotary bearing seat.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description.

Referring to fig. 1 to 3, the present embodiment provides a quartz stone raw material stirring apparatus 100, which comprises a rotation motor 1, a revolution motor 2, a motor gear box mounting base 3, four groups of stirring rod mechanisms 5 and a connecting disc 4. The rotation motor 1 and the revolution motor 2 are respectively vertically and rotatably arranged on the motor gear box mounting base 3, the connecting disc 4 is rotatably arranged at the bottom end of the motor gear box mounting base 3, and the revolution motor 2 is connected with the connecting disc 4 through a linkage assembly and is used for driving the connecting disc 4 to horizontally rotate.

Referring to fig. 2 and 3 in combination, four groups of the stirring rod mechanisms 5 are rotatably installed at the bottom of the connecting disc 4, the four groups of the stirring rod mechanisms 5 are arranged in a cross-shaped structure, for convenience of description, two groups of the stirring rod mechanisms 5 which are symmetrically arranged are respectively referred to as first stirring rod mechanisms 51 for short, and the other two groups of the stirring rod mechanisms which are oppositely arranged are respectively referred to as second stirring rod mechanisms 52 for short.

With continued reference to fig. 3, in the present embodiment, for convenience of description, two sets of stirring rod mechanisms symmetrically arranged up and down are referred to as a first stirring rod mechanism 51, and two sets of stirring rod mechanisms symmetrically arranged left and right are referred to as a second stirring rod mechanism 52. In order to form the stirring regions at different positions in the quartz stone raw material, two sets of first stirring rod mechanisms 51 are respectively installed at the central position region close to the spinning motor 1, and two sets of second stirring rod mechanisms 52 are respectively installed at the central position region far from the spinning motor 1.

Adopt this kind to arrange the form, the quartz raw materials is when the stirring, all there is the stirring region simultaneously all around the quartz raw materials, and the puddler mechanism has all been arranged to the direction position all around promptly. The four stirring rod mechanisms rotate simultaneously to stir circularly, so that the whole quartz stone raw material stirring area can be better covered at the same time; more importantly, because four groups of stirring rod mechanisms are arranged in a cross shape, a far-near stirring mode is formed between two adjacent stirring areas, namely one stirring rod mechanism is used for stirring the central area of the adjacent raw materials, and the other stirring rod mechanism is used for stirring the edge position of the adjacent raw materials, so that the raw materials are stirred and mixed more finely and uniformly.

In addition, through the stirring mode of the adjacent collocation far and near, the phenomenon that the quartz stone raw materials are attached to the inner wall of the stirring barrel due to too fast stirring can be well avoided, and then the stirring speed of the quartz stone raw materials can be improved. That is, when the quartz stone raw material in the region is stirred by the stirring rod mechanism adjacent to the edge position of the quartz stone raw material, the stirring resistance of the stirring rod mechanism located at the edge position is increased because no adjacent stirring rod mechanism (i.e., the first stirring rod mechanism 51 close to the central region of the quartz stone raw material) is arranged around the region, so that the stirring rod mechanism located at the edge position can stir at a higher speed by accelerating the stirring speed of the four groups of stirring rod mechanisms, and the phenomenon that the quartz stone raw material is attached to the inner wall of the stirring barrel due to too fast stirring is avoided.

Referring to fig. 6, in some embodiments, the connecting plate 4 is formed with four outwardly extending mounting portions 41, the four mounting portions 41 are arranged at the edge of the connecting plate 4 in a cross shape, wherein a linear distance between one pair of the oppositely disposed mounting portions 41 is greater than a linear distance between the other pair of the oppositely disposed mounting portions 41, and four sets of the stirring rod mechanisms are correspondingly and horizontally rotatably mounted on the four mounting portions 41.

Referring to the attached drawings 1 to 4, the four groups of stirring rod mechanisms are driven by an autorotation motor 1, a main transmission gear 6 is horizontally and fixedly installed at the bottom end of the output end of the autorotation motor 1, four groups of gear sets 7 are respectively installed around the main transmission gear 6, the four groups of gear sets 7 are installed on a connecting disc 4, and the output power of the main transmission gear 6 is simultaneously transmitted to the four groups of stirring rod mechanisms through the four groups of gear sets 7 and is used for driving the four groups of stirring rod mechanisms to horizontally rotate. It is understood that the four sets of stirring rod mechanisms rotate at the same angular speed, so that interference between the four sets of stirring rod mechanisms during rotation is prevented.

Referring to fig. 5 and 7, the revolution motor 2 drives the connecting disc 4 to rotate through the linkage assembly, that is, the connecting disc 4 and the four groups of stirring rod mechanisms located below the connecting disc 4 are integrally driven to revolve around the revolution motor 2.

