CN212960835U - Hand-held cloud platform - Google Patents

Abstract

The utility model provides a handheld cloud deck, which comprises a handle shell, a circuit board and a plurality of microphone components; the handle shell is provided with an upper end part and a lower end part which are oppositely arranged; the handle shell is provided with a plurality of sound pickup holes; the circuit board is arranged in the handle shell; the microphone components are arranged in the handle shell and electrically connected with the circuit board, and each microphone component is arranged corresponding to one sound pickup hole; wherein, one of the sound pickup holes is arranged in the middle of the handle shell; another of the plurality of sound pickup holes is disposed adjacent the upper end portion to avoid each sound pickup hole being simultaneously obscured when the user grips the handle housing. The utility model provides a handheld cloud platform can improve pickup effect and user experience.

Description

Hand-held cloud platform

Technical Field

The utility model relates to a cloud platform technical field especially relates to a handheld cloud platform.

Background

In order to meet the diversified requirements of users, a microphone and a display screen are arranged on a handle of the holder. The user can realize audio interaction with the display screen through the microphone, and interactivity and interestingness of the holder and the user are improved. However, the existing cradle head with the microphone is easy to shield the pickup hole of the microphone in the use process of holding the handle by a user, so that the pickup effect and the user experience are influenced.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model provides a handheld cloud platform aims at improving pickup effect and user experience.

According to the utility model discloses an aspect, the utility model provides a handheld cloud platform, include:

a handle housing having an upper end and a lower end disposed opposite to each other; a plurality of sound pickup holes are arranged;

the circuit board is arranged in the handle shell;

the microphone assemblies are arranged in the handle shell and electrically connected with the circuit board, and each microphone assembly is arranged corresponding to one sound pickup hole;

wherein one of the pickup holes is arranged in the middle of the handle shell; another of the plurality of sound pick-up holes is disposed adjacent the upper end portion to avoid each of the sound pick-up holes being simultaneously obscured when a user grips the handle housing.

The utility model discloses an in handheld cloud platform, the handle casing has a plurality of successions the upper end extends to the side of tip down, each all be equipped with at least one on the side pick-up hole, so that handheld cloud platform can 360 degrees pickups.

The utility model discloses an in the handheld cloud platform, the quantity of circuit board is a plurality of, and is a plurality of microphone subassembly is connected a plurality of on the circuit board.

In the handheld pan/tilt of the present invention, the plurality of pickup holes include a first pickup hole and a second pickup hole, the first pickup hole is disposed in the middle of the front surface of the handle housing, and the second pickup hole is disposed adjacent to the upper end portion; the plurality of microphone assemblies comprise a first microphone assembly and a second microphone assembly, the first microphone assembly corresponds to the first sound pickup hole, and the second microphone assembly corresponds to the second sound pickup hole.

The utility model discloses an in handheld cloud platform, the circuit board includes first circuit board, first microphone subassembly with second microphone subassembly is all connected on the first circuit board.

The utility model discloses an in handheld cloud platform, first microphone subassembly includes: the first dust-proof piece is arranged in the first pickup hole; a first seal disposed between the first circuit board and the handle housing; the first microphone is arranged on the first circuit board, and the first dustproof piece, the first sealing piece, the first circuit board and the first microphone are sequentially arranged along the transmission direction of audio.

The utility model discloses an in handheld cloud platform, first microphone subassembly still includes: and the noise reduction piece is arranged in the first sound pickup hole and used for reducing wind noise of the audio frequency passing through the first sound pickup hole.

The utility model discloses an in the handheld cloud platform, it includes the cotton layer of bubble to fall the piece of making an uproar, first dustproof the cotton layer of bubble first sealing member first circuit board with first microphone sets gradually along the transmission direction of audio frequency.

The utility model discloses an in the handheld cloud platform, the second microphone subassembly includes: the second dust-proof piece is arranged in the second sound pick-up hole; a second seal disposed between the first circuit board and the handle housing; the second microphone is arranged on the first circuit board, and the second dustproof piece, the second sealing piece, the first circuit board and the second microphone are sequentially arranged along the transmission direction of audio.

The utility model discloses an in the handheld cloud platform, second pickup hole is located the first side of handle casing, the first side with openly connect.

The utility model discloses an in handheld cloud platform, it is a plurality of the microphone subassembly include with the third microphone subassembly that first circuit board is connected, it is a plurality of the pickup hole include with the third microphone subassembly corresponds the third sound pickup hole that sets up.

The utility model discloses an in the handheld cloud platform, the third pick-up hole is close to the upper end sets up and locates the second side of handle casing, the second side with first side sets up relatively.

The utility model discloses an in the handheld cloud platform, the structure of second microphone subassembly with the structure of third microphone subassembly is the same.

The utility model discloses an in the handheld cloud platform, the second sound pick-up hole and/or the third sound pick-up hole is the crooked hole.

