CN216069929U - Non-contact vehicle air drying device - Google Patents

Abstract

The utility model discloses a non-contact vehicle air drying device, which comprises: along the horizontal fixed station that vehicle length direction laid, set up horizontal fixed station top can be followed horizontal fixed station gliding horizontal slip table sets up horizontal slip table top can be followed the gliding horizontal side slip table of horizontal slip table is installed on the horizontal side slip table and along the fan support that horizontal side slip table removed, install the fan on the fan support, first tuber pipe and second tuber pipe are connected respectively through the three-way pipe to the fan, and first tuber pipe intercommunication is used for carrying out the top air sword of blowing to the vehicle top, and second tuber pipe intercommunication is used for carrying out the side air sword of blowing to the vehicle lateral part. The utility model solves the problems of limited applicable field, low air drying quality and low air drying efficiency of the original air drying device.

Description

Non-contact vehicle air drying device

Technical Field

The utility model belongs to the technical field of automobile cleaning, and particularly relates to a non-contact air drying device for a vehicle.

Background

At present, in the automobile cleaning service, non-contact air drying is a common technical method after the automobile is cleaned. The existing non-contact air drying mainly comprises two forms, namely a hoisting fan type and a gantry type. The hoisting fan type is that a fan is fixed at a determined position, air drying of a vehicle is realized through the moving process of the vehicle, and the gantry type is that the air drying effect of the vehicle is realized by adopting the reciprocating motion of a gantry type structure. The wind power and the blowing angle affect important parameters of the air drying effect. Two kinds of existing non-contact air-dry forms, the distance of blowing apart from the automobile body surface is comparatively fixed, and the distance is far away, and wind-force size can be along with the increase of the distance of blowing and sharply descend, has reduced the energy density of blowing, leads to the effect of blowing to descend. Simultaneously, two kinds of contactless air-dries all have the angle of blowing comparatively fixed, can't realize the nimble regulation of the angle of blowing in order to reach the form of blowing that adapts to the vehicle streamline, lead to the air-dry effect unsatisfactory.

The existing non-contact air drying mode has the defects that the equipment size is high, the low space cannot be adapted to on site arrangement, and the equipment popularization of an automatic air drying machine is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a non-contact vehicle air drying device to solve the problems of limited applicable places, low air drying quality and low air drying efficiency of the conventional air drying device.

The technical scheme adopted by the utility model is as follows:

a non-contact vehicle air drying device comprising: along the horizontal fixed station that vehicle length direction laid, set up horizontal fixed station top can be followed horizontal fixed station gliding horizontal slip table sets up horizontal slip table top can be followed the gliding horizontal side slip table of horizontal slip table is installed on the horizontal side slip table and along the fan support that horizontal side slip table removed, install the fan on the fan support, first tuber pipe and second tuber pipe are connected respectively through the three-way pipe to the fan, and first tuber pipe intercommunication is used for carrying out the top air sword of blowing to the vehicle top, and second tuber pipe intercommunication is used for carrying out the side air sword of blowing to the vehicle lateral part.

Further, still be fixed with vertical support on the horizontal side slip table, the front of vertical support is installed and is followed the gliding vertical moving plate of vertical support, the vent has been seted up to the vertical moving plate, the one end of top air knife is fixed in on the vertical moving plate of vent one side, first tuber pipe is fixed in on the vertical moving plate of vent opposite side.

Furthermore, a first micro motor is installed on the longitudinal moving plate, an annular first fluted disc is installed on the outer side of the wind jacking knife, and a gear shaft of the first motor is meshed with the first fluted disc.

Furthermore, a mounting plate is further fixed to the side face of the longitudinal support, a second micro motor is fixed to the mounting plate, the second air pipe is communicated with the side air knife through a through hole formed in the mounting plate, an annular second fluted disc is installed on the outer side of the side air knife, and a gear shaft of the second micro motor is meshed with the second fluted disc.

Furthermore, a limiter is arranged on the outer side of the first air pipe, the limiter is fixed on the fan support, and the limiter is used for limiting the displacement of the first air pipe.

Furthermore, the stopper comprises two supporting pieces connected with the longitudinal support and a middle limiting ring, screw holes are formed in the two supporting pieces, the rotating shaft penetrates through the screw holes to be connected with the limiting ring, and the first air pipe penetrates through the limiting ring.

