CN212123648U

CN212123648U - Inorganic artificial stone curing device

Info

Publication number: CN212123648U
Application number: CN202020080196.0U
Authority: CN
Inventors: 申江毛
Original assignee: Guangdong Yixin Home Co ltd
Current assignee: Guangdong Yixin Home Co ltd
Priority date: 2020-01-14
Filing date: 2020-01-14
Publication date: 2020-12-11
Anticipated expiration: 2030-01-14

Abstract

The utility model relates to a solidification equipment of inorganic rostone, including transport mechanism and edge first solidification mechanism, second solidification mechanism and the third solidification mechanism that transport mechanism set gradually, the raw materials is arranged in the framed, third solidification mechanism is vacuum solidification mechanism. The utility model provides a curing device of inorganic rostone decomposes into three solidification mechanism with a traditional solidification machine to set up third solidification mechanism into vacuum solidification mechanism, make bubble and steam in the raw materials all by the evacuation, when guaranteeing finished product quality, three solidification mechanism can be in succession on-line solidification, has improved production efficiency, and need not increase the workman and look after, need not additionally increase the human cost.

Description

Inorganic artificial stone curing device

Technical Field

The utility model relates to an rostone production facility technical field specifically, relates to a solidification equipment of inorganic rostone.

Background

The rostone needs can the shaping through several steps such as stirring, cloth, solidification, and the needs of each step closely cooperate, just can accomplish the line production of production line, improve production efficiency, to inorganic rostone, its stirring and the time of cloth process are short, and curing time is longer, and the belt that can not be fine with the time of stirring and cloth, extravagant production resources, consequently, improve curing efficiency and be the problem that inorganic rostone production line need solve.

The production line quantity that increases curing process is proposed to someone, can satisfy the demand really, but, the fixed process that increases produces the line and has taken great usable floor area, and the operation workman can only watch two at most and produce the line, increases human cost and manufacturing cost.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a solidification equipment of inorganic rostone, matching stirring and cloth time that can be fine, area is little, need not additionally to increase the human cost.

In order to solve the technical problem, the utility model provides a curing device for inorganic artificial stones, which comprises a transmission mechanism, a first curing mechanism, a second curing mechanism and a third curing mechanism, wherein the first curing mechanism, the second curing mechanism and the third curing mechanism are sequentially arranged along the transmission mechanism;

the first curing mechanism comprises a first transmission pressing mechanism, a first pressing head matched with the first transmission pressing mechanism and a first driving mechanism for driving the first pressing head to move;

the second curing mechanism comprises a second transmission pressing mechanism, a second pressing head matched with the second transmission pressing mechanism and a second driving mechanism for driving the second pressing head to move;

the third curing mechanism comprises a third transmission pressing mechanism, a third pressing head matched with the third transmission pressing mechanism, a third driving mechanism for driving the third pressing head to move and a vacuum motor for vacuumizing.

Preferably, the conveying mechanism comprises a rack, a roller arranged on the rack and a rolling motor for driving the roller to roll, and the rolling motor drives the roller to rotate.

Preferably, the first transmission pressing mechanism includes a first conveying belt and a first pressing plate located below the first conveying belt, the first pressing plate supporting the first conveying belt.

Preferably, the first driving mechanism comprises a first oil cylinder for driving the first pressure head to move up and down and press the raw material and a first vibration motor for driving the first pressure head to vibrate;

the pressing time of the first pressure head is 180-220 s, and the vibration frequency is 60-80 Hz.

Preferably, the second transmission pressing mechanism comprises a second conveyor belt and a second pressing plate located below the second conveyor belt, and the second pressing plate supports the second conveyor belt.

Preferably, the second driving mechanism comprises a second oil cylinder for driving the second pressure head to move up and down and press the raw material and a second vibration motor for driving the second pressure head to vibrate;

the pressing time of the second pressing head is 90-120 s, and the vibration frequency is 20-50 Hz.

Preferably, the third transmission pressing mechanism includes a third conveyor belt and a third pressing plate located below the third conveyor belt, and the third pressing plate supports the third conveyor belt.

Preferably, the third driving mechanism comprises a third oil cylinder for driving the third pressure head to move up and down and press the raw material and a third vibration motor for driving the third pressure head to vibrate;

the pressing time of the third pressing head is 300-400 s, and the vibration frequency is 20-50 Hz.

Preferably, the vacuum degree in the third curing mechanism is-0.01 MPa.

Preferably, the first curing mechanism further comprises a first electro-ocular mechanism;

the second curing mechanism further comprises a second electric eye mechanism;

the third curing mechanism further comprises a third electro-ocular mechanism.

Implement the utility model discloses, following beneficial effect has:

the utility model provides a curing device of inorganic rostone decomposes into three solidification mechanism with a traditional solidification machine to set up third solidification mechanism into vacuum solidification mechanism, make bubble and steam in the raw materials all by the evacuation, when guaranteeing finished product quality, three solidification mechanism can be in succession on-line solidification, has improved production efficiency, and need not increase the workman and look after, need not additionally increase the human cost.