The utility model discloses an in handheld cloud platform, the circuit board includes the second circuit board, and is a plurality of the microphone subassembly include with the fourth microphone subassembly that the second circuit board is connected, it is a plurality of the pickup hole include with the fourth microphone subassembly corresponds the fourth sound pickup hole that sets up.

The utility model discloses an in the handheld cloud platform, fourth pick-up hole is located handle shell's the back is close to handle shell's upper end sets up, the back with openly relative setting.

The utility model discloses an in the handheld cloud platform, fourth microphone subassembly includes: the third dust prevention piece is arranged in the fourth pickup hole; a third seal disposed between the second circuit board and the handle housing; and the fourth microphone is arranged on the second circuit board, and the third dust prevention piece, the third sealing piece, the second circuit board and the fourth microphone are sequentially arranged along the transmission direction of audio.

An embodiment of the utility model provides a handheld cloud platform, when the user grips the handle casing, each pickup hole can not sheltered from simultaneously to pickup effect and user experience have been improved.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention as claimed.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without any creative effort.

Fig. 1 is a schematic structural diagram of a handheld pan/tilt head according to an embodiment of the present invention;

fig. 2 is a schematic view of a part of the structure of a handheld pan/tilt provided by an embodiment of the present invention at an angle;

fig. 3 is a schematic view of a partial structure of another angle of the handheld pan/tilt according to an embodiment of the present invention;

FIG. 4 is a cross-sectional view of the handheld tripod head of FIG. 2;

FIG. 5 is a cross-sectional view of the handheld tripod head of FIG. 2;

fig. 6 is a schematic view of a handheld pan/tilt and a shooting device according to an embodiment of the present invention;

FIG. 7 is an enlarged partial schematic view of the hand-held head of FIG. 4 at A;

FIG. 8 is an enlarged partial schematic view of the hand-held platform of FIG. 5 at B;

FIG. 9 is a cross-sectional view of the handheld tripod head of FIG. 2;

FIG. 10 is an enlarged partial schematic view of the hand-held platform of FIG. 9 at C;

fig. 11 is a partially exploded schematic view of a handheld pan/tilt head according to an embodiment of the present invention;

fig. 12 is a partially exploded schematic view of a handheld pan/tilt head according to an embodiment of the present invention.

Description of reference numerals:

100. a handheld pan-tilt;

10. a handle housing; 11. an upper end portion; 12. a lower end portion; 13. a sound pickup hole; 131. a first sound pickup hole; 132. a second sound pickup hole; 133. a third sound pickup hole; 134. a fourth sound pickup hole;

14. a side surface; 141. a front side; 142. a back side; 143. a first side surface; 144. a second side surface; 15. a first shell portion; 16. a second shell portion; 17. an accommodating cavity;

20. a circuit board; 21. a first circuit board; 211. a first sound transmission hole; 212. a second sound transmission hole; 22. a second circuit board; 221. a third sound transmission hole;

30. a microphone assembly; 31. a first microphone assembly; 311. a first dust-proof member; 312. a first seal member; 313. a first microphone; 314. a noise reduction member; 315. a cushion layer;

32. a second microphone assembly; 321. a second dust-proof member; 322. a second seal member; 323. a second microphone; 33. a third microphone assembly; 34. a fourth microphone assembly; 341. a third dust prevention part; 342. a third seal member; 343. a third microphone;

40. a holder bracket; 50. a display screen;

200. a photographing apparatus.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, of the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It is also to be understood that the terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in the specification and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in the specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

The utility model discloses an inventor discovers, in order to satisfy user's diversified demand, sets up microphone and display screen on the handle of handheld cloud platform. The user can realize audio interaction with the display screen through the microphone, and interactivity and interestingness of the handheld cloud platform and the user are improved. However, in the current handheld cloud deck, the microphone holes are generally distributed in the middle of the front surface of the handle of the handheld cloud deck and below the handle. When a user holds the handle with hands and uses the handheld cloud platform, the hand is usually held below the middle part of the handle, and the microphone hole in the middle part and the lower part of the handle is easily shielded by the hand, so that the pickup effect and the user experience are influenced.

Therefore, the utility model discloses an inventor provides a handheld cloud platform to improve pickup effect and user experience. Specifically, the utility model provides a handheld cloud platform, include: a handle housing having an upper end and a lower end disposed opposite to each other; a plurality of sound pickup holes are arranged; the circuit board is arranged in the handle shell; the microphone assemblies are arranged in the handle shell and electrically connected with the circuit board, and each microphone assembly is arranged corresponding to one sound pickup hole; wherein one of the pickup holes is arranged in the middle of the handle shell; another of the plurality of sound pick-up holes is disposed adjacent the upper end portion to avoid each of the sound pick-up holes being simultaneously obscured when a user grips the handle housing.

Some embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The embodiments described below and the features of the embodiments can be combined with each other without conflict.

Referring to fig. 1 to 5, an embodiment of the present invention provides a handheld tripod head 100, wherein the handheld tripod head 100 includes a handle housing 10, a circuit board 20 and a plurality of microphone assemblies 30.

