CN112291982A - Intelligent voice recognition device's damp proof heat structure - Google Patents

Abstract

The invention discloses a damp-proof thermal structure of an intelligent voice recognition device, which comprises a shell for accommodating an intelligent voice recognition main body and a colloid medium, wherein a solidified colloid structure is filled in redundant cavities in the shell, so that the condition that no redundant cavities generate damp heat to influence the service life of the intelligent voice recognition main body in the shell is well ensured; the reserve casing of the colloid structure of taking out in the casing is followed in the storage, reserve casing sets up in the casing top, the bottom of reserve casing is provided with the heating element that can heat the colloid structure of its inside storage, and the colloid structure produces the colloidal fluid after being heated by the heating element, the bottom of reserve casing is equipped with the watering pipeline that can send into the colloidal fluid in the casing, and the colloid structure in the casing is convenient for take out and carry out the secondary watering, conveniently recycles when the device damages and maintains, and the practicality is strong.

Description

Intelligent voice recognition device's damp proof heat structure

Technical Field

The invention relates to the technical field of intelligent voice recognition equipment, in particular to a damp-proof heat structure of an intelligent voice recognition device.

Background

Intelligent speech recognition devices can be divided into two development directions: one direction is a large vocabulary continuous speech recognition system, which is mainly applied to dictation machines of computers and speech information inquiry service systems combined with telephone networks or the Internet, and the systems are all realized on computer platforms.

Another important development direction is the application of miniaturized and portable voice products, such as dialing in wireless mobile phones, voice control of automobile equipment, intelligent toys, remote control of household appliances, and the like.

In the prior art, an intelligent voice recognition main body is stored in an intelligent voice recognition device, and a damp and hot phenomenon is easily generated between the intelligent voice recognition main body and a shell for accommodating the intelligent voice recognition main body, so that the service life of the intelligent voice recognition main body is shortened; therefore, the damp-proof thermal structure of the intelligent voice recognition device is provided to solve the problems.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a damp-proof heat structure of an intelligent voice recognition device, which comprises a shell for accommodating an intelligent voice recognition main body and a colloid medium, wherein the solidified colloid structure is filled in redundant cavities in the shell, so that the condition that no redundant cavities generate damp heat to influence the service life of the intelligent voice recognition main body in the shell is well ensured.

In order to achieve the above object, the present invention provides a moisture-proof structure of an intelligent voice recognition device, including:

the intelligent voice recognition device comprises a shell for accommodating an intelligent voice recognition main body and a colloid medium, wherein the colloid medium is poured into the shell and filled around the intelligent voice recognition main body to form a solidified colloid structure so as to prevent the influence of the damp-heat phenomenon generated in a cavity around the intelligent voice recognition main body on the service life of the intelligent voice recognition main body;

the cutter is arranged on the outer ring of the intelligent voice recognition main body and can rotate along the outer ring of the intelligent voice recognition main body, when the cutter rotates along the outer ring of the intelligent voice recognition main body, a solidified colloid structure formed by colloid media can be cut into an upper colloid structure and a lower colloid structure, the upper colloid structure and the lower colloid structure are easy to take out of the shell, and the upper cover and the lower cover which are respectively arranged above and below the shell are opened to take out the cut colloid structure from the shell;

the reserve casing of the colloid structure of taking out in the storage follow casing, reserve casing sets up in the casing top, the bottom of reserve casing is provided with the heating element that can heat the colloid structure of its inside storage, and the colloid structure produces the colloidal fluid after being heated by heating element, the bottom of reserve casing is equipped with the irrigation pipeline that can send into the colloidal fluid in the casing.

As the further optimization of above-mentioned scheme, the integrative second snap ring that is equipped with of upper end outer fringe department of intelligence speech recognition main part, intelligence speech recognition main part top is equipped with the visor, be equipped with the wiring chamber that is used for saving intelligence speech recognition main part surface wiring cable between visor and the intelligence speech recognition main part, the pre-buried spool that the wiring cable passes through in the upper surface intercommunication wiring chamber of visor and the upper cover between the upper end outside and supplying the wiring chamber, the fixed first snap ring that is equipped with the block on the second snap ring in lower surface outer fringe department of visor.

