CN115151074B

CN115151074B - Remote controller shell structure

Info

Publication number: CN115151074B
Application number: CN202210949433.6A
Authority: CN
Inventors: 袁凤群
Original assignee: Shenzhen Yamei Display Products Co ltd
Current assignee: Shenzhen Yamei Display Products Co ltd
Priority date: 2022-08-09
Filing date: 2022-08-09
Publication date: 2024-01-09
Anticipated expiration: 2042-08-09
Also published as: CN115151074A

Abstract

The invention discloses a remote controller shell structure, which comprises an energy storage device, wherein the energy storage device comprises a third shell, a battery cabin, a first electrode plate, a second electrode plate, a battery cover and a connecting sheet, and is used for placing a battery and preventing the battery from falling out; the clamping device comprises clamping strips and guide rail strips, and can carry out clamping limit on the third shell; the buffer device comprises a first spring and a gasket, and can buffer the impact force when falling; the covering device comprises a sliding cover, a convex column button, a display screen and a second spring, so that the total number of buttons above the remote controller can be reduced, the daily use is convenient, and the trouble of finding the buttons is avoided; the protection device comprises a connecting plate, a torsion spring, a piece first and a push rod, and the piece first can be opened through the torsion spring by the displacement of the third shell when falling, so that the piece first is positioned at two sides of the first shell and the second shell, the first shell and the second shell are prevented from directly contacting the ground, the first shell and the second shell are prevented from colliding with, and the remote controller shell is protected.

Description

Remote controller shell structure

Technical Field

The invention relates to the field of electric equipment shells, in particular to a remote controller shell structure.

Background

The remote controller is commonly used in home for controlling control equipment of various electric appliances, but in the use process of the traditional remote controller, the remote controller is often placed on a table top or a table top temporarily, and the remote controller can slide off due to the fact that the traditional remote controller is simple in structure, poor in anti-falling performance and free of corresponding protective measures, after the remote controller falls on the ground, the shell is easy to collide and damage, the battery cabin cover is likely to fall off, internal batteries roll out, the remote controller is damaged, and the remote controller cannot be used when serious.

A mobile device securing assembly for a remote control as set forth in CN201610206631.8 and a remote control comprising: the sliding rail bracket is fixed in the shell of the remote controller; the sliding rail support is of a hollow structure, and an outer side port of the sliding rail support is communicated with a preset opening on the shell of the remote controller; the sliding rail structure is arranged in the sliding rail bracket in a reciprocating sliding manner; the top side of the outer wall of the sliding rail structure is also provided with a clamping limit baffle; under the condition that the remote controller does not clamp the mobile equipment, the outer end of the sliding rail structure is attached to the shell of the remote controller; and under the condition that the remote controller clamps the mobile equipment, the outer end of the sliding rail structure extends out of the preset opening, so that the mobile equipment is clamped between the clamping limiting baffle and the outer end of the sliding rail structure. Through this disclosed technical scheme, can reduce the occupation space of remote controller, promote the portability of remote controller, but this technical scheme lacks the protection to remote controller self, can't play the effect that prevents the casing and collide with.

When the remote controller falls, the invention can carry out force-unloading protection on the remote controller, prevent the shell from being knocked and damaged, and simultaneously prevent the internal battery from rolling out, thereby prolonging the service life of the remote controller and preventing the remote controller from being accidentally damaged.

Disclosure of Invention

In order to solve the above problems, the present invention provides a remote control casing structure, which can protect the remote control from being detached when the remote control falls, prevent the casing from being knocked and damaged, and simultaneously prevent the internal battery from rolling out, thereby prolonging the service life of the remote control and preventing the remote control from being accidentally damaged.

