CN218573522U - Vacuum multiple mixer for artificial stone processing - Google Patents

Abstract

The utility model relates to an rostone processing field specifically discloses a vacuum multiple mixer is used in rostone processing, and include driving motor, actuating lever with the driving motor linkage, still include a compounding section of thick bamboo, the pay-off compounding pole of being connected with the actuating lever linkage, pay-off compounding pole is located a compounding section of thick bamboo, compounding section of thick bamboo intercommunication has exhaust structure, pay-off compounding pole sets up to at least two sections, be the porter bar respectively, the compounding pole, the porter bar is located a compounding section of thick bamboo and is the heliciform, compounding pole outer wall distribution has two at least incline direction and the crossing fluted piece of incline direction, mix the stopping to the initial mixture stopping after mixing stopping and adding the curing agent and carry out stage by stage processing, the pay-off pole carries out exhaust treatment to the initial mixture stopping, the compounding pole can be the secondary to mixing the stopping and smash the processing, avoid appearing the caking, phenomenon such as inhomogeneous of stirring, can effectively improve the quality of the rostone who waters out.

Description

Vacuum multiple mixer for artificial stone processing

Technical Field

The utility model relates to an rostone processing trade field, in particular to vacuum multiple mixer is used in rostone processing.

Background

The artificial stone generally refers to artificial stone solid plane materials, artificial stone quartz stone, artificial stone granite and the like, the artificial stone is different in types and different in components, the components mainly comprise resin, aluminum powder, pigment and curing agent, the manufacturing process is a chemical material reaction process, the artificial stone is mainly applied to the building decoration industry, and the artificial stone is a novel environment-friendly composite material.

At present, the production process of the artificial stone generally comprises a vacuum mixer, the mixed filler and the curing agent after stirring and mixing are mixed again and then output, and then the mixed filler and the curing agent are poured into a mold for curing to obtain the artificial stone.

The existing vacuum mixer generally directly inputs mixed filler and curing agent into a mixing chamber, and the mixed filler and the curing agent are stirred and output through a screw, so that the condition of uneven stirring is easy to occur, the mixed filler is usually subjected to rough stirring before entering the vacuum mixer after being stirred, the phenomena of caking, uneven stirring and the like are easy to occur, the curing agent is directly mixed after entering the vacuum mixer and is stirred and mixed through the screw, the phenomena of caking, uneven stirring and the like are difficult to solve, the number of defective artificial stone poured by the method is increased, and the product quality is low.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a vacuum multiple mixer for processing artificial stone, which can stir in stages and smash the mixed filler for the second time.

The utility model discloses the technical scheme who adopts does: the utility model provides a vacuum multiple mixer is used in rostone processing, including driving motor, the actuating lever with the driving motor linkage, still include a compounding section of thick bamboo, the pay-off mixing rod of being connected with the actuating lever linkage, pay-off mixing rod is located a compounding section of thick bamboo, compounding section of thick bamboo intercommunication has exhaust structure, pay-off mixing rod sets up to at least two sections, be the pay-off pole respectively, the mixing rod, the pay-off pole outer wall is provided with and is spiral helicine feeding blade, the distribution of mixing rod outer wall has two at least incline direction and the crossing fluted piece of incline direction, do the secondary to mixing the stopping and smash the processing.

By adopting the technical scheme, the initial mixed filler and the mixed filler added with the curing agent are treated stage by stage, the feeding rod carries out exhaust treatment on the initial mixed filler, the mixing rod can carry out secondary smashing treatment on the mixed filler, the phenomena of caking, uneven stirring and the like are avoided, and the quality of the poured artificial stone can be effectively improved.

Preferably, the mixing barrel comprises a first charging barrel for feeding mixed filler poured by the artificial stone and a second charging barrel for feeding curing agent, wherein feeding pipes are respectively arranged at one ends of the first charging barrel and the second charging barrel, which face the driving motor, and the feeding rod is positioned in the first charging barrel and the mixing rod is positioned in the second charging barrel.