Referring to fig. 2 and 3, the handle housing 10 has an upper end 11 and a lower end 12 disposed opposite to each other. The handle housing 10 is provided with a plurality of sound pickup holes 13. The circuit board 20 is provided in the handle housing 10. A plurality of microphone assemblies 30 are provided within the handle housing 10. The plurality of microphone assemblies 30 are each electrically connected to the circuit board 20. Each microphone assembly 30 is arranged in correspondence with one pick-up hole 13.

Wherein one of the plurality of sound pickup holes 13 is provided in the middle of the handle housing 10. Another one of the plurality of pickup holes 13 is provided adjacent to the upper end portion 11 to avoid the pickup holes 13 from being simultaneously blocked when the user grips the handle case 10.

Referring to fig. 1 and 6, in some embodiments, the handheld tripod head 100 further includes a tripod head support 40 for carrying the photographing apparatus 200. The pan/tilt head support 40 is connected to the upper end portion 11 of the handle housing 10. Illustratively, the photographing apparatus 200 may be a camera. Illustratively, the photographing device 200 may also be any other suitable image capturing device, such as an image pickup element composed of a lens and an image sensor (such as a CMOS or CCD) or the like.

Illustratively, the pan-tilt support 40 may be a two-axis pan-tilt support, a three-axis pan-tilt support, a four-axis pan-tilt support, or the like.

Referring to fig. 1, in some embodiments, the handheld tripod head 100 is further disposed on the display screen 50 on the handle housing 10, and the display screen 50 can display at least one of the contents, shooting parameters and the like shot by the shooting device 200 mounted on the tripod head support 40. Illustratively, the Display screen 50 is a touch-sensitive Liquid Crystal Display (LCD). Of course, the display screen 50 may be other types of display screens, and is not limited herein.

It will be appreciated that the display screen 50 may also be a touch screen, and may also serve as an input interface for user instructions. The user's touch, press, slide, etc. operations on the display screen 50 can correspond to the rotation or other photographing actions of the photographing apparatus 200 in various directions and the setting of various functions during photographing.

Illustratively, the microphone assembly 30 may capture audio instructions of a user, which can correspond to various directions of rotation or other photographing actions of the photographing apparatus 200 and settings of various functions during photographing.

Illustratively, during use of the handheld tripod head 100, if audio recording is desired, the desired audio recording may be captured by the microphone assembly 30.

Illustratively, when the handheld tripod head 100 is in the initial state, the photographing apparatus 200 is oriented in a first direction, and the display screen 50 is oriented in a second direction, which is opposite to the first direction. This facilitates the user to view the content displayed in the display screen 50 at a good angle while taking an image by the photographing apparatus 200. It is understood that, in a practical application scenario, the shooting angle of the shooting device 200 can be adjusted through the pan-tilt support 40. The initial state is a stable equilibrium state after the handheld cradle head 100 is powered on, and in the initial state, if the user holds the handle housing 10 and keeps it still, the shooting device 200 and the handle housing 10 will also keep a substantially stationary state, and the state at this time may be defined as an initial state or a zero position state of the handheld cradle head 100. In this initial state, the photographing apparatus 200 and the display screen 50 are in a direction substantially away from each other, typically with the display screen 50 facing the user and the photographing apparatus 200 facing away from the user, so that the contents or photographing parameters photographed by the photographing apparatus 200 can be displayed on the display screen 50 and the user can directly see on the display screen 50.

In some embodiments, the handle housing 10 has a plurality of sides 14. Each side 14 extends from the upper end 11 to the lower end 12. Each side 14 is provided with at least one sound pickup hole 13, so that the handheld tripod head 100 can pick up sound at 360 degrees, the sound pickup direction is effectively increased, and all-dimensional sound pickup is realized.

The number of the side faces 14 can be designed according to practical requirements, such as two, three, four or more. Illustratively, the number of sides 14 is four. The side 14 on which the display 50 is located defines a front 141 of the handle housing 10. The side opposite to the front face 141 of the handle housing 10 is defined as a rear face 142. The plurality of sides 14 further includes opposing first and second sides 143, 144. The first side 143 and the second side 144 are connected between the front 141 and the back 142. At least one sound pickup hole 13 is respectively arranged on the first side surface 143, the front surface 141, the second side surface 144 and the back surface 142, so that the handheld tripod head 100 can pick up sound from four directions of the four side surfaces 14 respectively, and further the handheld tripod head 100 can pick up sound in all directions, and the sound pickup direction is effectively increased.

In some embodiments, the number of the circuit boards 20 is plural, and the plurality of microphone assemblies 30 are connected to the plural circuit boards 20, so as to facilitate the layout design of the plurality of microphone assemblies 30. It is understood that the number of circuit boards 20 may be two, three, four, or more. In other embodiments, multiple microphone assemblies 30 may be connected to the same circuit board 20.