In this embodiment, the wiring cable protection on intelligence speech recognition main part surface is in wiring chamber and pre-buried spool, and the inside colloidal medium of casing can not flow in wiring cable outer lane and produce the influence, the lower extreme of pre-buried spool is equipped with to reduce and easily block the conical in visor surface hole to its axis direction, makes things convenient for demolising between pre-buried spool and the visor, and the trend of pre-buried spool is unanimous with the axis direction trend of casing, and the convenience is taken out its inside solidification colloidal medium when opening the casing.

As a further optimization of the scheme, the lower surface of the intelligent voice recognition main body is movably attached with a plurality of groups of sound transmission pipes communicated with the outside of the shell, the sound transmission pipes are fixed on the lower cover, and the trend of the sound transmission pipes is consistent with the axial direction of the shell.

It should be noted that, thereby the outside sound of casing gets into intelligent speech recognition main part through the acoustic pipe and is received by intelligent speech recognition main part for speech recognition function can be realized to intelligent speech recognition main part, and the acoustic pipe is fixed on the lower cover, and when opening the lower cover, the acoustic pipe also shifts out from the inside colloid structure that solidifies of casing, and the convenience is with the separation between the colloid structure that solidifies.

As the further optimization of above-mentioned scheme, the equal activity block of upper cover and lower cover is at the upper and lower below opening part of casing, and upper cover, lower cover all are fixed through the inside colloid structure bonding that solidifies of casing, one side that upper cover, lower cover are close to the casing all is equipped with the groove, the activity is equipped with the wane of salient in the casing outer lane in the groove, the fixed articulated seat that is provided with in outer lane department of casing, be provided with the articulated shaft that the activity passed the wane middle part on the articulated seat, thereby the wane can contradict upper cover, lower cover to the one side of keeping away from the casing when rotating round the articulated shaft and realize the separation of upper cover, lower cover and the inside colloid structure that solidifies of casing.

Further, when making it rotate around the articulated shaft to the wane application of force, upper cover, lower cover are contradicted by the wane and are moved towards the one side of keeping away from the casing, and at this moment, upper cover, lower cover gradually with the inside colloid structure separation that solidifies of casing to upper cover, lower cover can be followed the opening part of casing smoothly and shifted out.

As a further optimization of the proposal, the shell comprises a cylinder structure with separable upper and lower parts, the shell is provided with a rotating device at the position of the outer ring of the intelligent voice recognition main body, the rotating device comprises a rotating ring movably arranged between an upper cylindrical structure and a lower cylindrical structure, the upper surface and the lower surface of the rotating ring are both fixedly provided with limiting rings with T-shaped cross sections, the similar surfaces of the upper part and the lower part of the cylindrical structures are both provided with limiting grooves for movably accommodating the limiting rings, the cutters are fixed on the inner ring of the rotating ring and are provided with a plurality of groups, gaps are reserved among the plurality of groups of cutters, the two sides of each cutter are provided with cutter edges capable of cutting the colloid structure solidified in the shell, the outer lane department of rotating ring is fixed and is equipped with the push rod, one side that the cutter is close to intelligent speech recognition main part is fixed to be equipped with the activity laminating at the laminating board of intelligent speech recognition main part surface.

Specifically, when the push rod is applied with force to push the rotating ring to rotate between the upper cylindrical structure and the lower cylindrical structure, the cutter at the inner ring of the rotating ring cuts the solidified colloid structure inside the shell into the upper colloid structure and the lower colloid structure, so that the solidified colloid structure inside the shell can be taken out conveniently from the upper opening and the lower opening of the shell.

