CN209859289U - Remote controller with infrared remote control function and mobile phone shell - Google Patents

Abstract

The utility model relates to a cell-phone accessory technical field discloses a remote controller and cell-phone shell with infrared remote control function. The remote controller comprises a shell, a built-in circuit board and a battery, wherein the shell is provided with a first groove, the built-in circuit board and the battery are arranged in the first groove, the surface where a notch of the first groove is arranged is a first reference surface, the side surface is a second reference surface, the second reference surface is provided with a platform protruding outwards, and the first reference surface is provided with a viscous bottom plate; the built-in circuit board is provided with a control module, a wireless module, a signal transmitter and a signal receiver. The utility model discloses can be connected with intelligent terminal, convert bluetooth data into corresponding radio frequency signal or infrared signal, combine closely with intelligent terminal, can use remote control function at any time. The remote controller is small in size, easy to assemble and disassemble, compact in combination with the mobile phone shell, high in use comfort, suitable for mobile phone shells of all sizes and strong in applicability. The mobile phone shell is simple in process, easy to produce and low in cost.

Description

Remote controller with infrared remote control function and mobile phone shell

Technical Field

The utility model relates to a cell-phone accessory technical field has especially related to a remote controller and design of cell-phone shell with infrared remote control function.

Background

With the development of the mobile phone technology, in order to save space, many mobile phone manufacturers choose not to install a related remote controller of an infrared remote controller in the mobile phone, and the mobile phone also loses the infrared remote control function. In order to use this function when needed, many people use an external infrared remote controller to connect with the mobile phone through the earphone hole of the mobile phone or the USB interface. However, the new apple mobile phone adopts a design without a headset hole and a USB interface, which represents the development trend of the new generation mobile phones, and in order to match such a mobile phone, an infrared remote controller capable of being wirelessly connected with the mobile phone is required. In the prior art, a usb interface is usually adopted and needs to be plugged into a power adapter for use, or the usb interface is made into a shape of a common remote controller and is connected only in a bluetooth mode. The portable power supply is inconvenient to carry and easy to forget, and is large in size generally, and electricity needs to be plugged, so that the portable power supply is narrow in application range and low in practicability. There is the external remote controller who adopts the ring to detain the form among the prior art, for example the utility model patent of publication number CN208337640U, discloses a ring that indicates with remote control function detains, detain main part and control circuit board including the ring, control circuit board installs in indicating the ring and detains the main part, is equipped with battery, signal transmitter, signal receiver, bluetooth module and control module on the control circuit board, and control module is connected with battery, signal transmitter, signal receiver and bluetooth module respectively. The battery management module is connected with the battery; the ring buckle main part is provided with a charging port, the position of the charging port is opposite to the battery management module, and the charging port is connected with the battery management module. Although the ring buckle can be simply connected with the mobile phone, the problem that the mobile phone cannot be horizontally placed with the screen upwards can be caused, and the comfort level is poor when the mobile phone is taken at ordinary times. For example, the invention patent with the publication number of CN106850910A discloses a mobile phone shell with an infrared remote control function, which comprises a mobile phone shell body provided with a mobile phone data charging interface and a mobile phone shell data charging interface, wherein the back surface of the mobile phone shell body is provided with a solid keyboard connected with the mobile phone shell data charging interface, and the mobile phone shell body is internally provided with an infrared receiving and transmitting module connected with the mobile phone data charging interface. The high integration of cell-phone shell and remote controller can be accomplished to this type of product, but need the different cell-phone shells of customization very much to the cell-phone of different brands models, and the suitability is poor, and the cost is too high.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the suitability is strong among the prior art, and shortcoming that use comfort is high provides a remote controller and cell-phone shell with infrared remote control function.

The utility model discloses utilized the thickness difference of cell-phone shell itself to hide the thickness of remote controller, the installation back remote controller inlays on the cell-phone shell in other words, has solved the unable screen of cell-phone and has upwards kept flat the problem. Meanwhile, the remote controller is provided with the protruding edge platform, the purpose of fixing the remote controller is achieved by clamping the platform between the mobile phone and the mobile phone, the remote controller is very convenient to use, the remote controller can be installed only by opening a through hole with a proper size in the mobile phone shell, the remote controller is independent of the size and the material of the mobile phone shell, and the remote controller is suitable for most of mobile phone shells and wide in application range.