Referring to fig. 2-5, in some embodiments, the plurality of sound pickup holes 13 includes a first sound pickup hole 131 and a second sound pickup hole 132. The first sound collecting hole 131 is disposed in the middle of the front surface 141 of the handle housing 10, so as to better conform to the usage habit of the user and the convenience of operation. The second sound pickup aperture 132 is disposed adjacent the upper end 11. The plurality of microphone assemblies 30 includes a first microphone assembly 31 and a second microphone assembly 32. The first microphone assembly 31 is disposed corresponding to the first sound pickup hole 131. The second microphone assembly 32 is disposed corresponding to the second sound pickup hole 132.

It can be understood that, when the user uses the handheld tripod head 100 by holding the handle housing 10, the hand of the user is usually held in the middle and the middle lower part of the handle housing 10, and at this time, the first sound pickup hole 131 is easily blocked by the hand; and the second sound pickup hole 132 is not blocked by the hand since it is disposed adjacent to the upper end portion 11 of the handle housing 10. When the user holds the handle housing 10 to use the handheld tripod head 100, the first microphone assembly 31 cannot normally pick up sound because the first sound pick-up hole 131 is easily blocked by the hand; and the second sound pick-up hole 132 is not shielded by the hand, the audio can reach the second microphone assembly 32 through the second sound pick-up hole 132, so that the second microphone assembly 32 can pick up sound normally. That is, when the user holds the handle housing 10 to use the handheld cradle head 100, the plurality of sound pickup holes 13 are not simultaneously shielded, thereby improving the sound pickup effect and the user experience.

Illustratively, the second sound pickup hole 132 is disposed adjacent to the upper end 11 of the handle housing 10, which means that the second sound pickup hole 132 is disposed at the middle upper part of the handle housing 10.

Illustratively, the surface of the handle housing 10 has an upper end position, a middle position, and a lower end position. The middle position is positioned at the middle of the upper end position and the lower end position. The second sound pickup hole 132 is disposed adjacent to the upper end 11 of the handle housing 10, which means that the second sound pickup hole 132 is disposed between the upper end position and the middle position, and the spacing distance between the second sound pickup hole 132 and the upper end position is smaller than the spacing distance between the second sound pickup hole 132 and the middle position.

The third sound pickup hole 133 and the fourth sound pickup hole 134, which will be described below, are provided adjacent to the upper end 11 of the handle housing 10, and are not described in detail with reference to the second sound pickup hole 132 being provided adjacent to the upper end 11 of the handle housing 10.

Exemplarily, the first sound pickup hole 131 is disposed in the middle of the front surface 141 of the handle housing 10, which means that the first sound pickup hole 131 is disposed on the front surface 141 of the handle housing 10, and a spacing distance between the first sound pickup hole 131 and the middle position is smaller than a spacing distance between the first sound pickup hole 131 and the upper end position (or the lower end position).

Illustratively, the first sound pickup hole 131 is disposed in the middle of the front surface 141 of the handle housing 10, which means that the first sound pickup hole 131 is disposed on the front surface 141 of the handle housing 10, and the first sound pickup hole 131 is located between the upper end position and the lower end position.

Illustratively, the second sound pickup hole 132 may be provided on at least one of the front 141, the back 142, the first side 143, and the second side 144 of the handle housing 10.

Referring to fig. 4 and 5, in some embodiments, the circuit board 20 includes a first circuit board 21, and the first microphone assembly 31 and the second microphone assembly 32 are connected to the first circuit board 21. Illustratively, the first circuit board 21 is locked on the handle housing 10 by a quick release member such as a screw. Of course, in other embodiments, the first circuit board 21 may be fixedly connected to the handle housing 10 by a snap connection or the like.

Referring to fig. 4 and 7, in some embodiments, the first microphone assembly 31 includes a first dust-proof component 311, a first sealing component 312, and a first microphone 313. The first dust-proof member 311 is disposed in the first sound pickup hole 131. A first seal 312 is provided between the first circuit board 21 and the handle housing 10. The first microphone 313 is provided on the first circuit board 21. The first dust-proof piece 311, the first sealing piece 312, the first circuit board 21, and the first microphone 313 are arranged in this order along the transmission direction of audio.

The first dust-proof member 311 may be disposed in the first sound-collecting hole 131 through other auxiliary structures such as an adhesive layer, or may be directly clamped in the first sound-collecting hole 131. The first dust-proof component 311 may be designed into any suitable dust-proof structure according to actual requirements, such as a dust-proof net.

Referring to fig. 2 to 5, in some embodiments, the handle housing 10 includes a first housing portion 15 and a second housing portion 16 connected to the first housing portion 15. The first and second casing portions 15 and 16 cooperate to form an accommodation cavity 17 for accommodating a circuit board 20 and the like. The lengthwise extending direction of the first shell portion 15 and the lengthwise extending direction of the second shell portion 16 are both the same as the lengthwise extending direction of the handle case 10. Illustratively, the front face 141 of the handle case 10 is disposed on the first shell portion 15, and the rear face 142 of the handle case 10 is disposed on the second shell portion 16. The first shell portion 15 may be fixedly connected with the second shell portion 16 by a snap connection, a screw connection, or the like. The first circuit board 21 is fixedly connected with the first housing part 15.