Specifically, the linkage assembly comprises a transmission gear 8, a rotary bearing seat 10 and a rotary supporting piece 9, the rotary bearing seat 10 is horizontally and rotatably mounted on the motor gear box mounting seat 3, the rotary supporting piece 9 is fixedly mounted on the outer peripheral surface of the rotary bearing seat 10, gear teeth meshed with the transmission gear 8 are arranged on the outer peripheral surface of the rotary supporting piece 9, the transmission gear 8 is fixedly mounted at the bottom end of the rotary motor 2, the transmission gear 8 is meshed with the rotary supporting piece 9, and the connecting disc 4 is fixedly mounted at the bottom end of the rotary bearing seat 10.

When the revolution motor 2 rotates, the conveying shaft of the revolution motor 2 synchronously drives the transmission gear 8 below the conveying shaft to rotate, the transmission gear 8 in a rotating state is meshed with the gear teeth on the outer surface of the rotary support piece 9, and the rotary support piece 9 is fixed on the outer surface of the rotary bearing seat 10, so that the rotary bearing seat 10 performs revolution rotation around the revolution motor 2, and further the four groups of stirring rod mechanisms also perform revolution while rotating (driven by the rotary motor 1).

Referring to fig. 5 and 8 in combination, the stirring rod mechanism in this embodiment includes a planetary shaft 53, a center sleeve 54, and a plurality of stirring rod assemblies 55. The top end of the planetary shaft 53 is rotatably mounted on the connecting plate 4, the central sleeve 54 is fixedly sleeved on the outer peripheral surface of the planetary shaft 53, and the plurality of stirring rod assemblies 55 are fixedly mounted on the bottom end edge of the central sleeve 54 at intervals. When the rotation motor 1 rotates, the power output by the rotation motor 1 is transmitted to the stirring rod mechanism through the gear set 7, and is used for driving the stirring rod mechanism to rotate.

Referring to fig. 5, in the embodiment, the number of the stirring rod assemblies 55 on a single stirring rod mechanism is six, and in practice, the number of the stirring rod assemblies 55 on a single stirring rod mechanism can be extended to a number range from 2 to 24, and is not limited.

In addition, in order to stir aggregates with different particle sizes, the four groups of stirring rod mechanisms are combined into four different-arrangement appearance structures, so that a satisfactory stirring effect is achieved. It should be explained here that, in the traditional quartz stone particle stirring process, the stirring effect is improved through the mode of increasing the number of the stirring rods in the inherent thinking, and the stirring effect is matched through the ingenious combination mode of adopting different shapes and sizes and different stirring center distances in the embodiment.

The concrete steps are as follows: the outer dimension of the two opposite groups is larger than that of the other two opposite groups, and the outer dimension of the two opposite groups is the outer dimension of the stirring rod component in the horizontal direction, namely the distance of the stirring rod component from the center dimension of the center sleeve. Meanwhile, the four groups of stirring rod mechanisms comprise the following four arrangement modes:

1. the distances from the stirring assemblies in the four groups of stirring rod mechanisms to the central sleeve are equal;

2. the distances from the stirring assemblies in the four groups of stirring rod mechanisms to the central sleeve are different;

3. the distances from the stirring assemblies in one group of the stirring rod mechanisms with larger overall dimensions to the central sleeve are not equal, and the distances from the stirring assemblies in the other group of the stirring rod mechanisms with smaller overall dimensions to the central sleeve are equal;

4. the distances from the stirring assemblies in the group of stirring rod mechanisms with larger overall dimensions to the central sleeve are equal, and the distances from the stirring assemblies in the other group of stirring rod mechanisms with smaller overall dimensions to the central sleeve are unequal.

Meanwhile, the embodiment also provides a quartz stone raw material stirring method, which comprises the following steps: in the quartz stone raw materials stirring process, four stirring regions that are the cross arrangement are formed in the stirring region of quartz stone raw materials, two relative stirring regions are formed in the region of neighbouring quartz stone raw materials center, two relative stirring regions are formed in the region of keeping away from quartz stone raw materials center, four stirring regions are in the whole in-process to the rotatory stirring of quartz stone raw materials still independent rotation stirring separately simultaneously.

Under the situation that the four stirring areas are relatively compact and mutual interference exists in the stirring process of the four stirring areas, the stirring angular speeds of the four stirring areas which are respectively and independently stirred are set to be the same, and time phase interference during stirring is avoided.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is intended to include such modifications and variations.