As a further optimization of the proposal, the shell is internally provided with a metal pipe communicated with the outside of the shell, the metal tube is of a concave structure and penetrates through the upper surface of the upper cover, a partition board for partitioning the metal tube into a first channel and a second channel is arranged in the middle of the metal tube, one end of the metal pipe positioned in the shell is provided with a through hole communicated between the second channel and the first channel, an inlet hole for external natural wind to enter the second channel is formed in one side, located at the outer ring of the shell, of the metal pipe, the natural wind entering the second channel flows to the other end of the metal pipe along the inside of the metal pipe and then enters the first channel from the through hole, the natural wind passing through the first channel flows along the inside of the metal pipe in the reverse direction and is discharged from a discharge hole in the other side of the metal pipe, in the process that natural wind enters and exits the metal pipe, heat inside the shell is transferred to the natural wind through the inner wall of the metal pipe and is taken away by the natural wind.

In this embodiment, the manhole at the metal tube end portion receives natural wind and gets into it inside, and the inside heat of casing is taken away to the circulation channel that the inside natural wind of entering metal tube process manhole, second passageway, through-hole, first passageway and discharge hole formed and is discharged after, has realized discharging the radiating mesh of casing, and the one end trend that the metal tube is located the casing inside is unanimous with the axis trend of casing, makes things convenient for the metal tube to follow the upper cover and opens from the top opening part of casing and take out.

In a further optimization mode of the scheme, a funnel surface which is easy for colloidal fluid to enter an irrigation pipeline is arranged inside the lower end of the standby shell, and a valve body for controlling the pipeline to be opened and closed is arranged on the irrigation pipeline.

It should be noted that, when the valve body is opened and the heating unit is started, the funnel surface transfers heat to the colloid structure inside the standby shell, the colloid structure is heated to generate colloidal fluid, and then the colloidal fluid flows to the irrigation pipeline along the funnel surface and enters the shell to fill the inside of the shell, so that the damp-heat phenomenon caused by the generation of redundant cavities in the shell is avoided, and the valve body can use a manual valve and can also use devices such as an electromagnetic valve.

As a further optimization of the above scheme, a heating cavity for accommodating the heating unit is formed between the bottom of the funnel surface and the standby shell, and the heating unit is attached to the lower surface of the funnel surface.

Further, the heating unit can use an electric heating plate or the like, and the heating unit transfers the generated heat to the colloid structure in the standby shell through the funnel surface when heating.

As a further optimization of the above scheme, an openable shell cover is arranged at the upper end of the spare shell, and an adsorption unit which can be adsorbed and fixed on an external carrier is fixedly arranged on the upper surface of the shell cover.

Specifically, the absorption unit can use sucking disc, magnetic sheet etc. and set up according to outside carrier, and the absorption unit can use the gluing to fix the upper surface at the cap, and the cap passes through screw-thread fit and connects the upper end opening part at reserve casing, and reserve casing is cylindric structure, conveniently places the colloid structure in reserve casing when opening the cap, and the integrated device adsorbs through the absorption unit and fixes on outside carrier, the installation of being convenient for uses.

As a further optimization of the above scheme, a plurality of groups of compression plates capable of being compressed on the inner wall of the groove on the surface of the external carrier are arranged at the outer ring of the shell cover, and a telescopic rod for providing elasticity for the compression plates is arranged at the outer ring of the shell cover.

Wherein, overall structure accessible telescopic link exerts elasticity to the pressure strip and props tightly in the recess of outside carrier surface, is convenient for install and use.

The damp-proof heat structure of the intelligent voice recognition device has the following beneficial effects:

1. the invention relates to a damp-proof thermal structure of an intelligent voice recognition device, which comprises a shell used for accommodating an intelligent voice recognition main body and a colloid medium, wherein the colloid medium is poured into the shell and filled around the intelligent voice recognition main body to form a solidified colloid structure so as to prevent the influence of damp-heat phenomenon generated in a cavity around the intelligent voice recognition main body on the service life of the intelligent voice recognition main body;

2. the invention discloses a damp-proof thermal structure of an intelligent voice recognition device, which comprises a standby shell for storing a colloid structure taken out of the shell, wherein the standby shell is arranged above the shell, the bottom of the standby shell is provided with a heating unit capable of heating the colloid structure stored in the standby shell, the colloid structure is heated by the heating unit to generate colloid fluid, the bottom of the standby shell is provided with an irrigation pipeline capable of sending the colloid fluid into the shell, the colloid structure in the shell is convenient to take out and irrigate for the second time, the colloid structure is convenient to recycle when the device is damaged and maintained, and the practicability is strong.

