CN113619533B - Automatic car cleaning device with drying function - Google Patents

Abstract

The invention provides an automatic car cleaning device with a drying function, which belongs to the technical field of car cleaning and comprises a conveying mechanism, a portal frame body, a first air blowing mechanism, a scraping plate mechanism, a wiping mechanism, a drying mechanism, two second air blowing mechanisms and two water vapor discharging mechanisms; the portal frame body is arranged above the conveying mechanism, and is sequentially provided with a first wind blowing mechanism, a scraping plate mechanism and a wiping mechanism with downward ports from front to back; the drying mechanism is positioned above the conveying mechanism and behind the wiping mechanism; the two second air blowing mechanisms are respectively positioned between the scraping plate mechanism and the wiping mechanism and between the wiping mechanism and the drying mechanism; the two vapor discharge mechanisms are respectively positioned between the top scraping plate and the side scraping roller and between the top roller wiper and the side roller wiper. The automatic car cleaning device with the drying function can remove water and dirt from the car, timely suck out water vapor in the device, achieve the aim of quickly and automatically cleaning the car, and achieve the aim of environmental protection and economy.

Description

Automatic car cleaning device with drying function

Technical Field

The invention belongs to the technical field of automobile cleaning, and particularly relates to an automatic automobile cleaning device with a drying function.

Background

The traditional car washing industry develops at a high speed, the car washing speed of the household car rapid car washing machine is improved by more than 3-5 times compared with that of manual washing or high-pressure water gun washing, but the car washing link is still unresolved, water drops of the car body are manually wiped or natural air drying is needed to be completed, the manual car washing mode is low in working efficiency, more manpower resources are needed to be consumed, particularly in winter, the air temperature is low, a layer of ice is formed when the car just washed is opened outside, and the car is difficult to clean. Not only has potential safety hazard, but also reduces the quality of car washing. In order to save labor cost and improve working efficiency, an efficient automatic automobile drying process after automobile washing is becoming a trend.

Disclosure of Invention

The invention aims to provide an automatic car wiping device with a drying function, which aims to improve car wiping efficiency and solve the problem of time and labor waste of manual car wiping.

In order to achieve the above purpose, the invention adopts the following technical scheme: an automatic car-cleaning device with a drying function is provided, comprising:

the conveying mechanism is used for bearing and conveying the cleaned automobile;

the portal frame body is arranged above the conveying mechanism, and the portal frame body is sequentially provided with a first air blowing mechanism, a scraping plate mechanism and a wiping mechanism, wherein the ports of the first air blowing mechanism are downward; the scraping plate mechanism comprises a top scraping plate and two side scraping rollers which are respectively positioned at two sides of the top scraping plate; the wiping mechanism comprises a top roller wiper and two side roller wipers which are respectively positioned at two sides of the top roller wiper;

the drying mechanism is positioned above the conveying mechanism and comprises a drying pipe arranged at the rear of the wiping mechanism and a plurality of hot air nozzles uniformly arranged on the drying pipe;

the second air blowing mechanisms are respectively positioned between the scraping plate mechanism and the wiping mechanism and between the wiping mechanism and the drying mechanism, each second air blowing mechanism comprises an air outlet pipe and a plurality of air blowing openings uniformly formed in the air outlet pipe, and the opening direction of each air blowing opening is opposite to the conveying direction of the conveying mechanism and is arranged in an included angle;

the two vapor discharge mechanisms are respectively positioned between the top scraping plate and the side scraping roller and between the top roller and the side roller, and each vapor discharge mechanism comprises a U-shaped vapor discharge pipe and an air suction cover uniformly distributed on the vapor discharge pipe.

As another embodiment of the present application, the squeegee mechanism further includes:

the first support rod is transversely connected to the portal frame body and has longitudinal freedom degree; the top scraping plate is connected to the first supporting rod;

the two sliding modules are connected to the first cross beam of the portal frame body behind the first supporting rod in a sliding manner, and the side scraping rollers are connected to the sliding modules in a rotating manner;

the driving mechanism is positioned on the portal frame body, and the free end of the driving mechanism is connected with the sliding module and used for driving the sliding module to horizontally move along the length direction of the first cross beam.

