CN111016809A - Vehicle-mounted GPS navigation system and installation method thereof - Google Patents

Abstract

The invention relates to a vehicle-mounted GPS navigation system and an installation method thereof. The vehicle-mounted GPS navigation system comprises a vehicle-mounted seat, a mobile phone and a protection assembly, wherein the vehicle-mounted seat comprises a silica gel pad, a supporting rod and a clamping barrel, the silica gel pad is adhered to and fixed on an object placing plate in the vehicle, the supporting rod is convexly arranged on the silica gel pad, the supporting rod is opposite to the silica gel pad, the clamping barrel is arranged on the top end of the supporting rod, GPS navigation software is arranged in the mobile phone, the protection assembly comprises a protection shell, an outer ferrule and an inner ferrule, and the protection shell is sleeved on the mobile phone. The vehicle-mounted GPS navigation system is convenient to install.

Description

Vehicle-mounted GPS navigation system and installation method thereof

Technical Field

The invention relates to a vehicle-mounted GPS navigation system and an installation method thereof.

Background

In the navigation system of the automobile, the navigation function is poor due to the fact that the interface cannot be updated or is not updated. Therefore, a general driver, particularly a driver of a drip car, can use a mobile phone to navigate, and the mobile phone is clamped and positioned on a storage board of a car cab so as to use a GPS system in the mobile phone to navigate, that is, use a vehicle-mounted GPS navigation system (mobile phone) to navigate. However, the installation of the mobile phone on the object placing plate is troublesome.

Disclosure of Invention

Therefore, a vehicle-mounted GPS navigation system and a method for installing the same are needed.

A vehicle-mounted GPS navigation system comprises a vehicle-mounted seat, a mobile phone and a protection component, wherein the vehicle-mounted seat comprises a silica gel pad, a support rod and a clamping barrel, the silica gel pad is adhered and fixed on the vehicle interior storage plate, the support rod is convexly arranged on the silica gel pad, the supporting rod is obliquely arranged relative to the silica gel pad, the clamping cylinder is arranged at the top end of the supporting rod, the mobile phone is internally provided with GPS navigation software, the protection assembly comprises a protection shell, an outer ferrule and an inner ferrule, the protective shell is sleeved on the mobile phone, the outer ferrule and the inner ferrule are both convexly arranged on one side of the protective shell, which is far away from the display screen of the mobile phone, an annular gap is formed between the outer ferrule and the inner ferrule, the inner ferrule is used for being inserted into the clamping cylinder, the outer ring is used for being sleeved on the outer peripheral surface of the clamping barrel so as to realize inclined support of the mobile phone.

In one embodiment, the mobile phone is a smart phone, and one end of the mobile phone is abutted against and adhered to the silica gel pad.

In one embodiment, the clamping cylinder is a circular cylinder, two slits are formed in the clamping cylinder, and a butting arc sheet is formed between the two slits.

In one embodiment, the holding arc piece is a flexible piece for expanding and deforming outwards to apply holding force on the circumferential surface of the inner ferrule.

In one embodiment, the inner diameter of the outer race is larger than the outer diameter of the inner race, and the engaging sleeve is configured to engage with the annular gap.

In one embodiment, the height of the inner ferrule is greater than the height of the outer ferrule, and the outer ferrule and the inner ferrule are both made of aluminum alloy material.

In one embodiment, the protective housing comprises a flexible sleeve frame and an aluminum alloy bottom plate, the flexible sleeve frame is sleeved on the periphery of the mobile phone, the aluminum alloy bottom plate is a rectangular plate, and the periphery of the aluminum alloy bottom plate is fixed on the inner periphery of the flexible sleeve frame.

In one embodiment, an aluminum alloy back plate is arranged on one side, away from the display screen, of the mobile phone, and the aluminum alloy bottom plate is attached to the aluminum alloy back plate.

In one embodiment, the inner ferrule and the outer ferrule are both arranged on the aluminum alloy base plate in a protruding mode.

An installation method of the vehicle-mounted GPS navigation system comprises the following steps:

adhering and fixing the silica gel pad on the vehicle interior storage plate so as to enable the support rod to be obliquely arranged relative to the silica gel pad;

sleeving the protective shell on the mobile phone; and

the inner ring of the protective shell is inserted into the clamping barrel, and the outer ring is sleeved on the outer peripheral surface of the clamping barrel so as to obliquely support and position the mobile phone.

When the vehicle-mounted GPS navigation system is installed, the mobile phone is held to move towards the vehicle-mounted seat, so that the inner ring is inserted into the clamping barrel, the outer ring is sleeved on the outer peripheral surface of the clamping barrel, the mobile phone is obliquely supported, the mobile phone is installed, and the vehicle-mounted GPS navigation system is convenient to install.

