FR2966174A1 - SYSTEM FOR CLEARING AND DEGELING FOR A MOTOR VEHICLE AND VEHICLE THUS EQUIPPED - Google Patents

Abstract

A snow removal and thawing system for a terrestrial vehicle (2) comprises a blowing ramp (10) extending in a main direction for blowing hot air in a blowing direction (F1) substantially perpendicular to the main direction , and means for fixing the ramp (10) to the vehicle (2) so that the blowing direction is oriented towards the ground. Vehicle comprising such a system.

Description

A snow removal and thawing system for a land motor vehicle, and a vehicle thus equipped. FIELD OF THE INVENTION The invention relates to a snow and thaw system for a motorized land vehicle, and to a vehicle equipped with such a system.

PREVIOUS TECHNIQUE Snow clearing and thawing is currently carried out mainly by means of specialized vehicles, which scrape and damage the surface of the road to remove snow and ice, and disperse salt to melt this. However, users remain dependent on the passage of these specialized machines. In addition, the application of salt is a source of pollution of rivers and an attack on natural resources.

OBJECTIVES OF THE INVENTION The invention aims to provide an alternative solution to current snow removal and thaw methods that is less polluting, less dependent on a centralized service and less expensive.

PRESENTATION OF THE INVENTION With these objectives in view, the subject of the invention is a snow and thaw system for a land motor vehicle, comprising a blowing ramp extending in a main direction for blowing hot air. in a blowing direction substantially perpendicular to the main direction, and means for fixing the ramp to the vehicle, so that the blowing direction is oriented towards the ground. The vehicles with a combustion engine require, in order to operate, a substantial cooling, obtained for example by a hydraulic circuit comprising at least one

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radiator exposed to an air flow. Thus calories are dispersed in the air during the operation of the vehicle. By directing at least some of these calories to the snow-covered or frozen ground, each vehicle can help clear snow and thaw the road on which it travels. By the repeated passage of such vehicles, one obtains the clearing and the complete thaw, without the use of specialized vehicle or salt spreading. In addition, no additional energy expenditure is allowed. According to a first embodiment, the ramp is integrated into a front bumper of the vehicle, the fastening means being those of the front bumper. This embodiment is adapted for example to new vehicles, which directly integrate the ramp according to the invention in a modified part of the vehicle. The front bumper is a wall visible from the outside of the vehicle that can also perform the function of bumper. It possibly includes right and left returns towards the front wheels. By directly integrating the ramp to the shield, it is not necessary to provide a specific part to achieve the ramp, which limits the cost of the system. As the hot air flow is delivered to the front of the vehicle, the vehicle can benefit from snow clearing and system thaw. The ramp comprises for example a first wall also forming the lower part of the shield, and a second wall offset from the first wall and leaving a blowing space between the lower edges of the walls. The two walls channel the flow of air between them over the length of the shield, that is to say over the width of the vehicle and let it go down. According to a second embodiment, the ramp comprises a pipe of tubular section extending in the main direction, and a plurality of nozzles

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connected to the duct and through which the hot air is blown. The construction of such a ramp is modular, that is to say that it is possible to choose the number of nozzles depending on the space available for the installation of the ramp. Such a ramp can be installed on an existing vehicle, even if the latter was not designed to receive the ramp. The size of the ramp can be adjusted to that of the vehicle. In particular, the duct has smooth sections between the nozzles, each smooth section having a circular precut groove. The ramp can be obtained by cutting the duct at one of the pre-cuts, in order to adjust the number of nozzles, and thus the length of the ramp. The ramp then ends with a smooth section, which can be easily connected to other elements, as will be seen later. According to a particular characteristic, the conduit is annealed. It can thus easily marry non-predetermined curved shapes, for example the curved shape of the front bumper. According to a complementary arrangement, the system comprises at least one hot air duct connected on the one hand to the ramp and on the other hand to a heater. The heat of the hot air can be brought by a heater that usually equips the vehicles and is intended for heating the cabin. The heater is usually mounted in a heater housing that receives commands to direct hot air to different mouths of the passenger compartment. It is therefore easy to create an additional outlet which directs the hot air towards the duct and the ramp. When the system comprises a heater, it can be provided that the vehicle comprises control means for sending on command hot air to the ramp through the sheath. These control means comprise for example a flap in the heating box and a control button for actuating the flap. The invention also relates to a vehicle comprising a snow and thaw system as defined above. In particular, the ramp extends over the width of the vehicle. The system allows you to clear snow and thaw the road over the entire width of the vehicle. BRIEF DESCRIPTION OF THE FIGURES The invention will be better understood and other features and advantages will become apparent on reading the description which follows, the description referring to the appended drawings in which: FIG. 1 is a schematic view of a vehicle comprising a snow removal and thawing system according to a first embodiment of the invention; - Figure 2 is a schematic top view of the system of Figure 1; FIG. 3 is a view of detail III of FIG. 1; FIG. 4 is a view similar to FIG. 3 of a system according to a second embodiment of the invention; - Figures 5 to 7 are views respectively front, in section along line VI-VI and from above a ramp according to the second embodiment of the invention; - Figure 8 is a schematic view of a device for controlling the operation of the system according to the invention.