By adopting the technical scheme, the mixed filler is further treated by stages after the initial mixed filler and the curing agent are added, the feeding rod in the first charging barrel carries out exhaust treatment on the initial mixed filler, then the initial mixed filler enters the second charging barrel, and the mixed filler is secondarily smashed by the mixing rod.

Preferably, one end, far away from the first material cylinder, of the second material cylinder is communicated with a material conveying pipe, the diameter of the first material cylinder, the diameter of the second material cylinder and the diameter of the material conveying pipe are gradually decreased, the material conveying direction is that mixed filler poured by the artificial stone is fed from the first material cylinder, and the mixed filler is output through the material conveying pipe after being mixed with the curing agent through the second material cylinder.

By adopting the technical scheme, the feeding and discharging of the mixed filler are ensured, the flow rate of the mixed filler can be effectively improved, and the frictional resistance between the mixed filler and the inner wall of the mixing barrel is reduced.

Preferably, the first material cylinder and the second material cylinder are communicated with each other, the first material cylinder and the second material cylinder and the material conveying pipe are connected through clamping hoops, and fastening connecting pieces are arranged at two ends of the second material cylinder.

Through adopting above-mentioned technical scheme, guarantee to mix the stopping and can get into the second feed cylinder after the processing in first feed cylinder to guarantee the stability that first feed cylinder and second feed cylinder are connected.

Preferably, the first charging barrel is provided with a vacuum chamber, the vacuum chamber is communicated with the mixing barrel, and the vacuum chamber is provided with an opening and closing piece.

By adopting the technical scheme, the mixed filler is exhausted in the first material cylinder, so that the phenomena of bubbles, bulges and the like can be effectively avoided when the mixed filler is poured, and further, the quality of the poured artificial stone is ensured.

Preferably, the opening and closing member is communicated with the side wall of the vacuum chamber, an observation window is arranged on the end face of the top of the vacuum chamber, and the observation window is in sealing connection with the vacuum chamber.

By adopting the technical scheme, the working progress of exhausting the mixed filler in the first charging barrel can be observed in real time by a worker.

Preferably, the end, far away from the second feed cylinder, of the first feed cylinder is provided with an installation cylinder, the driving rod is installed in the installation cylinder, and the two ends of the installation cylinder are both provided with rotating parts movably matched with the driving rod.

Through adopting above-mentioned technical scheme, realize the installation and the fixed of actuating lever on this multiple blender of vacuum to guarantee the rotation of actuating lever.

Preferably, a sealing element is provided on the rotatable part of the drive rod towards the end of the first cartridge.

Through adopting above-mentioned technical scheme, guarantee the leakproofness of first feed cylinder towards the installation section of thick bamboo one end, avoid mixing the stopping and reveal.

Preferably, a coupler is arranged at one end, facing the driving motor, of the driving rod, a speed reducer is arranged on the driving motor, and the coupler is in linkage connection with a driving end of the speed reducer.

Through adopting above-mentioned technical scheme, guarantee actuating lever pivoted stability, the shaft coupling can reduce mechanical transmission system's vibration, reduce and strike peak load, still has certain buffering damping performance, and the speed reducer can effectively reduce the inertia of actuating lever, reduce the load inertia of motor.

Preferably, still include the fixing base, be provided with the installed part on the fixing base, the installation section of thick bamboo is located the fixing base, and the speed reducer is installed in fixing base outer wall one side, and the compounding section of thick bamboo is fixed in on the fixing base outer wall and relative with the speed reducer.

By adopting the technical scheme, the installation of the vacuum multiple mixer and the installation of each part are realized.

To sum up, the utility model discloses following technological effect has:

the initial mixed filler and the mixed filler added with the curing agent are treated by stages, the feeding rod carries out exhaust treatment on the initial mixed filler, and the mixing rod can carry out secondary crushing treatment on the mixed filler, so that the phenomena of caking, uneven stirring and the like are avoided, and the quality of the poured artificial stone can be effectively improved.