As another embodiment of the present application, the slip module includes:

the two connecting plates are respectively positioned at two sides of the first cross beam, two transverse nylon wheels are longitudinally arranged between the two connecting plates at intervals, and the two transverse nylon wheels respectively prop against the upper end face and the lower end face of the first cross beam; longitudinal nylon wheels are respectively arranged on two sides of the connecting plate and are propped against the side wall of the first cross beam;

the bearing blocks are connected to the lower ends of the two connecting plates, and the side scraping rollers are rotatably connected to the bearing blocks.

As another embodiment of the present application, the side scraping roller includes:

the scraper connecting sleeve is rotationally connected below the bearing seat, a plurality of mounting grooves are formed in the circumference of the scraper connecting sleeve, and the mounting grooves are longitudinally communicated with the upper end face and the lower end face of the scraper connecting sleeve;

the strip-shaped scraping plates are correspondingly connected in the mounting grooves.

As another embodiment of the application, the top roller is connected with a winch on the portal frame body by a belt, and the belt drives the top roller to move up and down.

As another embodiment of the present application, the air outlet pipe is U-shaped, and the air outlet pipe is enclosed above the conveying mechanism; the air blowing openings are uniformly distributed on the pipe wall of the air outlet pipe.

As another embodiment of the present application, the inner diameter of the hot air nozzle gradually increases from the fixed end to the free end thereof.

As another embodiment of the application, the drying mechanism is provided with a plurality of drying mechanisms at equal intervals from front to back.

The automatic car cleaning device with the drying function has the beneficial effects that: compared with the prior art, the automatic car cleaning device with the drying function is provided with the conveying mechanism, and is used for bearing the cleaned car and conveying the car from front to back; the automobile sequentially passes through the first air blowing mechanism, the scraping plate mechanism, the second air blowing mechanism, the wiping mechanism, the second air blowing mechanism and the drying mechanism in the conveying process; the surface of the automobile is dried through the technological processes of blowing, scraping, blowing, wiping, blowing, drying and the like. The automatic car wiping device with the drying function provided by the invention adopts the mutual cooperation of scraping, wiping, blowing and drying processes, and finally can achieve the purposes of removing water and dirt on the top surface, the side surface, the front car head surface and the rear car tail surface of a car; the device can also discharge water vapor in the device in time, thereby realizing the purpose of quick automatic vehicle cleaning and achieving the aim of environmental protection and economy.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments or the description of the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of an automatic vehicle cleaning device with a drying function according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a conveying mechanism according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a first air blowing mechanism according to an embodiment of the present invention;

FIG. 4 is a schematic view of a top screed according to an embodiment of the present invention;

FIG. 5 is a schematic view of a side screed according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a top roll brush according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a second air blowing mechanism according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a drying mechanism according to an embodiment of the present invention.

In the figure: 10. a conveying mechanism; 11. a drive-in plate; 12. a platform; 13. a chain; 14. a roller; 20. a portal frame body; 21. a first cross beam; 22. a second cross beam; 23. a lifting assembly; 30. a high-power fan; 40. a side scraping roller; 41. a driving mechanism; 42. a first support bar; 43. a fixed case; 44. a strip-shaped scraping plate; 45. a connecting shaft; 46. the scraper connecting sleeve; 47. a connecting plate; 48. a transverse nylon wheel; 49. longitudinal nylon wheels; 50. side surface roller wiping; 51. a top roller wiper; 52. a top wiper bracket; 53. extending the steel pipe outwards; 60. an air outlet pipe; 61. blowing an air port; 70. a water vapor discharge pipe; 71. an air suction cover; 80. a drying tube; 81. a hot air nozzle.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Referring to fig. 1 to 8, an automatic vehicle cleaning device with a drying function provided by the present invention will now be described. The automatic car wiping device with the drying function comprises a conveying mechanism 10, a portal frame body 20, a first air blowing mechanism, a scraping plate mechanism, a wiping mechanism, a drying mechanism, two second air blowing mechanisms and two water vapor discharging mechanisms; the conveying mechanism 10 is used for bearing the cleaned automobile; the portal frame body 20 is arranged above the conveying mechanism 10, and a first air blowing mechanism, a scraping plate mechanism and a wiping mechanism with downward ports are sequentially arranged on the portal frame body 20 from front to back; the scraper mechanism comprises a top scraper and two side scraping rollers 40 respectively positioned at two sides of the top scraper; the wiping mechanism comprises a top roller wiper 51 and two side roller wipers 50 respectively positioned at two sides of the top roller wiper 51; the drying mechanism is positioned above the conveying mechanism 10 and comprises a drying pipe 80 arranged behind the wiping mechanism and a plurality of hot air nozzles 81 uniformly arranged on the drying pipe 80; the two second air blowing mechanisms are respectively positioned between the scraping plate mechanism and the wiping mechanism and between the wiping mechanism and the drying mechanism, and each second air blowing mechanism comprises an air outlet pipe 60 and a plurality of air blowing openings 61 which are uniformly formed in the air outlet pipe 60, and the opening direction of each air blowing opening 61 is opposite to the conveying direction of the conveying mechanism 10 and is arranged in an included angle; two vapor discharge mechanisms are respectively positioned between the top scraping plate and the side scraping roller 40 and between the top roller wiper 51 and the side roller wiper 50, and each vapor discharge mechanism comprises a U-shaped vapor discharge pipe 70 and an air suction cover 71 uniformly distributed on the vapor discharge pipe 70.