The invention provides a remote controller shell structure, which comprises a first shell and a second shell arranged above the first shell, wherein the front ends of the first shell and the second shell are provided with light-transmitting sheets for transmitting infrared signals, the lower part of the first shell is arc-shaped, so that the comfort during grasping can be improved, the inner side of the first shell is provided with a plurality of separation plates for installing a circuit board, the second shell is in a ladder shape, one high end of the second shell is provided with a silica gel button, one low end of the second shell is provided with a dome button, and the remote controller shell further comprises: the energy storage devices are arranged at the rear ends of the first shell and the second shell in a sliding mode and are used for installing batteries and preventing the batteries from falling out; the clamping device is arranged at the inner side of the energy storage device and used for clamping and limiting the energy storage device; the buffer device is arranged at the inner side of the energy storage device and is used for buffering the impact force when falling; the cover device is arranged above the energy storage device in a sliding manner and is used for covering the dome buttons; the protection device arranged below the first shell can protect the shell of the remote controller when falling down, and prevent collision.

Further, energy memory includes the third casing of slidingtype locating first casing and second casing rear end, and third casing rear end is equipped with the battery compartment for place the battery, be equipped with first electrode piece and second electrode piece in the battery compartment, be used for connecting the positive negative pole of battery, third casing rear end is equipped with the battery lid, and the battery lid is made for elastic material, can insulating buffering, and the battery lid upper end is equipped with the card post, installs in third casing rear end top, and the battery lid middle part is equipped with the cooperation battery compartment arch, can install in the battery compartment and fix, still be equipped with the connection piece on the arch for connect two batteries, the battery lid lower extreme is equipped with the breach, is convenient for open the battery lid, makes the battery lid break away from the third casing.

Further, the screens device is including being fixed in the inside both sides of first casing card strip, and the card strip is the elastic metal strip of fifty percent discount, and the card strip upper end is equipped with three archs, and the card strip lower extreme is equipped with the fluting, still including being fixed in the inboard guide rail strip of third, in the card strip is located to the guide rail strip activity, the guide rail strip is "T" font, can improve the structural strength of guide rail strip, agrees with card strip lower extreme fluting, can carry out spacingly to the guide rail strip, prevents that the guide rail strip from controlling to remove, and guide rail strip upper end is equipped with the arch, can block into in the arch of three places of card strip for screens and spacing.

Further, the buffer device comprises a first spring fixed in the third shell and a gasket arranged at the front end of the first spring, and force can be discharged through buffer of the first spring, so that the shell is protected.

Further, the cover device comprises a sliding cover which is slidably arranged above the third shell through a sliding rail, a convex column button is arranged on the sliding cover, a part of dome buttons on the second shell can be pressed through the convex column button, a display screen is further arranged on the sliding cover and used for displaying remote control values and basic information, a second spring is arranged behind the sliding cover and connected with the third shell, and the buffering process of the third shell is avoided being interfered.

Further, the protector includes the connecting plate of rotationally locating first casing below both sides, and the junction is equipped with the torsional spring, and the terminal rotation of connecting plate is equipped with the first, and the first is made for silica gel material, has elasticity, can cushion when dropping, and the junction also is equipped with the torsional spring, still includes the push rod on the baffle is located to the slidingtype, and the push rod rear is equipped with the extension spring and connects the baffle.

Further, the first shell is in an arc-shaped structure, the second buckle and the third buckle are arranged on the inner side of the first shell, and the first shell is provided with an opening which is in fit with the second buckle, so that the first shell can be fixed in an auxiliary mode, and the first shell is accommodated below the first shell.

Further, the push rod both sides are equipped with the branch, and the branch end is located card strip below, and the push rod below is equipped with the cardboard for block the third buckle, be equipped with on the first casing with the limit groove of cardboard agreeing with.

Furthermore, the bottom of the sliding cover is in a ladder shape, and the front end of the sliding rail is provided with a first buckle, so that the sliding cover can be limited, the sliding cover is prevented from moving forward, and the sliding cover moves along with the third housing.

The beneficial effects are that:

1. the third casing slidingtype locates energy memory first casing and second casing rear end, the top of third casing is located to the sliding closure slidingtype, be equipped with the projection button on the sliding closure, can press the partial pot young piece button on the second casing through the projection button, still be equipped with the display screen on the sliding closure for show remote control numerical value and basic information, can hide the pot young piece button of below through the sliding closure covering effect, reduce remote controller top button total number, the daily use of being convenient for has avoided looking for the loaded down with trivial details of button, when pulling out the third casing, make the sliding closure lose the covering effect to pot young piece button, the use of being convenient for pot young piece button carries out corresponding remote control operation, satisfy different user demands.

