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CN-117848015-B - Feed system suitable for air-dry stove

CN117848015BCN 117848015 BCN117848015 BCN 117848015BCN-117848015-B

Abstract

The application discloses a feeding system suitable for an air drying furnace, which relates to the technical field of ceramic carrier processing and comprises a feeding table, a bearing frame body, a first rotating plate assembly, a second rotating plate assembly and a jacking column assembly, wherein the main bodies of the first rotating plate assembly and the second rotating plate assembly are transversely arranged and are respectively provided with a plate body with an L-shaped longitudinal section, the plate bodies are rotationally connected to the bearing frame body, the first rotating plate assembly comprises a bearing plate body and a rectangular frame body, the rectangular frame body is a rectangular hard frame body and is fixed on the bearing plate body, a row of cylindrical rotating columns with built-in magnets are arranged on the rectangular frame body, a soft iron belt body and a belt body rolling assembly are further arranged on the rectangular frame body, the second rotating plate assembly comprises a bearing plate and a transmission plate, and the jacking column assembly is provided with a plurality of telescopic rods which slide relative to the ground.

Inventors

  • TAO WEI
  • XU ZHIDAN

Assignees

  • 南京年达智能装备科技有限公司

Dates

Publication Date
20260505
Application Date
20240118

Claims (10)