Drawings

FIG. 1 is a schematic diagram of an explosion structure of a vacuum multiple mixer for processing artificial stone according to the present invention;

fig. 2 is a schematic structural view of the vacuum multiple mixer for processing artificial stone of the present invention.

In the figure: 1. a drive motor; 2. a drive rod; 3. a mixing barrel; 4. a feed bar; 5. a mixing rod; 6. a tooth sheet; 7. a first barrel; 8. a second barrel; 9. a feed pipe; 10. a delivery pipe; 11. fastening a connecting piece; 12. a vacuum chamber; 13. an opening and closing member; 14. an observation window; 15. mounting the cylinder; 16. a rotating member; 17. a seal member; 18. a coupling; 19. a speed reducer; 20. a fixed seat; 21. and (4) a mounting piece.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 and 2, the utility model provides a technical solution of a vacuum multiple mixer for processing artificial stone: including driving motor 1, with the actuating lever 2 of driving motor 1 linkage, still include mixing barrel 3, the pay-off mixing rod of being connected with the 2 linkages of actuating lever, pay-off mixing rod is located mixing barrel 3, mixing barrel 3 intercommunication has exhaust structure, pay-off mixing rod sets up to two sections at least, is porter bar 4, mixing rod 5 respectively, the outer wall of porter bar 4 is provided with and is spiral helicine feeding vane, mixing rod 5 outer wall distribution has two at least incline direction and the crossing tooth 6 of incline direction.

By adopting the technical scheme, the initial mixed filler and the mixed filler added with the curing agent are treated by stages, the feeding rod 4 carries out exhaust treatment on the initial mixed filler, and the mixed filler can be secondarily crushed by the mixed rod 5, so that the phenomena of caking, uneven stirring and the like are avoided, and the quality of the poured artificial stone can be effectively improved.

In this embodiment, the tooth 6 of the outer wall of the mixing rod 5 comprises three groups, which are two groups of tooth 6 with opposite inclined directions and one group of vertical tooth 6, further, the mixed filler can be secondarily broken, the phenomena of caking, uneven stirring and the like are avoided, and the quality of the poured artificial stone can be effectively improved.

As shown in fig. 1 and 2, the mixing barrel 3 includes a first material barrel 7 for feeding mixed filler poured by artificial stone and a second material barrel 8 for feeding curing agent, one end of the first material barrel 7 and one end of the second material barrel 8 facing the driving motor 1 are respectively provided with a feeding pipe 9, the feeding rod 4 is positioned in the first material barrel 7, the mixing rod 5 is positioned in the second material barrel 8, one end of the second material barrel 8 far away from the first material barrel 7 is communicated with a material conveying pipe 10, the material conveying direction is the mixed filler poured by the artificial stone fed from the first material barrel 7, and the mixed filler is output by the material conveying pipe 10 after being mixed with the curing agent through the second material barrel 8.

It should be noted that, in order to increase the flow rate of the mixed filler and reduce the frictional resistance between the mixed filler and the inner wall of the mixing cylinder 3, the diameters of the first material cylinder 7, the second material cylinder 8 and the material conveying pipe 10 are gradually decreased, in this embodiment, the material conveying pipe 10 is a concentric reducing pipe, and an outer wire pagoda joint is disposed at one end of the material conveying pipe 10 far away from the second material cylinder 8, so as to further ensure the discharging stability of the vacuum multiple mixer.

In this embodiment, the first material cylinder 7 and the second material cylinder 8 are communicated with each other, and the first material cylinder 7 and the second material cylinder 8 and the material conveying pipe 10 are connected by clips, and fastening connecting members 11 are provided at both ends of the second material cylinder 8, so as to ensure that the mixed filler can enter the second material cylinder 8 after being processed in the first material cylinder 7, and ensure the stability and the sealing property of the connection between the first material cylinder 7 and the second material cylinder 8.