2. The third casing rear end is equipped with the battery compartment for place the battery, and the third casing rear end is equipped with the battery lid, and the battery lid is made for elastic material, and the battery lid upper end is equipped with the card post, inserts in third casing rear end top, and the battery lid middle part is equipped with the battery compartment of agreeing with protruding, can insert in the battery compartment and fix, still is equipped with the connection piece on the arch for connect two batteries, can make this remote controller shell rear end fall to the ground earlier through the weight of battery, makes the battery lid contact ground earlier, through the elasticity buffering partial component of battery lid, and makes the battery lid can not open because of falling, prevents that the battery from rolling out.

3. The connecting plate rotation type is located first casing below both sides, the junction is equipped with the torsional spring, the terminal rotation of connecting plate is equipped with the first, the first silica gel material of piece is made, elasticity has, the first inboard second buckle and the third buckle of being equipped with of piece, the junction also is equipped with the torsional spring, push rod slidingtype is located on the baffle, the push rod rear is equipped with the extension spring and connects the baffle, the push rod both sides are equipped with the branch, the branch end is located card strip below, the push rod below is equipped with the cardboard for block the third buckle, be equipped with the spacing groove with the cardboard agreeing with on the first casing, can be through the displacement of third casing when falling, make the third buckle break away from the cardboard, make the first both sides that are located first casing and second casing of piece through the torsional spring opening, thereby avoid first casing and second casing direct contact ground, prevent the collision of first casing and second casing, thereby protect this remote controller shell.

The realization, functional characteristics and advantages of the present invention are further described with reference to the accompanying drawings in combination with the embodiments.

Drawings

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

Fig. 2 is a schematic diagram of the overall structure of the present invention.

Fig. 3 is a diagram of the operation of the present invention.

Fig. 4 is a second working state diagram of the present invention.

Fig. 5 is an exploded view of the present invention.

Fig. 6 is an exploded view of the present invention.

Fig. 7 is a schematic diagram of the overall structure of the card strip of the present invention.

Fig. 8 is a schematic diagram of the overall structure of the clip strip of the present invention.

Fig. 9 is a cross-sectional view of an energy storage device of the present invention.

Fig. 10 is a cross-sectional view of a second energy storage device of the present invention.

Fig. 11 is a schematic view of the overall structure of the battery cover of the present invention.

FIG. 12 is a schematic view of the overall structure of the flattening apparatus of the present invention.

Fig. 13 is a schematic view of the entire structure of the push rod of the present invention.

Fig. 14 is a schematic view of the overall structure of the guard of the present invention.

Reference numerals: a first housing 1; a second housing 2; a light transmitting sheet 3; a silica gel button 4; a dome button 5; a partition plate 6; a clamping strip 7; a third housing 8; a battery compartment 9; a first electrode sheet 10; a second electrode sheet 11; a guide rail 12; a slide rail 13; a first clasp 14; a first spring 15; a spacer 16; a battery cover 17; a connecting piece 18; a slide cover 19; a second spring 20; a post button 21; a display screen 22; a push rod 23; a clamping plate 24; a tension spring 25; a sheet 26; a connection plate 27; a torsion spring 28; a second catch 29; and a third catch 30.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments, and components and arrangements of specific examples are described below for the purpose of simplifying the disclosure of the present invention, which are, of course, merely examples and are not intended to limit the present invention.

