CN112974081A

CN112974081A - Machining mechanism for anti-corrosion wooden door and machining method thereof

Info

Publication number: CN112974081A
Application number: CN202110163872.XA
Authority: CN
Inventors: 祝青
Original assignee: Anhui University of Science and Technology
Current assignee: Anhui University of Science and Technology
Priority date: 2021-02-05
Filing date: 2021-02-05
Publication date: 2021-06-18

Abstract

The invention discloses a processing mechanism for an anticorrosive wooden door and a processing method thereof, wherein the processing mechanism comprises an equipment platform, the equipment platform is provided with at least two paint spraying boxes and at least two drying mechanisms, a first fan is arranged below the equipment platform, ventilating box bodies which are mutually distributed in a mirror image manner are also arranged below the equipment platform, the equipment platform is also provided with paint spraying carriers which are distributed in an array manner, the paint spraying mechanisms are arranged on one sides of the paint spraying mechanisms, a recovery cylinder is also arranged on one side of the equipment platform, the equipment platform is provided with two rows of first gears which are distributed in an array manner, a first rotating shaft is arranged in each first gear, the lower end of each first rotating shaft is fixedly arranged in a bearing arranged at the lower end of the equipment platform, and the lower end of one first rotating shaft is provided with a. The invention has high accessory treatment efficiency and high automation degree, reduces the labor intensity of operators, has quick treatment, does not influence the use of accessories, has good anticorrosion effect, is beneficial to improving the service life of the accessories and improves the product quality.

Description

Machining mechanism for anti-corrosion wooden door and machining method thereof

Technical Field

The invention relates to the field of wood door production, in particular to a processing mechanism for an anti-corrosion wood door and a processing method thereof.

Background

The wooden door is one of the anti-theft doors, the anti-theft door is called as an anti-theft safety door, and has anti-theft and safety performances, the anti-theft door can be made of different materials, but only the door which is qualified after standard detection and can receive the accurate production certificate of a safety precaution product can be called as the anti-theft door, the anti-theft door is provided with an anti-theft lock, the door can resist abnormal opening under certain conditions within certain time, has certain safety protection performance and accords with corresponding anti-theft safety level, the door is divided according to the structural characteristics and mainly comprises a push-pull fence anti-theft door, a vertical hinged fence anti-theft door, a plastic relief anti-theft door, a multifunctional luxury anti-theft door and the like, for general consumers, the resident anti-theft safety door is mainly a vertical hinged anti-theft safety door, the vertical hinged door is the anti-theft door with the largest demand in the current market, and some standards call the door as a door or an entrance door, which means, the vertical hinged door is divided into the following forms: ordinary vertical hinged door, door in the door, primary and secondary door and composite door, but no matter which kind of burglary-resisting door, the surface all need assemble the metalwork, and the metalwork time can corrode, consequently need carry out anticorrosive treatment to the surface, and current work piece is installed after handling alone, and is inefficient, but such mode operating personnel intensity of labour is big, and to this kind of condition, the processing agency and the processing method for anticorrosive timber have now been proposed.

Disclosure of Invention

The invention aims to provide a processing mechanism for an anti-corrosion wooden door and a processing method thereof, which have the advantages of high part processing efficiency, high automation degree, convenience in use, capability of reducing the labor intensity of operating personnel, high processing speed, no influence on the use of parts, good anti-corrosion effect, contribution to prolonging the service life of the parts and improvement on the product quality.