  1. 1. The feeding system suitable for the air drying furnace is characterized by comprising a feeding table (100), a bearing frame body (400), a first rotating plate assembly (500), a second rotating plate assembly (600) and a jacking column assembly (700); The ceramic carriers are transferred to the feeding table (100) in rows; The main bodies of the first rotating plate assembly (500) and the second rotating plate assembly (600) are plate bodies which are transversely arranged and have L-shaped longitudinal sections, and are rotatably connected to the bearing frame body (400); the first rotating plate assembly (500) comprises a bearing plate body (510) and a rectangular frame body (520); the rectangular frame body (520) is a rectangular hard frame body, is fixed on the bearing plate body (510) and is provided with a row of column-shaped rotating columns (521) with built-in magnets; The rectangular frame body (520) is also provided with a soft iron belt body (522) and a belt body winding assembly (523), wherein the soft iron belt body (522) is an iron belt body and is adsorbed by a cylindrical rotating column (521), one end of the soft iron belt body (522) is fixed at the end part of the rectangular frame body (520), and the other end of the soft iron belt body is positioned on the belt body winding assembly (523) which is positioned at the other end of the rectangular frame body (520) and is of a winding drum structure with a built-in torsion spring; the second rotating plate assembly (600) comprises a bearing plate (610) and a transmission plate (620), wherein a rod-shaped rotating body (611) protruding out of the bearing plate (610) is positioned on the bearing plate (610); The jacking column assembly (700) is a plurality of telescopic rods sliding relative to the ground and is used for jacking the soft iron belt bodies (522) from gaps among the column-shaped rotating columns (521) so as to adjust the intervals among ceramic carriers on the soft iron belt bodies (522); The feeding table (100) comprises a bearing frame (110), a net belt conveying body (120) and a tensioning mechanism, wherein the bearing frame (110) is placed or fixed on the ground and is of a frame structure and is used for bearing and fixing the net belt conveying body (120); The bearing frame body (400) is in a rod-shaped, plate-shaped or frame structure, is positioned on a bearing frame (110) on the feeding table (100) or on the ground, and is used for bearing and positioning a first rotating plate assembly (500), a second rotating plate assembly (600) and a rotating driving assembly; When the ceramic carrier feeding device is used, firstly, the ceramic carriers are longitudinally placed on a feeding table (100), then the mesh belt conveying body (120) is controlled to move the ceramic carriers towards the first rotating plate assembly (500) and enable the forefront row of ceramic carriers to move onto the bearing plate assembly (510) and cling to the soft iron belt body (522), after that, the first rotating plate assembly (500) is controlled to rotate 90 degrees so that the ceramic carriers are transversely arranged, the side surfaces of the ceramic carriers on the first rotating plate assembly are in contact with the rod-shaped rotating bodies (611), the distance between the ceramic carriers is adjusted by the jacking column assembly (700), after that, the rod-shaped rotating bodies (611) are controlled to rotate so that the end parts of the ceramic carriers cling to the conveying plates (620), the second rotating plate assembly (600) is controlled to rotate 90 degrees and the input mesh belt assembly (200) is controlled to operate, the ceramic carriers on the second rotating plate assembly (600) are transferred onto the input mesh belt assembly (200), and finally, all the components are reset, and the next row of ceramic carriers are transferred.
  2. 2. The feeding system for an air drying oven according to claim 1, wherein the diameter of the cylindrical rotating columns (521) is smaller than 0.8 cm, the distance between the columns is 2 to 4 cm, the number of the columns is larger than 20, and the distance between the side surfaces of the cylindrical rotating columns (521) and the back-shaped surface of the rectangular frame (520) is smaller than 3 mm.
  3. 3. The feeding system for an air drying furnace according to claim 1, wherein a row of anti-rolling strips (524) are fixed on the surface, far away from the rectangular frame body (520), of the soft iron belt body (522), the anti-rolling strips (524) are strip-shaped rubber strips, the number of the anti-rolling strips is more than 50, and the length direction of the anti-rolling strips is the same as the width direction of the soft iron belt body (522) and is used for limiting the rolling of a ceramic carrier on the soft iron belt body (522).
  4. 4. The feeding system for an air drying oven according to claim 1, wherein a row of longitudinal strips (612) are further fixed on the bearing plate (610), the longitudinal strips (612) are strip-shaped rubber strips, the number of the rubber strips is greater than 50, the length direction is the same as the width direction of the soft iron belt body (522), and the thickness is smaller than the protruding amount of the rod-shaped rotating body (611) from the bearing plate (610).
  5. 5. The feeding system for an air drying oven according to claim 1, wherein the receiving plate (510) has a width of 0.6 to 0.7 times the diameter of the ceramic carrier, the rectangular frame (520) has a width of 0.65 to 0.75 times the height of the ceramic carrier, the support plate (610) has a width of 0.65 to 0.75 times the height of the ceramic carrier, and the rod-shaped rotator (611) has a width of 0.6 to 0.7 times the diameter of the ceramic carrier.
  6. 6. The feeding system for an air drying oven according to any one of claims 1 to 5, wherein the jacking column assembly (700) comprises a bottom plate (710), a sliding rail (720) and a sliding lifting column (730); the sliding rail (720) is a straight guide rail and is fixed on the bottom plate (710), the length direction of the sliding rail is the same as the length direction of the rectangular frame body (520), and the sliding rail is positioned right below the first rotating plate assembly (500); The number of the sliding lifting columns (730) is more than 6, and the sliding lifting columns slide along the sliding rail (720) under the synergistic effect of the control unit and the power assembly; The sliding lifting column (730) is an electric telescopic rod and stretches under the control of the control unit.
  7. 7. The feeding system for an air drying oven according to any one of claims 1 to 5, wherein the jacking column assembly (700) comprises a bottom plate (710), a sliding rail (720) and a sliding lifting column (730); The sliding rail (720) is fixed on the bottom plate (710); The jack-up column assembly (700) further includes a second rail (740) and a power telescoping column (750); The second guide rail (740) is fixed on the bottom plate (710) and is positioned right below the first rotating plate assembly (500) in the same length direction as the rectangular frame body (520); the number of the power telescopic columns (750) is one, and the power telescopic columns slide along the second guide rail (740); the power telescopic column (750) is an electric telescopic rod; the sliding lifting column (730) comprises a base rod (732) and a sliding rod (733); the base rod (732) is slidably positioned on the slide rail (720), and the sliding rod (733) is slidably positioned on the base rod (732); Penetration holes (734) are formed in the sliding rod (733) at equal intervals; a bearing rod (738) is fixed on the side wall of the sliding rod (733); An insertion fixing component (735) is fixed on the side wall, close to the top, of the base rod (732); The insertion fixing component (735) is used for timely inserting the penetrating hole (734) on the sliding rod (733) through magnetic force and elastic force so as to fix the sliding rod (733); The power telescopic column (750) and the position with the same height as the inserted fixed component (735) are provided with an adsorption body (751), the adsorption body (751) is an electromagnet, and the adsorption sliding cone (737) overcomes the elasticity of the pressure spring in the electrified state; And a poking rotating rod (752) is positioned on the side wall of the power telescopic column (750), the poking rotating rod (752) is a 匚 -shaped hard rod body, and the poking rotating rod is rotatably connected to the side wall of the power telescopic column (750).
  8. 8. The feeding system for an air-drying oven according to claim 1, wherein after single air-drying, the rows of ceramic carriers are controlled to retract into the first rotating plate assembly (500), then the jacking column assembly (700) is controlled to operate so as to bend and deform the soft iron belt body (522) and further roll the ceramic carriers on the soft iron belt body (522) by 90-180 degrees, and finally the ceramic carriers are re-sent into the air-drying oven for air-drying, so that air-drying uniformity is ensured.
  9. 9. The feeding system for an air drying furnace according to claim 1, wherein a jacking telescopic body (410) is fixed at the bottom of the bearing frame body (400), a supporting frame body (430) is fixed on the side wall, and a conveying belt assembly (420) is fixed at a position, close to the top, of the supporting frame body (430); The bearing frame body (400) is not fixed with the bearing frame (110); The jacking telescopic body (410) is an electric telescopic rod which is longitudinally arranged, the bottom of the jacking telescopic body is fixed on the ground, and the top of the jacking telescopic body is fixed at the bottom of the supporting frame body (430); The supporting frame body (430) is in a plate shape, a rod shape or a frame structure, is fixed on the side wall or the top of the bearing frame body (400) and has a height of more than 30 cm; The conveyer belt assembly (420) is of a net belt conveyer structure, the longitudinal section of the conveyer belt assembly is in a trapezoid shape with a large upper part and a small lower part, and the net belt conveyer body (120) is communicated with the input net belt assembly (200) when the conveyer belt assembly (420) moves downwards.
  10. 10. The feeding system for an air drying oven according to claim 9, wherein the conveyor belt assembly (420) comprises a side carrier (421), a rotary support column (422) and a tubular belt body (423); the side bearing body (421) is a hard rod body which is horizontally arranged and is fixed on the supporting frame body (430); the rotary support columns (422) are a plurality of cylindrical rod bodies which are transversely arranged and operate under the synergistic effect of the control unit and the power assembly; the rotary support columns (422) are transversely arranged, and the length direction of the rotary support columns is the same as the axial direction of the mesh belt conveying body (120); the tubular belt body (423) is a tubular net body and is sleeved and clung to each cylindrical rod body.

