CN114472111A

CN114472111A - Automatic drying device of floor paint

Info

Publication number: CN114472111A
Application number: CN202210197119.7A
Authority: CN
Inventors: 李长誉; 申书华; 史鸿波; 杜静; 申瑞强; 马闯; 石磊
Original assignee: Jiangsu Jiarui Wood Co ltd
Current assignee: Jiangsu Shengmao Plastic Products Co ltd
Priority date: 2022-03-02
Filing date: 2022-03-02
Publication date: 2022-05-13
Anticipated expiration: 2042-03-02
Also published as: CN114472111B

Abstract

The invention discloses an automatic drying device for floor paint, which belongs to the field of floor installation and comprises a traveling device, a heating device, a hardness detection device, a cam structure and a control device, wherein the traveling device is used for traveling, lifting and rotating, the heating device is arranged on the traveling device, hot gas is generated in the heating device and is transmitted to a drying arm, the rear side of the drying arm is provided with the hardness detection device, the hardness detection device is arranged on the heating device and is used for detecting the hardness of the paint dried by the drying arm, the drying arm can stretch back and forth or transversely, and the heating device is provided with the balance device for keeping balance; the drying arm is provided with a part which moves back and forth and can stretch into the space which can not be entered by the walking device for drying.

Description

Automatic drying device of floor paint

Technical Field

The invention belongs to the field of floor installation, and particularly relates to an automatic drying device for floor paint.

Background

The wood floor refers to a floor made of wood, and the wood floor produced in China is mainly divided into a solid wood floor, a reinforced wood floor, a solid wood composite floor, a natural landscape geomantic omen floor, a bamboo wood floor and a cork wood floor. Present timber apron all dries through solitary drying device after the japanning, but can only dry in process of production at present when drying to timber apron, and present drying device can't once only dry whole room automatically, has reduced drying efficiency, and the drying degree of paint can't judge in drying process in addition, can not effectual unified detection.

The patent with the publication number of CN208082810U discloses a timber apron surface paint drying equipment, including stoving case and placing seat, the bottom of stoving case one side inner wall is equipped with the pneumatic cylinder, the hydraulic stem of pneumatic cylinder and the one end fixed connection who places the seat, place the inside of seat and separate into a plurality of standing groove through the baffle, the bottom of every standing groove all is equipped with four supporting shoes, one side bottom of stoving case is equipped with electric rolling shutter door, one side of stoving case is equipped with the heating cabinet, the air intake of heating cabinet passes through the air-supply line and the air outlet fixed connection of air-blower.

Although the above-mentioned solution can solve some problems in drying, the following problems also exist: this scheme is at the in-process of floor stoving, and the wet degree futilely of unable automated inspection stoving can't carry out effectual extension and the stoving that relapses around, can't admit air to the filtration of debris such as moisture and dust.

Disclosure of Invention

The invention discloses an automatic drying device for floor paint, which aims at the technical problem and comprises a walking device, wherein the walking device is provided with a heating device, the heating device is provided with a hardness detection device and a drying arm, and the heating device and the drying arm are provided with balancing devices; wherein the hardness detection device is positioned at the rear side of the drying arm; the hardness detection device comprises a mounting plate I, a mounting plate I and a heating device fixed connection, a sliding plate is arranged on the mounting plate I in a sliding mode, the sliding plate slides along the front and back direction, a motor I is fixedly arranged on the sliding plate, a cam mechanism is arranged on a rotating shaft of the motor I, a sliding column is arranged on the sliding plate in a sliding mode along the gravity direction, a cam structure is matched with the sliding column in a half stroke mode, the sliding column is separated from the sliding column in a half stroke mode and used for driving the sliding column to ascend and descend, a detection head is fixedly arranged at the lower end of the sliding column and located on the lower side of the mounting plate I, a spring II is fixedly arranged between the sliding plate and the sliding column, the spring II is in a natural state when the sliding column is the lowest, a spring I is fixedly arranged between the sliding plate and the mounting plate I, the sliding plate is located at the foremost end, a rack is fixedly arranged on the mounting plate I, an incomplete gear is fixedly arranged on a rotating shaft of the motor I, and is meshed with the incomplete gear, the incomplete gear rotates to drive the sliding plate to move backwards, the sliding column is located at the highest end when the toothed part of the incomplete gear is just meshed with the rack, the cam structure is separated from the sliding column, and when the cam structure is matched with the sliding column again, the toothed part of the incomplete gear is just separated from the rack.