Claims (9)

1. A quartz stone raw material stirring method is characterized by comprising the following steps: in the quartz stone raw materials stirring process, four stirring regions that are the cross arrangement are formed in the stirring region of quartz stone raw materials, two relative stirring regions are formed in the region of neighbouring quartz stone raw materials center, two relative stirring regions are formed in the region of keeping away from quartz stone raw materials center, four stirring regions are in the whole in-process to the rotatory stirring of quartz stone raw materials still independent rotation stirring separately simultaneously.

2. The method for stirring a quartz stone raw material as set forth in claim 1, wherein the stirring angular velocities of the four stirring areas which are independently stirred are the same.

3. A stirring device for realizing the quartz stone raw material stirring method as set forth in claim 1, wherein the stirring device comprises an autorotation motor, a revolution motor and a motor gear box mounting seat, wherein the autorotation motor and the revolution motor are respectively mounted on the motor gear box mounting seat, and the stirring device is characterized by further comprising four groups of stirring rod mechanisms and a connecting disk, wherein the connecting disk is horizontally and rotatably mounted on the motor gear box mounting seat, the revolution motor is connected with the connecting disk through a provided linkage assembly and is used for driving the connecting disk to horizontally rotate, the four groups of stirring rod mechanisms are rotatably mounted at the bottom end of the connecting disk, the four groups of stirring rod mechanisms are arranged in a cross shape, the autorotation motor is connected with the four groups of stirring rod mechanisms through a provided transmission assembly and is used for driving the four groups of stirring rod mechanisms to rotate, one group of two groups of stirring rod mechanisms are relatively arranged in a region below the center of the autorotation motor, and the other two groups of stirring rod mechanisms are relatively arranged in a region below the center far away from the autorotation motor.

4. The quartz stone raw material stirring device of claim 3, wherein the connecting disc comprises four outwards extending installation parts, four the installation parts are arranged in a cross shape at the edge of the connecting disc, wherein a pair of the installation parts are oppositely arranged, the linear distance between the installation parts is greater than that between the installation parts which are oppositely arranged, and the stirring rod mechanisms are correspondingly horizontally and rotatably installed at four of the installation parts.

5. A quartz stone raw material stirring device as defined in claim 3 or 4, wherein each of said stirring rod mechanisms comprises a planetary shaft, a central sleeve and a plurality of stirring rod assemblies, the top end of said planetary shaft is rotatably mounted on said connecting plate, said central sleeve is fixedly mounted on the outer peripheral surface of said planetary shaft, and said plurality of stirring rod assemblies are fixedly mounted at intervals on the bottom end edge of said central sleeve.

6. The quartz stone raw material stirring device as claimed in claim 3, wherein the linkage assembly comprises a transmission gear, a rotary bearing seat and a rotary support member, the rotary bearing seat is horizontally and rotatably mounted on the motor gear box mounting seat, the rotary support member is fixedly mounted on the outer peripheral surface of the rotary bearing seat, gear teeth meshed with the transmission gear are arranged on the outer peripheral surface of the rotary support member, the transmission gear is fixedly mounted at the bottom end of the revolution motor, the transmission gear is meshed with the rotary support member, and the connecting disc is fixedly mounted at the bottom end of the rotary bearing seat.

7. The quartz stone raw material stirring device as claimed in claim 3, wherein the transmission assembly comprises a main transmission gear and four sets of gear sets, the main transmission gear is fixedly installed at the bottom end of the rotation motor, and the main transmission gear is respectively in transmission connection with the four sets of stirring rod mechanisms through the four sets of gear sets.

8. A quartz stone raw material stirring device as claimed in claim 5, wherein the number of said stirring rod assemblies is between 2 and 24, wherein a plurality of said stirring rod assemblies are evenly spaced at the bottom end edge of the center sleeve.

9. The quartz stone raw material stirring device as claimed in claim 5, wherein the outer dimensions of the two opposite groups of said four groups of said stirring rod mechanisms distributed in a cross shape are larger than the outer dimensions of the other two opposite groups of said stirring rod mechanisms, wherein the four groups of said stirring rod mechanisms comprise the following four layout modes: the distances between the stirring components in the four groups of stirring rod mechanisms and the central sleeve are equal; the distances from the stirring assemblies in the four groups of stirring rod mechanisms to the central sleeve are different; the distances from the stirring assemblies in one group of the stirring rod mechanisms with larger overall dimensions to the central sleeve are not equal, and the distances from the stirring assemblies in the other group of the stirring rod mechanisms with smaller overall dimensions to the central sleeve are equal; the distances from the stirring assemblies in the group of stirring rod mechanisms with larger overall dimensions to the central sleeve are equal, and the distances from the stirring assemblies in the other group of stirring rod mechanisms with smaller overall dimensions to the central sleeve are unequal.

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