CN217073998U - Sunroof tye launder structure - Google Patents

Abstract

The utility model relates to an sunroof drainage field especially relates to an sunroof tye structure, include: the middle of the water flowing plate is provided with a water flowing groove, two ends of the water flowing groove are respectively positioned right above the water guiding grooves on two sides of the skylight so that water flows into the water guiding grooves, two ends of the water flowing plate are respectively provided with a connecting rod used for being connected with the front skylight mounting frame, and two side ends of the water flowing plate along the direction of the water flowing groove are respectively connected with the front skylight and the rear skylight in a sealing manner; and the supporting block is hinged with the water flowing plate, arranged in the skylight water guide groove, can slide in the skylight water guide groove and is used for supporting the water flowing plate. The water flowing plate is arranged between the front skylight and the rear skylight, and is supported by the supporting blocks, water on the front skylight flows into the water guide grooves on two sides of the skylight through the water flowing grooves on the water flowing plate and then is discharged out of the automobile, so that a driver can open the skylight to ventilate in rainy days, rainwater cannot flow into the automobile, and the experience of the driver and a passenger is improved.

Description

Sunroof tye launder structure

Technical Field

The utility model belongs to the technical field of the sunroof drainage and specifically relates to a sunroof tye structure is related to.

Background

The automobile skylight needs to be sealed at the periphery of the skylight in the installation process, so that the sealing performance between the skylight and the skylight support is guaranteed, water leakage or water seepage at the joint of the skylight and the skylight support is avoided, most of the skylight is equally divided into a front skylight and a rear skylight in the design of the automobile skylight, the front skylight is moved forwards for a small distance sometimes, and then the front skylight is tilted for a certain angle relative to the skylight support, so that a ventilation opening is formed between the front skylight and the rear skylight. If open the preceding skylight in rainy day, the rainwater falls into or flows into in the car easily, so generally in rainy day, most drivers can not open the skylight and ventilate, but if drive for a long time, the interior air mobility is less, influences driver and passenger's experience sense easily, for make the driver can open the skylight in rainy day, ventilate in the car, simultaneously, avoid the rainwater on the skylight to flow into in the car, so the race design has been put forward to the gutter structure of car skylight department.

Disclosure of Invention

In order to make the skylight open in the rainy day, the rainwater can not flow in the car through the skylight, the utility model provides an automobile skylight tye structure, it is through setting up the tye between skylight in the front and back sky window to utilize the supporting shoe to support the tye, the water on the skylight in flows in the guiding gutter of skylight both sides through the tye on the tye, then outside the discharge car, make the driver can open the skylight when the rainy day and ventilate, and in the rainwater can not flow in the car, promoted driver and passenger's experience and felt.

The utility model provides a pair of sunroof tye structure adopts following technical scheme:

an sunroof launder structure, comprising:

the middle of the water flowing plate is provided with a water flowing groove, two ends of the water flowing groove are respectively positioned right above the water guiding grooves on two sides of the skylight so that water flows into the water guiding grooves, two ends of the water flowing plate are respectively provided with a connecting rod used for being connected with the front skylight mounting frame, and two side ends of the water flowing plate along the direction of the water flowing groove are respectively connected with the front skylight and the rear skylight in a sealing manner; and

and the supporting block is hinged with the water flowing plate, arranged in the skylight water guide groove, can slide in the skylight water guide groove and is used for supporting the water flowing plate.

Preferably, the connecting rod is hooked on the front skylight mounting frame, and the connecting rod can rotate relative to the front skylight mounting frame.

Preferably, a through hole is formed in the front skylight mounting frame, a connecting column is arranged on the connecting rod, and the connecting column penetrates through the through hole and can rotate in the through hole.

Preferably, cylindrical groove has been seted up on the supporting shoe, and the top of cylindrical groove is the opening, and the cross section of cylindrical groove is many semicircles, the equal fixedly connected with dwang in both ends of flowing water board, the dwang is located cylindrical groove.

Preferably, the side end of dwang is the plane so that the dwang can be placed in cylindrical recess.

Preferably, the number of the planes is two, and the two planes are positioned on opposite surfaces of the side end of the rotating rod.

To sum up, the utility model discloses a following beneficial technological effect:

1. this skylight tye simple structure is practical, and the water conservancy diversion nature is strong, and is with low costs, and the water guide effect is higher, and for the complicated aqueduct structure of tradition, this skylight aqueduct structure spare part still less, installation, maintenance and maintenance more easily, and the cost of manufacture hands over the end, and the water guide effect is better simultaneously, the leakproofness is higher, possesses higher practical value and popularization nature.

Drawings

Fig. 1 is a schematic view of the overall structure of the embodiment of the present invention.

Fig. 2 is an enlarged schematic view of a portion a of fig. 1.

Fig. 3 is a schematic view of an installation structure of a flow plate according to an embodiment of the present invention.

Fig. 4 is a schematic structural view of the front skylight mounting frame and the water chute bottom plate in the embodiment of the present invention.

Description of reference numerals: 1. a flow plate; 11. a launder; 12. a connecting rod; 13. connecting columns; 14. Rotating the rod; 2. a support block; 21. a cylindrical groove; 101. a front skylight mounting frame; 102. a through hole; 200. a water chute.

Detailed Description

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

The embodiment of the utility model discloses sunroof tyer launder structure.

