CN113478668A

CN113478668A - Artificial marble manufacturing system

Info

Publication number: CN113478668A
Application number: CN202110719391.2A
Authority: CN
Inventors: 张勇; 周志响
Original assignee: Anhui Hongyao Stone Co ltd
Current assignee: Anhui Hongyao Stone Co ltd
Priority date: 2021-06-28
Filing date: 2021-06-28
Publication date: 2021-10-08

Abstract

The invention discloses an artificial marble manufacturing system, comprising: the material mixing mechanism is used for uniformly stirring and mixing the raw materials for manufacturing the marble; the conveying mechanism is connected with the mixing mechanism and conveys the uniformly mixed materials to the next process; the material distribution mechanism is connected with the conveying mechanism, receives the materials conveyed by the conveying mechanism and uniformly lays the materials; and the press forming mechanism is connected with the material distributing mechanism and is used for press forming the uniformly laid materials. The artificial marble manufacturing system has strong production continuity, does not need to be transferred among a plurality of stirring devices, and greatly improves the production efficiency; the even entering lower chamber of material is indoor, avoids the material to get into the lower chamber from same position in, and then prevents that same material from gathering after getting into the lower chamber, improves the even degree that each raw materials mixes, reduces the stirring mixing time.

Description

Artificial marble manufacturing system

Technical Field

The invention relates to the technical field of artificial marble equipment, in particular to an artificial marble manufacturing system.

Background

Since natural stone is processed into a decorative material mainly by mining natural ore into a raw material or a plate, the unrenewable property and the limited quantity of the ore are different depending on the ore and a large amount of leftover waste remains as time goes by, and thus artificial stone has been more used.

Artificial marble is a synthetic body in which additives such as natural stone powder, minerals, and resin chips are blended with a base material such as synthetic resin such as acrylic resin, unsaturated polyester resin, and epoxy resin, or cement, and additives such as pigments are added as necessary to express the texture of natural stone. In the manufacture of the artificial marble, the raw materials need to be uniformly mixed together by adopting stirring equipment. When the existing artificial marble is manufactured, a plurality of stirring devices are needed to stir the pigment, the auxiliary raw materials and the like respectively, so that the device cost is high; and the raw materials enter the stirring equipment from the same inlet, and the same raw materials are easy to accumulate together, so that the problems of long mixing time and incomplete mixing are caused. Based on this, how to design an artificial marble manufacturing system is a technical problem to be solved by the present invention.

Disclosure of Invention

The present invention has been made in view of the above-mentioned problems occurring in the prior art, and an object of the present invention is to provide an artificial marble manufacturing system.

The invention solves the technical problems through the following technical means:

an artificial marble manufacturing system comprising:

the material mixing mechanism is used for uniformly stirring and mixing the raw materials for manufacturing the marble;

the conveying mechanism is connected with the mixing mechanism and conveys the uniformly mixed materials to the next process;

the material distribution mechanism is connected with the conveying mechanism, receives the materials conveyed by the conveying mechanism and uniformly lays the materials;

and the press forming mechanism is connected with the material distributing mechanism and is used for press forming the uniformly laid materials.

As an improvement of the above technical solution, in the artificial marble manufacturing system, the mixing mechanism includes a stirring tank; an upper cavity and a lower cavity are arranged in the stirring tank;

a mixing groove body is arranged in the upper chamber; at least one mixing bin is arranged in the mixing groove body; a first stirring mechanism is arranged in the mixing bin; the first stirring mechanism is provided with a first driving mechanism for driving the first stirring mechanism to stir;

the bottom end of the mixing bin is provided with a discharge port for discharging materials into the lower cavity; the mixing tank body is coaxially and rotatably arranged in the upper chamber; a second driving mechanism for driving the mixing tank body to rotate is arranged on the mixing tank body; the material mixing groove body rotates to throw the material discharged from the discharge opening into the lower cavity;

a second stirring mechanism is arranged in the lower chamber; and a third driving mechanism for driving the second stirring mechanism to stir is arranged on the second stirring mechanism.

As an improvement of the above technical solution, in the artificial marble manufacturing system, a partition plate for dividing the inside of the stirring tank into an upper chamber and a lower chamber is arranged in the stirring tank; the baffle is in a ring shape and is coaxial with the stirring tank; the mixing tank body is coaxially and rotatably arranged on the partition plate; the upper surface of the partition board is provided with a first sliding chute; the first sliding chute is in an annular shape and is coaxial with the partition plate; the lower surface of the mixing tank body is provided with a second sliding chute matched with the first sliding chute; and a ball is arranged between the first sliding groove and the second sliding groove.