Description

Feed system suitable for air-dry stove Technical Field The invention relates to the technical field of ceramic carrier processing, in particular to a feeding system suitable for an air drying furnace. Background The air drying furnace (drying furnace) is mainly used for drying ceramic carriers (gasoline and diesel catalysts) after being coated and is matched with a temperature and action control system. Before the ceramic carrier is dried by using an air drying furnace (drying furnace), the ceramic carrier is firstly transferred onto the feeding table 100 manually or by a robot and then is conveyed onto the input mesh belt assembly 200 in the air drying furnace; The time and the labor are consumed in a manual transfer mode, the placement position is not fixed, and the subsequent unloading difficulty is easy to increase; the transfer efficiency is relatively low by adopting a mode of clamping the ceramic carriers one by a robot, but the distance between the ceramic carriers can be easily and flexibly adjusted, so that the placement of the ceramic carriers can be suitable for an air flow track in an air drying furnace, the distance between the carriers can be adjusted to be in a state (staggered placement, unequal distance placement and the like) which is more favorable for drying, further a better air drying effect is obtained, and the transfer efficiency is relatively high but the flexibility is relatively poor by clamping a plurality of carriers for transferring the carriers at one time, and the distance between the carriers is difficult to adjust conveniently. Accordingly, there is a need for a feed system suitable for an air drying oven that allows for easy and flexible adjustment of the spacing between ceramic carriers to be transferred onto the input web assembly 200. Disclosure of Invention The feeding system suitable for the air drying furnace solves the technical problems that in the prior art, the transfer efficiency of ceramic carriers is relatively low by adopting a mode that a robot clamps the ceramic carriers one by one, and the interval between the ceramic carriers placed on a feeding table in batches cannot be adjusted, and achieves the technical effect that the feeding system suitable for the air drying furnace can conveniently and flexibly adjust the interval between the ceramic carriers to be transferred to an input mesh belt assembly in batches. The embodiment of the application provides a feeding system suitable for an air drying furnace, which comprises a feeding table, a bearing frame body, a first rotating plate assembly, a second rotating plate assembly and a jacking column assembly, wherein the feeding table is arranged on the bearing frame body; the ceramic carriers are transferred to the feeding table in a row; The main bodies of the first rotating plate assembly and the second rotating plate assembly are plate bodies which are transversely arranged and have L-shaped longitudinal sections, and are rotatably connected to the bearing frame body; the first rotating plate assembly comprises a bearing plate body and a rectangular frame body; the rectangular frame body is a rectangular hard frame body and is fixed on the bearing plate body, and a row of column-shaped rotating columns with built-in magnets are arranged on the bearing plate body; the rectangular frame body is also provided with a soft iron belt body and a belt body winding assembly, wherein the soft iron belt body is an iron belt body and is adsorbed by a cylindrical rotating column; The second rotating plate assembly comprises a bearing plate and a transfer plate, wherein a rod-shaped rotating body protruding out of the bearing plate is positioned on the bearing plate; the jacking column assembly is provided with a plurality of telescopic rods which slide relative to the ground and are used for jacking the soft iron belt bodies from gaps among the column-shaped rotating columns so as to adjust the intervals among the ceramic carriers on the soft iron belt bodies. Further, the diameter of the cylindrical rotating columns is smaller than 0.8 cm, the distance between the cylindrical rotating columns is 2-4 cm, the number of the cylindrical rotating columns is larger than 20, and the distance between the side surfaces of the cylindrical rotating columns and the back-shaped surface of the rectangular frame body is smaller than 3 mm. Further, a row of rolling prevention strips are fixed on the surface, far away from the rectangular frame body, of the soft iron belt body, the rolling prevention strips are strip-shaped rubber strips, the number of the rolling prevention strips is more than 50, and the length direction of the rolling prevention strips is the same as the width direction of the soft iron belt body and is used for limiting the rolling of the ceramic carrier on the soft iron belt body. Further, a row of longitudinal strips are fixed on the bearing plate, the number of the longitudinal strips is more than 50, the leng