In the following, a structure of a remote controller housing according to an embodiment of the present invention will be described with reference to the accompanying drawings, as shown in fig. 1 to 14, the remote controller housing includes a first housing 1 and a second housing 2 disposed above the first housing 1, front ends of the first housing 1 and the second housing 2 are provided with a light transmitting sheet 3 for transmitting infrared signals, a lower portion of the first housing 1 is arc-shaped, so as to improve comfort during gripping, a multi-channel partition 6 is disposed inside the first housing 1 for mounting a circuit board, the second housing 2 is stepped, a high end is provided with a silica gel button 4, a low end is provided with a pan button 5, and the remote controller housing further includes: the energy storage devices are arranged at the rear ends of the first shell 1 and the second shell 2 in a sliding mode and are used for installing batteries and preventing the batteries from falling out; the clamping device is arranged at the inner side of the energy storage device and used for clamping and limiting the energy storage device; the buffer device is arranged at the inner side of the energy storage device and is used for buffering the impact force when falling; the cover device is arranged above the energy storage device in a sliding manner and is used for covering the dome button 5; the protection device arranged below the first shell 1 can protect the shell of the remote controller when falling down, and prevent collision.

In particular embodiments: the circuit board is arranged above the partition board 6, and is electrically connected with a battery arranged in the energy storage device through a wire, an infrared transmitter at the front end of the circuit board is positioned behind the light-transmitting sheet 3, and the lower part of the silica gel button 4 corresponds to common keys on the circuit board, such as a switch key, a direction key, a mute key and the like, and the lower part of the dome button 5 corresponds to unusual keys on the circuit board, such as a function key, a channel key and the like.

As shown in fig. 5, 9, 10 and 11, the remote controller shell structure comprises an energy storage device, the energy storage device comprises a third shell 8 which is slidably arranged at the rear ends of a first shell 1 and a second shell 2, a battery compartment 9 is arranged at the rear end of the third shell 8 and is used for accommodating batteries, a first electrode plate 10 and a second electrode plate 11 are arranged in the battery compartment 9 and are used for connecting positive and negative electrodes of the batteries, a battery cover 17 is arranged at the rear end of the third shell 8, the battery cover 17 is made of an elastic material and can be used for insulating and buffering, a clamping column is arranged at the upper end of the battery cover 17 and is inserted above the rear end of the third shell 8, a protrusion which is matched with the battery compartment 9 is arranged in the middle of the battery cover 17 and can be inserted into the battery compartment 9 for fixing, a connecting piece 18 is further arranged on the protrusion and is used for connecting two batteries, a notch is arranged at the lower end of the battery cover 17 and is convenient for opening the battery cover 17, and the battery cover 17 is separated from the third shell 8.

In particular embodiments: when the battery box is used, a positive battery and a negative battery are placed in the battery box 9, the battery cover 17 is turned over after being fixed by the upper Fang Kazhu, so that the middle part of the battery cover 17 is inserted into the battery box 9, the connecting sheet 18 is matched with the first electrode sheet 10 and the second electrode sheet 11 to limit the batteries, and the positive electrode and the negative electrode of the two batteries are connected through the connecting sheet 18.

As shown in fig. 7, fig. 8, fig. 9 and fig. 10, the remote control shell structure comprises a clamping device, the clamping device comprises clamping strips 7 fixed on two sides inside the first shell 1, the clamping strips 7 are folded in half elastic metal strips, three protrusions are arranged at the upper ends of the clamping strips 7, grooves are formed in the lower ends of the clamping strips 7, the remote control shell structure further comprises guide strips 12 fixed on the third inner side, the guide strips 12 are movably arranged in the clamping strips 7, the guide strips 12 are in a T shape, the structural strength of the guide strips 12 can be improved, the grooves are formed in the lower ends of the clamping strips 7, the guide strips 12 can be limited, the guide strips 12 are prevented from moving left and right, protrusions are arranged at the tail ends of the upper ends of the guide strips 12, and the three protrusions of the clamping strips 7 can be clamped in for clamping and limiting.

In particular embodiments: at ordinary times, the third casing 8 is slidably mounted at the rear ends of the first casing 1 and the second casing 2, so that the protrusion at the upper end of the guide rail 12 corresponds to the protrusion at the second position (as shown in fig. 7, the protrusion at the middle) at the upper end of the clamping strip 7, and at this time, the third casing 8 is shown in fig. 1.

When the dome button 5 is used, the third shell 8 is pulled out, so that the upper end of the guide rail 12 is raised to correspond to the first position raised at the upper end of the clamping strip 7 (as shown in fig. 7 and the right side raised), and the third shell 8 is shown in fig. 3.

