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CN-117324186-B - Automatic production line for light heat-insulating decorative plate

CN117324186BCN 117324186 BCN117324186 BCN 117324186BCN-117324186-B

Abstract

The invention relates to the technical field of decorative plate production and discloses an automatic production line of light heat-insulating decorative plates, which comprises a base frame, wherein the base frame is formed by connecting a plurality of upright posts and reinforcing plates which are used for firmly fixing the upright posts and are arranged at the bottoms of the upright posts, the tops of the two columns are provided with moving mechanisms, the inner sides of the moving mechanisms are provided with turning mechanisms, the tops and the bottoms of the turning mechanisms are respectively provided with a transfer mechanism and a switching mechanism which are positioned on the same longitudinal axis.

Inventors

  • WANG TINGTING
  • FANG HONGCHUN
  • ZHOU YONGJUN
  • YANG JINGLU

Assignees

  • 淮南中智机械设备有限公司

Dates

Publication Date
20260508
Application Date
20231019

Claims (8)

  1. 1. The automatic production line of the light heat-insulating decorative plates comprises a base frame, wherein the base frame is formed by connecting a plurality of upright posts (1) and reinforcing plates (2) which are used for fixing the upright posts (1) and are arranged at the bottoms of the upright posts (1), and the upright posts (1) are fixed by the reinforcing plates (2) to form two rows which are arranged in a bilateral symmetry mode in space, and the automatic production line is characterized in that moving mechanisms (3) are arranged at the tops of the two rows of upright posts (1), a turnover mechanism (4) is arranged at the inner side of the moving mechanism (3), a transfer mechanism (5) and a switching mechanism (6) which are arranged on the same longitudinal axis are respectively arranged at the tops and the bottoms of the turnover mechanism (4), an objective table (7) for accommodating processed plates is further arranged at the top surface of the reinforcing plates (2), and infrared detectors (8) which are arranged at two ends of the objective table (7) are arranged on the inner wall body of the upright posts (1). The moving mechanism (3) comprises a first waiting motor (301), a base (302), a first connecting rod (303), a fixed block (304), a driving belt (305), a storage groove (306), a first gear (307), a connecting block (308) and a track (309); the switching mechanism (6) comprises a U-shaped frame body (601), a current-limiting sleeve (602), a roller shaft (603), a connecting pipe (604), a roller pipe (605), a drying pipe (606), a spraying pipe (607), a diversion channel (608), a liquid supply pipe (609), a liquid pump (610), an air supply pipe (611) and a fan (612); The turnover mechanism (4) comprises a turntable (405) and a second connecting rod (406), wherein the U-shaped frame body (601) is fixedly arranged on the turntable (405) through the second connecting rod (406), current-limiting sleeves (602) are fixedly sleeved at two ends of the bottom of the U-shaped frame body (601), a roll shaft (603) is movably sleeved in the current-limiting sleeves (602), three groups of connecting pipes (604) are fixedly connected at two ends of the roll shaft (603), three diversion channels (608) which are circumferentially arranged are formed in an inner cavity of the roll shaft (603), and the inner ends of each group of connecting pipes (604) are movably sleeved at two ends of a roll pipe (605), a drying pipe (606) and a spraying pipe (607) respectively; three circumferentially arranged diversion channels (608) arranged in the inner cavity of the roll shaft (603) are respectively communicated with the inner cavities of the roll pipe (605), the drying pipe (606) and the spraying pipe (607) through three groups of connecting pipes (604); One of the flow limiting sleeves (602) is communicated with a supply source through a liquid supply pipe (609), a liquid pump (610) for limiting liquid flow is arranged on the liquid supply pipe (609), the other flow limiting sleeve (602) is communicated with the supply source through a gas supply pipe (611), a fan (612) for limiting gas flow is arranged on the gas supply pipe (611), and a corner adjusting assembly (613) is further arranged on one inner side wall of the flow limiting sleeve (602); the moving position of the switching mechanism (6) is monitored through the infrared detector (8), a judging instruction is output to the controller through intelligent identification and judgment of position monitoring, and the roller tube (605), the drying tube (606) and the spraying tube (607) are sequentially controlled to turn to the vertical downward direction through the controller, and the processing procedures of roller coating permeation, surface drying, primer spraying and primer drying of the thermal-insulation decorative plate are sequentially executed by matching with the driving of the first servo motor (301).