In order to solve the technical problem, the utility model discloses a following technical scheme can solve:

a remote controller with an infrared remote control function comprises a shell and a built-in circuit board, wherein the built-in circuit board is arranged in the shell, a first groove is formed in the shell, and the built-in circuit board is arranged in the first groove; the built-in circuit board is provided with a control module, a wireless module, a signal transmitter and a signal receiver, and the control module is respectively connected with the wireless module, the signal transmitter and the signal receiver; or the wireless module and the control module are integrated in the same chip, and the built-in circuit board is also provided with a vibration sensor which is connected with the control module.

The vibration sensor is used as a second switch, and when the vibration sensor detects a violent shaking signal, the vibration sensor sends a signal to the control module, so that the whole built-in circuit board is awakened, and the remote control function is started. The user can turn on or off the 'shake-shake' function controlled by the shake motion through the app associated with the remote controller.

Preferably, the shell structure comprises the following three schemes:

firstly, a fourth through groove is formed in the shell, a metal electrode is connected to the charging contact, and the metal electrode penetrates through the fourth through groove and extends to the surface of the shell;

or in the second type, the shell is not provided with a fourth through groove, the built-in circuit board is provided with a charging port, and the charging port is connected with the charging contact; a fifth through groove corresponding to the position of the charging port is formed in the shell;

or the third type, be equipped with the fourth simultaneously and lead to groove and fifth on the casing and lead to the groove, be equipped with the mouth that charges on the built-in circuit board, connect metal electrode on the contact that charges, metal electrode passes from the fourth and leads to the inslot, extends to the casing surface, and the mouth position that charges corresponds with the fifth groove.

When the electric quantity is light-consuming, must in time charge in order to continue to use, can be through connecting conductive contact transmission electric power this moment, the joint type that charges can be electrically conductive clip, can directly clip the remote controller and contact with the metal electrode, and it is very convenient to use, and small conveniently deposits. Or adopt USB to charge mouthful, this kind of mouth application scope that charges is wide, as long as have the data line just can charge for the remote controller, convenient to use, or both kinds of modes have.

Preferably, the surface where the first groove notch is located is a first reference surface, the side surface connected with the first reference surface is a second reference surface, and the second reference surface is provided with a platform protruding outwards; and the viscous bottom plate covers the notch of the first groove and encloses a closed cavity together with the first groove.

The platform forms a flange structure. The adhesive bottom plate seals the built-in circuit board in the shell, and the other side of the adhesive bottom plate is in contact with the back face of the mobile phone. When using, earlier the casing passes through "through-hole" on the cell-phone shell, blocks up to the platform by "through-hole" edge, installs the cell-phone shell again on the cell-phone, and the platform is pressed from both sides between cell-phone shell and cell-phone to make the remote controller fix at the cell-phone back. All, the module closely integrates on same piece built-in circuit board for the remote controller can accomplish very thinly, and is very light, and remote controller thickness is very little, is less than 5mm at least, consequently can hide most thickness in the cell-phone, reduces the hindrance to cell-phone normal use, improves the use comfort when taking, makes things convenient for daily use. When the intelligent mobile terminal is used, the intelligent mobile terminal does not need to be connected with the intelligent mobile terminal on hardware, and the intelligent mobile terminal is suitable for all intelligent mobile devices, convenient to carry and high in practicability.

Preferably, the built-in circuit board is also provided with a switch, a power supply management module and a charging contact, the control module is respectively connected with the switch and the power supply management module, and the charging contact is connected with the power supply management module; the shell structure comprises the following two schemes:

the first type is characterized in that a third through groove corresponding to the switch position is further formed in the shell, and the switch penetrates through the third through groove;

or the second way, the third through groove is not arranged on the shell, and the shell is made of elastic materials.