Drawings

Fig. 1 is a perspective exploded view of an in-vehicle GPS navigation system according to an embodiment.

FIG. 2 is a perspective exploded view of the vehicle-mounted GPS navigation system of FIG. 1 from another perspective.

Fig. 3 is a perspective view of the handset and the protection assembly (with the cam rotator removed) according to an embodiment.

Fig. 4 is a perspective view of a partial structure of a protection component according to an embodiment.

Fig. 5 is a partially enlarged view of a portion a in fig. 3.

Fig. 6 is a perspective view of a vehicle seat according to an embodiment.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The invention relates to a vehicle-mounted GPS navigation system and an installation method thereof. For example, the vehicle-mounted GPS navigation system comprises a vehicle-mounted seat, a mobile phone and a protection assembly, wherein the vehicle-mounted seat comprises a silica gel pad, a support rod and a clamping barrel, and the silica gel pad is adhered and fixed on the vehicle-mounted storage plate. For example, the supporting rod is convexly arranged on the silica gel pad, the supporting rod is obliquely arranged relative to the silica gel pad, the clamping cylinder is arranged at the top end of the supporting rod, and GPS navigation software is arranged in the mobile phone. For example, the protection assembly includes a protection shell, an outer ferrule and an inner ferrule, the protection shell is sleeved on the mobile phone, and the outer ferrule and the inner ferrule are both convexly disposed on one side of the protection shell, which is away from the display screen of the mobile phone. For example, an annular gap is formed between the outer ring and the inner ring, and the inner ring is used for being inserted into the clamping cylinder. For example, the outer ring is used for being sleeved on the peripheral surface of the clamping barrel so as to realize the inclined support of the mobile phone.

Referring to fig. 1 to 6, a vehicle-mounted GPS navigation system includes a vehicle-mounted seat 10, a mobile phone 20 and a protection assembly 201, where the vehicle-mounted seat 10 includes a silicone cushion 11, a support rod 12 and a clamping tube 13, the silicone cushion 11 is adhered and fixed on a vehicle interior object board, the support rod 12 is convexly disposed on the silicone cushion 11, the support rod 12 is obliquely disposed relative to the silicone cushion 11, the clamping tube 13 is mounted on the top end of the support rod 12, GPS navigation software is disposed in the mobile phone 20, the protection assembly 201 includes a protective shell 21, an outer ferrule 22 and an inner ferrule 23, the protective shell 21 is sleeved on the mobile phone 20, the outer ferrule 22 and the inner ferrule 23 are both convexly disposed on a side of the protective shell 21 away from a display screen of the mobile phone 20, an annular gap 24 is formed between the outer ferrule 22 and the inner ferrule 23, and the inner ferrule 23 is used for being inserted into the clamping tube 13, the outer ring 22 is used for being sleeved on the outer peripheral surface of the clamping cylinder 13 to realize the inclined support of the mobile phone 20.

When the vehicle-mounted GPS navigation system is installed, the mobile phone 20 is held and moved toward the vehicle-mounted seat 10, so that the inner ferrule 23 is inserted into the clamping cylinder 13, and the outer ferrule 22 is sleeved on the outer peripheral surface of the clamping cylinder 13, so as to realize the inclined support of the mobile phone 20, thereby completing the installation of the mobile phone 20, and further facilitating the installation of the vehicle-mounted GPS navigation system. The navigation can be performed by using the GPS navigation software in the mobile phone 20, and the GPS navigation software can be updated in time by using the mobile phone 20 for navigation, thereby improving the positioning accuracy.

For example, in order to facilitate the elastic clamping of the clamping cylinder 13 to the inner ferrule 23, the mobile phone 20 is a smart phone, and one end of the mobile phone 20 abuts against and is adhered to the silicone pad 11. The clamping cylinder 13 is a circular cylinder, two splits are arranged on the clamping cylinder 13, and a butting arc piece 131 is formed between the two splits. The holding arc piece 131 is a flexible piece, and is used for expanding and deforming outwards to apply holding force on the circumferential surface of the inner ferrule 23. The inner diameter of the outer race 22 is larger than the outer diameter of the inner race 23, and the engaging sleeve 13 is engaged with the annular gap 24. The height of the inner ferrule 23 is greater than that of the outer ferrule 22, and both the outer ferrule 22 and the inner ferrule 23 are made of aluminum alloy materials. By arranging the abutting arc piece 131, the abutting arc piece 131 can expand after being subjected to outward extrusion tension of the inner ferrule 23, and is pressed on the inner ferrule 23 by using the elastic force of the abutting arc piece, so that the inner ferrule 23 cannot be clamped and expanded or too loose due to the problem of manufacturing tolerance.