When the remote controller falls down, the rear end of the shell of the remote controller falls down firstly due to the weight of a battery, the battery cover 17 is firstly contacted with the ground, the force is partially buffered by the elasticity of the battery cover 17, the third shell 8 moves through the reaction, the guide rail strip 12 moves towards the third bulge (as shown in fig. 7 and the left bulge) at the upper end of the clamping strip 7, the buffer is further carried out through the elasticity of the clamping strip 7 and the friction force between the clamping strip 7 and the guide rail strip 12, and meanwhile, the third bulge at the upper end of the clamping strip 7 limits the guide rail strip 12 to prevent the third shell 8 from moving excessively.

As shown in fig. 10, the remote control housing structure includes a buffer device including a first spring 15 fixed in the third casing 8 and a spacer 16 provided at the front end of the first spring 15, and the force can be released by the buffer of the first spring 15, thereby protecting the housing.

In particular embodiments: when the automobile seat is dropped, the guide rail 12 protrudes from the second position at the upper end of the clamping strip 7 to move towards the third position at the upper end of the clamping strip 7, so that the gasket 16 at the front end of the first spring 15 props against the rear end of the first shell 1, compresses the first spring 15, and further performs buffer protection through the elasticity of the first spring 15.

As shown in fig. 9, 10 and 12, the remote controller housing structure includes a cover device, the cover device includes a sliding cover 19 slidably disposed above the third housing 8 through a sliding rail 13, a post button 21 is disposed on the sliding cover 19, a part of the dome button 5 on the second housing 2 can be pressed by the post button 21, a display screen 22 is further disposed on the sliding cover 19 for displaying remote control values and basic information, a second spring 20 is disposed behind the sliding cover 19 and connected with the third housing 8, so as to avoid interference with the buffering process of the third housing 8, the bottom of the sliding cover 19 is in a stepped shape, and a first buckle 14 is disposed at the front end of the sliding rail 13, so that the sliding cover 19 can be limited, and the sliding cover 19 is prevented from moving forward, so that the sliding cover 19 follows the movement of the third housing 8.

In particular embodiments: at ordinary times (when the upper end of the guide rail strip 12 is protruded corresponding to the second position of the upper end of the clamping strip 7), the sliding cover 19 is positioned above the dome button 5, the dome button 5 at the lower part can be used through the convex column button 21, the display screen 22 can display remote control numerical values and basic information, at the moment, the total number of buttons above the remote controller is reduced, daily use is facilitated, and the trouble of finding the buttons is avoided.

When the third shell 8 is pulled out (when the upper end of the guide rail strip 12 is raised corresponding to the first position of the upper end of the clamping strip 7), the third shell 8 pulls the sliding cover 19 through the first buckle 14 at the front end of the sliding rail 13, so that the sliding cover 19 loses the covering effect on the dome button 5, the dome button 5 is convenient to use for corresponding remote control operation, and different use requirements are met.

When the sliding cover is dropped (when the protrusion at the upper end of the guide rail strip 12 is moved from the protrusion at the second position to the protrusion at the third position at the upper end of the clamping strip 7), the front end of the sliding cover 19 abuts against the second shell 2, so that the third shell 8 compresses the second spring 20 behind the sliding cover 19, and further buffer protection is performed.

As shown in fig. 13 and 14, the remote control shell structure includes a protection device, the protection device includes a connecting plate 27 rotatably disposed at two sides below the first housing 1, a torsion spring 28 is disposed at the connection position, a plate 26 is rotatably disposed at the end of the connecting plate 27, the plate 26 is made of a silica gel material and has elasticity, buffering can be performed when falling, the torsion spring 28 is also disposed at the connection position, the remote control shell structure further includes a push rod 23 slidably disposed on the partition plate 6, a tension spring 25 is disposed at the rear of the push rod 23 to connect the partition plate 6, the plate 26 is in fit with the shape of the first housing 1, the inner side of the plate 26 is provided with a second buckle 29 and a third buckle 30, an opening in fit with the second buckle 29 is opened on the first housing 1, the plate can be fixed in an auxiliary manner, the plate 26 is accommodated below the first housing 1, two sides of the push rod 23 are provided with branches, the ends of the branches are located below the clamping bars 7, a clamping plate 24 is disposed below the push rod 23, and is used for clamping the third buckle 30, and a limiting groove in fit with the clamping plate 24 is disposed on the first housing 1.