Furthermore, the cam structure comprises a connecting rod, the connecting rod is fixedly connected with a rotating shaft of the motor I, a cylinder is fixedly arranged on the connecting rod, a horizontal section is arranged at the upper end of the sliding column, the lower end face of the horizontal section is in contact with the cylinder, the cylinder is located at the tail end of the horizontal section when located at the highest end, the horizontal section and the axle center of the incomplete gear are located on the same horizontal plane when located at the lowest end, the incomplete gear is provided with a quarter of circumferential surface without a tooth-shaped structure, and the axle center connecting line of the cylinder and the incomplete gear passes through the junction of the incomplete gear with teeth and without teeth.

Furthermore, a speed detector is fixedly arranged on the probe head, and the probe head is connected with a computer program.

Furthermore, the heating device is connected with the drying arm, the drying arm can stretch in the front-back direction and the transverse direction, and the drying arm moves back and forth to drive the balancing device to move back and forth to keep balance.

Further, the drying arm comprises a sleeve, the sleeve is connected with the heating device, an inner cylinder is arranged in the sleeve in a sliding mode along the front-back direction, a special-shaped rack is fixedly arranged on the inner cylinder, a motor III is fixedly arranged on the sleeve, a gear I is fixedly arranged on a rotating shaft of the motor III, and the gear I is meshed with the special-shaped rack.

Furthermore, the upper part is provided with a balancing weight in a sliding manner along the front-back direction, the balancing weight is connected with the special-shaped rack through a transmission gear set, and the balancing weight and the special-shaped rack move in opposite directions and keep balance.

Further, the fixed intermediate lever that is equipped with under the inner tube, the flexible subassembly all is equipped with to the both sides of intermediate lever, and flexible subassembly is including accomodating the pole, accomodates the pole horizontal slidable mounting on the intermediate lever, accomodate and fixedly be equipped with flexible rack on the pole, fixedly be equipped with motor IV on the intermediate lever, fixedly be equipped with gear II in the IV pivot of motor, gear II and flexible rack toothing, be equipped with the stoving pole in the accomodating pole.

Further, the first end of stoving pole with accomodate the pole articulated, stoving pole and intermediate lever intercommunication, it is equipped with motor V to accomodate the fixed first end that is equipped with the stoving pole on the pole, the fixed first end that is equipped with the stoving pole in motor V's the pivot, accomodate pole cavity and a plurality of apertures are seted up to the downside, and stoving pole downside sets up a plurality of apertures, and the aperture of accomodating on the pole corresponds with the aperture of stoving pole.

Compared with the prior art, the invention has the beneficial effects that: (1) the hardness detection device is provided with the incomplete gear and rack matching and the cam structure matching, so that the detection head is kept relatively static when being contacted with paint, the paint is prevented from being damaged, and the normal advance of the walking device is not delayed; (2) the drying arm is provided with the parts moving back and forth, and can extend into a space where the walking device cannot enter for drying; (3) according to the invention, the balancing device is arranged in a manner of being matched with the forward and backward movement in the drying arm, and the balancing device moves in a reverse direction with the inner cylinder through the transmission gear set to keep balance so as to prevent the device from toppling; (4) the invention is provided with the retractable accommodating rod and the middle rod, and the drying rod and the spring plate can be folded, thereby further increasing the drying area of the drying arm and being capable of being adjusted at will.

Drawings

FIG. 1 is an overall schematic view of the present invention.

FIG. 2 is a schematic view of a heating device and a walking device according to the present invention.

Fig. 3 is an enlarged schematic view of a portion a in fig. 2.

Fig. 4 is a schematic view of the drying arm of the present invention.

Fig. 5 is an enlarged view at F in fig. 4.

Fig. 6 is an enlarged view of fig. 4 at G.

FIG. 7 is a schematic view of a hardness testing apparatus according to the present invention.

Fig. 8 is a side view of the hardness testing device of the present invention.

FIG. 9 is a schematic view of a balancing apparatus according to the present invention.

Fig. 10 is a view taken at B in fig. 9.

Fig. 11 is an enlarged view at C of fig. 9.

Fig. 12 is an enlarged view of fig. 9 at D.

Fig. 13 is an enlarged view of fig. 9 at E.