In some embodiments, a first seal 312 and a first microphone 313 are provided on the first and second sides of the first circuit board 21, respectively. The first and second surfaces of the first circuit board 21 are disposed opposite to each other. The first face of the first circuit board 21 is disposed away from the second case portion 16. The second face of the first circuit board 21 is disposed toward the second case portion 16.

Illustratively, after the first circuit board 21 is fixedly connected to the handle housing 10, the first sealing member 312 is interposed between the handle housing 10 and the first circuit board 21.

Illustratively, the first sealing member 312 is a hollow structure, and the first circuit board 21 is provided with a first sound transmitting hole 211 for passing audio. The first microphone 313 is disposed corresponding to the first sound transmitting hole 211. The hollow channels of the first sound pickup hole 131, the first dust-proof piece 311 and the first sealing piece 312 and the first sound transmitting hole 211 of the first circuit board 21 cooperate to form a first sound guiding channel. The audio reaches the first microphone 313 via the first sound guiding channel, so that the first microphone 313 can record the audio.

Illustratively, the first sound guide channel can be in a linear shape, and has a simple structure and a good sound pickup effect. Of course, in other embodiments, the shape of the first sound guiding channel may also be a bent shape.

Illustratively, the first sound transmitting hole 211 is disposed opposite to the sound outlet end of the first sound pickup hole 131. The first microphone 313 is disposed opposite to the first sound transmitting hole 211.

It will be appreciated that the first seal 312 may act as a buffer. When the handheld tripod head 100 is in a shock or collision scenario, the handle housing 10 may be squeezed, shocked or vibrated, and at this time, the first sealing member 312 may play a certain buffering role to protect the first circuit board 21 and the first microphone 313, so as to improve the reliability and the service life of the first circuit board 21 and the first microphone 313. On the other hand, the first sealing member 312 can seal the first sound guide channel, thereby improving the reproduction of the audio recorded by the first microphone 313.

The first seal 312 may be made of any suitable material according to actual requirements. Illustratively, the first sealing element 312 is made of a material having elasticity, such as at least one of a soft rubber pad or a silicone sealing element.

When the handheld tripod head 100 picks up sound during fast traveling, wind noise may exist to affect the sound pickup effect. To this end, referring to fig. 4 and 7, in some embodiments, the first microphone assembly 31 further includes a noise reducer 314 for reducing the wind noise of the audio passing through the first sound pickup hole 131. The noise reduction member 314 is disposed in the first sound pickup aperture 131.

It will be appreciated that the first dust guard 311, the first seal 312 and the noise reducer 314 may be disposed at any suitable location of the first sound pickup aperture 131 according to actual requirements. For example, the noise reduction member 314 and the first dust prevention member 311 are disposed at the sound inlet end of the first sound pickup hole 131, and the first sealing member 312 is disposed at the sound outlet end of the first sound pickup hole 131.

The noise reducer 314 may be made of any material capable of reducing noise, such as a foam layer made of foam for the noise reducer 314. In some embodiments, the noise reducer 314 includes a foam layer. The first dust-proof piece 311, the foam layer, the first sealing piece 312, the first circuit board 21, and the first microphone 313 are sequentially disposed along a transmission direction of audio.

Illustratively, the first sound pickup aperture 131 has a recess. The first seal 312 may be secured within the recess of the first sound pickup aperture 131 by a cushion layer 315. The cushion layer 315, the first dust-proof member 311, the foam layer, the first sealing member 312, the first circuit board 21, and the first microphone 313 are sequentially disposed along the transmission direction of audio.

Illustratively, the masking layer 315 is disposed at the inlet end of the first sound pickup aperture 131. The size of the sound inlet end of the first sound pickup hole 131 is larger than the size of the middle portion of the first sound pickup hole 131, so as to accommodate the cushion layer 315.

Referring to fig. 5 and 8, in some embodiments, the second microphone assembly 32 includes a second dust-proof member 321, a second sealing member 322, and a second microphone 323. The second dust prevention member 321 is provided in the second sound pickup hole 132. A second seal 322 is provided between the first circuit board 21 and the handle housing 10. The second microphone 323 is provided on the first circuit board 21. The second dust prevention member 321, the second sealing member 322, the first circuit board 21, and the second microphone 323 are sequentially disposed along the transmission direction of audio.

The second dust-proof member 321 and the second sealing member 322 may be disposed at any suitable positions of the second sound-collecting hole 132, such as at the sound outlet end of the second sound-collecting hole 132.

Illustratively, the size of the sound outlet end of the second sound pickup hole 132 is larger than the size of the middle portion of the second sound pickup hole 132, so that the sound outlet end of the second sound pickup hole 132 can accommodate the second dust-proof piece 321 and/or the second sealing piece 322.