The switch is used for controlling the opening and closing of the function of the built-in circuit board, a user can wake up the built-in circuit board to use the remote control function by pressing the switch, or the user presses the switch after finishing using to enable the built-in circuit board to sleep and enter into a standby state with ultra-small power consumption, so that the electric quantity is effectively saved, and the built-in circuit board can be used for about 3 weeks after being fully charged. Compare and be in the scheme that the state of opening waited for the smart machine to connect always, open always and can lead to consuming the electric quantity too fast, energy utilization is rateed lowly, and needs often to charge, uses inconveniently.

Preferably, the built-in circuit board is further provided with an antenna, the antenna is connected with the wireless module, and the first reference surface is perpendicular to the second reference surface. The wireless module is used for carrying out wireless signal connection with the mobile phone, and the wireless signal can be a Bluetooth signal. The antenna is used for increasing the signal strength and expanding the signal receiving range.

Preferably, still be equipped with wireless charging coil, wireless charging coil locates in the first recess, and wireless charging coil is connected with power management module.

Preferably, the shell structure comprises the following five schemes:

firstly, the shell is a light-transmitting shell;

or the second type, the shell is a light-tight shell, the shell is provided with a first through groove, the signal emitter and the signal receiver are inserted into the first through groove, and the first through groove is arranged at the bottom or on the wall of the first groove;

or thirdly, the shell is a light-tight shell, a first through groove is formed in the shell, the signal emitter and the signal receiver are aligned to the first through groove, a light-transmitting plate for covering the whole notch is arranged on the first through groove, and the first through groove is formed in the groove bottom or the groove wall of the first groove;

or the fourth way, the shell is a light-tight shell, a plurality of second through grooves are arranged on the shell, the signal emitter and the signal receiver are inserted into different second through grooves, and the second through grooves are arranged at the bottom or on the wall of the first groove;

or the fifth way, the shell is a light-tight shell, a plurality of second through grooves are arranged on the shell, the signal emitter and the signal receiver are aligned to the different second through grooves, a light-passing plate is respectively arranged on each second through groove, and the second through grooves are arranged at the bottom or the wall of the first groove.

The signal transmitter and the signal receiver can be inserted into the same through groove or aligned to the same through groove, the cross section of the through groove is in a long strip shape, the ejected infrared signal is ejected outwards through the through groove, and the signal transmitter and the signal receiver can also be respectively inserted into the through grooves which are not communicated with each other or aligned to different through grooves, and the light transmission plate can not obstruct the signal ejection on the basis of protecting the internal structure.

Preferably, the built-in circuit board is further provided with a plurality of indicator lamps, the indicator lamps are respectively connected with the control module, and the setting modes of the indicator lamps, the signal transmitter and the signal receiver comprise the following four schemes:

firstly, an indicator light, a signal transmitter and a signal receiver are inserted into a first through groove together;

or secondly, the indicator light, the signal transmitter and the signal receiver are aligned to the first through groove together, and a light-transmitting plate for covering the whole groove opening is arranged on the first through groove;

or thirdly, the indicator light, the signal transmitter and the signal receiver are inserted into different second through grooves;

or fourthly, the indicator light, the signal transmitter and the signal receiver are respectively aligned to different second through grooves, and each second through groove is provided with a light-transmitting plate.

Preferably, the arrangement mode of the signal transmitter and the signal receiver comprises the following three schemes:

first, the signal transmitter and the signal receiver are respectively an infrared transmitter and an infrared receiver;

or the second type, the signal transmitter and the signal receiver are respectively an infrared transmitter and a radio frequency receiver;

or thirdly, the signal transmitter and the signal receiver are respectively a radio frequency transmitter and an infrared receiver.