Reference numerals: 1-a hardness detection device; 2-a heating device; 3-a walking device; 4-a balancing device; 5-drying arm; 101-a fixing rod; 102-mounting a plate I; 103-motor I; 104-a strut; 105-a connecting rod; 106-cylinder; 107-incomplete gear; 108-a rack; 109-spring plate; 110-spring I; 111-a sled; 112-a probe head; 113-a speed detector; 114-spring ii; 201-mounting plate II; 202-a fan; 203-a filter; 204-a heater; 205-connecting tube; 206-support column; 301-mounting plate III; 302-track; 303-a housing; 304-a central column; 305-a driven gear; 306-an electric cylinder; 307-telescopic column; 308-a drive gear; 309-motor II; 401-pinion gear; 402-bevel gear I; 403-bevel gear II; 404-connecting shaft I; 405-bevel gear III; 406-bevel gear iv; 407-connecting shaft II; 408-bevel gear v; 409-bevel gear VI; 410-connecting shaft III; 411-driven bevel gear I; 412-driven bevel gear II; 413-connecting shaft IV; 414-driven bevel gear III; 415-driven bevel gear IV; 416-connecting shaft V; 417-driven bevel gear v; 418-driven bevel gear vi; 419-connecting shaft VI; 420-a linkage gear; 421-linked rack; 422-balancing weight; 501-motor III; 502-gear i; 503-a shaped rack; 504-a sleeve; 505-inner cylinder; 506-motor IV; 507-gear II; 508-telescoping rack; 509-receiving rod; 510-motor V; 511-drying the rod; 512-middle rod.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that some of the known structures shown in the drawings and their description may be omitted, and that the position of the drying arm 5 with respect to the traveling unit 3 in the present embodiment is the forward direction, and the forward direction is the forward direction.

Example (b): as shown in fig. 1-13, an automatic drying device for floor paint comprises a traveling device 3 for traveling, lifting and rotating, a heating device 2 is mounted on the traveling device 3, hot air is generated in the heating device 2 and is transmitted to a drying arm 5, a hardness detection device 1 is arranged on the rear side of the drying arm 5, the hardness detection device 1 is mounted on the heating device 2 and is used for detecting the hardness of paint dried by the drying arm 5, the drying arm 5 can stretch back and forth or transversely, and a balancing device 4 is mounted on the heating device 2 and is used for keeping balance.

The walking device 3 comprises a mounting plate III 301, two caterpillar tracks 302 are arranged on the mounting plate III 301, the two caterpillar tracks 302 are driven to move forwards or backwards, a central column 304 and a motor II 309 are fixedly arranged on the mounting plate III 301, a driven gear 305 is rotatably arranged on the central column 304, a driving gear 308 is fixedly arranged on a rotating shaft of the motor II 309, the driving gear 308 is meshed with the driven gear 305, a telescopic column 307 and an electric cylinder 306 are fixedly arranged on the driven gear 305, a shell 303 is slidably arranged on the telescopic column 307 along the gravity direction, a heating device 2 is arranged on the shell 303, a shell 303 is fixedly arranged on a cylinder arm of the electric cylinder 306, the caterpillar tracks 302 drive the walking device 3 to move, the heating device 2 is driven by the motor II 309 to rotate to adjust the position, and the working state and the non-working state are adjusted by the telescopic adjustment of the electric cylinder 306.

The heating device 2 comprises a mounting plate II 201, the mounting plate II 201 is fixedly arranged on a shell 303, a fan 202, a filter 203, a heater 204 and a support column 206 are fixedly arranged on the mounting plate II 201 and are communicated with each other by using a connecting pipe 205, the filter 203 filters air by activated carbon and the like, the air enters the fan 202 and enters a drying arm 5 after being heated by the heater 204, the drying arm 5 comprises a sleeve 504, the sleeve 504 is fixedly arranged on the support column 206 and is communicated with the connecting pipe 205, an inner cylinder 505 is arranged on the sleeve 504 in a sliding mode along the front-back direction, a special-shaped rack 503 is fixedly arranged on the inner cylinder 505, a motor III 501 is fixedly arranged on the sleeve 504, a gear I502 is fixedly arranged on a rotating shaft of the motor III 501, the gear I502 is meshed with the special-shaped rack 503, a middle rod 512 is fixedly arranged on the lower side of the inner cylinder 505, telescopic assemblies are arranged on two sides of the middle rod, each telescopic assembly comprises a containing rod 509, accomodate pole 509 transversely slidable mounting on middle pole 512, accomodate the fixed flexible rack 508 that is equipped with on the pole 509, middle pole 512 spills the lie and is equipped with motor IV 506 for you are fixed, the fixed gear II 507 that is equipped with in the pivot of motor IV 506, gear II 507 and flexible rack 508 meshing, it has stoving pole 511 to accomodate the articulated on the pole 509, the articulated shaft is connected with motor V510's pivot fixed connection, motor V510 fixed mounting is on accomodating the pole 509, accomodate the hollow and the downside of pole 509 and set up a plurality of apertures, stoving pole 511 downside sets up a plurality of apertures, accomodate the aperture on the pole 509 and correspond with stoving pole 511's aperture, motor III 501 drives inner tube 505 back-and-forth movement, motor IV 506 drives through the gear-rack cooperation and accomodates pole 509 transversely flexible, motor V510 drives stoving pole 511 and rotates and withdraws in the pole 509.