As an improvement of the above technical solution, in the artificial marble manufacturing system, the first stirring mechanism includes a first stirring shaft and a first blade disposed on the first stirring shaft; the first drive mechanism comprises a first motor; the first stirring shaft is in transmission connection with the first motor through a gear.

As an improvement of the above technical solution, in the artificial marble manufacturing system, the discharge opening is positioned in the inner hole of the partition plate; the discharge opening is in a horn mouth shape with a small upper part and a big lower part.

As an improvement of the above technical solution, in the artificial marble manufacturing system, the second driving mechanism includes a second motor and a driving shaft; one end of the driving shaft is fixed at the center of the bottom end of the mixing tank body and is used for driving the mixing tank body to rotate; and the output end of the second motor is fixedly connected with the other end of the driving shaft to drive the driving shaft to rotate.

As an improvement of the above technical solution, in the artificial marble manufacturing system, the second stirring mechanism includes a second stirring shaft and a second blade disposed on the second stirring shaft; the driving shaft is coaxially arranged in the second stirring shaft to form a sleeve structure arranged inside and outside; the third drive mechanism comprises a third motor; and the third motor is connected with the second stirring shaft to drive the second stirring shaft to rotate.

The invention has the advantages that: the artificial marble manufacturing system has strong production continuity, does not need to be transferred among a plurality of stirring devices, and greatly improves the production efficiency; the even entering lower chamber of material is indoor, avoids the material to get into the lower chamber from same position in, and then prevents that same material from gathering after getting into the lower chamber, improves the even degree that each raw materials mixes, reduces the stirring mixing time.

Drawings

FIG. 1 is a block diagram of a manufacturing system according to the present invention.

FIG. 2 is a schematic structural diagram of a mixing mechanism according to the present invention.

Fig. 3 is a schematic diagram of the structure of the mixing tank of the present invention.

FIG. 4 is a schematic view of the position of the partition according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1, referring to the drawings, an artificial marble manufacturing system includes:

the material mixing mechanism 1 is used for uniformly stirring and mixing marble manufacturing raw materials;

the conveying mechanism 2 is connected with the mixing mechanism 1 and conveys the uniformly mixed materials to the next process;

the material distribution mechanism 3 is connected with the conveying mechanism 2, receives the materials conveyed by the conveying mechanism 2 and uniformly lays the materials;

the press forming mechanism 4 is connected with the material distributing mechanism 3 and is used for press forming the uniformly laid materials;

the marble production raw materials are uniformly mixed by the mixing mechanism 1 and are conveyed to the distributing mechanism by the conveying mechanism 2, and the conveying mechanism 2 adopts a conveying belt; the distributing mechanism 3 adopts an infrared monitoring and metering full-automatic distributing system, the traveling speed and the blanking of the distributing machine are controlled by a computer, and the blanking metering is monitored by infrared rays, so that the uniformity of the distribution is ensured (the prior art); after the cloth is finished, the cloth is pressed and formed by a pressing and forming mechanism 4, the pressing and forming mechanism comprises a vacuum press (the prior art), high-frequency stamping is carried out in a vacuum state, the instantaneous pressure of the area of each square decimeter can reach 100 kilograms, and the produced product has the characteristic of no air holes and high density.

As an improvement of the above technical solution, the mixing mechanism 1 includes a stirring tank 101; an upper chamber 102 and a lower chamber 103 are arranged in the stirring tank 101;

the stirring tank 1 is designed into a double-layer structure consisting of an upper chamber 102 and a lower chamber 103, and is used for stirring and mixing marble production raw materials step by step and in multiple levels, so that the mixing uniformity of the raw materials is improved.

A mixing tank body 104 is arranged in the upper cavity 102; at least one mixing bin 105 is arranged in the mixing tank body 104; a first stirring mechanism 1051 is arranged in the mixing bin 105; the first stirring mechanism 1051 is provided with a first driving mechanism 1052 for driving the first stirring mechanism 1051 to stir;

mixing bunker 105 is as the first layer mixing container of raw materials, its design is at least one, separately stir different raw materials respectively, if for the required raw materials coloring coupling of different varieties, the colour mixture, mix for the auxiliary material stirring etc. different raw materials separately stir in the different mixing bunkers of same agitator tank, directly fall into and synthesize the stirring in the lower chamber 103 as second floor mixing container after the stirring and mix, on the one hand, the production continuity is strong, need not shift between a plurality of agitated vessel, greatly improve production efficiency, on the other hand, equipment floor area is little, it is few to occupy equipment, and production cost is greatly saved.