The purpose of the invention can be realized by the following technical scheme:

a processing mechanism for an anti-corrosion wooden door comprises an equipment platform, wherein a paint spraying box and a drying mechanism are arranged on the equipment platform, at least two paint spraying boxes and at least two drying mechanisms are arranged on the equipment platform, a first fan is arranged below the equipment platform, ventilating box bodies which are mutually distributed in a mirror image mode are further arranged below the equipment platform, paint spraying carriers which are distributed in an array mode are further arranged on the equipment platform, a paint spraying mechanism is arranged on one side of the paint spraying mechanism, and a recycling bin is further arranged on one side of the equipment platform;

the equipment platform is provided with two rows of first gears distributed in an array mode, a first rotating shaft is arranged in each first gear, the lower end of each first rotating shaft is fixed in a bearing arranged at the lower end of the equipment platform, a first servo motor is arranged at the lower end of one first rotating shaft, a lower frame is arranged at the lower end of the equipment platform, walking wheel fixing plates are arranged at four corners of the lower frame, adjusting support legs and self-walking locking wheels are arranged on the walking wheel fixing plates, and a first chain is arranged on each first gear.

Further, be equipped with the cylinder on the case sprays paint, be equipped with the cylinder support between cylinder and the case that sprays paint, the cylinder passes the case that sprays paint and is equipped with the telescopic link, the telescopic link lower extreme is equipped with the clamp plate, it still is equipped with the shielding plate to spray paint the incasement, the case that sprays paint still includes the differential case, be equipped with the second pivot on the differential case, the differential case lower extreme is equipped with second servo motor, be equipped with the second gear in the second pivot, the differential case both sides all are equipped with the tensioning case, be equipped with the tensioning pole on the tensioning case, be equipped with the recess wheel on the tensioning pole, be equipped with the second chain jointly between recess wheel and the second gear, the carrier that sprays paint is installed on first chain, be equipped with the pole that sprays paint on the carrier that sprays paint.

Furthermore, a fan fixing plate is arranged at the lower end of the first fan and fixed on the lower frame, a first ventilation pipe is arranged on one side of the first fan and penetrates through the equipment platform, a second ventilation pipe and a third ventilation pipe are arranged at the upper end of the first ventilation pipe, first sealing plates are arranged at the top ends of the second ventilation pipe and the third ventilation pipe, and the first sealing plates are connected to the paint spraying box.

Further, the drying mechanism is equipped with the fixed plate that the array distributes all around, is equipped with the first set screw that the array distributes on the fixed plate, and ventilation box body one end is equipped with the air outlet that the array distributes, is equipped with fourth tuber pipe on the air outlet, and fourth tuber pipe top is equipped with the second closing plate, and the second closing plate is installed on drying mechanism, is equipped with the forced draught blower on the ventilation box body, and the forced draught blower is for the ventilation box body air supply, and drying mechanism both sides all are equipped with the material entry.

Further, the mechanism of spraying paint includes the equipment support, equipment support lower extreme is equipped with PMKD, PMKD fixes on the equipment platform, the last second set screw that is equipped with array distribution of PMKD, still be equipped with third servo motor on the equipment support, be equipped with first belt pulley on third servo motor's the output, be equipped with the connection belt on the first belt pulley, equipment support one side is equipped with screw rod mechanism, be equipped with the baffle on the screw rod mechanism, screw rod mechanism one side is equipped with the slider, screw rod mechanism's lead screw top is equipped with the second belt pulley, connect the belt and connect first belt pulley and second belt pulley, be equipped with the pressurization paint sprayer on the slider, pressurization paint sprayer one end is equipped with the lacquer pipe, lacquer pipe one end is equipped with the lacquer mouth, the lacquer pipe other end is equipped with.

Furthermore, a feeding pipe is arranged at the lower end of the recovery cylinder, a connecting rod is arranged between the feeding pipe and the equipment platform, a material receiving box is arranged below the top end of the feeding pipe, and a material receiving box frame is arranged at the lower end of the material receiving box.