DETAILED DESCRIPTION A snow-clearing and thawing system 1 according to the invention makes it possible to blow hot air towards the road on which a motor vehicle 21 with a motor 21 equipped with the snow and thawing system 1, as shown in FIG. the arrow F1 of FIG. 1. The hot air is distributed by a ramp 10 located at the front of the vehicle 2. According to a first embodiment, represented in FIGS. 1 to 3, the ramp 10 is integrated into a shield 20 of the front face of the vehicle 2. More particularly, the shield 20 has a first wall 201 which extends substantially vertically, which wall 201 is visible from outside the vehicle 2. Along the non-visible face of the vehicle first wall 201 extends a second wall 202 delimiting with the first wall 201 inside the ramp 10. The second wall 202 joins the first wall 201 in the upper part to close the ramp 10 at this location. Each wall 201, 202 has a lower edge 2010, 2020. The interior of the ramp 10 opens between the lower edges 2010, 2020 in a blowing space 100. The blower space 100 is narrower than the inside of the ramp 10 so as to create an acceleration of the air flow at this location. The space between the two lower edges 2010, 2020 is between 5 and 20 mm, it is for example 10 mm. As shown in Figure 2, the ramp 10 is supplied with hot air by two sheaths 11 from a heater housing 12 of the vehicle 2. The heater housing 12 has several outputs, typically the outputs for selectively supplying air the passenger compartment to the feet, the face or the windshield, but also two outputs to the two ducts 11 which supply the ramp 10. The ducts 11 are connected by connectors respectively adapted to the ramp 10 and the heater housing 12 These connectors are conventional for those skilled in the art and are not detailed here. The heating box 12 comprises a heater 120 in which a heat exchange between the cooling circuit 22 and the air is done.

The system 1 according to the invention furthermore comprises a control button 13 placed in the cockpit of the

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2, as shown in FIG. 8. This control button 13, connected to the heating box 12, allows the driver of the vehicle 2 to choose the direction of the air which is distributed by the heating box 12. control 13 comprises at least one position in which the user controls the sending of air to the snow removal and thawing system 1. The control button 13 is placed next to other buttons 14, 15 which respectively control the speed fan and heating power. Of course, this control could be performed automatically via a thermostat, triggering for example below a temperature of 3 ° C. In a second embodiment shown in Figures 4 to 7, the ramp 10 'is carried out independently of the shield 20. The ramp 10' is made by a method of manufacturing corrugated sheaths. It comprises a portion in the form of a pipe 101 of tubular section extending in the main direction, and a plurality of nozzles 102 connected to the conduit 101. The conduit 101 has smooth sections 103 between the nozzles 102 and is corrugated between the smooth sections. 103. Each smooth section 103 has a circular precut groove 105. The nozzles 102 are therefore in communication with the duct 101 for receiving and diffusing the air supplied by one or other of the ends of the duct 101. To form the ramp 10 ', a continuous strip is cut to the desired length at the level of the groove 105. The remaining end of the smooth section then serves as a connector for receiving the sheath 11 by forced fitting. The ramp 10 'is maintained along the lower edge of the shield 20, as shown in Figure 4, by fasteners 20'. The nozzles 102 are oriented in the direction of the arrow F1. When using the system according to the invention,

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whatever its embodiment, the user places the control button 13 to send the air to the snow and thawing system 1. Preferably, he also places the other buttons 14, 15 on the forced ventilation and the heating at maximum power. The housing then sends hot air through the two ducts 11 and to the ramp 10 '. The hot air exits the nozzles 102 or the blast space 100 between the walls 201, 202 and is directed towards the road in the direction of arrow F1 where it melts snow or ice. One can provide a single sheath 11 supplying the ramp 10, 10 'in hot air. In this case, the other end of the ramp 10, 10 'receives a plug.

Claims (10)

REVENDICATIONS1. A snow removal and thawing system for a motorized land vehicle (2), characterized in that it comprises a blowing ramp (10) extending in a main direction for blowing hot air in a blowing direction ( F1) substantially perpendicular to the main direction, and means for fixing the ramp (10) to the vehicle (2) so that the blowing direction (F1) is oriented towards the ground. 2. System according to claim 1, wherein the ramp (10) is integrated in a shield (20) before the vehicle (2), the fastening means being those of the shield (20) before. 3. System according to claim 2, wherein the ramp (10) comprises a first wall (201) also forming the lower part of the shield (20), and a second wall (202) offset from the first wall (201) and leaving a blowing space (100) remains between lower edges (2010, 2020) of the walls (201, 202). The system of claim 1, wherein the ramp (10) comprises a pipe (101) of tubular section extending in the main direction, and a plurality of nozzles (102) connected to the conduit (101) and through which the hot air is blown. 5. The system of claim 4, wherein the duct (101) has smooth sections (103) between the nozzles (102), each smooth section (103) having a circular precut groove (105). 6. The system of claim 4, wherein the conduit (101) is annealed. 7. System according to claim 1, characterized in that it comprises at least one sheath (11) of hot air connected on the one hand to the ramp (10) and on the other hand to a heater (120). 9 8. System according to claim 7, characterized in that it comprises control means (13) for sending on command hot air to the ramp (10) through the sheath (11). 9. Vehicle comprising a snow and thawing system (1) according to one of claims 1 to 8. 10. Vehicle according to claim 9, wherein the ramp (10) extends over the width of the vehicle (2) and on left-right returns to the front wheels.