The utility model provides a cell-phone shell with infrared remote control function, includes cell-phone shell main part and foretell a remote controller with infrared remote control function, the combination mode of cell-phone shell main part and remote controller includes following two kinds of schemes: firstly, a first through hole is formed in the mobile phone shell body, the remote controller penetrates through the first through hole, the platform is in contact with the surface of the mobile phone shell body, and the area of the shape enclosed by the edge of the platform is larger than the area of the cross section of the first through hole;

or the second, the casing and the cell-phone shell main part integrated into one piece of remote controller, first recess setting are in the cell-phone shell main part, and built-in circuit board sets up in first recess, and viscidity bottom plate covers at first recess notch.

A part of the remote controller is arranged in the first through hole, and the thickness of the mobile phone shell is utilized to hide the thickness of the mobile phone shell. The platform is blocked by the cell-phone shell, can't pass through first through-hole, therefore the platform presss from both sides between cell-phone and cell-phone shell, plays the effect of fixed remote controller. Or the first through groove is directly formed in the mobile phone shell body, and the built-in circuit board is sealed in the first through groove by the sticky bottom plate, so that the built-in circuit board and the mobile phone shell body are integrated together.

The utility model discloses owing to adopted above technical scheme, have apparent technological effect: can be connected with intelligent terminal, convert bluetooth data into corresponding radio frequency signal or infrared signal, combine closely with intelligent terminal, can use remote control function at any time. Small, easy dismouting combines closely with the cell-phone shell, does not hinder the cell-phone level and places, and use comfort is high, is applicable to the cell-phone shell of all sizes, and the suitability is strong.

Drawings

Fig. 1 is a schematic structural diagram of a remote controller according to embodiment 1 of the present invention.

Fig. 2 is a schematic structural diagram of a built-in circuit board according to embodiment 2 of the present invention.

Fig. 3 is a schematic view of a housing structure of embodiment 3 of the present invention.

Fig. 4 is a schematic diagram of a built-in circuit board structure according to embodiment 3 of the present invention.

Fig. 5 is a schematic view of a housing structure of embodiment 4 of the present invention.

Fig. 6 is a first schematic view of a housing structure according to embodiment 5 of the present invention.

Fig. 7 is a schematic view of a housing structure of embodiment 5 of the present invention.

Fig. 8 is the utility model discloses embodiment 6's wireless charging coil structure schematic diagram.

Fig. 9 is a schematic structural view of a mobile phone case according to embodiment 8 of the present invention.

Fig. 10 is a first schematic view of the embodiment 8 of the present invention.

Fig. 11 is a second schematic view of embodiment 8 of the present invention.

Fig. 12 is a third schematic view of embodiment 8 of the present invention.

Fig. 13 is a schematic structural view of a mobile phone case according to embodiment 9 of the present invention.

Fig. 14 is a schematic view of a housing structure of embodiment 10 of the present invention.

Fig. 15 is a schematic structural diagram of a built-in circuit board according to embodiment 10 of the present invention.

Fig. 16 is a first schematic view of embodiment 11 of the present invention.

Fig. 17 is a second schematic view of embodiment 11 of the present invention.

The names of the parts indicated by the numerical references in the above figures are as follows: the mobile phone comprises a shell 1, a shell 2, a built-in circuit board, a battery 3, a mobile phone shell body 9, a mobile phone shell body 101, a first groove, a first reference surface 102, a second reference surface 103, a platform 104, a viscous bottom plate 105, a first through groove 106, a second through groove 107, a transparent plate 108, a third through groove 109, a fourth through groove 1010, a fifth through groove 1011, a control module 201, a wireless module 202, a signal transmitter 203, a signal receiver 204, a switch 205, a power management module 206, a charging contact 207, a vibration sensor 208, a charging port 209, an antenna 2010, a wireless charging coil 2011, a first through hole 901 and a metal electrode 2071.

Detailed Description

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

Example 1

As shown in fig. 1, a remote controller with infrared remote control function includes a housing 1 and a built-in circuit board 2, the built-in circuit board 2 is disposed in the housing 1, and is characterized in that: a first groove 101 is formed in the housing 1, and the built-in circuit board 2 is arranged in the first groove 101; the built-in circuit board 2 is provided with a control module 201, a wireless module 202, a signal transmitter 203 and a signal receiver 204, and the control module 201 is respectively connected with the wireless module 202, the signal transmitter 203 and the signal receiver 204; or the wireless module 202 and the control module 201 are integrated in the same chip, the built-in circuit board 2 is further provided with a vibration sensor 208, and the vibration sensor 208 is connected with the control module 201.