Compared with the prior art, the automatic car cleaning device with the drying function is provided with the conveying mechanism 10 which is used for bearing the cleaned car and conveying the car from front to back; the automobile sequentially passes through the first air blowing mechanism, the scraping plate mechanism, the second air blowing mechanism, the wiping mechanism, the second air blowing mechanism and the drying mechanism in the conveying process; the surface of the automobile is dried through the technological processes of blowing, scraping, blowing, wiping, blowing, drying and the like.

The periphery of the automobile after being washed by the full-automatic car washing room is fully covered with water drops and water films, the automobile is firstly driven to the conveying mechanism 10, the running is stopped, and the conveying mechanism 10 drives the automobile to move from front to back; firstly, an automobile moves to the lower end of a first air blowing mechanism, and most of water drops on the surface of the automobile are blown off by the aid of the first air blowing mechanism; then, the automobile moves to a scraper mechanism, a top scraper of the scraper mechanism is used for being attached to the roof of the automobile, side scraping rollers 40 are used for being attached to two sides of the automobile, and the scraper mechanism scrapes off water drops on the surface of the automobile and gathers scattered water films into water drops; then, the second air blowing mechanism is used for blowing water waves on the roof of the automobile and water drops on two sides of the automobile; then, the automobile moves to the wiping mechanism, the top roller wiper 51 is attached to the automobile roof, the side roller wiper 50 is attached to two sides of the automobile, and the water stain left after the water stain is dried is wiped dry, and the rest water stain and water drops are wiped dry; then, the automobile passes through the second air blowing mechanism again, and impurities and residual water drops left by the wiping mechanism are blown off through air blowing; finally, the automobile moves to the drying mechanism, and the hot air nozzle 81 connected with the drying pipe 80 blows air to the surface of the automobile, so that all the residual moisture on the surfaces and corners around the automobile is ensured to be removed.

The opening direction of the air blowing opening 61 on the second air blowing mechanism is arranged at an included angle with the horizontal direction, and is used for removing the moisture at the top of the automobile to the reverse direction of the advancing direction of the automobile and blowing the water drops on the side surface of the automobile to the rear and downward directions.

The water on the automobile falls on the ground mostly through the process steps of blowing, scraping, blowing, wiping, blowing and drying, and the rest part of the water can become water vapor to float in the air, so that the humidity in the air is high. The blowing direction of the second blowing mechanism is arranged at an included angle with the vehicle body, so that water vapor is accumulated in the middle of the device, namely, the position close to the scraping plate mechanism and the wiping mechanism. The two vapor discharge mechanisms are respectively arranged at the inner sides of the scraping plate mechanism and the wiping mechanism and are used for sucking out vapor in the device under negative pressure.

The automatic car wiping device with the drying function provided by the invention adopts the processes of scraping, wiping, blowing and drying to be matched with each other, and finally the aim of removing water and dirt on the top surface, the side surface, the front car head surface and the rear car tail surface of the car can be achieved; the device can also discharge water vapor in the device in time, thereby realizing the purpose of quick automatic vehicle cleaning and achieving the aim of environmental protection and economy.