As shown in fig. 1 and 2, the vacuum chamber 12 is disposed on the first material cylinder 7, the vacuum chamber 12 is communicated with the material mixing cylinder 3, the vacuum chamber 12 is provided with the opening and closing member 13, the opening and closing member 13 is communicated with the side wall of the vacuum chamber 12, the opening and closing member 13 is communicated with the vacuum pump, so as to exhaust the mixed filler in the first material cylinder 7, thereby effectively avoiding the phenomena of bubbles, bulges and the like during the pouring of the mixed filler, further ensuring the quality of the poured artificial stone, and the opening and closing of the vacuum chamber 12 are realized by the opening and closing member 13.

In this embodiment, the observation window 14 is disposed on the top end surface of the vacuum chamber 12, and the observation window 14 is connected with the vacuum chamber 12 in a sealing manner, so that a worker can observe the working process of exhausting the mixed filler in the first charging barrel 7 in real time, and in other embodiments, the observation window 14 and the vacuum chamber 12 can be integrally formed or a sealing ring is disposed between the observation window 14 and the vacuum chamber 12, so as to ensure the sealing performance of the structure.

As shown in fig. 1 and 2, an installation cylinder 15 is disposed at an end of the first barrel 7 away from the second barrel 8, the driving rod 2 is installed in the installation cylinder 15, rotating parts 16 movably engaged with the driving rod 2 are disposed at two ends of the installation cylinder 15, so as to implement installation and fixation of the driving rod 2 on the vacuum multiple mixer and ensure rotation of the driving rod 2, in this embodiment, the rotating parts 16 are bearings, and the driving rod 2 penetrates through the bearings to be installed on the installation cylinder 15 and can stably rotate.

In order to ensure the sealing performance of the first cylinder 7 towards the end of the mounting cylinder 15 and avoid leakage of the mixed filling material, a sealing member 17 is disposed on the rotating member 16 of the driving rod 2 towards the end of the first cylinder 7, in this embodiment, the sealing member 17 is configured as a skeleton oil seal, and in other embodiments, the sealing member 17 may be configured to cooperate with the driving rod 2 and the rotating member 16 in other manners.

As shown in fig. 1 and 2, one end of the driving rod 2 facing the driving motor 1 is provided with a coupler 18, the driving motor 1 is provided with a speed reducer 19, the coupler 18 is linked with a driving end of the speed reducer 19, so that the stability of rotation of the driving rod 2 is ensured, the coupler 18 can reduce vibration of a mechanical transmission system and impact peak load, and has certain buffering and damping performance, and the speed reducer 19 can effectively reduce rotational inertia of the driving rod 2 and load inertia of the motor.

In this embodiment, the vacuum multiple mixer further includes a fixing base 20, the fixing base 20 is provided with an installation component 21, the installation cylinder 15 is located in the fixing base 20, the speed reducer 19 is installed on one side of the outer wall of the fixing base 20, and the mixing cylinder 3 is fixed on the outer wall of the fixing base 20 and is opposite to the speed reducer 19, so that the installation of the vacuum multiple mixer and the installation of each component are realized.

It should be noted that, in order to ensure the discharging speed of the vacuum multiple mixer, the vacuum multiple mixer is usually set in a state that the discharging end is inclined downwards, in this embodiment, the mounting part 21 is inclined on the vacuum multiple mixer, and the fixing base 20 is fixed on the bracket by the mounting part 21 and is in an inclined state, so as to facilitate discharging.

The utility model has the advantages that: the initial mixed filler and the mixed filler added with the curing agent are treated by stages, the feeding rod 4 carries out exhaust treatment on the initial mixed filler, and the mixed filler rod 5 can carry out secondary crushing treatment on the mixed filler, so that the phenomena of caking, uneven stirring and the like are avoided, and the quality of the poured artificial stone can be effectively improved.