The balancing device 4 comprises a balancing weight 422, the balancing weight 422 is slidably mounted on the mounting plate II 201 in the front-back direction, a linkage rack 421 is fixedly mounted on one side of the balancing weight 422, the linkage rack 421 moves in the reverse direction with the special-shaped rack 503 through a transmission gear set, in the embodiment, the transmission gear set comprises a linkage gear 420, a linkage gear 420 is meshed on the lower side of the linkage rack 421, the linkage gear 420 rotates synchronously with a driven bevel gear VI 418 through a connecting shaft VI 419, a driven bevel gear V417 is meshed on one side of the driven bevel gear VI 418, the driven bevel gear V417 rotates synchronously with a driven bevel gear IV 415 through a connecting shaft V416, a driven bevel gear III 414 is meshed on one side of the driven bevel gear IV 415, the driven bevel gear III 414 rotates synchronously with a driven bevel gear II 412 through a connecting shaft IV 413, a driven bevel gear I411 is meshed on one side of the driven bevel gear 412 II, and the driven bevel gear I411 rotates synchronously with a bevel gear VI 409 through the connecting shaft III 410, one side of a bevel gear VI 409 is meshed with a bevel gear V408, the bevel gear V408 and a bevel gear IV 406 synchronously rotate through a connecting shaft II 407, one side of the bevel gear IV 406 is meshed with a bevel gear III 405, the bevel gear III 405 and a bevel gear II 403 synchronously rotate through a connecting shaft I404, one side of the bevel gear II 403 is meshed with a bevel gear I402, the bevel gear I402 and a pinion 401 synchronously rotate, the pinion 401 is meshed with a special-shaped rack 503, and when the special-shaped rack 503 moves forwards, the balance weight 422 moves backwards in order to keep the balance weight.

The hardness detection device 1 comprises a fixed rod 101, the fixed rod 101 is fixedly arranged on a mounting plate II 201, a mounting plate I102 is fixedly arranged on the fixed rod 101, the mounting plate I102 is fixedly connected with a heating device 2, a sliding plate 111 is arranged on the mounting plate I102 in a sliding mode, the sliding plate 111 slides along the front-back direction, a motor I103 is fixedly arranged on the sliding plate 111, a cam mechanism is arranged on a rotating shaft of the motor I103, a sliding column 104 is arranged on the sliding plate 111 in a sliding mode along the gravity direction, a half stroke of the cam mechanism is matched with the sliding column 104, the half stroke of the cam mechanism is separated from the sliding column 104 and used for driving the sliding column 104 to ascend and descend, a detection head 112 is fixedly arranged at the lower end of the sliding column 104, the detection head 112 is located on the lower side of the mounting plate I102, a spring II 114 is fixedly arranged between the sliding plate 111 and the sliding column 104, the spring II 114 is in a natural state when the sliding column 104 is the lowest, a spring plate 109 is fixedly arranged on the sliding plate 111, a spring plate 109 is fixedly arranged between the spring plate I110 and the mounting plate I102, when the sliding plate 111 is located at the foremost end, the spring I110 is in a natural state, the rack 108 is fixedly arranged on the mounting plate I102, the incomplete gear 107 is fixedly arranged on a rotating shaft of the motor I103, the rack 108 is meshed with the incomplete gear 107, the incomplete gear 107 rotates to drive the sliding plate 111 to move backwards, the sliding column 104 is located at the topmost end when a toothed part of the incomplete gear 107 is just meshed with the rack 108, the cam structure is separated from the sliding column 104, and when the cam structure is matched with the sliding column 104 again, the toothed part of the incomplete gear 107 is just separated from the rack 108.