Alternatively, the vapor discharge mechanism includes a gantry type vapor discharge pipe 70 and a suction hood 71 connected to the vapor discharge pipe 70, the suction hood 71 having an inner diameter gradually increasing from one end connected to the vapor discharge pipe 70 to the other end.

Preferably, the opening direction of the air blowing port 61 is inclined at 45 ° to the horizontal direction.

Optionally, the conveying mechanism 10 is disposed on the platform 12, and an upper end surface of the conveying mechanism 10 is flush with an upper end surface of the platform 12; the gantry body 20 is mounted on an upper end surface of the platform 12.

The conveying mechanism 10 is driven by two groups of sprocket chains 13 which are symmetrically arranged. Rollers 14 are transversely arranged on the two groups of chains 13 to achieve the function of towing vehicles. A steel support module is adopted in the middle of the single-side upper and lower chains 13 to bear the weight of the automobile.

Optionally, a guiding module is arranged at the front end of the conveying mechanism 10, and the automobile runs onto the conveying mechanism 10 from the guiding module. The guiding module aims at guiding the automobile to the optimal position of the conveying mechanism 10, reducing position errors during the wiping, improving the wiping effect and enabling the conveying module to adapt to automobile types with different widths. The guide module comprises two entrance plates 11, the width of the entrance plates 11 gradually decreasing from front to back. The guide module adopts a 40mm square steel frame structure as a support.

Optionally, the first air blowing mechanism includes a plurality of high-power fans 30 installed on the portal frame body 20, and air outlets of the plurality of high-power fans 30 face downwards, so as to blow most water drops on the automobile through high-speed air. A plurality of high power fans 30 are arranged in a horizontal direction on the gantry body 20 in sequence. Optionally, four high-power fans 30 are arranged on the portal frame body 20, and the four high-power fans 30 are arranged side by side; the four high-power fans 30 are sequentially arranged from left to right to reverse, forward, reverse and forward.

In some embodiments, referring to fig. 4 to 5, the squeegee mechanism further includes a first support bar 42, two slip modules, and a driving mechanism 41; the first support bar 42 is transversely connected to the side frame of the gantry body 20 and has a longitudinal degree of freedom; the top scraper is connected to the first support bar 42; the two sliding modules are connected to the first beam 21 of the portal frame body 20 behind the first supporting rod 42 in a sliding manner, and the side scraping roller 40 is connected to the sliding modules in a rotating manner; the driving mechanism 41 is located on the portal frame body 20, and a free end of the driving mechanism 41 is connected with the sliding module for driving the sliding module to horizontally move along the length direction of the first beam 21.

Specifically, the side frames of the gantry body 20 at two sides of the conveying mechanism 10 are symmetrically connected with lifting assemblies 23, the two lifting assemblies 23 are longitudinally arranged, two ends of a first supporting rod 42 are connected to the lifting assemblies 23, and the first supporting rod 42 moves up and down by means of the lifting assemblies 23 to drive a top scraping plate connected to the lower end of the first supporting rod 42 to move up and down. The first support bar 42 is made of an aluminum profile.

The lifting assembly 23 is a ball screw, and both sides of the first support rod 42 are fixed to a screw pair of the ball screw. The ball screw selects the screw of SFU2510-3, and the screw pair realizes synchronous and stable lifting at two ends through motor drive.

The top scraper comprises a fixed shell 43, a fixed groove is formed in the lower end of the fixed shell 43, and a strip scraper 44 is detachably arranged in the fixed groove. The strip blade 44 includes a plurality of rubber blade strips arranged in sequence.

The fixing case 43 is provided at both ends thereof with connection members, which are bolted to the lower ends of the first support bars 42.

The portal frame body 20 at the rear of the first supporting rod 42 is provided with a first cross beam 21, two sliding modules are both connected to the first cross beam 21 in a sliding mode, the lower end of each sliding module is connected with a connecting shaft 45 in a rotating mode, and the side scraping roller 40 is connected to the rotating shaft 45 and rotates by means of the rotating shaft 45. The fixed end of the driving mechanism 41 is fixed to the gantry body 20, and the movable end is connected to the slip module.