  2. 2. The automated production line for light thermal insulation decorative plates according to claim 1, wherein the corner adjusting assembly (613) comprises a third waiting motor (6131), a fixed disc (6132), a second gear (6133) and a toothed ring (6134), wherein the fixed disc (6132) is penetrated by a roll shaft (603) and is in movable connection with the roll shaft, the third waiting motor (6131) is fixedly arranged on the inner side wall of the U-shaped frame body (601) through being connected with the fixed disc (6132), an output shaft of the third waiting motor (6131) is fixedly sleeved with a second gear (6133), and the second gear (6133) is meshed with the toothed ring (6134) fixedly sleeved on the surface of the roll shaft (603).
  3. 3. The automated production line for light thermal insulation decorative plates according to claim 1, wherein sealing rubber gaskets are arranged at the joints of the inner ends of each group of connecting pipes (604) and the roller pipes (605), the drying pipes (606) and the spraying pipes (607), respectively, and the gravity centers of the roller pipes (605), the drying pipes (606) and the spraying pipes (607) are arranged vertically downwards.
  4. 4. The automated production line for the light heat-insulating decorative plates, as set forth in claim 1, wherein an inserting groove matched with the section of the roll shaft (603) is arranged inside one side of the current-limiting sleeve (602) close to the roll shaft (603), a single hole matched with the inserting groove is formed in the bottom of one side surface of the current-limiting sleeve (602) far away from the roll shaft (603), and the current-limiting sleeve (602) is connected with the liquid supply pipe (609) or the air supply pipe (611) through the single hole.
  5. 5. The automated production line for light thermal insulation decorative panels according to claim 1, wherein: The turnover mechanism (4) further comprises a cross beam (401), the first waiting motor (301) is installed on the top surface of the base (302), two side walls of the base (302) are fixedly installed on the cross beam (401) through being connected with a first connecting rod (303), the top end of the driving belt (305) is fixedly installed on the cross beam (401) through being connected with a fixed block (304), the bottom end of the driving belt (305) is fixedly connected with one tail end inner wall of the storage groove (306), the output shaft of the first waiting motor (301) is fixedly connected with a first gear (307), the inner side wall of the storage groove (306) is fixedly installed on a track (309) through being connected with a connecting block (308), and the track (309) is installed at the top of the two columns of upright columns (1).
  6. 6. The automated production line for light weight thermal insulation decorative boards according to claim 5, wherein the contact portion between the first gear (307) and the top of the transmission belt (305) is provided in a movable connection relationship, and the contact portion between the first gear (307) and the bottom of the transmission belt (305) is provided in a mutually meshed relationship.
  7. 7. The automatic production line of the light heat-insulating decorative plate according to claim 1, wherein the turnover mechanism (4) further comprises a cross beam (401), a sliding block (402), a second waiting motor (403) and a rotating shaft (404), wherein the bottom of the outer end of the cross beam (401) is movably connected with the inner wall of a track (309) through the sliding block (402), the middle part of the cross beam (401) is movably sleeved with the rotating shaft (404), the rotating shaft (404) is fixedly sleeved with an output shaft of the second waiting motor (403) arranged in the cross beam (401), a turntable (405) is fixedly sleeved at the middle part of the surface of the rotating shaft (404), and a second connecting rod (406) is fixedly connected to the top and the bottom of the turntable (405).
  8. 8. The automatic production line of the light heat-insulating decorative plates according to claim 1, wherein the transfer mechanism (5) comprises a bearing plate (501), an electric push rod (502), a rubber plug (503), a gas hose (504) and an air pump (505), the bearing plate (501) is installed on the rotary table (405) through a second connecting rod (406), the periphery of the top of the bearing plate (501) is respectively provided with the electric push rod (502), the movable end of the top of the electric push rod (502) is fixedly connected with the rubber plug (503), the side wall of the electric push rod (502) is also provided with the air pump (505), and the output end of the air pump (505) is communicated with the bottom end of the rubber plug (503) through the gas hose (504).