In particular embodiments: when the folding type folding device is stored, the clamping plate 24 below the push rod 23 clamps the third clamping buckle 30 on the inner side of the sheet nail 26, and the opening on the first shell 1 clamps the second clamping buckle 29, so that the torsion springs 28 at all positions are compressed and accumulated, and the sheet nails 26 on two sides are combined and fit with the lower side of the first shell 1.

When the remote controller falls down (when the protrusion at the upper end of the guide rail 12 is moved from the protrusion at the second position to the protrusion at the third position at the upper end of the clamping strip 7), the guide rail 12 pushes branches at two sides of the push rod 23, so that the push rod 23 moves, the tension spring 25 is pulled, the clamping plate 24 below the push rod 23 moves, the third clamping buckles 30 at two sides are separated from the clamping plate 24, so that the nails 26 at two sides are separated, the separated nails 26 are separated from the first shell 1 through the action of the torsion spring 28, the nails 26 and the connecting plate 27 are completely unfolded under the action of the torsion spring 28 everywhere (as shown in fig. 3 and 4), the nails 26 are positioned at two sides of the first shell 1 and the second shell 2, so that the first shell 1 and the second shell 2 are prevented from directly contacting the ground, collision of the first shell 1 and the second shell 2 is prevented, and the shell of the remote controller is protected.

Working principle: when the remote controller falls down in a normal state (when the bulge at the upper end of the guide rail strip 12 is moved from the bulge at the second position to the bulge at the third position at the upper end of the clamping strip 7), the rear end of the casing of the remote controller is firstly landed, the battery cover 17 is firstly contacted with the ground due to the weight of the battery, the force is partially exerted by the elasticity of the battery cover 17, the third casing 8 is moved by the reaction, the gasket 16 at the front end of the first spring 15 can prop against the rear end of the first casing 1 and compress the first spring 15, the buffer protection is carried out by the elasticity of the first spring 15, the front end of the sliding cover 19 can prop against the second casing 2, so that the third casing 8 compresses the second spring 20 behind the sliding cover 19, further buffer protection is carried out, the movement of the third casing 8 can lead the guide rail strip 12 to push branches at two sides of the push rod 23, the push rod 23 is moved, the tension spring 25 is pulled, the clamping plate 24 at the lower part of the push rod 23 is moved, the third clamping buckles 30 at the two sides are separated from the clamping plate 24, the two side pieces 26 are separated by the action of the torsion spring 28, the second clamping buckles 29 are separated from the first casing 1 through the action of the torsion spring 28, the first clamping pieces 29 are separated from the first casing 1 and the first casing 26 are separated from the first casing 1, the second clamping pieces 26 are completely contacted with the first casing 2 and the second casing 2 is completely contacted with the first casing 1 and the second casing 2 is prevented from being completely expanded under the action of the protection casing 1 and 2.

When the third shell 8 falls in a pulled-out state, the protrusion at the upper end of the guide rail strip 12 is displaced from the protrusion at the first position to the protrusion at the third position at the upper end of the clamping strip 7, and buffering is performed by the elasticity of the clamping strip 7 and the friction force between the clamping strip 7 and the guide rail strip 12, when the protrusion at the upper end of the guide rail strip 12 is displaced from the protrusion at the second position to the protrusion at the upper end of the clamping strip 7, the guide rail strip 12 can push branches at two sides of the push rod 23, so that the push rod 23 moves, and the armor 26 is positioned at two sides of the first shell 1 and the second shell 2 as described above, so that the remote controller shell is protected.