For example, in order to facilitate the integral formation of the inner ferrule 23 and the outer ferrule 22, the protective shell 21 includes a flexible sleeve frame 211 and an aluminum alloy bottom plate 212, the flexible sleeve frame 211 is sleeved on the periphery of the mobile phone 20, the aluminum alloy bottom plate 212 is a rectangular plate, and the periphery of the aluminum alloy bottom plate 212 is fixed to the inner periphery of the flexible sleeve frame 211. The mobile phone 20 is provided with an aluminum alloy back plate on one side deviating from the display screen, and the aluminum alloy bottom plate 212 is attached to the aluminum alloy back plate. The inner ferrule 23 and the outer ferrule 22 are both arranged on the aluminum alloy bottom plate 212 in a protruding manner. By providing the aluminum alloy base plate 212 and making the inner ring 23 and the outer ring 22 both of aluminum alloy materials, the aluminum alloy base plate 212, the inner ring 23 and the outer ring 22 can be formed integrally.

For example, the invention also provides an installation method of the vehicle-mounted GPS navigation system. The installation method comprises the following steps:

adhering and fixing the silica gel pad 11 on an in-vehicle storage plate, so that the support rod 12 is obliquely arranged relative to the silica gel pad 11;

sleeving the protective shell 21 on the mobile phone 20;

the inner ring 23 of the protective shell 21 is inserted into the clamping cylinder 13, and the outer ring 22 is sleeved on the outer peripheral surface of the clamping cylinder 13 to obliquely support and position the mobile phone 20.

For example, it is particularly important that, when the mobile phone 20 is used to be placed elsewhere, for example, on a desktop or placed on a vehicle interior shelf to play a movie after parking, in order to change the supporting angle of the mobile phone 20, the GPS navigation system further includes a positioning assembly 40, wherein an installation space 231 is formed in the inner ring 23, the positioning assembly 40 includes an installation rod 41, two rod structures and a cam rotating member 43, the installation rod 41 is installed in the installation space 231, and opposite ends of the installation rod 41 are fixed to the inner side wall of the inner ring 23. The mounting rod 41 does not pass through the center of the inner race 23. The two bar structures are mounted parallel to each other on the mounting bar 41. Each rod body structure includes a fixed slat 421, a hinge (not shown) and a plurality of telescopic links 422, the fixed slat 421 is fixed on the aluminum alloy bottom plate 212, one end of the fixed slat 421 is connected perpendicularly on the installation rod 41, the telescopic links 422 are sleeved in a sliding manner in sequence to form a telescopic rod 425, for example, the telescopic rod 425 adopts a structure similar to a television antenna. The end of the telescopic rod 425 is connected to the end of the fixed bar 421 away from the mounting bar 41 by the hinge. The hinge is conventional in the art, and is used, for example, to rotate the telescopic bar 425 to a plurality of positioning angles with respect to the fixed bar 421. The lengths of the plurality of telescopic bars 422 are sequentially reduced along a direction away from the fixed strip 421. The telescopic rods 425 can be extended when an external force is applied, and two adjacent telescopic rods 422 are positioned by friction. For example, the cam rotating member 43 is in a bar shape, and two opposite ends of the cam rotating member 43 are respectively formed with arc-shaped surfaces, and a rotating shaft (not shown) is inserted into a fixed center of the cam rotating member 43, and is rotatably installed on the aluminum alloy base plate 212, and the rotating shaft is located between two adjacent fixed slats 421. The opposite ends of the cam rotating member 43 respectively abut against the surfaces of the two fixing plates. The width of the cam rotating member 43 is equal to the length of the fixed slat 421. A protruding column 431 is convexly arranged at the center of the surface of the cam rotating member 43, a poking plate 48 is arranged on the protruding column 431, the middle part of the poking plate 48 is fixed at the top end of the protruding column 431, and the poking plate 48 is parallel to the cam rotating member 43. For example, when the mobile phone 20 needs to be tilted and positioned, the mobile phone 20 and the protection assembly 201 are pulled out from the vehicle-mounted seat 10, the telescopic rod 425 is pulled to rotate to a positioning angle relative to the fixed slat 421, the telescopic rod 425 is pulled out, one end of the protection shell 21 is abutted against a desktop, and the end of the telescopic rod 425 is supported on the desktop, so that the mobile phone 20 is tilted and supported, and a video is conveniently played. The tilt angle of the handpiece 20 can be adjusted by rotating the telescopic shaft 425. For example, the telescopic rods 425 are further configured to be contracted by an external force and to be received in the inner ring 23, and the toggle plate 48 rotates when the external force is applied to drive the cam rotating member 43 to rotate 90 degrees, so that one end of the cam rotating member 43 abuts against the two telescopic rods 425, and the two telescopic rods 425 are kept attached to the aluminum alloy bottom plate 212. By providing the cam rotating member 43, the two telescopic rods 425 can be released to allow the two telescopic rods 425 to extend rotationally, and can also be rotated to clip the two telescopic rods 425 after being contracted into the inner ring 23 and hold the two telescopic rods 425 in a shielding manner.

