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CN-117046677-B - Fiber reinforced silicate board knife coating equipment

CN117046677BCN 117046677 BCN117046677 BCN 117046677BCN-117046677-B

Abstract

The invention relates to the field of plate coating, in particular to a fiber reinforced silicate plate knife coating device. The invention provides a fiber reinforced silicate board knife coating device which can guide a board and uniformly knife coating. The utility model provides a fiber reinforced silicate panel knife coating equipment, including box, first supporting shoe, receipts workbin and knife coating pole, both sides all are connected with first supporting shoe around the box left part, and both sides all are connected with receipts workbin around the box middle part, and be connected with the knife coating pole in the middle of the box top, still including transport mechanism and coating mechanism, be equipped with transport mechanism between box and the first supporting shoe, be equipped with coating mechanism between box and the transport mechanism. According to the invention, the plate can be guided and transported to be coated by the conveying mechanism, and the coating mechanism can uniformly coat the coating on the plate.

Inventors

  • LI FANGMING
  • WU CHANGLIANG
  • LIU XIAOQING

Assignees

  • 宜春市金特建材实业有限公司

Dates

Publication Date
20260512
Application Date
20230818

Claims (7)

  1. 1. The fiber reinforced silicate board knife coating equipment comprises a box body (1), a first supporting block (2), a receiving box (3) and a knife coating rod (31), wherein the front side and the rear side of the left part of the box body (1) are respectively connected with the first supporting block (2), the front side and the rear side of the middle part of the box body (1) are respectively connected with the receiving box (3), the middle part of the top of the box body (1) is connected with the knife coating rod (31), the equipment is characterized by further comprising a conveying mechanism (4) and a coating mechanism (5), the conveying mechanism (4) comprises a pressing plate (44), the front side and the rear side of the left side of the top of the box body (1) are respectively connected with the pressing plate (44) in a sliding manner, the coating mechanism (5) comprises a discharging box (51), a supporting frame (52), a wedge-shaped pull block (53), a wedge-shaped block (54), a bearing plate (56), a second spring (57), a third spring (58), a deflector rod (59), a stop block (510), a tension spring (511) and a baffle (512), the front side and the rear side of the box body (1) is respectively connected with a supporting frame (52), the two supporting frames (52), the top wall (51) is connected with the upper side of the box body (1) in a sliding manner, two second springs (57) are connected between the supporting plate (56) and the stress block (55), the front side and the rear side of the stress block (55) are respectively connected with a wedge block (54), the inside of the supporting frame (52) is respectively connected with a wedge pull block (53) in a sliding mode, a third spring (58) is respectively connected between the supporting frame (52) and the wedge pull blocks (53), the wedge blocks (54) move downwards to be in extrusion fit with the wedge pull blocks (53), a baffle plate (512) for opening and closing a discharge hole of the discharge box (51) is connected between the two wedge pull blocks (53) in a sliding mode, a tension spring (511) is connected between the wedge pull blocks (53) and the baffle plate (512), the front side and the rear side of the left part of the baffle plate (512) are respectively connected with a baffle plate (510), the front side of a pressing plate (44) at the front part is connected with a deflector rod (59), and the rear side of the pressing plate (44) at the rear part is also connected with the deflector rod (59), and the baffle plate (510) moves leftwards to be in contact with the deflector rod (59).
  2. 2. The fiber reinforced silicate board knife coating device according to claim 1, wherein the conveying mechanism (4) further comprises a motor (41), a belt (42), rollers (43) and first springs (45), the motor (41) is connected in the middle of the inner bottom wall of the box body (1), the rollers (43) are rotatably connected between the two first supporting blocks (2), the rollers (43) are rotatably connected to the right side of the upper portion of the box body (1), the belt (42) is connected between the output shaft of the motor (41) and the rollers (43) on the left portion through the belt (42), the belt (42) is also connected between the output shaft of the motor (41) and the rollers (43) on the right portion through the belt (42), three first springs (45) are connected between the front pressing plate (44) and the box body (1), and three first springs (45) are also connected between the rear pressing plate (44) and the box body (1).
  3. 3. The fiber reinforced silicate board knife coating device according to claim 2, further comprising a guide mechanism (6), wherein the guide mechanism (6) comprises a guide plate (61), a second supporting block (62) and an adjusting screw (63), the second supporting block (62) is connected between the two supporting frames (52), the guide plate (61) is connected inside the second supporting block (62) in a sliding mode, the adjusting screw (63) is connected to the front portion of the guide plate (61), and the adjusting screw (63) is in contact with the front side face of the guide plate (61).
  4. 4. A fiber reinforced silicate board knife coating device according to claim 3, further comprising a scraping mechanism (7), wherein the scraping mechanism (7) comprises a supporting rod (71), a scraping plate (72), a nut (73) and a screw (74), the supporting rod (71) is connected in the middle of the top of the box body (1), the screw (74) is connected with the inner thread of the supporting rod (71), the nut (73) is connected with the top of the screw (74), the scraping plate (72) is connected with the bottom of the screw (74) in a rotating mode, the scraping plate (72) is arranged in a scattered mode towards two sides, and two sides of the scraping plate (72) are located above the material receiving box (3).
  5. 5. The fiber reinforced silicate board knife coating device according to claim 4, further comprising a cleaning mechanism (8), wherein the cleaning mechanism (8) comprises a suction fan (81), an air pipe (82), an air outlet frame (83), a wiping block (84), fourth springs (85) and a sponge block (86), the suction fan (81) is connected to the left side of the box body (1), the air pipes (82) are connected to the front side and the rear side of the suction fan (81), the air outlet frame (83) is connected between the air pipes (82), two fourth springs (85) are connected between the air outlet frame (83) and the box body (1), the wiping block (84) is connected to the bottom of the air outlet frame (83), the sponge block (86) is connected to the bottom of the air outlet frame (83), the wiping block (84) is located above the sponge block (86), and a gap is reserved between the wiping block (84) and the sponge block (86).
  6. 6. The fiber reinforced silicate board knife coating device according to claim 5, further comprising an anti-blocking mechanism (9), wherein the anti-blocking mechanism (9) comprises a fixed block (91), a pull rod (92) and a scraping block (93), the fixed block (91) is connected to the middle of the box body (1), the pull rod (92) is connected to the inside of the fixed block (91) in a sliding mode, the scraping block (93) is connected to the rear end of the pull rod (92), and the scraping block (93) moves to be in contact with a discharge hole of the discharge box (51).
  7. 7. A doctor blade apparatus for fiber reinforced silicate board according to claim 6, wherein the doctor blade bar (31) is made of silica gel.