The bottom end of the mixing bin 105 is provided with a discharge port 1053 for discharging materials into the lower chamber 103; the mixing tank body 104 is coaxially and rotatably arranged in the upper cavity 102; a second driving mechanism 1041 for driving the mixing tank body 104 to rotate is arranged on the mixing tank body 104; the mixing tank body 104 rotates to throw the material discharged from the discharge port 1053 into the lower chamber 103;

when the mixed materials in the mixing bin 105 are discharged into the lower cavity 103 at the discharge port 1053, the second driving mechanism 1041 drives the mixing tank body 104 to rotate, on one hand, the mixing tank body 104 rotates to spray the materials at each position of the lower cavity 103, namely, the materials uniformly enter the lower cavity 103, the materials are prevented from entering the lower cavity 103 from the same position, the same materials are prevented from accumulating after entering the lower cavity 103, the uniformity of mixing of the raw materials is improved, and the stirring and mixing time is shortened; on the other hand, the mixing tank body 104 rotates, and due to the centrifugal effect, the discharging smoothness of the discharging opening 1053 can be improved, and the blocking of the discharging opening 1053 can be prevented.

A second stirring mechanism 1031 is arranged in the lower chamber 103; the second stirring mechanism 1031 is provided with a third driving mechanism 1032 for driving the second stirring mechanism 1031 to stir.

After the materials enter the lower chamber 103, the materials are comprehensively stirred by the second stirring mechanism 1031, and all the materials are mixed together.

The artificial marble manufacturing system has strong production continuity, does not need to be transferred among a plurality of stirring devices, and greatly improves the production efficiency; the even entering lower chamber of material is indoor, avoids the material to get into the lower chamber from same position in, and then prevents that same material from gathering after getting into the lower chamber, improves the even degree that each raw materials mixes, reduces the stirring mixing time.

As an improvement of the above technical solution, a partition 1011 is disposed in the agitator tank 101 and divides the interior of the agitator tank 101 into an upper chamber 102 and a lower chamber 103; the baffle 1011 is in a ring shape and is coaxially arranged with the stirring tank 101; the mixing tank body 104 is coaxially and rotatably arranged on the partition plate 1011; a first sliding chute 10111 is arranged on the upper surface of the partition plate 1011; the first sliding chute 10111 is annular and is coaxially arranged with the partition plate 1011; the lower surface of the mixing tank body 104 is provided with a second sliding chute matched with the first sliding chute 10111; a ball 10112 is disposed between the first sliding groove 10111 and the second sliding groove.

The setting of baffle 1011, on the one hand cut apart into upper chamber 102 and lower chamber 103 with agitator tank 101, on the other hand, baffle 1011 can form the support to compounding cell body 104, baffle 1011 designs for cyclic annularly, avoid setting up of baffle 1011 to influence the rotation of bin outlet 1053, set up first spout 10111 between baffle 1011 and the compounding cell body 104, second spout and ball 10112, realize the rotation of compounding cell body 104, of course, do not confine to between compounding cell body 104 and the baffle 1011 and use above-mentioned rotation connection structure, still can use other structures to realize rotating the connection, like annular slide rail and annular slide cooperation structure.

As a modification of the above technical solution, the first stirring mechanism 1051 includes a first stirring shaft 10511 and a first blade 10512 disposed on the first stirring shaft 10511; the first drive mechanism 1052 includes a first motor; the first stirring shaft 10511 is in transmission connection with a first motor through a gear;

the first motor is arranged at the top end of the stirring tank 101, and the first stirring shaft 10511 penetrates through the top wall of the stirring tank 101 and is fixedly connected with an output shaft of the first motor.

As an improvement of the above technical solution, the discharge opening 1053 is located in the inner hole of the partition 1011; the discharge opening 1053 is in a bell mouth shape with a small upper part and a big lower part;

the bin outlet 1053 is located the hole of baffle 1011, avoids setting up of baffle 1011 to influence the rotation of bin outlet, and bin outlet 1053 designs for big-end-up's horn mouth form, and it is big to clap the area, improves material feeding homogeneity, and the ejection of compact is smooth and easy, places the jam.

As a modification of the above technical solution, the second driving mechanism 1041 includes a second motor 10411 and a driving shaft 10412; one end of the driving shaft 10412 is fixed at the center of the bottom end of the mixing tank body 104 and is used for driving the mixing tank body 014 to rotate; the output end of the second motor 10411 is fixedly connected with the other end of the driving shaft 10412, and drives the driving shaft 10412 to rotate;

the second motor 10411 is arranged at the lower end of the stirring tank 101, and the lower end of the driving shaft 10412 penetrates through the bottom end of the stirring tank 101 and is connected with the second motor 10411; to facilitate the mounting connection, the second motor 10411 and the driving shaft 10412 are connected by a belt or chain transmission.