There have been disclosed in detail certain embodiments of the invention with reference to the following description and drawings, and it is to be understood that the embodiments of the invention are not limited thereby, but are intended to cover within the spirit and scope of the appended claims, many changes, modifications, and equivalents.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a schematic bottom view of the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

FIG. 5 is an enlarged view of the structure at B in FIG. 2 according to the present invention;

FIG. 6 is an enlarged view of the structure at C of FIG. 2 according to the present invention;

FIG. 7 is an enlarged view of the structure of FIG. 2 of the present invention;

FIG. 8 is an enlarged view of the structure at E in FIG. 3 according to the present invention;

fig. 9 is an enlarged view of the structure at F in fig. 3 according to the present invention.

In the figure: the device comprises a shell 1, a spare shell 2, a pressing plate 3, an adsorption unit 4, a shell cover 5, a telescopic rod 6, an upper cover 7, a rotating ring 9, a push rod 10, a warping plate 11, a lower cover 12, a sound transmission pipe 13, an intelligent voice recognition main body 14, a protective cover 15, a valve body 16, a pouring pipeline 17, a funnel surface 18, a heating unit 19, a heating cavity 20, a pre-buried pipeline 21, a metal pipe 22, a discharge hole 23, an inlet hole 24, a partition plate 25, a first channel 26, a second channel 27, a limiting ring 28, a limiting groove 29, a hinge seat 30, a groove 31, a hinge shaft 32, a cutter 33, a binding plate 34, a wiring cavity 35, a first clamping ring 36 and a second clamping ring 37.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the accompanying drawings and examples. It should be understood, however, that the description herein of specific embodiments is only intended to illustrate the invention and not to limit the scope of the invention.

It should be noted that when an element is referred to as being "disposed on," or provided with "another element, it can be directly on the other element or intervening elements may also be present, when an element is referred to as being" connected, "or coupled to another element, it can be directly on the other element or intervening elements may be present, and" fixedly coupled "means that the element is fixedly coupled in many ways, which are not intended to be within the scope of the present disclosure, the terms" vertical, "" horizontal, "" left, "" right, "and the like are used herein for illustrative purposes only and are not intended to be a single embodiment.

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

referring to the attached drawings 1-9 of the specification, the invention provides a technical scheme: a moisture resistant thermal structure of an intelligent speech recognition device comprising:

the intelligent voice recognition device comprises a shell 1 used for containing an intelligent voice recognition main body 14 and a colloid medium, wherein the colloid medium is poured into the shell 1 and filled around the intelligent voice recognition main body 14 to form a solidified colloid structure so as to prevent the influence of the damp-heat phenomenon generated in the cavity around the intelligent voice recognition main body 14 on the service life of the intelligent voice recognition main body 14, and an upper cover 7 and a lower cover 12 which can be opened are respectively arranged above and below the shell 1;

the cutter 33 is arranged on the outer ring of the intelligent voice recognition main body 14 and can rotate along the outer ring of the intelligent voice recognition main body 14, when the cutter 33 rotates along the outer ring of the intelligent voice recognition main body 14, the solidified colloid structure formed by colloid media can be cut into an upper colloid structure and a lower colloid structure, the upper colloid structure and the lower colloid structure are easy to take out from the shell 1, and the upper cover 7 and the lower cover 12 which are respectively arranged on the upper side and the lower side of the shell 1 are opened to take out the cut colloid structure from the shell 1;

the device comprises a standby shell 2 for storing colloid structures taken out of a shell 1, wherein the standby shell 2 is arranged above the shell 1, a heating unit 19 capable of heating the colloid structures stored in the standby shell 2 is arranged at the bottom of the standby shell 2, the colloid structures are heated by the heating unit 19 to generate colloid fluid, and an irrigation pipeline 17 capable of sending the colloid fluid into the shell 1 is arranged at the bottom of the standby shell 2.

The colloid medium can be a hot melt adhesive rod which is easy to melt, and the solid structure can be generated by condensation after the hot melt adhesive rod is melted.