Further, the processing method for the anti-corrosion wooden door comprises the following steps:

the method comprises the following steps: placing a wooden door assembly needing anticorrosion treatment on a paint spraying rod, starting a first servo motor, and enabling a paint spraying carrier to move on a first chain;

step two: starting a paint spraying mechanism, performing paint spraying treatment on components on a paint spraying rod passing through a paint spraying box, and stopping moving during paint spraying;

step three: after the paint spraying is finished, starting a first fan to supply air to the paint spraying box for quick drying;

step four: starting the first servo motor again, enabling the components on the paint spraying rod to pass through the drying mechanism, and enabling the air feeder to send auxiliary gas for auxiliary drying;

step five: and (4) putting the component assembly on the paint spraying rod which is painted and dried into a recycling drum and then entering a material receiving box.

The invention has the beneficial effects that:

1. the invention has high accessory processing efficiency, high automation degree and convenient use, and not only reduces the labor intensity of operators;

2. the invention has the advantages of quick treatment, no influence on the use of accessories, good anticorrosion effect, contribution to improving the service life of the accessories and improvement on the product quality.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic structural view of a processing mechanism for an anticorrosive wood door according to the present invention;

FIG. 2 is a schematic structural view of a processing mechanism for an anti-corrosion wood door of the present invention;

FIG. 3 is a schematic view of a part of the structure of the processing mechanism for the corrosion-resistant wood door of the present invention;

FIG. 4 is a schematic view of a part of the structure of the processing mechanism for the corrosion-resistant wood door of the present invention;

FIG. 5 is a schematic view of a part of the structure of the processing mechanism for the corrosion-resistant wood door of the present invention;

fig. 6 is an enlarged schematic view of the structure of fig. 5 a according to the present invention.

The equipment comprises an equipment platform 1, a paint spraying box 2, a drying mechanism 3, a first fan 4, a ventilation box body 5, a paint spraying carrier 6, a paint spraying mechanism 7, a recycling cylinder 8, a first gear 11, a first rotating shaft 12, a bearing 13, a first servo motor 121, a lower frame 14, a travelling wheel fixing plate 15, an adjusting support leg 16, a self-propelled locking wheel 17, a first chain 18, an air cylinder 21, an air cylinder bracket 212, a telescopic rod 211, a pressing plate 213, a shielding plate 22, a differential box 23, a second rotating shaft 24, a second servo motor 26, a second gear 241, a tensioning box 25, a tensioning rod 251, a groove wheel 252, a second chain 242, a paint spraying rod 61, a third gear 62, a fan fixing plate 41, a first ventilation pipe 42, a second ventilation pipe 43, a third ventilation pipe 45, a first sealing plate 44, a fixing plate 31, a first fixing screw 311, an air outlet 52, a fourth ventilation pipe 53, a second sealing plate 54, a blower 51, a material inlet 32, The device comprises a device bracket 71, a fixed bottom plate 72, a second fixing screw 721, a third servo motor 73, a first belt pulley 731, a connecting belt 732, a screw rod mechanism 74, a baffle plate 75, a slide block 76, a second belt pulley 761, a pressurized paint sprayer 77, a paint pipe 771, a paint adding opening 772, a paint spraying head 773, a feeding pipe 81, a connecting rod 82, a material receiving box 83 and a material receiving box frame 84.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "opening," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced component or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present invention.

The utility model provides a processing agency for anticorrosive timber, including equipment platform 1, as shown in figure 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6 shows, be equipped with spray painting case 2 and drying mechanism 3 on the equipment platform 1, spray painting case 2 all is equipped with two with drying mechanism 3 at least, equipment platform 1 below is equipped with first fan 4, equipment platform 1 below still is equipped with the box 5 that ventilates that is the mirror image distribution of each other, still be equipped with the carrier 6 that sprays paint of array distribution on the equipment platform 1, 2 one side of the mechanism that sprays paint all is equipped with the mechanism 7 that sprays paint, one side still is equipped with the recycling bin 8 on the equipment platform 1.