Furthermore, two blocking pieces are further installed on the outer side of the limiting ring, the blocking pieces are preferably circular, the width or the diameter of each blocking piece is not smaller than the outer diameter of the air pipe, and the rotating shaft penetrates through the circular pieces and then is connected with the two sides of the limiting ring.

Further, the longitudinal support comprises a longitudinal slide rail and a longitudinal driving motor, a belt pulley is further mounted on the longitudinal moving plate, and the belt pulley and the longitudinal driving motor are connected through a belt to drive the longitudinal moving plate to slide up and down along the longitudinal slide rail.

Further, be equipped with horizontal slide rail and horizontal rack on the horizontal fixed station, horizontal slip table passes through the slider of below and connects horizontal slide rail is fixed with horizontal driving motor on the horizontal slip table, horizontal driving motor passes through the gear and meshes with the horizontal rack of horizontal fixed station.

Furthermore, a side sliding rail and a side rack are arranged on the transverse sliding table, the horizontal side sliding table is connected with the side sliding rail through a sliding block below the horizontal side sliding table, a side shifting driving motor is fixed on the horizontal side sliding table, and the side shifting driving motor is meshed with the side rack of the transverse sliding table through a gear. Compared with the prior art, the non-contact vehicle air drying device provided by the utility model has the following technical effects:

1. the equipment host computer is by traditional top hoist and mount mode, improves and places for the side, and the track of marcing of device can be placed on the ground support, and the change makes the whole high greatly reduced of equipment more, has released the headspace, has solved the high difficult problem that the carwash hair-dryer exists always, very big expansion the compatibility of equipment scene, adapt to more wide equipment arrangement scene, like underground parking garage, the low space of room light, realized the possibility that the carwash generally migrated to underground garage and carry out the operation. And a non-contact air drying mode is adopted, so that the vehicle is effectively protected.

2. The air drying device has multiple degrees of freedom, namely transverse, lateral, longitudinal and rotary, and is matched with each other. Compared with the existing equipment, the air-drying device has higher degree of freedom, more flexible equipment execution ends (a top air knife and a side air knife), and capability of executing more complex air-drying actions, and can perform air-drying at a closer distance and an optimal angle on the vehicle, so that the air-drying quality is greatly improved.

3. The utility model can blow air to the top surface and the side surface simultaneously, improves the air drying efficiency, and is provided with the limiter, thereby limiting the shaking of the blowing pipe and ensuring the stability of the blowing.

Drawings

Fig. 1 is an apparatus layout of a non-contact vehicle seasoning apparatus according to an embodiment of the present invention.

Fig. 2 is a first schematic perspective view of a non-contact vehicle air drying device according to an embodiment of the utility model.

Fig. 3 is a second schematic perspective view of the non-contact vehicle air drying device according to the embodiment of the utility model.

Fig. 4 is a third schematic perspective view of a non-contact vehicle air drying device according to an embodiment of the present invention.

Fig. 5 is a schematic structural view of a ceiling blade according to an embodiment of the present invention.

Fig. 6 is a schematic view of the installation of the stopper according to the embodiment of the present invention.

Fig. 7 is a schematic structural view of a longitudinal stent according to an embodiment of the present invention.

Fig. 8 is a schematic installation diagram of a side air knife according to an embodiment of the present invention.

Detailed Description

The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby. As certain terms are used throughout the description and claims to refer to particular components. As one skilled in the art will appreciate, manufacturers may refer to a component by different names. The present specification and claims do not intend to distinguish between components that differ in name but not function. The following description is of the preferred embodiment for carrying out the utility model, and is made for the purpose of illustrating the general principles of the utility model and not for the purpose of limiting the scope of the utility model. The scope of the present invention is defined by the appended claims.

The utility model is described in further detail below with reference to the figures and specific embodiments.

Referring to fig. 1, an embodiment of the present invention provides two non-contact vehicle air drying devices, which are symmetrically arranged on two sides of a vehicle parking operation area, and the air drying devices on the two sides operate simultaneously to complete an air drying process for a vehicle. Of course, it will be understood by those skilled in the art that two air drying devices are provided for simultaneous operation as a preferred embodiment to improve the efficiency of operation, but one air drying device may be used to air-dry the vehicle while moving along the periphery of the vehicle, or more than one air drying device may be used, for example, four air drying devices may be used to air-dry different portions of the vehicle. In addition, when a plurality of air drying units are used, they may be performed simultaneously or may be performed separately.