Example 2

As shown in fig. 2, a switch 205, a power management module 206 and a charging contact 207 are further disposed on a built-in circuit board 2, a control module 201 is connected to the switch 205 and the power management module 206, the charging contact 207 is connected to the power management module 206, and a battery 3 is connected to the power management module 206. The casing 1 is provided with a fourth through slot 1010, the charging contact 207 is connected with a metal electrode 2071, and the metal electrode 2071 penetrates through the fourth through slot 1010 and extends to the surface of the casing 1. The battery contact 207 can be arranged on the front side or the back side of the built-in circuit board 2, the fourth through groove 1010 can be arranged on the front side, the back side or the side of the casing 1, the metal electrode 2071 can be led out to the front side, the back side or the side of the casing through the fourth through groove, in the embodiment, the charging contact 207 is arranged on the back side of the built-in circuit board 2, the fourth through groove 1010 is arranged on the back side of the casing 1, and the metal electrode 2071 is led out to the back side of.

The built-in circuit board 2 is further provided with an antenna 2010, and the antenna 2010 is connected to the wireless module 202.

The rest is the same as example 1.

Example 3

As shown in fig. 3 and 4, a remote controller with an infrared remote control function includes a housing 1, a built-in circuit board 2 and a battery 3, the battery 3 and the built-in circuit board 2 are disposed in the housing 1, the housing 1 is provided with a first groove 101, the built-in circuit board 2 and the battery 3 are disposed in the first groove 101, the built-in circuit board 2 is provided with a control module 201, a wireless module 202, a signal transmitter 203 and a signal receiver 204, the control module 201 is connected with the wireless module 202, the signal transmitter 203 and the signal receiver 204, and the built-in circuit board 2 is connected with the battery 3. The built-in circuit board 2 is further provided with a vibration sensor 208, and the vibration sensor 208 is connected with the control module 201.

The surface where the notch of the first groove 101 is located is a first reference surface 102, the side surface connected with the first reference surface 102 is a second reference surface 103, and the second reference surface 103 is provided with a platform 104 protruding outwards; the first reference surface 102 is provided with an adhesive bottom plate 105, and the adhesive bottom plate 105 covers the notch of the first groove 101 and encloses a closed cavity together with the first groove 101. The rest is the same as example 2.

Example 4

As shown in fig. 5, in the remote controller with the infrared remote control function, a charging port 209 is provided on the built-in circuit board 2; the housing 1 is provided with a fifth through-groove 1011 at a position corresponding to the position of the charging port 209. The housing 1 is a light-tight housing, a first through groove 106 is formed in the housing 1, the signal transmitter 203 and the signal receiver 204 are inserted into the first through groove 106, and the light-transmitting plates 108 covering the whole groove opening are respectively arranged on the first through groove 106. The built-in circuit board 2 is further provided with a plurality of indicator lamps, the indicator lamps are respectively connected with the control module 201, and the indicator lamps, the signal transmitter 203 and the signal receiver 204 are inserted into the first through groove 106 together. The signal transmitter 203 and the signal receiver 204 are an infrared transmitter and an infrared receiver, respectively. The housing 1 is further provided with a third through groove 109 corresponding to the position of the switch 205, and the switch 205 passes through the third through groove 109. The rest is the same as example 3.

Example 5

As shown in fig. 6 and 7, a remote controller with an infrared remote control function is provided with a fourth through slot 1010 and a fifth through slot 1011 at the same time, a charging port 209 is provided on the internal circuit board 2, a metal electrode 2071 is connected to the charging contact 207, and the metal electrode 2071 extends to the surface of the housing 1 through the fourth through slot 1010; the charging port 209 is positioned corresponding to the fifth through-groove 1011, and the charging port 209 is provided on the front surface of the built-in circuit board 2.