Referring to fig. 1 and 2, the sunroof launder 11 structure includes a water flow plate 1 and a support block 2.

The middle of the water flowing plate 1 is provided with a water flowing groove 11, the water flowing groove 11 extends to two ends of the water flowing plate 1, and two ends of the water flowing groove 11 are respectively positioned right above the water guiding grooves 200 on two sides of the automobile skylight, so that water on the front skylight flows into the water flowing groove 11 and then gradually flows into the water guiding grooves 200 on two sides of the skylight along the water flowing groove 11.

Referring to fig. 2 to 4, connecting rods 12 are fixed at two ends of the water flowing plate 1, the connecting rods 12 can be integrally injection-molded with the water flowing plate 1, and one end of each connecting rod 12, which is far away from the water flowing plate 1, is connected with the front skylight mounting frame 101. The connecting rod 12 may be hooked on the front sunroof mounting frame 101 or hinged with the front sunroof mounting frame 101. In one practical embodiment, a connection column 13 is formed at one end of the connection rod 12 away from the flow plate 1, a through hole 102 is formed on the front skylight mounting frame 101, the connection column 13 is hooked in the through hole 102, and the connection column 13 can rotate relatively to the front skylight mounting frame 101 in the through hole 102.

The water flowing plate 1 is also provided with a front sealing strip and a rear sealing strip, when the front skylight falls down, the water flowing plate 1 is sealed with the front skylight through the front sealing strip and then is sealed with the rear skylight through the rear sealing strip so as to keep the tightness of the skylight.

The supporting block 2 is installed in the skylight guiding gutter 200 in a sliding clamping mode, the bottom of the water flowing plate 1 is installed on the supporting block 2, when the water flowing plate 1 moves, the supporting block 2 can freely slide on the skylight guiding gutter 200, and the water flowing plate 1 can rotate relative to the supporting block 2.

Preferably, referring to fig. 2 to 4, a penetrating cylindrical groove 21 is formed at a side end of the supporting block 2 along a horizontal direction, a top of the cylindrical groove 21 is open, and a cross section of the cylindrical groove 21 is a plurality of half circles; the bottom of the water flowing plate 1 is formed with a rotating rod 14, the rotating rod 14 can be placed in the cylindrical groove 21, and the rotating rod 14 can rotate in the cylindrical groove 21, so that the water flowing plate 1 and the supporting block 2 rotate relatively. Further, in the using state, in order to prevent the rotating rod 14 from coming out of the cylindrical groove 21, the diameter of the cylindrical rod is slightly smaller than the diameter of the cylindrical groove 21, that is, the diameter of the rotating rod 14 is larger than the diameter of the chord at the opening at the top of the cylindrical groove 21, and meanwhile, in order to enable the rotating rod 14 to be loaded into the cylindrical groove 21. In one embodiment, two opposite planes may be further formed on the rotating rod 14, so that the shortest distance of the rotating rod 14 may be smaller than the diameter of the chord at the top opening of the cylindrical groove 21, and the rotating rod 14 may be conveniently installed in the cylindrical groove 21.

When the front skylight is not tilted, the water flowing plate 1 is positioned right below the front skylight and the rear skylight, and the water flowing plate 1 is respectively sealed with the rear sealing strip and the front skylight through the front sealing strip and the rear sealing strip.

When the front skylight is tilted, the water flowing plate 1 is lifted along with the front skylight, rainwater falls into the water flowing groove 11 on the water flowing plate 1 and then flows into the water guiding grooves 200 on two sides of the skylight along the water flowing groove 11, and the water guiding grooves 200 finally discharge the water.

Above is the preferred embodiment of the utility model, not limit according to this the utility model discloses a protection scope, the event: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (6)

1. The utility model provides an sunroof tye launder structure which characterized in that includes:

the middle of the water flowing plate is provided with a water flowing groove, two ends of the water flowing groove are respectively positioned right above the water guiding grooves on two sides of the skylight so that water flows into the water guiding grooves, two ends of the water flowing plate are respectively provided with a connecting rod used for being connected with the front skylight mounting frame, and two side ends of the water flowing plate along the direction of the water flowing groove are respectively connected with the front skylight and the rear skylight in a sealing manner; and

and the supporting block is hinged with the water flowing plate, arranged in the skylight water guide groove, can slide in the skylight water guide groove and is used for supporting the water flowing plate.

2. The gutter structure according to claim 1, wherein the connecting rod is hooked to the front roof mounting bracket, and the connecting rod is rotatable relative to the front roof mounting bracket.

3. The gutter channel structure for the automobile skylight according to claim 1, wherein the front skylight mounting frame is provided with a through hole, the connecting rod is provided with a connecting column, and the connecting column penetrates through the through hole and can rotate in the through hole.

4. The flow channel structure for sunroof according to claim 1, wherein the supporting block has a cylindrical groove, the top of the cylindrical groove is open, the cross section of the cylindrical groove is a plurality of semi-circles, the flow plate has a rotation rod fixedly connected to both ends thereof, and the rotation rod is located in the cylindrical groove.

5. The flow channel structure for sunroof according to claim 4, wherein the side end of the rotation rod is flat so that the rotation rod can be placed in the cylindrical groove.

6. The sunroof launder structure according to claim 5, wherein the number of the planes is two, and the two planes are located on opposite surfaces of the side end of the rotating lever.

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