Two rows of first gears 11 distributed in an array are arranged on the equipment platform 1, as shown in fig. 1, fig. 2 and fig. 3, a first rotating shaft 12 is arranged in the first gear 11, the lower end of the first rotating shaft 12 is provided with a bearing 13 fixed in the lower end of the equipment platform 1, a first servo motor 121 is arranged at the lower end of one first rotating shaft 12, a lower frame 14 is arranged at the lower end of the equipment platform 1, walking wheel fixing plates 15 are arranged at four corners of the lower frame 14, adjusting support legs 16 and self-walking locking wheels 17 are arranged on the walking wheel fixing plates 15, and a first chain 18 is arranged on the first gear 11.

The paint spraying box 2 is provided with a cylinder 21, as shown in figures 1 and 2, fig. 4 and 6 show that an air cylinder bracket 212 is arranged between the air cylinder 21 and the paint spraying box 2, the air cylinder 21 penetrates through the paint spraying box 2 to be provided with an expansion link 211, the lower end of the expansion link 211 is provided with a pressing plate 213, a shielding plate 22 is further arranged in the paint spraying box 2, the paint spraying box 2 further comprises a differential box 23, the differential box 23 is provided with a second rotating shaft 24, the lower end of the differential box 23 is provided with a second servo motor 26, the second rotating shaft 24 is provided with a second gear 241, two sides of the differential box 23 are respectively provided with a tensioning box 25, the tensioning box 25 is provided with a tensioning rod 251, the tensioning rod 251 is provided with a groove wheel 252, a second chain 242 is jointly arranged between the groove wheel 252 and the second gear 241, the paint spraying carrier 6 is arranged on the first chain 18, the paint spraying carrier 6 is provided with a paint spraying rod 61, the lower end of the paint spraying.

The lower end of the first fan 4 is provided with a fan fixing plate 41, as shown in fig. 1, fig. 2, fig. 3 and fig. 5, the fan fixing plate 41 is fixed on the lower frame 14, one side of the first fan 4 is provided with a first ventilation pipe 42, the first ventilation pipe 42 penetrates through the equipment platform 1, the upper end of the first ventilation pipe 42 is provided with a second ventilation pipe 43 and a third ventilation pipe 45, the top ends of the second ventilation pipe 43 and the third ventilation pipe 45 are both provided with a first sealing plate 44, and the first sealing plate 44 is both connected to the paint spraying box 2.

The periphery of the drying mechanism 3 is provided with fixing plates 31 distributed in an array manner, as shown in fig. 1 and fig. 3, the fixing plates 31 are provided with first fixing screws 311 distributed in an array manner, one end of the ventilation box body 5 is provided with air outlets 52 distributed in an array manner, the air outlets 52 are provided with fourth ventilation pipes 53, the top ends of the fourth ventilation pipes 53 are provided with second sealing plates 54, the second sealing plates 54 are installed on the drying mechanism 3, the ventilation box body 5 is provided with a blower 51, the blower 51 blows air to the ventilation box body 5, and both sides of the drying mechanism 3 are provided with material inlets 32.

The painting mechanism 7 comprises an equipment carrier 71 which, as shown in figures 1 and 2, as shown in fig. 4, a fixing bottom plate 72 is disposed at the lower end of the device support 71, the fixing bottom plate 72 is fixed on the device platform 1, second fixing screws 721 distributed in an array manner are disposed on the fixing bottom plate 72, a third servo motor 73 is further disposed on the device support 71, a first belt pulley 731 is disposed at the output end of the third servo motor 73, a connecting belt 732 is disposed on the first belt pulley 731, a screw rod mechanism 74 is disposed on one side of the device support 71, a baffle 75 is disposed on the screw rod mechanism 74, a slider 76 is disposed on one side of the screw rod mechanism 74, a second belt pulley 761 is disposed at the top end of a screw rod of the screw rod mechanism 74, the connecting belt 732 connects the first belt pulley 731 and the second belt pulley 761, a pressurized paint sprayer 77 is disposed on the slider 76, a paint pipe 771 is disposed at one end of the pressurized paint sprayer 77, a paint adding port 772 is disposed.