Due to the long distance of movement and limited space, the individual cylinders cannot perform the desired function. The driving mechanism 41 comprises a connecting rod and a cylinder, wherein the connecting rod is hinged on a front cross beam of the portal frame body 20, and the front cross beam is arranged in parallel with the first cross beam 21 and on the same horizontal plane; the cylinder includes first cylinder and second cylinder, and wherein the both ends of first cylinder articulate respectively on portal frame body 20 and connecting rod articulates, and the both ends of second cylinder articulate respectively on the one end that the connecting rod kept away from first cylinder and the module that slides, and first cylinder and the flexible module that is used for driving of second cylinder slide on first crossbeam 21. The cylinders adopt SE series cylinders.

In some embodiments, referring to fig. 5, the slip module includes two connection plates 47 and a bearing housing; the two connecting plates 47 are respectively positioned at two sides of the first beam 21, two transverse nylon wheels 48 are longitudinally arranged between the two connecting plates 47 at intervals, and the two transverse nylon wheels 48 respectively prop against the upper end face and the lower end face of the first beam 21; longitudinal nylon wheels 49 are respectively arranged on two sides of the connecting plate 47, and the longitudinal nylon wheels 49 are propped against the side wall of the first beam 21; the bearing housing is connected to the lower ends of two connecting plates 47, and the side scraping roller 40 is rotatably connected to the bearing housing.

Specifically, the two connection plates 47 are connected by means of two transverse nylon wheels 48, and the two transverse nylon wheels 48 respectively abut against the upper end face and the lower end face of the first beam 21, so as to restrict the running track of the sliding module; longitudinal nylon wheels 49 are arranged on two sides of the two connecting plates 47, and the longitudinal nylon wheels 49 on the two connecting plates 47 are symmetrically arranged and respectively propped against two sides of the first cross beam 21, so that the running track of the sliding module is further restrained, left and right shaking of the sliding module is prevented, and the sliding module is enabled to move stably.

To accommodate the curvature of the sides of the vehicle, a bearing mount is hinged at the lower end of the connecting plate 47. The bearing seat comprises a top plate and side plates, the upper end of the top plate is provided with an ear plate, the ear plate is hinged with the connecting plate 47, and the bearing seat rotates around a hinge shaft; the curb plate adopts the steel sheet to fix, and the below of roof is provided with waterproof motor and flange, and waterproof motor connects the bearing, and the connecting axle 45 of drive bearing lower extreme rotates.

In some embodiments, referring to fig. 5, the side doctor roll 40 includes a doctor blade adapter 46 and a plurality of bar-shaped doctor blades 44; the scraper connecting sleeve 46 is rotationally connected below the bearing seat, a plurality of mounting grooves are formed in the circumference of the scraper connecting sleeve 46, and the mounting grooves are longitudinally communicated with the upper end face and the lower end face of the scraper connecting sleeve 46; a plurality of strip-shaped scrapers 44 are correspondingly connected in the plurality of mounting grooves.

Specifically, the scraper connecting sleeve 46 is cylindrical, and the scraper connecting sleeve 46 is sleeved on the connecting shaft 45 below the bearing seat and rotates synchronously with the connecting shaft 45. The scraper connecting sleeve 46 is circumferentially provided with a mounting groove, and the length direction of the mounting groove is consistent with the length direction of the scraper connecting sleeve 46. The mounting groove is used for limiting the strip-shaped scraping plate 44, and the strip-shaped scraping plate 44 is convenient to detach and replace. The strip blade 44 includes a plurality of rubber blade strips. The chipped design of the strip-shaped scraping plate 44 is convenient for adapting to the rugged surface of the side face of the automobile.

In some embodiments, referring to fig. 1 and 6, the top roller 51 is connected to a winch on the gantry body 20 by a belt, and the belt drives the top roller 51 to move up and down.

Specifically, a top wiping bracket 52 is arranged behind the first cross beam 21 on the portal frame body 20, the top wiping bracket 52 comprises two side posts and a push rod for connecting the two side posts, an overhanging steel pipe 53 is arranged between the two side posts, a stepping motor is arranged at the end part of the overhanging steel pipe 53, and the stepping motor drives the overhanging steel pipe 53 to rotate; the overhanging steel pipe 53 is provided with a winch connected to the top roll brush 51 by a belt. The stepping motor drives the overhanging steel pipe 53 to rotate, the capstan rotates, and the belt is wound on or put down by the capstan, thereby changing the height of the top roller 51 attached to the lower end of the belt.