In the embodiment, the cam structure comprises a connecting rod 105, the connecting rod 105 is fixedly connected with a rotating shaft of a motor I103, a cylinder 106 is fixedly arranged on the connecting rod 105, a horizontal section is arranged at the upper end of a sliding column 104, the lower end surface of the horizontal section is contacted with the cylinder 106, the cylinder 106 is positioned at the tail end of the horizontal section when positioned at the highest end, the horizontal section is positioned on the same horizontal plane with the axle center of an incomplete gear 107 when positioned at the lowest end, the incomplete gear 107 has a quarter of circumferential surface without a tooth-shaped structure, the connecting line of the axle centers of the cylinder 106 and the incomplete gear 107 passes through the junction of the incomplete gear 107 with teeth and without teeth, a speed detector 113 is fixedly arranged on a detecting head 112, the speed detector 113 detects the current moving speed of the walking device 3, the moving speed of the incomplete gear 107 on a rack 108 is enabled to be the same as that of the walking device 3, so as to keep the position of the detecting head 112 relative to the ground unchanged, the detecting head 112 is connected with a computer program, whether the paint is dried or not is judged according to the hardness degree of the detection head 112 contacting the paint ground.

The working principle is as follows: before use, the electric cylinder 306 is contracted, the electric cylinder 306 drives the hardness detection device 1, the heating device 2, the balancing device 4 and the drying arm 5 to descend to a working height, the fan 202 and the heater 204 are started, the crawler 302 is started, the crawler 302 drives the heater to move forwards, the fan 202 sends air filtered by the filter 203 into the heater 204 for heating, and then the air is sent into the drying arm 5, the drying arm 5 can change along with the terrain and the surrounding wall body in the advancing process of the walking device 3, the motor III 501 drives the gear I502, the gear I502 drives the special-shaped rack 503, the special-shaped rack 503 drives the inner cylinder 505 to slide in the sleeve 504, the front end of the drying arm 5 is driven to stretch and spray hot air forwards and backwards to dry, the motor IV 506 drives the gear II 507 to rotate, the gear II 507 drives the telescopic rack 508 to move, the telescopic rack 508 drives the containing rod 509 to stretch and contract in the middle rod 512, and the motor V510 drives the drying rod 511 to rotate and take in the containing rod 509, changing the drying width, when meeting a corner, the crawler 302 is not convenient to turn, the motor II 309 drives the telescopic column 307 to rotate, and further drives the traveling device 3 and the drying arm 5 to rotate, in the drying process, the hardness detection device 1 detects the dried paint on the rear side of the drying arm 5, the motor I103 is started, the motor I103 drives the connecting rod 105 and the incomplete gear 107 to synchronously rotate, the cylinder 106 jacks the sliding column 104 and stretches the spring II 114, at the moment, the tooth part of the incomplete gear 107 is meshed with the rack 108, the motor I103 continues to work, the cylinder 106 is separated from the sliding column 104, the spring II 114 drives the sliding column 104 to reset and descend, the detecting head 112 contacts the floor paint, at the moment, the traveling device 3 continues to move forwards, the incomplete gear 107 drives the motor I103 to move backwards on the rack 108, and the moving speed is the same as that of the traveling device 3, so as to keep the detecting head 112 static relative to the ground, the slide 111 moves backwards, the spring I110 is stretched, when the toothed part of the incomplete gear 107 is meshed with the rack 108, the cylinder 106 just lifts the slide 104 again, the incomplete gear 107 is not meshed with the rack 108, and the spring I110 contracts to reset the slide 111 to wait for the next detection round.