The integrative second snap ring 37 that is equipped with of upper end outer fringe department of intelligence speech recognition main part 14, intelligence speech recognition main part 14 top is equipped with visor 15, be equipped with the wiring chamber 35 that is used for saving 14 surperficial wiring cables of intelligence speech recognition main part between visor 15 and the intelligence speech recognition main part 14, the pre-buried spool 21 that the wiring cable passes through in the upper surface intercommunication wiring chamber 35 of visor 15 and the upper end outside of upper cover 7 and confession wiring chamber 35, the fixed first snap ring 36 that is equipped with the block on second snap ring 37 in lower surface outer fringe department of visor 15.

In this embodiment, the wiring cable protection on intelligence speech recognition main part 14 surface is in wiring chamber 35 and pre-buried spool 21, the inside colloidal medium of casing 1 can not flow into wiring cable outer lane and produce the influence, pre-buried spool 21's lower extreme is equipped with and reduces and easily blocks the conical in the surperficial hole of visor 15 into to its axis direction, make things convenient for demolising between pre-buried spool 21 and the visor 15, and pre-buried spool 21's trend is unanimous with the axis direction trend of casing 1, the convenience is taken out its inside solidification colloidal medium when opening casing 1.

The lower surface activity laminating of intelligence speech recognition main part 14 has the multiunit and the outside acoustic pipe 13 of intercommunication of casing 1, and acoustic pipe 13 is fixed on lower cover 12, and the trend of acoustic pipe 13 is unanimous with the axis direction of casing 1.

It should be noted that, sound outside the housing 1 enters the intelligent speech recognition main body 14 through the sound transmission pipe 13 so as to be received by the intelligent speech recognition main body 14, so that the intelligent speech recognition main body 14 can realize the speech recognition function, and the sound transmission pipe 13 is fixed on the lower cover 12, and when the lower cover 12 is opened, the sound transmission pipe 13 is also moved out from the colloid structure solidified inside the housing 1, so as to be convenient for separating from the solidified colloid structure.

Upper cover 7 and the equal activity block of lower cover 12 are at the upper and lower side opening part of casing 1, upper cover 7, lower cover 12 is all fixed through the inside colloid structure bonding that solidifies of casing 1, upper cover 7, one side that lower cover 12 is close to casing 1 all is equipped with groove 31, the activity is equipped with outstanding wane 11 in the 1 outer lane of casing in the groove 31, the fixed articulated seat 30 that is provided with in outer lane department of casing 1, be provided with the articulated shaft 32 that the activity passed wane 11 middle part on the articulated seat 30, wane 11 can be with upper cover 7 when rotating round articulated shaft 32, thereby lower cover 12 is contradicted to one side of keeping away from casing 1 and is realized upper cover 7, lower cover 12 and the inside separation of the colloid structure that solidifies of casing 1.

Further, when the rocker 11 is forced to rotate around the hinge shaft 32, the upper cover 7 and the lower cover 12 are pushed by the rocker 11 to move towards the side away from the housing 1, and at this time, the upper cover 7 and the lower cover 12 are gradually separated from the colloid structure solidified inside the housing 1, so that the upper cover 7 and the lower cover 12 can be smoothly moved out from the opening of the housing 1.

Casing 1 is including the separable drum structure of upper and lower two parts, the position that casing 1 is located the 14 outer lanes of intelligent speech recognition main part is equipped with rotating device, rotating device sets up the swivel becket 9 between upper and lower two parts drum structure including the activity, the upper and lower fixed spacing ring 28 that is provided with the cross section for the T font of swivel becket 9 on the surface all, all be equipped with the activity on the similar face of upper and lower two parts drum structure and hold spacing ring 28's spacing groove 29, cutter 33 fixes and is equipped with the multiunit in the inner circle department of swivel becket 9, there is the clearance between the multiunit cutter 33, the both sides of cutter 33 all are equipped with the sword limit that can be with the inside colloid structure cutting that solidifies of casing 1, the fixed push rod 10 that is equipped with in outer lane department of swivel becket 9, cutter 33 is close to the fixed binding plate 34 that.