Both ends of the top roll wiper 51 are connected to the jambs. The side posts are provided with sliding grooves, the end parts of the top roller wiper 51 are provided with groove steel wheels, and the groove steel wheels are matched with the sliding grooves and used for limiting the left and right shaking of the top roller wiper 51. Specifically, the spout is the U-shaped, and the spout is offered respectively on the opposite face of two jambs, and the channel-section steel wheel limit is located the inboard of U-shaped spout, only can follow the spout and reciprocate.

The top roller wiper 51 comprises a rotating shaft and a wiping sleeve sleeved outside the rotating shaft, the channel steel wheels are connected to two ends of the rotating shaft through bearings, the rotating shaft is connected with a waterproof direct current motor, the waterproof direct current motor drives the rotating shaft to rotate, and the wiping sleeve is driven to suck and wipe water on the surface of an automobile. The wiping sleeve is made of rubber. The outer side wall of the wiping sleeve is provided with lines along the axial direction of the wiping sleeve, so that the contact area between the wiping sleeve and the surface of an automobile is conveniently increased; the lines are ribs protruding out of the surface of the wiping sleeve, and the ribs are uniformly distributed along the circumferential direction of the wiping sleeve.

In the same way as the side scraping rollers 40, both side rollers 50 are connected to the second beam 22 behind the first beam 21 of the gantry body 20 by means of a sliding module. The two side rollers 50 are rotatably connected to the lower ends of the slip modules, respectively. The fixed end of the driving mechanism 41 is fixed to the gantry body 20, and the movable end is connected to the slip module.

The side roller 50 has the same structure as the top roller 51, and the side roller 50 includes a rotating shaft rotatably connected to the slip module and a wiping sleeve sleeved outside the rotating shaft.

In some embodiments, referring to fig. 7, the air outlet pipe 60 is U-shaped, and the air outlet pipe 60 is enclosed above the conveying mechanism 10; the air blowing openings 61 are uniformly distributed on the pipe wall of the air outlet pipe 60.

Specifically, the air outlet pipe 60 of the second air blowing mechanism is U-shaped, the air outlet pipe 60 includes two side pipes and a top pipe connecting the two side pipes, and the air blowing openings 61 are uniformly distributed on the two side pipes and the top pipe. The air outlet 61 is connected with an air outlet pipe 60, the air outlet pipe 60 comprises a T-shaped connector and an inclined tee, two ports of the T-shaped connector and the inclined tee are connected to the air outlet pipe 60, and the remaining ports are the air outlet 61.

Optionally, the inclined tee is a 45-degree inclined tee. The angle between the blowing direction of the blowing openings 61 on the two side pipes and the side surface of the automobile is 45 degrees, and the angle between the blowing direction of the jacking pipe and the top surface of the automobile is 45 degrees.

Optionally, the air outlet pipe 60 is a stainless steel pipeline, and the air outlet pipe 60 is externally connected with a centrifugal blower by adopting a dome-shaped connector.

Alternatively, the caliber of the air outlet 61 increases gradually from one side connected to the air outlet pipe 60 to the other side.

In some embodiments, referring to fig. 1 and 8, the inside diameter of the hot air nozzle 81 increases gradually from its fixed end to its free end. Specifically, the drying pipe 80 is a gantry type pipe, and the pipeline is connected to the concrete wall through a buckle; the drying pipe 80 is provided with a hot air nozzle 81, and the inner diameter of the hot air nozzle 81 is gradually increased from one end connected with the drying pipe 80 to the other end so as to achieve the effect of spreading heat in a large area and prevent the car body from being damaged by local overheating.

The drying pipe 80 is connected with a high-power industrial-grade air heater. The drying pipe 80 adopts 304 stainless steel pipe as hot air conveying pipeline and adopts seamless three-way pipe fitting as main pipeline connecting piece.

Alternatively, the side-mounted hot air nozzle 81 may be oriented at 45 ° to the side surface of the automobile in order to maximize the area coverage of the vehicle body and corners.

The drying mechanism is provided with a plurality of drying mechanisms from front to back at equal intervals, so that moisture drying can be realized rapidly in the moving process of the automobile.