The second dust-proof member 321 may be disposed in the second sound-collecting hole 132 through other auxiliary structures such as an adhesive layer, or may be directly clamped in the second sound-collecting hole 132. The second dust-proof member 321 can be designed into any suitable dust-proof structure according to actual requirements, such as a dust-proof net.

In some embodiments, a second seal 322 and a second microphone 323 are provided on the first and second sides of the first circuit board 21, respectively. Illustratively, after the first circuit board 21 is fixedly connected to the handle housing 10, the second sealing member 322 and the second dust-proof member 321 are sandwiched between the handle housing 10 and the first circuit board 21.

Illustratively, the second seal 322 has a hollow channel for the passage of audio. The first circuit board 21 is provided with a second sound transmission hole 212. The second microphone 323 is disposed corresponding to the second sound transmission hole 212. The hollow channels of the second sound pickup hole 132, the second dust-proof piece 321, the second sealing piece 322 and the second sound transmission hole 212 of the first circuit board 21 cooperate to form a second sound guide channel. The audio reaches the second microphone 323 via the second sound guiding channel, so that the second microphone 323 can record the audio.

Illustratively, the second sound pickup hole 132 is a curved hole, so that the second microphone 323 can record the audio through the second sound pickup hole 132, and the second microphone 323 can be connected to the second circuit board 22, and the structure layout is compact and the space utilization rate is high. For example, the second sound pickup hole 132 is L-shaped or substantially L-shaped.

Illustratively, the second sound transmitting aperture 212 is disposed directly opposite the sound outlet end of the second sound pickup aperture 132. The second microphone 323 is disposed opposite to the second sound transmitting hole 212.

In some embodiments, the second seal 322 may function as a cushion. When the handheld tripod head 100 is in a shock or collision scenario, the handle housing 10 may be squeezed, shocked or vibrated, and at this time, the second sealing member 322 may play a certain buffering role to protect the first circuit board 21 and the second microphone 323, so as to improve the reliability and the service life of the first circuit board 21 and the second microphone 323. On the other hand, the second sealing member 322 can seal the second sound guide channel, thereby improving the reproduction of the audio recorded by the second microphone 323.

In some embodiments, the second sound pickup aperture 132 is disposed on a first side 143 of the handle housing 10, and the first side 143 is connected to the front 141. Illustratively, the second sound pickup hole 132 is disposed on the first side 143 of the handle housing 10 and adjacent to the front 141 of the handle housing 10, so that the first microphone assembly 31 and the second microphone assembly 32 can be connected to the first circuit board 21, and the handheld tripod head 100 is compact and has high space utilization.

The second sealing member 322 may be made of any suitable material according to actual requirements. The second sealing member 322 is made of a material having elasticity, such as at least one of a soft rubber pad or a silicone sealing member.

Referring to fig. 5 and 8, in some embodiments, the plurality of microphone assemblies 30 includes a third microphone assembly 33 coupled to the first circuit board 21. The plurality of sound pickup holes 13 includes a third sound pickup hole 133 provided corresponding to the third microphone assembly 33.

In some embodiments, third sound pickup aperture 133 is disposed on second side 144 or back 142, effectively increasing the direction of sound pickup. Illustratively, the second sound pickup aperture 132 and the third sound pickup aperture 133 are oppositely disposed.

In some embodiments, the third sound pickup aperture 133 is disposed adjacent the upper end 11. The third sound pickup hole 133 is disposed on a second side 144 of the handle housing 10, and the second side 144 is disposed opposite to the first side 143. When the user holds the handle housing 10 to use the handheld tripod head 100, the hand of the user is usually held in the middle and the lower part of the handle housing 10, the third sound pickup hole 133 is not blocked by the hand due to being disposed adjacent to the upper end 11 of the handle housing 10, and the audio can reach the third microphone assembly 33 through the third sound pickup hole 133, so that the third microphone assembly 33 can pick up the sound normally. Thus, when the user holds the handle housing 10 to use the handheld tripod head 100, the third sound pickup hole 133 is not blocked, thereby improving the sound pickup effect and the user experience.

Illustratively, the third sound pickup hole 133 is disposed on the second side 144 of the handle casing 10 and adjacent to the front 141 of the handle casing 10, so that the first microphone assembly 31, the second microphone assembly 32, and the third microphone assembly 33 are all connected to the first circuit board 21, and the handheld tripod head 100 is compact and has high space utilization.

In some embodiments, the structure of the second microphone assembly 32 is the same as the structure of the third microphone assembly 33. It will be appreciated that in other embodiments, the structure of the third microphone assembly 33 may also be different from the structure of the second microphone assembly 32.

In some embodiments, the third sound pickup hole 133 is a curved hole, so that the third microphone 343 of the third microphone assembly 33 can record audio through the third sound pickup hole 133, and the third microphone assembly 33 is connected to the second circuit board 22, which has a compact structural layout and a high space utilization rate. For example, the third sound pickup hole 133 has an L shape or a substantially L shape.