Specifically, when the push rod 10 is applied with force to push the rotating ring 9 to rotate between the upper and lower two-part cylindrical structures, the cutter 33 at the inner ring of the rotating ring 9 cuts the colloid structure solidified inside the casing 1 into the upper and lower two-part colloid structure, so that the colloid structure solidified inside the casing 1 can be conveniently taken out from the upper and lower openings of the casing 1.

A metal pipe 22 communicated with the outside of the shell 1 is arranged in the shell 1, the metal pipe 22 penetrates through the upper surface of the upper cover 7 in a concave structure, a partition plate 25 for partitioning the interior of the metal pipe 22 into a first channel 26 and a second channel 27 is arranged in the middle of the metal pipe 22, a through hole communicated between the second channel 27 and the first channel 26 is arranged at one end of the metal pipe 22 in the shell 1, an inlet hole 24 for external natural wind to enter the second channel 27 is arranged at one side of the metal pipe 22 at the outer ring of the shell 1, the natural wind entering the second channel 27 flows to the other end of the metal pipe 22 along the interior of the metal pipe 22 and then enters the first channel 26 from the through hole, the natural wind passing through the first channel 26 reversely flows along the interior of the metal pipe 22 and is discharged from a discharge hole 23 at the other side of the metal pipe 22, in the process that natural wind enters and exits the metal tube 22, heat inside the shell 1 is transferred to the natural wind through the inner wall of the metal tube 22 and is taken away by the natural wind.

In this embodiment, the inlet hole 24 at the end of the metal tube 22 receives natural wind and enters the interior of the metal tube, the natural wind entering the interior of the metal tube 22 is discharged after taking away heat inside the casing 1 through a circulation channel formed by the inlet hole 24, the second channel 27, the through hole, the first channel 26 and the discharge hole 23, so that the purpose of heat dissipation of the casing 1 is achieved, the trend of one end of the metal tube 22 located inside the casing 1 is consistent with the trend of the axis of the casing 1, and the metal tube 22 is convenient to be opened and taken out from an opening above the casing 1 along with the upper cover 7.

The lower end of the spare casing 2 is provided with a funnel surface 18 for facilitating the entry of the colloidal fluid into the irrigation pipe 17, and the irrigation pipe 17 is provided with a valve body 16 for controlling the opening and closing of the irrigation pipe.

It should be noted that, when the valve body 16 is opened and the heating unit 19 is started, the funnel surface 18 transfers heat to the colloid structure inside the standby housing 2, the colloid structure is heated to generate colloid fluid, and then the colloid fluid flows to the irrigation pipe 17 along the funnel surface 18 and enters the housing 1 to fill the interior of the housing 1, so as to avoid the generation of damp and hot phenomena due to the generation of redundant cavities in the housing 1, and the valve body 16 can be a manual valve or an electromagnetic valve.

A heating cavity 20 for accommodating a heating unit 19 is formed between the bottom of the funnel surface 18 and the spare housing 2, and the heating unit 19 is attached to the lower surface of the funnel surface 18.

Further, the heating unit 19 may use an electric heating plate or the like, and the heat generated by the heating unit 19 when heated is transferred to the gel structure in the spare housing 2 through the funnel surface 18.

The upper end of the spare casing 2 is provided with an openable casing cover 5, and the upper surface of the casing cover 5 is fixedly provided with an adsorption unit 4 which can be adsorbed and fixed on an external carrier.

Specifically, adsorb unit 4 and can use sucking disc, magnetic sheet etc. and set up according to outside carrier, adsorb unit 4 and can use the gluing to fix the upper surface at cap 5, cap 5 passes through screw-thread fit and connects at reserve casing 2's upper end opening part, reserve casing 2 is cylindric structure, conveniently places colloidal structure in reserve casing 2 when opening cap 5, and the integrated device adsorbs through adsorbing unit 4 and fixes on outside carrier, the installation of being convenient for is used.

The outer ring of the shell cover 5 is provided with a plurality of groups of pressing plates 3 which can be pressed on the inner wall of the groove on the surface of the external carrier, and the outer ring of the shell cover 5 is provided with a telescopic rod 6 which can provide elasticity for the pressing plates 3.