The housing 1 is provided with a plurality of second through slots 107, and the signal transmitter 203 and the signal receiver 204 are inserted into different second through slots 107. The built-in circuit board 2 is further provided with a plurality of indicator lamps, and the indicator lamps, the signal transmitter 203 and the signal receiver 204 are inserted into different second through grooves 107. The signal transmitter 203 and the signal receiver 204 are an infrared transmitter and a radio frequency receiver, respectively. The third through groove 109 is not formed in the housing 1, and the housing 1 is made of an elastic material. The rest is the same as example 3.

Example 6

As shown in fig. 8, a remote controller with an infrared remote control function is further provided with a wireless charging coil 2011, the wireless charging coil 2011 is disposed in the first groove 101, and the wireless charging coil 2011 is connected with the power management module 206. The wireless charging coil 2011 can be disposed on the front and back sides of the internal circuit board 2, and the wireless charging coil 2011 is disposed on the back side of the internal circuit board 2 in this embodiment and attached to the back side of the internal circuit board 2, and the rest are the same as those in embodiment 5.

Example 7

A wireless module 202 and a control module 201 are integrated in the same chip. The rest is the same as example 3.

Example 8

As shown in fig. 9 to 12, a mobile phone case with an infrared remote control function includes a mobile phone case body 9 and the remote controller with an infrared remote control function described above, the mobile phone case body 9 is provided with a first through hole 901, the remote controller passes through the first through hole 901, the platform 104 contacts with the surface of the mobile phone case body 9, and the area of the shape enclosed by the edge of the platform 104 is larger than the area of the cross-sectional shape of the first through hole 901. The cross section of the remote controller in the embodiment is rectangular. Be equipped with vibration sensor 208 in the remote controller, rock the cell-phone and can open the remote controller function, rock and open the function and can pass through the APP setting.

After the remote controller is started, the remote controller is connected with intelligent equipment, such as a mobile phone, through Bluetooth or other wireless signals; the user sends the remote control instruction to the remote controller through APP, and the remote controller sends infrared signal or radio frequency signal with the instruction conversion who receives to control other electrical apparatus.

The remote controller still has the learning function, and the user assigns the learning instruction to the remote controller through APP, and the remote controller receives the external signal that begins to learn self signal receiver after the instruction, is convenient for match different grade type and the electrical apparatus of producer. During learning, the original remote controller of the electric appliance to be controlled needs to be aligned to a signal receiver of the remote controller, and buttons are pressed in sequence to send out different control signals. In this embodiment, the first through groove 106 of the remote controller is disposed on the groove wall of the first groove 101.

Example 9

As shown in fig. 13, a mobile phone housing with an infrared remote control function includes a mobile phone housing main body 9 and the remote controller with an infrared remote control function described above, the mobile phone housing main body 9 is provided with a first through hole 901, the remote controller passes through the first through hole 901, the platform 104 contacts with the surface of the mobile phone housing main body 9, and the area of the shape enclosed by the edge of the platform 104 is larger than the area of the cross-sectional shape of the first through hole 901. The remote controller case 1 in this embodiment is circular, and the rest is the same as embodiment 8.

Example 10

As shown in fig. 14 and 15, in the remote controller with the infrared remote control function, the signal emitter is a chip diode, the signal emitter 203 and the signal receiver 204 are aligned with the first through groove 106, the housing 1 is opaque, and the first through groove 106 is disposed on the bottom of the first recess 101. The first through groove 106 is provided with a light-transmitting plate 108 covering the whole groove opening. The rest is the same as example 3.

Example 11

As shown in fig. 16 and 17, in the remote controller with the infrared remote control function, the signal emitter 203 is a chip diode, the housing 1 is transparent, and the signal emitter 203 is aligned with the bottom of the first groove 101.

The utility model provides a cell-phone shell with infrared remote control function, includes cell-phone shell main part 9 and foretell a remote controller with infrared remote control function, is equipped with first through-hole 901 on the cell-phone shell main part 9, the remote controller passes from first through-hole 901, and platform 104 contacts with cell-phone shell main part 9 surface, and the area of the shape that the platform 104 edge was enclosed is greater than the area of first through-hole 901 cross-sectional shape.