Claims

1. The utility model provides a remote controller shell structure, this remote controller shell includes first casing and locates the second casing of first casing top, first casing and second casing front end are equipped with the light transmission piece for see through infrared signal, first casing below is the arc, can improve the comfort when grasping, and first casing inboard is equipped with the multichannel baffle for install the circuit board, the second casing is echelonment, and high one end is equipped with the silica gel button, and low one end is equipped with the pot piece button, its characterized in that, this remote controller shell still includes: the energy storage devices are arranged at the rear ends of the first shell and the second shell in a sliding mode and are used for installing batteries and preventing the batteries from falling out; the clamping device is arranged at the inner side of the energy storage device and used for clamping and limiting the energy storage device; the buffer device is arranged at the inner side of the energy storage device and is used for buffering the impact force when falling; the cover device is arranged above the energy storage device in a sliding manner and is used for covering the dome buttons; the protection device is arranged below the first shell and can protect the shell of the remote controller when the remote controller falls down, so that collision is prevented;

the energy storage device comprises a third shell, a battery compartment and a connecting piece, wherein the third shell is arranged at the rear end of the first shell and the rear end of the second shell, the battery compartment is used for accommodating batteries, a first electrode plate and a second electrode plate are arranged in the battery compartment and used for connecting positive electrodes and negative electrodes of the batteries, a battery cover is arranged at the rear end of the third shell, the battery cover is made of elastic materials and can be insulated and buffered, a clamping column is arranged at the upper end of the battery cover and is inserted above the rear end of the third shell, a bulge matched with the battery compartment is arranged in the middle of the battery cover and can be inserted into the battery compartment for fixing, the connecting piece is further arranged on the bulge and used for connecting two batteries, and a notch is formed at the lower end of the battery cover, so that the battery cover is convenient to open and is separated from the third shell;

the clamping device comprises clamping strips fixed on two sides of the interior of the first shell, wherein the clamping strips are of folded elastic metal strips, three protrusions are arranged at the upper ends of the clamping strips, grooves are formed in the lower ends of the clamping strips, the clamping device further comprises guide rails fixed on the third inner side, the guide rails are movably arranged in the clamping strips, the guide rails are in a T shape, the structural strength of the guide rails can be improved, the lower ends of the guide rails are matched with the grooves, the guide rails can be limited, the guide rails are prevented from moving left and right, the protrusions are arranged at the tail ends of the upper ends of the guide rails and can be clamped into the three protrusions of the clamping strips for clamping and limiting;

the buffer device comprises a first spring fixed in the third shell and a gasket arranged at the front end of the first spring, and can unload force through the buffer of the first spring so as to protect the shell;

the protection device comprises a connecting plate which is rotationally arranged on two sides below the first shell, a torsion spring is arranged at the joint, a piece of nail is rotationally arranged at the tail end of the connecting plate, the piece of nail is made of silica gel material and has elasticity, the buffering can be carried out when the protective device falls down, the torsion spring is also arranged at the joint, the protection device further comprises a push rod which is slidingly arranged on the partition board, and a tension spring connecting partition board is arranged at the rear of the push rod.

2. The remote control housing structure of claim 1, wherein the cover device comprises a sliding cover slidably disposed over the third housing via a sliding rail, a post button is disposed on the sliding cover, a part of the dome buttons on the second housing can be pressed by the post button, a display screen is further disposed on the sliding cover for displaying remote control values and basic information, and a second spring is disposed behind the sliding cover for connecting the third housing, so as to avoid interference with the buffering process of the third housing.

3. The remote control shell structure of claim 1, wherein the first shell is in an arc-shaped structure, the second buckle and the third buckle are arranged on the inner side of the first shell, and the first shell is provided with an opening which is in fit with the second buckle, so that the first shell can be fixed in an auxiliary manner, and is accommodated below the first shell.

4. A remote control housing structure as claimed in claim 3, wherein two sides of the push rod are provided with branches, the ends of the branches are located below the clamping bars, a clamping plate is arranged below the push rod and used for clamping the third clamping buckle, and a limit groove matched with the clamping plate is formed in the first housing.

5. The remote control housing structure of claim 2, wherein the bottom of the sliding cover is stepped, and the front end of the sliding rail is provided with a first buckle, which can limit the sliding cover and prevent the sliding cover from moving forward, so that the sliding cover follows the movement of the third housing.