Description

Fiber reinforced silicate board knife coating equipment Technical Field The invention relates to the field of plate coating, in particular to a fiber reinforced silicate plate knife coating device. Background After the production of the fiber reinforced silicate board is completed, the fiber reinforced silicate board needs to be coated with paint so as to protect the board. The invention discloses a plate knife coater, which comprises a frame, wherein a conveying belt for conveying plates, a coating mechanism for coating the plates on the conveying belt, a feeding mechanism for providing coating for the coating mechanism and a driving mechanism for driving the coating mechanism to work are arranged on the frame, the coating mechanism is arranged at the upper end face of the conveying belt and is connected with the driving mechanism, and the plate knife coater is provided with the conveying belt, the coating mechanism, the feeding mechanism and the driving mechanism. The above-mentioned patent does not have the direction function, when placing the panel, if the position is disordered, then can influence panel knife coating's effect to above-mentioned patent discharges the coating to the paint roller through the material loading pipe, paints the coating, because the material loading pipe can only aim at one position and go on the material loading, so probably lead to the coating on the paint roller inhomogeneous, thereby influence panel knife coating's homogeneity, then studied a fiber reinforced silicate panel knife coating equipment that can lead panel and can knife coating homogeneity. Disclosure of Invention In order to overcome the defects of no guiding function and uneven blade coating, the invention provides a fiber reinforced silicate board blade coating device which can guide a board and can uniformly blade coating. The utility model provides a fiber reinforced silicate panel knife coating equipment, including box, first supporting shoe, receipts workbin and knife coating pole, both sides all are connected with first supporting shoe around the box left part, and both sides all are connected with receipts workbin around the box middle part, and be connected with the knife coating pole in the middle of the box top, still including transport mechanism and coating mechanism, be equipped with transport mechanism between box and the first supporting shoe, be equipped with coating mechanism between box and the transport mechanism. Further, the conveying mechanism comprises a motor, a belt, rollers, pressing plates and first springs, wherein the motor is connected in the middle of the bottom wall in the box body, the rollers are connected between two first supporting blocks in a rotating mode, the rollers are also connected on the right side of the upper portion of the box body in a rotating mode, the belt is connected between an output shaft of the motor and the rollers on the left side of the box body through belt pulleys, the belt is also connected between the output shaft of the motor and the rollers on the right side of the box body through belt pulleys, the pressing plates are connected on the front side and the rear side of the left side of the top of the box body in a sliding mode, three first springs are connected between the pressing plates on the front side and the box body, and three first springs are also connected between the pressing plates on the rear side and the box body. Further, the coating mechanism comprises a discharging box, a supporting frame, wedge-shaped pull blocks, wedge-shaped blocks, stress blocks, supporting plates, second springs, third springs, deflector rods, stop blocks, tension springs and baffle plates, wherein the front side and the rear side of the left part of the box body are respectively connected with the supporting frames, the discharging box is connected between the two supporting frames, the upper part of the left side of the box body is connected with the stress blocks in a sliding mode, the top wall of the box body is connected with the supporting plates, the two second springs are connected between the supporting plates and the stress blocks, the wedge-shaped blocks are respectively connected with the front side and the rear side of the stress blocks, the wedge-shaped pull blocks are respectively connected with the inner parts of the supporting frames in a sliding mode, the third springs are respectively connected between the supporting frames and the wedge-shaped pull blocks, the wedge-shaped blocks move downwards to be matched with the wedge-shaped pull blocks in an extrusion mode, the baffle plates are respectively connected between the wedge-shaped pull blocks, the front side and the rear side of the left part of the baffle plates are respectively connected with the stop blocks, the front side of the pressing plates at the front side and the rear side of the baffle plates are also connected with the deflector rods, and the stop blocks move leftwards and a