Example 12

The utility model provides a cell-phone shell with infrared remote control function, includes cell-phone shell main part 9 and foretell a remote controller with infrared remote control function, the casing 1 and the 9 integrated into one piece of cell-phone shell main part of remote controller, and first recess 101 sets up on cell-phone shell main part 9, and built-in circuit board 2 and battery 3 set up in first recess 101, and viscidity bottom plate 105 covers at first recess 101 notch.

Example 13

A remote controller with infrared remote control function is provided, wherein two signal transmitters 203 are provided, and one signal receiver 204 is provided. The rest is the same as example 3.

Example 14

A remote controller with infrared remote control function is provided, wherein one signal emitter 203 is provided, and two signal receivers 204 are provided. The rest is the same as example 3.

In short, the above description is only a preferred embodiment of the present invention, and all the equivalent changes and modifications made in accordance with the claims of the present invention should be covered by the scope of the present invention.

Claims (10)

1. The utility model provides a remote controller with infrared remote control function, includes casing (1) and built-in circuit board (2), and built-in circuit board (2) set up in casing (1), its characterized in that: a first groove (101) is formed in the shell (1), and the built-in circuit board (2) is arranged in the first groove (101); the built-in circuit board (2) is provided with a control module (201), a wireless module (202), a signal transmitter (203) and a signal receiver (204), and the control module (201) is respectively connected with the wireless module (202), the signal transmitter (203) and the signal receiver (204); or the wireless module (202) and the control module (201) are integrated in the same chip, the built-in circuit board (2) is further provided with a vibration sensor (208), and the vibration sensor (208) is connected with the control module (201).

2. The remote controller with infrared remote control function according to claim 1, characterized in that: the structure of the shell (1) comprises the following three schemes:

firstly, a fourth through groove (1010) is formed in a shell (1), a metal electrode (2071) is connected to a charging contact (207), and the metal electrode (2071) penetrates through the fourth through groove (1010) and extends to the surface of the shell (1);

or secondly, the shell (1) is not provided with a fourth through groove (1010), the built-in circuit board (2) is provided with a charging port (209), and the charging port (209) is connected with the charging contact (207); a fifth through groove (1011) corresponding to the position of the charging port (209) is arranged on the shell (1);

or the third kind, be equipped with fourth logical groove (1010) and fifth logical groove (1011) simultaneously on casing (1), be equipped with on built-in circuit board (2) and charge mouthful (209), connect metal electrode (2071) on charging contact (207), metal electrode (2071) passes from fourth logical groove (1010), extends to casing (1) surface, it is corresponding with fifth logical groove (1011) to charge mouthful (209) position.

3. The remote controller with infrared remote control function according to claim 1, characterized in that: setting the surface where the notch of the first groove (101) is positioned as a first reference surface (102), setting the side surface connected with the first reference surface (102) as a second reference surface (103), and arranging a platform (104) which protrudes outwards on the second reference surface (103); an adhesive bottom plate (105) is arranged on the first reference surface (102), and the adhesive bottom plate (105) covers the notch of the first groove (101) and encloses a closed cavity together with the first groove (101).

4. The remote controller with infrared remote control function according to claim 1, characterized in that: the built-in circuit board (2) is also provided with a switch (205), a power management module (206) and a charging contact (207), the control module (201) is respectively connected with the switch (205) and the power management module (206), and the charging contact (207) is connected with the power management module (206); the structure of the shell (1) comprises the following two schemes:

firstly, a third through groove (109) corresponding to the position of the switch (205) is further formed in the shell (1), and the switch (205) penetrates through the third through groove (109);

or secondly, the shell (1) is not provided with a third through groove (109), and the shell (1) is made of elastic materials.

5. The remote controller with infrared remote control function according to claim 1, characterized in that: the built-in circuit board (2) is further provided with an antenna (2010), the antenna (2010) is connected with the wireless module (202), and the first reference surface (102) is perpendicular to the second reference surface (103).