The lower end of the recycling bin 8 is provided with a feeding pipe 81, as shown in fig. 2 and 3, a connecting rod 82 is arranged between the feeding pipe 81 and the equipment platform 1, a material receiving box 83 is arranged below the top end of the feeding pipe 81, and a material receiving box rack 84 is arranged at the lower end of the material receiving box 83.

A processing method for an anti-corrosion wood door comprises the following steps:

the method comprises the following steps: placing the wooden door assembly needing anti-corrosion treatment on the paint spraying rod 61, starting the first servo motor 121, and moving the paint spraying carrier 6 on the first chain 18;

step two: starting the paint spraying mechanism 7, performing paint spraying treatment on components on the paint spraying rod 61 passing through the paint spraying box 2, and stopping moving during paint spraying;

step three: after the paint spraying is finished, starting the first fan 4 to supply air to the paint spraying box 2 for rapid drying;

step four: starting the first servo motor 121 again, enabling the components on the paint spraying rod 61 to pass through the drying mechanism 3, and enabling the blower 51 to send auxiliary gas for auxiliary drying;

step five: the assembly on the painted and dried painting rod 61 is placed into the recycling bin 8 and into the receiving bin 83.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.

Claims

1. The processing mechanism for the anti-corrosion wooden door comprises an equipment platform (1) and is characterized in that a paint spraying box (2) and a drying mechanism (3) are arranged on the equipment platform (1), at least two paint spraying boxes (2) and at least two drying mechanisms (3) are arranged on the paint spraying box (2), a first fan (4) is arranged below the equipment platform (1), ventilating box bodies (5) which are mutually distributed in a mirror image mode are further arranged below the equipment platform (1), paint spraying carriers (6) which are distributed in an array mode are further arranged on the equipment platform (1), a paint spraying mechanism (7) is arranged on one side of the paint spraying mechanism (2), and a recovery drum (8) is further arranged on one side of the equipment platform (1);

the device is characterized in that two rows of first gears (11) distributed in an array mode are arranged on the device platform (1), a first rotating shaft (12) is arranged in each first gear (11), the lower end of each first rotating shaft (12) is fixed in a bearing (13) arranged at the lower end of the device platform (1), a first servo motor (121) is arranged at the lower end of one first rotating shaft (12), a lower frame (14) is arranged at the lower end of the device platform (1), walking wheel fixing plates (15) are arranged at four corners of the lower frame (14), adjusting support legs (16) and self-walking locking wheels (17) are arranged on the walking wheel fixing plates (15), and a first chain (18) is arranged on each first gear (11) jointly.

2. The processing mechanism for the anti-corrosion wooden door according to claim 1, wherein an air cylinder (21) is arranged on the paint spraying box (2), an air cylinder support (212) is arranged between the air cylinder (21) and the paint spraying box (2), the air cylinder (21) penetrates through the paint spraying box (2) to be provided with a telescopic rod (211), a pressing plate (213) is arranged at the lower end of the telescopic rod (211), a shielding plate (22) is further arranged in the paint spraying box (2), the paint spraying box (2) further comprises a differential box (23), a second rotating shaft (24) is arranged on the differential box (23), a second servo motor (26) is arranged at the lower end of the differential box (23), a second gear (241) is arranged on the second rotating shaft (24), tensioning boxes (25) are respectively arranged on two sides of the differential box (23), a tensioning rod (251) is arranged on the tensioning rod (251), a groove wheel (252) is arranged on the tensioning rod (251), and a second chain (242) is jointly arranged between the groove wheel (252) and, the paint spraying carrier (6) is installed on the first chain (18), a paint spraying rod (61) is arranged on the paint spraying carrier (6), a third gear (62) is arranged at the lower end of the paint spraying carrier (6), and the third gear (62) is matched with the second chain (242).