For example, in order to facilitate the mobile phone 20 to be firmly and fixedly located on the vehicle-mounted seat 10, a strip-shaped groove 131 is formed in the bottom surface of the inner cavity of the clamping cylinder 13, an insertion groove is formed in the middle of the strip-shaped groove 131, and the projection of the strip-shaped groove 131 on the silicone rubber pad 11 is parallel to the silicone rubber pad 11. The toggle plate 48 is inserted into the strip-shaped groove 131, and the protruding column 431 is inserted into the insertion groove to position the positioning assembly 40 in the inner ring 23, so that the mobile phone 20 is parallel to the strip-shaped groove 131. By setting the direction of the strip-shaped groove 131, the direction of the mobile phone 20 can be positioned, so that the mobile phone 20 is parallel to the silicone pad 11. One end of the mobile phone 20 is also adhered and positioned on the silica gel pad 11, so that the positioning effect of the mobile phone 20 is improved.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A vehicle-mounted GPS navigation system is characterized by comprising a vehicle-mounted seat, a mobile phone and a protection assembly, wherein the vehicle-mounted seat comprises a silica gel pad, a support rod and a clamping barrel, the silica gel pad is adhered and fixed on a vehicle interior object plate, the support rod is convexly arranged on the silica gel pad, the support rod is obliquely arranged relative to the silica gel pad, the clamping barrel is installed at the top end of the support rod, GPS navigation software is arranged in the mobile phone, the protection assembly comprises a protection shell, an outer ferrule and an inner ferrule, the protection shell is sleeved on the mobile phone, the outer ferrule and the inner ferrule are both convexly arranged on one side of the protection shell, which is far away from a display screen of the mobile phone, an annular gap is formed between the outer ferrule and the inner ferrule, the inner ferrule is used for being inserted into the clamping barrel, and the outer ferrule is used for being sleeved on the outer peripheral surface of the clamping, so as to realize the inclined support of the mobile phone.

2. The vehicle-mounted GPS navigation system according to claim 1, wherein the mobile phone is a smart phone, and one end of the mobile phone is supported and adhered to the silica gel pad.

3. The vehicle-mounted GPS navigation system according to claim 2, wherein the clamping cylinder is a circular cylinder, two slits are opened on the clamping cylinder, and a holding arc sheet is formed between the two slits.

4. The vehicle-mounted GPS navigation system according to claim 3, wherein the abutting arc piece is a flexible piece configured to be expanded and deformed outward to apply an abutting force to the circumferential surface of the inner race.

5. The on-board GPS navigation system of claim 4, wherein the inner diameter of the outer race is larger than the outer diameter of the inner race, and the snap sleeve is configured to snap into the annular gap.

6. The vehicle-mounted GPS navigation system of claim 5, wherein the height of the inner ring is greater than the height of the outer ring, and both the outer ring and the inner ring are made of aluminum alloy material.

7. The vehicle-mounted GPS navigation system according to claim 6, wherein the protective case comprises a flexible sleeve frame and an aluminum alloy bottom plate, the flexible sleeve frame is sleeved on the periphery of the mobile phone, the aluminum alloy bottom plate is a rectangular plate, and the periphery of the aluminum alloy bottom plate is fixed on the inner periphery of the flexible sleeve frame.

8. The vehicle-mounted GPS navigation system according to claim 7, wherein an aluminum alloy backboard is arranged on one side of the mobile phone, which is away from the display screen, and the aluminum alloy backboard is attached to the aluminum alloy backboard.

9. The vehicle-mounted GPS navigation system of claim 8, wherein the inner and outer races are both raised on the aluminum alloy base plate.

10. A method of installing an in-vehicle GPS navigation system according to claim 9, comprising the steps of:

adhering and fixing the silica gel pad on the vehicle interior storage plate so as to enable the support rod to be obliquely arranged relative to the silica gel pad;

sleeving the protective shell on the mobile phone; and

the inner ring of the protective shell is inserted into the clamping barrel, and the outer ring is sleeved on the outer peripheral surface of the clamping barrel so as to obliquely support and position the mobile phone.

Images