Drawings

Fig. 1 is a schematic structural view of a curing apparatus for an inorganic artificial stone according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings. Only this statement, the utility model discloses the upper and lower, left and right, preceding, back, inside and outside etc. position words that appear or will appear in the text only use the utility model discloses an attached drawing is the benchmark, and it is not right the utility model discloses a concrete restriction.

As shown in fig. 1, the curing device for inorganic artificial stone of the present invention comprises a transmission mechanism 1, and a first curing mechanism 2, a second curing mechanism 3 and a third curing mechanism 4 sequentially disposed along the transmission mechanism 1, wherein the raw material is located in a mold frame, and the third curing mechanism 4 is a vacuum curing mechanism;

the first curing mechanism 2 comprises a first driving pressing mechanism 21, a first pressing head 22 matched with the first driving pressing mechanism 21 and a first driving mechanism 23 for driving the first pressing head 22 to move;

the second curing mechanism 3 comprises a second transmission pressing mechanism 31, a second pressing head 32 matched with the second transmission pressing mechanism 31 and a second driving mechanism 33 driving the second pressing head 32 to move;

the third curing mechanism 4 comprises a third transmission pressing mechanism 41, a third pressing head 2 matched with the third transmission pressing mechanism 41, a third driving mechanism 43 driving the third pressing head 42 to move, and a vacuum motor 44 for vacuumizing.

Conveying mechanism 1 is arranged in realizing the transport of raw materials, and the raw materials of being convenient for are in the utility model discloses a solidification shaping in the solidification equipment of inorganic rostone obtains required rostone. Specifically, the conveying mechanism 1 comprises a rack 11, a roller 12 arranged on the rack and a rolling motor 13 for driving the roller 12 to roll, wherein the rolling motor 13 drives the roller 12 to rotate, raw materials are contained in a mold frame, and the mold frame is positioned on the roller 12, so that when the roller 12 rolls, the raw materials and the mold frame move along with the roller to realize the conveying of the raw materials.

The conveying mechanism 1 is located between the material distribution mechanism and the first curing mechanism 2 and located at the tail end of the third curing mechanism 4, whether the conveying mechanisms are arranged among the first curing mechanism 2, the second curing mechanism 3 and the third curing mechanism 4 or not is set according to the requirements of actual production, in the embodiment, the conveying mechanism is not arranged between the first curing mechanism 2 and the second curing mechanism 3, and the conveying mechanism is arranged between the second curing mechanism 3 and the third curing mechanism 4, namely, raw materials directly enter the second curing mechanism 3 to be cured for the second time after being cured for the first time, and then are cured for the third time after being cooled by the conveying mechanism for the preset time.

First solidification mechanism 2 is used for realizing the once solidification of raw materials, its include first transmission pressing mechanism 21, with first pressure head 22 and the drive of first transmission pressing mechanism 21 mutually supporting first pressure head 22 motion, first transmission pressing mechanism 21 is used for the cooperation first pressure head 22 carries out the suppression in, still conveys away the framed of splendid attire raw materials, and it includes first conveyer belt and is located the first clamp plate of first conveyer belt below, first clamp plate supports first conveyer belt cooperates raw materials in the framed is suppressed to first pressure head.

The first driving mechanism 21 is used for driving the first pressing head 22 to move, and includes a first oil cylinder for driving the first pressing head 22 to move up and down and press the raw material and a first vibration motor for driving the first pressing head to vibrate, so that the first pressing head 22 vibrates while pressing the raw material, and is used for reducing bubbles in the raw material and increasing the density of the raw material. Specifically, the pressing time of the first pressing head 22 is 180s-220s, and the vibration frequency is 60-80 Hz.

In order to guarantee that the die frame containing the raw materials reaches the preset position for pressing, the first curing mechanism 2 further comprises a first electric eye mechanism, so that the raw materials in the die frame are uniformly pressed, and the quality of finished products is guaranteed. Specifically, the first electric eye mechanism is an infrared detection mechanism.

The second curing mechanism 3 is used for realizing the secondary curing of the raw materials, and comprises a second transmission pressing mechanism 31, a second pressure head 32 and a second driving mechanism 33, wherein the second pressure head 32 is matched with the second transmission pressing mechanism 31, the second driving mechanism drives the second pressure head 32 to move, the second transmission pressing mechanism 31 is used for being matched with the second pressure head 32 to press and simultaneously transmit a mold frame containing the raw materials, the second transmission pressing mechanism comprises a second transmission belt and a second pressing plate located below the second transmission belt, the second pressing plate supports the second transmission belt, and the second pressing plate is matched with the second pressure head to press the raw materials in the mold frame.