3. The processing mechanism for the anticorrosive wood door according to claim 1, characterized in that a fan fixing plate (41) is arranged at the lower end of the first fan (4), the fan fixing plate (41) is fixed on the lower frame (14), a first ventilation pipe (42) is arranged on one side of the first fan (4), the first ventilation pipe (42) penetrates through the equipment platform (1), a second ventilation pipe (43) and a third ventilation pipe (45) are arranged at the upper end of the first ventilation pipe (42), first sealing plates (44) are arranged at the top ends of the second ventilation pipe (43) and the third ventilation pipe (45), and the first sealing plates (44) are connected to the paint spraying box (2).

4. The processing mechanism for the anticorrosive wood door according to claim 1, wherein the drying mechanism (3) is provided with fixing plates (31) distributed in an array manner around the drying mechanism, the fixing plates (31) are provided with first fixing screws (311) distributed in an array manner, one end of the ventilation box body (5) is provided with air outlets (52) distributed in an array manner, the air outlets (52) are provided with fourth ventilation pipes (53), the top end of each fourth ventilation pipe (53) is provided with a second sealing plate (54), each second sealing plate (54) is installed on the drying mechanism (3), the ventilation box body (5) is provided with a blower (51), each blower (51) supplies air to the ventilation box body (5), and both sides of the drying mechanism (3) are provided with material inlets (32).

5. The processing mechanism for the anticorrosive wood door according to claim 1, wherein the paint spraying mechanism (7) comprises an equipment support (71), a fixed bottom plate (72) is arranged at the lower end of the equipment support (71), the fixed bottom plate (72) is fixed on the equipment platform (1), second fixing screws (721) distributed in an array manner are arranged on the fixed bottom plate (72), a third servo motor (73) is further arranged on the equipment support (71), a first belt pulley (731) is arranged on the output end of the third servo motor (73), a connecting belt (732) is arranged on the first belt pulley (731), a screw rod mechanism (74) is arranged on one side of the equipment support (71), a baffle (75) is arranged on the screw rod mechanism (74), a sliding block (76) is arranged on one side of the screw rod mechanism (74), a second belt pulley (761) is arranged at the top end of the screw rod mechanism (74), the connecting belt (732) connects the first belt pulley (731) and the second belt pulley (761), a pressurized paint sprayer (77) is arranged on the sliding block (76), a paint pipe (771) is arranged at one end of the pressurized paint sprayer (77), a paint adding port (772) is arranged at one end of the paint pipe (771), and a paint spraying head (773) is arranged at the other end of the paint pipe (77).

6. The processing mechanism for the anticorrosive wood door according to claim 1, characterized in that a feeding pipe (81) is arranged at the lower end of the recovery cylinder (8), a connecting rod (82) is arranged between the feeding pipe (81) and the equipment platform (1), a material receiving box (83) is arranged below the top end of the feeding pipe (81), and a material receiving box frame (84) is arranged at the lower end of the material receiving box (83).

7. The processing mechanism for the corrosion-resistant wood door according to any one of claims 1 to 6, wherein the processing method for the corrosion-resistant wood door comprises the following steps:

the method comprises the following steps: placing a wooden door assembly needing anticorrosion treatment on a paint spraying rod (61), starting a first servo motor (121), and moving a paint spraying carrier (6) on a first chain (18);

step two: starting a paint spraying mechanism (7), performing paint spraying treatment on components on a paint spraying rod (61) passing through a paint spraying box (2), and stopping moving when spraying paint;

step three: after the paint spraying is finished, starting a first fan (4) to supply air to the paint spraying box (2) for rapid drying;

step four: the first servo motor (121) is started again, components on the paint spraying rod (61) pass through the drying mechanism (3), and the air feeder (51) feeds auxiliary gas for auxiliary drying;

step five: the components on the painted and dried painting rod (61) are placed in a recovery drum (8) into a receiving bin (83).