Referring to fig. 9-12, in some embodiments, circuit board 20 includes a second circuit board 22. The plurality of microphone assemblies 30 includes a fourth microphone assembly 34 connected to the second circuit board 22. The plurality of pickup holes 13 includes a fourth pickup hole 134 disposed in correspondence with the fourth microphone assembly 34. Audio can be transmitted to the fourth microphone assembly 34 via the fourth pick-up hole 134 so that the fourth microphone assembly 34 can record the audio.

Illustratively, the second circuit board 22 is fixedly connected with the second shell portion 16. Illustratively, the second circuit board 22 is fixedly connected with the first shell portion 15 through an adhesive layer. In other embodiments, the second circuit board 22 may be fixedly connected to the first housing portion 15 by screws or the like. The second circuit board 22 is electrically connected to the first circuit board 21.

In some embodiments, the fourth sound pickup aperture 134 is provided on the back 142 of the handle housing 10, thereby effectively increasing the sound pickup direction.

In some embodiments, the fourth sound pickup aperture 134 is disposed on the back 142 of the handle housing 10 and is disposed adjacent the upper end 11 of the handle housing 10. When the user holds the handle housing 10 to use the handheld tripod head 100, the hand of the user is usually held in the middle and the lower portion of the handle housing 10, at this time, the fourth sound pickup hole 134 is disposed adjacent to the upper end portion 11 of the handle housing 10 and is not blocked by the hand, and the audio can reach the fourth microphone assembly 34 through the fourth sound pickup hole 134, so that the fourth microphone assembly 34 can pick up the sound normally. Thus, when the user holds the handle housing 10 to use the handheld cradle head 100, the fourth sound pickup hole 134 is not blocked, thereby improving the sound pickup effect and the user experience.

Referring to fig. 9 to 12, in some embodiments, the fourth microphone assembly 34 includes a third dust-proof part 341, a third sealing part 342, and a third microphone 343. The third dust-proof member 341 is provided in the fourth sound pickup hole 134. A third seal 342 is provided between the second circuit board 22 and the handle housing 10. The third microphone 343 is disposed on the second circuit board 22. The third dust-proof member 341, the third sealing member 342, the second circuit board 22, and the third microphone 343 are sequentially disposed in the transmission direction of audio.

The third dust-proof member 341 may be disposed in the fourth sound-collecting hole 134 through other auxiliary structures such as an adhesive layer, or may be directly clamped in the fourth sound-collecting hole 134. The third dust prevention part 341 may be designed as any suitable dust prevention structure according to actual requirements, such as a dust screen.

In some embodiments, a third seal 342 and a third microphone 343 are provided on the first and second surfaces of the second circuit board 22, respectively. The first surface and the second surface of the second circuit board 22 are disposed opposite to each other. A first surface of the second circuit board 22 is disposed toward the second case portion 16. A second surface of the second circuit board 22 is disposed away from the second shell portion 16.

Illustratively, after the second circuit board 22 is fixedly connected with the handle housing 10, the third dust-proof member 341 and the third sealing member 342 are sandwiched between the second casing portion 16 and the second circuit board 22.

Illustratively, the third sealing member 342 has a hollow channel, and the second circuit board 22 is provided with a third sound transmission hole 221 for audio to pass through. The third microphone 343 is disposed corresponding to the third sound transmitting hole 221. The hollow channels of the fourth sound pickup hole 134, the third dust-proof member 341 and the third sealing member 342 and the third sound transmission hole 221 of the second circuit board 22 cooperate to form a third sound guide channel. The audio reaches the third microphone 343 via the third sound-guide channel, so that the third microphone 343 can record the audio.

Illustratively, the third sound guide channel can be in a linear shape, and has a simple structure and a good sound pickup effect. Of course, in other embodiments, the third sound guiding channel may also be bent.

Illustratively, the third sound transmitting hole 221 is disposed opposite to the sound outlet end of the fourth sound pickup hole 134. The third microphone 343 is disposed opposite to the third sound transmitting hole 221.

The third dust-proof member 341 and the third sealing member 342 may be disposed at any suitable position of the second sound-collecting hole 132, such as at the sound outlet end of the fourth sound-collecting hole 134.

Illustratively, the size of the sound outlet end of the fourth sound pickup hole 134 is larger than the size of the middle portion of the fourth sound pickup hole 134, so that the sound outlet end of the fourth sound pickup hole 134 can accommodate the third dust 341 and/or the third sealing member 342.

It will be appreciated that the third seal 342 may act as a buffer. When the handheld tripod head 100 is under the impact or collision, the handle housing 10 may be squeezed, impacted or vibrated, and at this time, the third sealing member 342 can play a certain buffering role to protect the second circuit board 22 and the third microphone 343, so as to improve the reliability and the service life of the third circuit board 20 and the third microphone 343. On the other hand, the third sealing member 342 can seal the third sound guide channel, so as to improve the reproduction of the audio recorded by the third microphone 343.