Finally, it should be noted that the above mentioned embodiments are only preferred examples of the present invention, and are not intended to limit the present invention, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that the technical solutions described in the foregoing embodiments may be modified or some technical features may be substituted equally. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a vacuum multiple mixer is used in rostone processing, including driving motor (1), actuating lever (2) with driving motor (1) linkage, a serial communication port, still include mixing barrel (3), the pay-off mixing rod of being connected with actuating lever (2) linkage, pay-off mixing rod is located mixing barrel (3), mixing barrel (3) intercommunication has exhaust structure, pay-off mixing rod sets up to at least two sections, be porter bar (4) respectively, mixing rod (5), porter bar (4) outer wall is provided with and is spiral helicine feeding blade, mixing rod (5) outer wall distributes and has two at least incline directions and the crossing fluted piece (6) of incline direction, do the secondary to mixing the stopping and smash the processing.

2. A vacuum multiple mixer for artificial stone processing according to claim 1, characterized in that the mixing drum (3) comprises a first drum (7) for feeding mixed filler for artificial stone casting, a second drum (8) for feeding curing agent, the ends of the first drum (7) and the second drum (8) facing the driving motor (1) are respectively provided with a feeding pipe (9), and the feeding rod (4) is positioned in the first drum (7), and the mixing rod (5) is positioned in the second drum (8).

3. The vacuum multiple mixer for artificial stone processing according to claim 2, wherein one end of the second cylinder (8) far from the first cylinder (7) is communicated with a material conveying pipe (10), the diameter of the first cylinder (7), the diameter of the second cylinder (8) and the diameter of the material conveying pipe (10) are gradually decreased, the material conveying direction is that the mixed filler poured by the artificial stone is fed from the first cylinder (7), and the mixed filler is mixed with the curing agent through the second cylinder (8) and then is output through the material conveying pipe (10).

4. A vacuum multiple mixer for artificial stone processing according to claim 3, wherein the first cylinder (7) and the second cylinder (8) are connected to each other, and the first cylinder (7) and the second cylinder (8) and the feeding pipe (10) are connected by clips, and the two ends of the second cylinder (8) are provided with fastening connectors (11).

5. A vacuum multiple mixer for artificial stone processing according to claim 1, wherein the first cylinder (7) is provided with a vacuum chamber (12), the vacuum chamber (12) and the mixing cylinder (3) are communicated with each other, and the vacuum chamber (12) is provided with an opening and closing member (13).

6. A vacuum multiple mixer for artificial stone processing according to claim 5, characterized in that the opening and closing member (13) is connected to the side wall of the vacuum chamber (12), the top end face of the vacuum chamber (12) is provided with an observation window (14), and the observation window (14) is connected with the vacuum chamber (12) in a sealing manner.

7. A vacuum multiple mixer for artificial stone processing according to claim 1, wherein a mounting cylinder (15) is provided at an end of the first cylinder (7) away from the second cylinder (8), the driving rod (2) is mounted in the mounting cylinder (15), and rotating members (16) movably engaged with the driving rod (2) are provided at both ends of the mounting cylinder (15).

8. A vacuum multiple mixer for artificial stone processing according to claim 7, characterized in that the sealing member (17) is provided on the rotary member (16) at the end of the drive rod (2) facing the first cartridge (7).

9. The vacuum multiple mixer for artificial stone processing according to claim 8, wherein a coupling (18) is provided at one end of the driving rod (2) facing the driving motor (1), a speed reducer (19) is provided on the driving motor (1), and the coupling (18) is connected with a driving end of the speed reducer (19) in a linkage manner.

10. The vacuum multiple mixer for artificial stone processing according to claim 9, further comprising a fixing base (20), wherein the fixing base (20) is provided with a mounting member (21), the mounting cylinder (15) is located in the fixing base (20), the speed reducer (19) is mounted on one side of the outer wall of the fixing base (20), and the mixing cylinder (3) is fixed on the outer wall of the fixing base (20) and opposite to the speed reducer (19).

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