Claims

1. The utility model provides an automatic drying device of floor paint, its characterized in that: the device comprises a walking device (3), wherein a heating device (2) is arranged on the walking device (3), a hardness detection device (1) and a drying arm (5) are arranged on the heating device (2), and a balancing device (4) is arranged on the heating device (2) and the drying arm (5); wherein the hardness detection device (1) is positioned at the rear side of the drying arm (5); hardness testing device (1) including mounting panel I (102), mounting panel I (102) with heating device (2) fixed connection, sliding plate (111) are equipped with on mounting panel I (102), and sliding plate (111) slide along the fore-and-aft direction, and fixed motor I (103) of being equipped with on sliding plate (111), cam mechanism is equipped with in the pivot of motor I (103), sliding plate (111) go up and are equipped with traveller (104) along the slip direction of gravity, and half stroke and traveller (104) cooperation of cam structure, half stroke and traveller (104) break away from and are used for driving traveller (104) to go up and down, and stationary detector head (112) are equipped with to traveller (104) lower extreme, and detector head (112) are located mounting panel I (102) downside, and the fixed spring II (114) of being equipped with between sliding plate (111) and traveller (104), and when traveller (104) are minimum, spring II (114) are in natural state, the spring I (110) is fixedly arranged between the sliding plate (111) and the mounting plate I (102), when the sliding plate (111) is located at the foremost end, the spring I (110) is in a natural state, the rack (108) is fixedly arranged on the mounting plate I (102), the incomplete gear (107) is fixedly arranged on a rotating shaft of the motor I (103), the rack (108) is meshed with the incomplete gear (107), the incomplete gear (107) rotates to drive the sliding plate (111) to move backwards, when the toothed part of the incomplete gear (107) is just meshed with the rack (108), the sliding column (104) is located at the topmost end, the cam structure is separated from the sliding column (104), and when the cam structure is matched with the sliding column (104) again, the toothed part of the incomplete gear (107) is just separated from the rack (108).

2. The automatic drying device of floor paint as claimed in claim 1, wherein: the cam structure comprises a connecting rod (105), the connecting rod (105) is fixedly connected with a rotating shaft of a motor I (103), a cylinder (106) is fixedly installed on the connecting rod (105), a horizontal section is arranged at the upper end of a sliding column (104), the lower end face of the horizontal section is in contact with the cylinder (106), the cylinder (106) is located at the tail end of the horizontal section when located at the highest end, the horizontal section is located on the same horizontal plane with the axis of an incomplete gear (107) when located at the lowest end, the incomplete gear (107) is provided with a quarter of circumferential surface without a tooth-shaped structure, and the axis connecting line of the cylinder (106) and the incomplete gear (107) passes through the junction of the incomplete gear (107) with teeth and no teeth.

3. The automatic drying device for floor paint according to claim 2, characterized in that: the detecting head (112) is fixedly provided with a speed detector (113), and the detecting head (112) is connected with a computer program.

4. The automatic drying device of floor paint as claimed in claim 1, wherein: the heating device (2) is connected with the drying arm (5), the drying arm (5) can stretch in the front-back direction and the transverse direction, and the drying arm (5) moves back and forth to drive the balancing device (4) to move back and forth to keep balance.

5. The automatic drying device of floor paint as claimed in claim 1, wherein: the drying arm (5) comprises a sleeve (504), the sleeve (504) is connected with the heating device (2), an inner cylinder (505) is arranged in the sleeve (504) in a sliding mode along the front-back direction, a special-shaped rack (503) is fixedly arranged on the inner cylinder (505), a motor III (501) is fixedly arranged on the sleeve (504), a gear I (502) is fixedly arranged on a rotating shaft of the motor III (501), and the gear I (502) is meshed with the special-shaped rack (503).

6. The automatic drying device of floor paint according to claim 5, characterized in that: the upper part is provided with a balancing weight (422) in a sliding manner along the front-back direction, the balancing weight (422) is connected with the special-shaped rack (503) through a transmission gear set, and the balancing weight (422) and the special-shaped rack (503) move in opposite directions and keep balance.

7. The automatic drying device of floor paint as claimed in claim 5, wherein: fixed intermediate lever (512) of being equipped with under inner tube (505), telescopic component is all equipped with in the both sides of intermediate lever (512), and telescopic component is including accomodating pole (509), accomodate pole (509) horizontal slidable mounting in on intermediate lever (512), accomodate fixed telescopic rack (508) of being equipped with on pole (509), fixed motor IV (506) of being equipped with on intermediate lever (512), fixed gear II (507) of being equipped with in motor IV (506) pivot, gear II (507) and telescopic rack (508) meshing, stoving pole (511) are equipped with in accomodating pole (509).

8. The automatic drying device of floor paint as claimed in claim 7, wherein: the first end of stoving pole (511) with accomodate pole (509) articulated, stoving pole (511) and intermediate lever (512) intercommunication, it is equipped with motor V (510) to accomodate the fixed being equipped with on pole (509), fixes the first end that is equipped with stoving pole (511) in the pivot of motor V (510), accomodate pole (509) cavity and a plurality of apertures are seted up to the downside, and stoving pole (511) downside sets up a plurality of apertures, and the aperture of accomodating on pole (509) corresponds with the aperture of stoving pole (511).