Referring to fig. 2 to 5, the seasoning apparatus includes: the device comprises a transverse fixing table 1, a transverse sliding table 2, a horizontal side sliding table 3, a fan bracket 4, a fan 5, a longitudinal bracket 6, a top air knife 7 and a side air knife 8.

The transverse fixing platform 1 is arranged along the length direction of the vehicle, the bottom of the transverse fixing platform is supported on the ground by a plurality of pillars, the top of the transverse fixing platform is provided with a transverse sliding rail 1-1, and the inner side surface of the transverse fixing platform is provided with a transverse rack 1-2. The transverse sliding table 2 is horizontally arranged at the upper part of the transverse fixing table 1 and is connected with a transverse sliding rail 1-1 of the transverse fixing table 1 through a sliding block 2-1 at the bottom, the transverse sliding table 2 is provided with a fixed transverse driving motor 2-2, the transverse driving motor 2-2 is meshed with a transverse rack 1-2 on the transverse fixing table 1 through a gear, and the transverse sliding table 2 can transversely displace (in the length direction of a vehicle) on the transverse fixing table 1 under the driving of the transverse driving motor 2-2. In addition, two ends of the transverse sliding rail 1-1 are provided with limiting devices to prevent the transverse sliding table 2 from derailing.

The transverse sliding table 2 is provided with side sliding rails 2-4 and side racks 2-3, and the equipment electronic box 2-5 is fixed on the side surface of the transverse sliding table 2.

The horizontal side sliding table 3 is arranged on the transverse sliding table 2 and is connected with a side sliding rail 2-4 on the transverse sliding table 2 through a sliding block 3-1 at the bottom, a side shifting driving motor 3-2 is fixed on the horizontal side sliding table 3, the side shifting driving motor 3-2 is meshed with a lateral rack 2-3 through a gear, and the horizontal side sliding table moves along a horizontal side face (in the width direction of a vehicle) where the transverse sliding table is located under the driving of the side shifting driving motor 3-2. In addition, two ends of the side sliding rails 2-4 are provided with limiting devices to prevent the horizontal side sliding table 3 from derailing when moving.

Since the transverse sliding table 2 can be displaced in the direction of the transverse fixed table, the horizontal side sliding table 3 can also be displaced in the transverse direction along with the transverse sliding table 2 in the transverse direction.

A fan support 4 is fixed on the horizontal side sliding table 3 and moves along with the displacement of the horizontal side sliding table 3, and a fan 5 is fixed on the fan support 4 to start air blowing. The fan 5 is connected with a tee joint 5-1, one end of the tee joint 5-1 is connected with an air outlet of the fan, the other two ends of the tee joint are respectively connected with a first air pipe 5-2 and a second air pipe 5-3, wherein the first air pipe 5-2 is communicated with a top air knife 7 positioned on a parallel surface, the second air pipe 5-3 is communicated with a side air knife 8 positioned on a vertical surface, and the first air pipe 5-2 and the second air pipe 5-3 are both plastic hoses and have certain deformation capacity. The utility model adopts the same fan to simultaneously supply air to the top air knife 7 and the side air knife 8 through the three-way pipe, and simultaneously blow air to the top and the side of the vehicle body, thereby improving the air drying efficiency.

Referring to fig. 7, a longitudinal support 6 is further fixed on the horizontal side sliding table 3, the longitudinal support 6 is substantially triangular, and a right-angle surface at the bottom is fixed above the horizontal side sliding table 3 and is displaced along with the displacement of the horizontal side sliding table 3. The longitudinal support 6 is provided with a longitudinal sliding rail 6-1 and a longitudinal driving motor 6-2, the longitudinal sliding rail 6 is arranged on a vertical right-angle surface of the triangular body, the longitudinal support 6 is further provided with a longitudinal moving plate 7-1, the bottom side of the longitudinal moving plate 7-1 is in contact with the longitudinal sliding rail 6-1 and is driven by the longitudinal driving motor 6-2, the back side of the longitudinal moving plate 7-1 is provided with a belt pulley 6-4, the belt pulley 6-4 is connected with a rotating shaft of the longitudinal driving motor 6-2 through a belt 6-3, and the longitudinal moving plate 7-1 is driven to vertically move on the longitudinal sliding rail 6-1 through clockwise rotation or anticlockwise rotation of the longitudinal driving motor 6-2.