Description

Automatic production line for light heat-insulating decorative plate Technical Field The invention relates to the technical field of decorative plate production, in particular to an automatic production line of a light heat-insulating decorative plate. Background The heat-insulating decorative boards are mainly external wall decorative boards which are formed by compounding cement fiber boards with industrial glue after being subjected to roller coating, spraying and drying processes to form decorative paint surfaces, and the decorative paint surfaces are further compounded with the heat-insulating materials into a whole by cold pressing with the industrial glue. The existing production process of the light heat-insulating decorative plate mainly comprises the steps of automatically feeding a plate by a gantry automatic feeding machine, carrying out surface dust removal by a dust remover, carrying out roller coating operation of penetrating priming paint or finishing paint on the plate by a two-pass full-precision double-roller coater, carrying out surface drying by a back-pass heating leveling drying channel, conveying the plate into a folding type drying conveyor for secondary drying by a longitudinal and transverse conveying and jacking rotating plate after the surface drying is finished, taking the plate out of the folding type drying conveyor by a downhill leveling machine with a special structure after the drying is finished, conveying the plate into a double-station film-coating film-cutting integrated machine for carrying out film-coating operation by the longitudinal and transverse conveying and jacking rotating plate, and finally carrying out automatic stacking operation of the plate by a gantry lower plate machine to form a production line and a production process for orderly light heat-insulating decorative plate. However, the existing production process of the light heat-insulating decorative plate is mostly semi-automatic, the connection between two adjacent processing procedures is insufficient, manual interference steps are needed, the production efficiency and the production quality of the light heat-insulating decorative plate are reduced, the continuous production line formed by assembling a plurality of groups of processing and assembling equipment is large in occupied space, the usable area of factories is reduced, and the transportation of personnel and goods is influenced, so that the integrated full-automatic production process of roller coating penetrating bottom, surface drying, primer spraying, primer drying and automatic stacking of finished plates of the light heat-insulating decorative plate is realized in the production process, the production efficiency is improved, and the occupied space of the production line is reduced. Therefore, a new light-weight heat-insulating decorative board automatic production line is needed. Disclosure of Invention In order to overcome the defects in the prior art, the invention provides an automatic production line of a light heat-insulating decorative plate, which aims to solve the problems of how to realize the integrated full-automatic production process of roller coating penetration, surface drying, primer spraying, primer drying and automatic stacking of a finished plate of the light heat-insulating decorative plate in the production process, so as to improve the production efficiency and reduce the occupied volume of the production line. The invention provides a technical scheme that the automatic production line of a light heat-insulating decorative plate comprises a foundation frame, wherein the foundation frame is formed by connecting a plurality of upright posts and reinforcing plates which are used for stabilizing the upright posts and are arranged at the bottoms of the upright posts, the upright posts form two rows which are symmetrically arranged left and right in space under the fixation of the reinforcing plates, the tops of the two rows of upright posts are provided with a moving mechanism, the inner sides of the moving mechanism are provided with a turnover mechanism, the tops and the bottoms of the turnover mechanism are respectively provided with a transferring mechanism and a switching mechanism which are positioned on the same longitudinal axis, the top surface of the reinforcing plates is also provided with an objective table for holding a processed plate, and the inner wall bodies of the upright posts are provided with infrared detectors positioned at two ends of the objective table; the moving mechanism comprises a first waiting motor, a base, a first connecting rod, a fixed block, a driving belt, a storage groove, a first gear, a connecting block and a track; The switching mechanism comprises a U-shaped frame body, a current-limiting sleeve, a roll shaft, a connecting pipe, a roll pipe, a drying pipe, a spray pipe, a diversion canal, a liquid supply pipe, a liquid pump, an air supply pipe and a fan; The U-shaped frame bo