The third sealing member 342 may be made of any suitable material according to actual requirements. Illustratively, the third sealing member 342 is made of a material having elasticity, such as at least one of a soft rubber pad or a silicone sealing member.

The utility model discloses handheld cloud platform 100, when the user grips handle casing 10, the user is in the consideration of the convenience of use habit and operation, grips handle casing 10's middle part and well below usually, therefore the pickup hole 13 that the upper end 11 of neighbouring handle casing 10 set up can not sheltered from by the hand, each pickup hole 13 can not sheltered from by simultaneously when promptly the user grips handle casing 10 to pickup effect and user experience have been improved.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of various equivalent modifications or replacements within the technical scope of the present invention, and these modifications or replacements should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (17)

1. A handheld pan and tilt head, comprising:

a handle housing having an upper end and a lower end disposed opposite to each other; a plurality of sound pickup holes are arranged;

the circuit board is arranged in the handle shell;

the microphone assemblies are arranged in the handle shell and electrically connected with the circuit board, and each microphone assembly is arranged corresponding to one sound pickup hole;

wherein one of the pickup holes is arranged in the middle of the handle shell; another of the plurality of sound pick-up holes is disposed adjacent the upper end portion to avoid each of the sound pick-up holes being simultaneously obscured when a user grips the handle housing.

2. A handheld tripod head according to claim 1, wherein said handle housing has a plurality of side surfaces extending from said upper end to said lower end, each of said side surfaces being provided with at least one of said pickup holes to enable said handheld tripod head to pick up sound through 360 degrees.

3. A handheld holder according to claim 1, wherein said number of circuit boards is plural, and a plurality of said microphone assemblies are connected to a plurality of said circuit boards.

4. The handheld holder of any one of claims 1-3, wherein the plurality of pickup holes comprises a first pickup hole and a second pickup hole, the first pickup hole being disposed at a middle portion of the front surface of the handle housing, the second pickup hole being disposed adjacent to the upper end portion; the plurality of microphone assemblies comprise a first microphone assembly and a second microphone assembly, the first microphone assembly corresponds to the first sound pickup hole, and the second microphone assembly corresponds to the second sound pickup hole.

5. A handheld holder according to claim 4, wherein the circuit board comprises a first circuit board, the first and second microphone assemblies each being connected to the first circuit board.

6. A handheld holder according to claim 5, wherein the first microphone assembly comprises:

the first dust-proof piece is arranged in the first pickup hole;

a first seal disposed between the first circuit board and the handle housing;

the first microphone is arranged on the first circuit board, and the first dustproof piece, the first sealing piece, the first circuit board and the first microphone are sequentially arranged along the transmission direction of audio.

7. A handheld holder according to claim 6, wherein the first microphone assembly further comprises:

and the noise reduction piece is arranged in the first sound pickup hole and used for reducing wind noise of the audio frequency passing through the first sound pickup hole.

8. A handheld tripod head according to claim 7, wherein the noise reduction element comprises a foam layer, and the first dust prevention element, the foam layer, the first sealing element, the first circuit board and the first microphone are arranged in sequence along a transmission direction of audio.

9. A handheld holder according to claim 5, wherein the second microphone assembly comprises:

the second dust-proof piece is arranged in the second sound pick-up hole;

a second seal disposed between the first circuit board and the handle housing;

the second microphone is arranged on the first circuit board, and the second dustproof piece, the second sealing piece, the first circuit board and the second microphone are sequentially arranged along the transmission direction of audio.

10. A handheld cloud platform according to claim 5, wherein said second pick-up aperture is provided in a first side of said handle housing, said first side being connected to said front face.

11. The handheld holder of claim 10, wherein the plurality of microphone assemblies includes a third microphone assembly connected to the first circuit board, and wherein the plurality of pickup holes includes a third pickup hole disposed in correspondence with the third microphone assembly.

12. The handheld holder of claim 11, wherein the third pick-up aperture is disposed adjacent to the upper end and on a second side of the handle housing, the second side being opposite the first side.

13. A handheld holder according to claim 11, wherein the second microphone assembly has the same structure as the third microphone assembly.

14. A handheld holder according to claim 11, wherein the second and/or third pick-up aperture is a curved aperture.

15. A handheld holder according to claim 4, wherein the circuit board comprises a second circuit board, the plurality of microphone assemblies comprises a fourth microphone assembly connected to the second circuit board, and the plurality of microphone apertures comprises a fourth microphone aperture arranged to correspond to the fourth microphone assembly.

16. A handheld holder according to claim 15, wherein the fourth pick-up aperture is provided in a rear face of the handle housing, the rear face being disposed opposite the front face, and adjacent an upper end of the handle housing.

17. A handheld holder according to claim 15, wherein the fourth microphone assembly comprises:

the third dust prevention piece is arranged in the fourth pickup hole;

a third seal disposed between the second circuit board and the handle housing;

and the fourth microphone is arranged on the second circuit board, and the third dust prevention piece, the third sealing piece, the second circuit board and the fourth microphone are sequentially arranged along the transmission direction of audio.

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