Because the first air pipe 5-2 is a hose, when the interior of the first air pipe is ventilated, the wind pressure of wind power is large, and the air pipe can swing in different directions to a certain extent, therefore, the utility model is provided with a position limiter outside the first air pipe 5-2, one end of the position limiter 4-1 is fixed on the fan bracket 4 and is positioned between the fan 5 and the longitudinal bracket 6, and the swing amplitude and the swing range of the first air pipe 5-2 are limited by the position limiter 4-1, so that the air blowing is more stable.

Referring to fig. 6, in the present embodiment, the stopper 4-1 includes two supporting members 4-2 connected to the longitudinal bracket and a middle stopper ring 4-3, the two supporting members 4-2 are provided with screw holes, the rotating shaft 4-3 passes through the screw holes to connect to the stopper ring, so that the stopper ring 4-3 can swing at a certain angle through the rotating shaft, the first air duct 5-2 passes through the stopper ring 4-3, the outer side of the stopper ring 4-3 is substantially square, and the center of the stopper ring 4-3 is hollow and circular. When the longitudinal support 6 moves downwards, the top air knife 7 can be driven to move downwards, meanwhile, the first air pipe 5-2 connected with the top air knife 7 also moves downwards along with the top air knife, if a limiter is not arranged, the first air pipe 5-2 can swing greatly and extrude downwards when moving downwards, the pipeline can deform and become bent, and after the limiter 4-1 is arranged, the first air pipe 5-2 can be supported to a certain extent on one hand, and on the other hand, the limiting ring 4-1 can rotate with a small amplitude along with the first air pipe, so that the bending of the pipeline is reduced, and the pressure loss in the pipeline is reduced.

In addition, the width of the limiting ring 4-3 is usually narrower to reduce the weight of the limiting ring, the limiting ring has a certain limiting effect on the up-and-down movement of the air pipe, but the left-and-right swinging effect on the air pipe is limited, therefore, the utility model further installs two blocking pieces 4-4 on the outer side of the limiting ring 4-3, the blocking pieces 4-4 are preferably circular, the diameter of the circular blocking pieces 4-4 is not smaller than the outer diameter of the air pipe, the rotating shaft passes through the supporting piece 4-2 and the circular blocking pieces 4-4 and then is connected with the two sides of the limiting ring 4-3, and the blocking pieces are arranged to limit the left-and-right swinging space of the first air pipe 5-2 when swinging in the left-and-right direction, thereby effectively reducing the left-and-right swinging amplitude. Through the cooperation of the limiting ring 4-3 and the blocking piece 4-4, the swinging force of the first air pipe 5-2 in the working process is effectively reduced, and the blowing stability is further improved.

Referring to fig. 5, a first micro motor 7-2 is further installed on the front surface (rectangular vertical surface) of the longitudinal moving plate 7-1, an annular first fluted disc 7-3 is installed on the outer side of one end of the wind ejecting blade 7, a gear shaft 7-4 of the first micro motor 7-2 is meshed with the first fluted disc 7-3, the first micro motor 7-2 is started to drive the gear shaft 7-4 and the fluted disc 7-3 to rotate, and further drive the wind ejecting blade 7 to rotate along the axial direction thereof, and the rotation can be 360 degrees or can be in a reciprocating rotation within a certain range. The top air knife 7 can perform air blowing within a wide angle range along with the displacement of the transverse sliding table 2 and the horizontal side sliding table 3, and has a good air blowing effect on the top surfaces of a car head top, a car body and a car tail, but the air blowing in a single direction cannot well blow to certain parts when the car tail, the car head or other parts have inclined planes or uneven parts.

Referring to fig. 8, a mounting plate 8-1 is further fixed to a side surface (a triangular vertical surface) of the longitudinal support 6, the mounting plate 8-1 is L-shaped, one surface of the mounting plate is fixed to the side surface of the longitudinal support 6, a second micro motor 8-2 is fixed to the other surface of the mounting plate, a second air duct 5-3 is communicated with the side air knife 8 through a through hole formed in the mounting plate 8-1, an annular second fluted disc 8-3 is installed on the outer side of one end portion of the side air knife 8, a gear shaft of the second micro motor 8-2 is meshed with the second fluted disc 8-3, and the second micro motor 8-2 drives the side air knife 8 to rotate at a certain angle, for example, within a range of ± 60 degrees, so as to adapt to adjust different angles and orientations of water drops falling along a vehicle side body and accelerate air drying speed.