The second driving mechanism 31 is used for driving the second ram 32 to move, and includes a second oil cylinder for driving the second ram 32 to move up and down and press the raw material and a second vibration motor for driving the second ram to vibrate, so that the second ram 32 vibrates while pressing the raw material, and is used for reducing bubbles in the raw material and increasing the density of the raw material again. Specifically, the pressing time of the second pressing head 32 is 90s-120s, and the vibration frequency is 20-50 Hz.

In order to ensure that the die frame for containing the raw materials reaches a preset position to be pressed, the second curing mechanism 3 further comprises a second electric eye mechanism, so that the raw materials in the die frame are uniformly pressed, and the quality of finished products is ensured. Specifically, the second electric eye mechanism is an infrared detection mechanism.

The third curing mechanism 4 is used for realizing three times of curing of the raw material, and includes a third transmission pressing mechanism 41, a third pressing head 42 mutually matched with the third transmission pressing mechanism 41, a third driving mechanism 43 for driving the third pressing head 42 to move, and a vacuum motor 44 for vacuumizing.

The third pressing mechanism 41 is used for cooperating with the third pressing head 42 to press and simultaneously conveying the mold frame containing the raw materials, and includes a third conveyor belt and a third pressing plate located below the third conveyor belt, and the third pressing plate supports the third conveyor belt and cooperates with the third pressing head to press the raw materials in the mold frame.

The third driving mechanism 43 is used for driving the third ram 42 to move, and includes a third oil cylinder for driving the third ram 42 to move up and down and press the raw material and a third vibration motor for driving the third ram to vibrate, so that the third ram 42 vibrates while pressing the raw material, and is used for reducing bubbles in the raw material and increasing the density of the raw material. Specifically, the pressing time of the third pressing head is 300-400 s, and the vibration frequency is 20-50 Hz.

The vacuum motor 44 is used for vacuumizing, so that the raw material is pressed in a vacuum environment, bubbles, water vapor and the like in the raw material are emptied, the density of the raw material is increased again, and the quality of a finished product is improved. In this embodiment, the vacuum degree in the third curing mechanism 4 is-0.01 MPa.

In order to ensure that the die frame for containing the raw materials reaches a preset position to be pressed, the third curing mechanism 4 further comprises a third electric eye mechanism, so that the raw materials in the die frame are uniformly pressed, and the quality of finished products is ensured. Specifically, the third electric eye mechanism is an infrared detection mechanism.

The utility model provides a curing device of inorganic rostone decomposes into three solidification mechanism with a traditional solidification machine to set up third solidification mechanism 4 into vacuum solidification mechanism, make bubble and steam in the raw materials all by the evacuation, when guaranteeing finished product quality, three solidification mechanism can be in succession on-line solidification, has improved production efficiency, and need not increase the workman and look after, need not additionally increase the human cost.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims

1. The curing device for the inorganic artificial stone is characterized by comprising a transmission mechanism, a first curing mechanism, a second curing mechanism and a third curing mechanism, wherein the first curing mechanism, the second curing mechanism and the third curing mechanism are sequentially arranged along the transmission mechanism;

2. The apparatus for curing an inorganic artificial stone according to claim 1, wherein the transfer mechanism comprises a frame, a roller installed on the frame, and a rolling motor for driving the roller to roll, the rolling motor driving the roller to rotate.

3. The apparatus for curing an inorganic artificial stone according to claim 1, wherein the first driving and pressing mechanism includes a first conveyor belt and a first pressing plate positioned below the first conveyor belt, the first pressing plate supporting the first conveyor belt.

4. The apparatus for curing an inorganic artificial stone according to claim 1, wherein the first driving mechanism comprises a first cylinder for driving the first ram to move up and down and press the raw material and a first vibration motor for driving the first ram to vibrate;

5. The apparatus for curing an inorganic artificial stone according to claim 1, wherein the second transmission pressing mechanism includes a second conveyor belt and a second pressing plate positioned below the second conveyor belt, the second pressing plate supporting the second conveyor belt.

6. The apparatus for curing an inorganic artificial stone according to claim 1, wherein the second driving mechanism comprises a second cylinder for driving the second ram to move up and down and press the raw material and a second vibration motor for driving the second ram to vibrate;

7. The apparatus for curing an inorganic artificial stone according to claim 1, wherein the third transmission pressing mechanism includes a third conveyor belt and a third pressing plate positioned below the third conveyor belt, the third pressing plate supporting the third conveyor belt.

8. The apparatus for curing an inorganic artificial stone according to claim 1, wherein the third driving mechanism comprises a third cylinder for driving the third ram to move up and down and press the raw material and a third vibration motor for driving the third ram to vibrate;

9. The apparatus of claim 1, wherein the vacuum in the third curing mechanism is-0.01 MPa.

10. The apparatus of claim 1, wherein the first curing mechanism further comprises a first electric eye mechanism;

the second curing mechanism further comprises a second electric eye mechanism;

the third curing mechanism further comprises a third electro-ocular mechanism.