Optionally, the drying mechanisms are sequentially arranged at equal intervals, and the three drying mechanisms are mutually independent and can be independently controlled.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (8)

1. Automatic car cleaning device with stoving function, its characterized in that includes:

the conveying mechanism is used for bearing and conveying the cleaned automobile;

the portal frame body is arranged above the conveying mechanism, and the portal frame body is sequentially provided with a first air blowing mechanism, a scraping plate mechanism and a wiping mechanism, wherein the ports of the first air blowing mechanism are downward; the scraping plate mechanism comprises a top scraping plate and two side scraping rollers which are respectively positioned at two sides of the top scraping plate; the wiping mechanism comprises a top roller wiper and two side roller wipers which are respectively positioned at two sides of the top roller wiper; the top scraping plate comprises a fixed shell, a fixed groove is formed in the lower end of the fixed shell, and a strip-shaped scraping plate is detachably arranged in the fixed groove; the strip-shaped scraping plate comprises a plurality of rubber scraping strips which are sequentially arranged;

the drying mechanism is positioned above the conveying mechanism and comprises a drying pipe arranged at the rear of the wiping mechanism and a plurality of hot air nozzles uniformly arranged on the drying pipe;

the second air blowing mechanisms are respectively positioned between the scraping plate mechanism and the wiping mechanism and between the wiping mechanism and the drying mechanism, each second air blowing mechanism comprises an air outlet pipe and a plurality of air blowing openings uniformly formed in the air outlet pipe, and the opening direction of each air blowing opening is opposite to the conveying direction of the conveying mechanism and is arranged in an included angle;

the two vapor discharge mechanisms are respectively positioned between the top scraping plate and the side scraping roller and between the top roller and the side roller, and each vapor discharge mechanism comprises a U-shaped vapor discharge pipe and an air suction cover uniformly distributed on the vapor discharge pipe.

2. The automatic vehicle cleaning apparatus with a drying function as claimed in claim 1, wherein said squeegee mechanism further comprises:

the first support rod is transversely connected to the portal frame body and has longitudinal freedom degree; the top scraping plate is connected to the first supporting rod;

the two sliding modules are connected to the first cross beam of the portal frame body behind the first supporting rod in a sliding manner, and the side scraping rollers are connected to the sliding modules in a rotating manner;

the driving mechanism is positioned on the portal frame body, and the free end of the driving mechanism is connected with the sliding module and used for driving the sliding module to horizontally move along the length direction of the first cross beam.

3. The automatic car-wiping device with drying function as defined in claim 2, wherein the sliding module comprises:

the two connecting plates are respectively positioned at two sides of the first cross beam, two transverse nylon wheels are longitudinally arranged between the two connecting plates at intervals, and the two transverse nylon wheels respectively prop against the upper end face and the lower end face of the first cross beam; longitudinal nylon wheels are respectively arranged on two sides of the connecting plate and are propped against the side wall of the first cross beam;

the bearing blocks are connected to the lower ends of the two connecting plates, and the side scraping rollers are rotatably connected to the bearing blocks.

4. An automatic vehicle cleaning apparatus with a drying function as claimed in claim 3, wherein the side scraping roller includes:

the scraper connecting sleeve is rotationally connected below the bearing seat, a plurality of mounting grooves are formed in the circumference of the scraper connecting sleeve, and the mounting grooves are longitudinally communicated with the upper end face and the lower end face of the scraper connecting sleeve;

the strip-shaped scraping plates are correspondingly connected in the mounting grooves.

5. The automatic car cleaning device with a drying function according to claim 1, wherein the top roller wiper is connected with a winch on the portal frame body by a belt, and the belt drives the top roller wiper to move up and down.

6. The automatic car cleaning device with a drying function according to claim 1, wherein the air outlet pipe is U-shaped, and the air outlet pipe is arranged above the conveying mechanism in a surrounding manner; the air blowing openings are uniformly distributed on the pipe wall of the air outlet pipe.

7. The automatic car cleaning device with a drying function according to claim 1, wherein the inner diameter of the hot air nozzle is gradually increased from the fixed end to the free end thereof.

8. The automatic car cleaning device with a drying function as claimed in claim 1, wherein a plurality of the drying mechanisms are provided at equal intervals from front to back.

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