6. The remote controller with infrared remote control function according to claim 2, characterized in that: still be equipped with wireless charging coil (2011), wireless charging coil (2011) is located first recess (101), and wireless charging coil (2011) is connected with power management module (206).

7. The remote controller with infrared remote control function according to claim 1, characterized in that: the structure of the shell (1) comprises the following five schemes:

firstly, the shell (1) is a light-transmitting shell;

or secondly, the shell (1) is a light-tight shell, a first through groove (106) is formed in the shell (1), the signal emitter (203) and the signal receiver (204) are inserted into the first through groove (106), and the first through groove (106) is formed in the groove bottom or the groove wall of the first groove (101);

or thirdly, the shell (1) is a light-tight shell, a first through groove (106) is formed in the shell (1), the signal emitter (203) and the signal receiver (204) are aligned to the first through groove (106), a light-transmitting plate (108) for covering the whole notch is arranged on the first through groove (106), and the first through groove (106) is formed in the groove bottom or the groove wall of the first groove (101);

or fourthly, the shell (1) is a light-tight shell, a plurality of second through grooves (107) are formed in the shell (1), the signal emitter (203) and the signal receiver (204) are inserted into the different second through grooves (107), and the second through grooves (107) are formed in the bottom or the wall of the first groove (101);

or fifthly, the shell (1) is a light-tight shell, a plurality of second through grooves (107) are formed in the shell (1), the signal emitter (203) and the signal receiver (204) are aligned to the different second through grooves (107), a light-transmitting plate (108) is arranged on each second through groove (107), and the second through grooves (107) are formed in the groove bottom or the groove wall of the first groove (101).

8. The remote controller with infrared remote control function according to claim 7, characterized in that: the built-in circuit board (2) is also provided with a plurality of indicator lights which are respectively connected with the control module (201), and the setting modes of the indicator lights, the signal transmitter (203) and the signal receiver (204) comprise the following four schemes:

firstly, an indicator light, a signal transmitter (203) and a signal receiver (204) are inserted into a first through groove (106) together;

or secondly, the indicator light, the signal transmitter (203) and the signal receiver (204) are aligned to the first through groove (106), and a light-transmitting plate (108) for covering the whole notch is arranged on the first through groove (106);

or thirdly, the indicator light, the signal transmitter (203) and the signal receiver (204) are inserted into different second through grooves (107);

or fourthly, the indicator light, the signal transmitter (203) and the signal receiver (204) are respectively aligned to different second through grooves (107), and each second through groove (107) is provided with a light-transmitting plate (108).

9. The remote controller with infrared remote control function according to claim 1, characterized in that: the arrangement mode of the signal transmitter (203) and the signal receiver (204) comprises the following three schemes:

firstly, the signal transmitter (203) and the signal receiver (204) are respectively an infrared transmitter and an infrared receiver;

or secondly, the signal transmitter (203) and the signal receiver (204) are respectively an infrared transmitter and a radio frequency receiver;

or thirdly, the signal transmitter (203) and the signal receiver (204) are respectively a radio frequency transmitter and an infrared receiver.

10. The utility model provides a cell-phone shell with infrared remote control function which characterized in that: the mobile phone shell body (9) and the remote controller with the infrared remote control function as claimed in any one of claims 1 to 9 are included, and the combination mode of the mobile phone shell body (9) and the remote controller comprises the following two schemes: firstly, a first through hole (901) is formed in a mobile phone shell body (9), a remote controller penetrates through the first through hole (901), a platform (104) is in contact with the surface of the mobile phone shell body (9), and the area of the shape enclosed by the edge of the platform (104) is larger than the area of the cross section of the first through hole (901);

or secondly, the casing (1) of the remote controller and the mobile phone shell body (9) are integrally formed, the first groove (101) is formed in the mobile phone shell body (9), the built-in circuit board (2) is arranged in the first groove (101), and the notch of the first groove (101) is covered by the adhesive bottom plate (105).