As a modification of the above technical solution, the second stirring mechanism 1031 includes a second stirring shaft 10311 and second blades 10312 disposed on the second stirring shaft 10311; the driving shaft 10412 is coaxially arranged in the second stirring shaft 10311 to form a sleeve structure arranged inside and outside; the third drive mechanism 1032 includes a third motor; the third motor is connected with the second stirring shaft 10311 to drive the second stirring shaft 10311 to rotate;

the driving shaft 10412 and the second stirring shaft 10311 are designed as sleeve structures arranged inside and outside, and are coaxial, so that the installation structure is simplified.

It is noted that, in this document, relational terms such as first and second, and the like, if any, are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. An artificial marble manufacturing system, comprising:

the material mixing mechanism (1) is used for uniformly stirring and mixing marble manufacturing raw materials;

the conveying mechanism (2) is connected with the mixing mechanism (1) and conveys the uniformly mixed materials to the next procedure;

the material distribution mechanism (3) is connected with the conveying mechanism (2), receives the materials conveyed by the conveying mechanism (2), and uniformly lays the materials;

and the press forming mechanism (4) is connected with the material distributing mechanism (3) and is used for press forming the uniformly laid materials.

2. The artificial marble manufacturing system of claim 1, wherein: the mixing mechanism (1) comprises a stirring tank (101); an upper chamber (102) and a lower chamber (103) are arranged in the stirring tank (101);

a mixing trough body (104) is arranged in the upper cavity (102); at least one mixing bin (105) is arranged in the mixing tank body (104); a first stirring mechanism (1051) is arranged in the mixing bin (105); the first stirring mechanism (1051) is provided with a first driving mechanism (1052) for driving the first stirring mechanism (1051) to stir;

the bottom end of the mixing bin (105) is provided with a discharge port (1053) for discharging materials into the lower chamber (103); the mixing tank body (104) is coaxially and rotatably arranged in the upper cavity (102); a second driving mechanism (1041) for driving the mixing tank body (104) to rotate is arranged on the mixing tank body (104); the mixing tank body (104) rotates to throw the materials discharged from the discharge opening (1053) into the lower chamber (103);

a second stirring mechanism (1031) is arranged in the lower chamber (103); and a third driving mechanism (1032) for driving the second stirring mechanism (1031) to stir is arranged on the second stirring mechanism (1031).

3. The artificial marble manufacturing system of claim 2, wherein: a partition plate (1011) for dividing the interior of the stirring tank (101) into an upper chamber (102) and a lower chamber (103) is arranged in the stirring tank (101); the baffle plate (1011) is in a ring shape and is coaxially arranged with the stirring tank (101); the mixing tank body (104) is coaxially and rotatably arranged on the partition plate (1011); the upper surface of the clapboard (1011) is provided with a first sliding chute (10111); the first sliding chute (10111) is in a ring shape and is coaxially arranged with the partition plate (1011); the lower surface of the mixing tank body (104) is provided with a second sliding groove matched with the first sliding groove (10111); a ball (10112) is arranged between the first sliding groove (10111) and the second sliding groove.

4. The artificial marble manufacturing system of claim 2, wherein: the first stirring mechanism (1051) comprises a first stirring shaft (10511) and a first blade (10512) arranged on the first stirring shaft (10511); the first drive mechanism (1052) comprises a first motor; the first stirring shaft (10511) is connected with the first motor through a gear.

5. The artificial marble manufacturing system of claim 3, wherein: the discharge opening (1053) is positioned in an inner hole of the baffle plate (1011); the discharge opening (1053) is in a bell mouth shape with a small upper part and a big lower part.

6. The artificial marble manufacturing system of claim 2, wherein: the second drive mechanism (1041) comprises a second motor (10411) and a drive shaft (10412); one end of the driving shaft (10412) is fixed at the center of the bottom end of the mixing tank body (104) and is used for driving the mixing tank body (014) to rotate; the output end of the second motor (10411) is fixedly connected with the other end of the driving shaft (10412) to drive the driving shaft (10412) to rotate.

7. The artificial marble manufacturing system of claim 6, wherein: the second stirring mechanism (1031) comprises a second stirring shaft (10311) and a second blade (10312) arranged on the second stirring shaft (10311); the driving shaft (10412) is coaxially arranged in the second stirring shaft (10311) to form a sleeve structure arranged inside and outside; the third drive mechanism (1032) comprises a third motor; the third motor is connected with the second stirring shaft (10311) to drive the second stirring shaft (10311) to rotate.