The non-contact vehicle air drying device disclosed by the embodiment of the utility model is flexible in arrangement mode, is suitable for various fields, has multiple degrees of freedom, can finish more complicated air drying actions, can simultaneously blow air to the roof and the side surface of the vehicle, is high in air drying efficiency, and improves the running stability by arranging the limiting stopper.

It should be noted that the above-mentioned embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereby, and the present invention may be modified in materials and structures, or replaced with technical equivalents, in the constructions of the above-mentioned various components. Therefore, structural equivalents made by using the description and drawings of the present invention or by directly or indirectly applying to other related arts are also encompassed within the scope of the present invention.

Claims (10)

1. A non-contact vehicle seasoning apparatus, the seasoning apparatus comprising: along the horizontal fixed station that vehicle length direction laid, set up horizontal fixed station top can be followed horizontal fixed station gliding horizontal slip table sets up horizontal slip table top can be followed the gliding horizontal side slip table of horizontal slip table is installed on the horizontal side slip table and along the fan support that horizontal side slip table removed, install the fan on the fan support, first tuber pipe and second tuber pipe are connected respectively through the three-way pipe to the fan, and first tuber pipe intercommunication is used for carrying out the top air sword of blowing to the vehicle top, and second tuber pipe intercommunication is used for carrying out the side air sword of blowing to the vehicle lateral part.

2. The non-contact vehicle air drying device according to claim 1, wherein a longitudinal support is further fixed on the horizontal sliding table, a longitudinal moving plate sliding along the longitudinal support is installed on the front surface of the longitudinal support, a vent is formed in the longitudinal moving plate, one end of the air jacking knife is fixed on the longitudinal moving plate on one side of the vent, and the first air pipe is fixed on the longitudinal moving plate on the other side of the vent.

3. The non-contact vehicle air drying device according to claim 2, wherein a first micro motor is mounted on the longitudinal moving plate, a first annular toothed disc is mounted on the outer side of the wind ejecting blade, and a gear shaft of the first micro motor is meshed with the first toothed disc.

4. The non-contact vehicle air drying device according to claim 2, wherein a mounting plate is further fixed on the side of the longitudinal support, a second micro motor is fixed on the mounting plate, the second air duct is communicated with the side air knife through a through hole formed in the mounting plate, an annular second toothed disc is installed on the outer side of the side air knife, and a gear shaft of the second micro motor is meshed with the second toothed disc.

5. The non-contact vehicle air drying device according to claim 1 or 2, wherein a stopper is arranged outside the first air duct, the stopper is fixed on the blower bracket, and the stopper is used for limiting the displacement of the first air duct.

6. The non-contact vehicle air drying device according to claim 5, wherein the limiting device comprises two supporting members connected with the longitudinal support and a limiting ring in the middle, the first air pipe passes through the limiting ring, and the limiting ring and the supporting members are rotatably connected through a rotating shaft.

7. The non-contact vehicle air drying device according to claim 6, wherein two blocking pieces are further installed on the left and right outer sides of the limiting ring, the width or diameter of each blocking piece is not smaller than the outer diameter of the first air pipe, and the rotating shaft penetrates through the supporting piece and the blocking pieces and then is connected with two sides of the limiting ring.

8. The non-contact vehicle air drying device according to claim 2, wherein the longitudinal support comprises a longitudinal slide rail and a longitudinal driving motor, the longitudinal moving plate is further provided with a belt pulley, and the belt pulley and the longitudinal driving motor are connected through a belt to drive the longitudinal moving plate to slide up and down along the longitudinal slide rail.

9. The non-contact vehicle air drying device of claim 1, wherein the transverse fixing table is provided with a transverse sliding rail and a transverse rack, the transverse sliding table is connected with the transverse sliding rail through a lower sliding block, and a transverse driving motor is fixed on the transverse sliding table and meshed with the transverse rack of the transverse fixing table through a gear.

10. The non-contact vehicle air drying device of claim 9, wherein the horizontal sliding table is provided with a side sliding rail and a side rack, the horizontal sliding table is connected with the side sliding rail through a lower sliding block, a side shifting driving motor is fixed on the horizontal sliding table, and the side shifting driving motor is meshed with the side rack of the horizontal sliding table through a gear.

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