The integral structure can apply elasticity to the pressing plate 3 through the telescopic rod 6 to be tightly supported in a groove on the surface of an external carrier, and installation and use are facilitated.

The embodiment provides a damp-proof heat structure of an intelligent voice recognition device, which comprises the following working processes:

when the intelligent voice recognition device is used, a colloid medium is placed in the standby shell 2, and is heated through the heating unit 19, so that colloidal fluid is generated and flows through the irrigation pipeline 17 to enter the shell 1 to fill redundant cavities around the intelligent voice recognition main body 14, and the influence of the damp-heat phenomenon generated in the redundant cavities on the service life of the intelligent voice recognition main body 14 is avoided. When the shell 1 is disassembled and assembled, the push rod 10 can be firstly applied with force to push the rotating ring 9 to rotate between the upper and lower two-part cylindrical structures, the cutter 33 at the inner ring of the rotating ring 9 cuts the colloid structure solidified in the shell 1 into the upper and lower two-part colloid structure, then, when the rocker 11 is forced to rotate around the hinge shaft 32, the upper cover 7 and the lower cover 12 are pushed by the rocker 11 to move towards the side away from the housing 1, at this time, the upper cover 7 and the lower cover 12 are gradually separated from the colloid structure solidified in the housing 1, so that the upper cover 7 and the lower cover 12 can be smoothly moved out from the opening of the housing 1, then taking out the solidified colloid structure in the shell 1, after the internal structure of the shell 1 is overhauled and replaced, placing the colloid structure taken out in the spare shell 2, after the housing 1 is assembled, the colloid structure in the spare housing 2 is heated by the heating unit 19, and the colloid fluid generated by the colloid structure can flow into the housing 1 again to fill the space therein.

It should be understood that the present invention is not limited to the particular embodiments described herein, but is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A damp-proof thermal structure of an intelligent voice recognition device, comprising:

the intelligent voice recognition device comprises a shell for accommodating an intelligent voice recognition main body and a colloid medium, wherein the colloid medium is poured into the shell and filled around the intelligent voice recognition main body to form a solidified colloid structure so as to prevent the influence of the damp-heat phenomenon generated in a cavity around the intelligent voice recognition main body on the service life of the intelligent voice recognition main body;

the cutter is arranged on the outer ring of the intelligent voice recognition main body and can rotate along the outer ring of the intelligent voice recognition main body, when the cutter rotates along the outer ring of the intelligent voice recognition main body, a solidified colloid structure formed by colloid media can be cut into an upper colloid structure and a lower colloid structure, the upper colloid structure and the lower colloid structure are easy to take out of the shell, and the upper cover and the lower cover which are respectively arranged above and below the shell are opened to take out the cut colloid structure from the shell;

the reserve casing of the colloid structure of taking out in the storage follow casing, reserve casing sets up in the casing top, the bottom of reserve casing is provided with the heating element that can heat the colloid structure of its inside storage, and the colloid structure produces the colloidal fluid after being heated by heating element, the bottom of reserve casing is equipped with the irrigation pipeline that can send into the colloidal fluid in the casing.

2. A moisture-proof thermal structure of an intelligent voice recognition device according to claim 1, wherein: the utility model discloses a speech recognition system, including the intelligence speech recognition main part, the upper end outer fringe department of intelligence speech recognition main part is integrative to be equipped with the second snap ring, intelligence speech recognition main part top is equipped with the visor, be equipped with the wiring chamber that is used for saving intelligent speech recognition main part surface wiring cable between visor and the intelligence speech recognition main part, the pre-buried spool that the wiring cable passed through in the upper surface intercommunication wiring chamber of visor and the upper end of upper cover between outside and supplying the wiring chamber, the fixed first snap ring that is equipped with the block on the second snap ring in lower surface outer fringe department of visor.

3. A moisture-proof thermal structure of an intelligent voice recognition device according to claim 1, wherein: the lower surface activity laminating of intelligence speech recognition main part has the transaudient pipe of multiunit and the outside intercommunication of casing, the transaudient pipe is fixed on the lower cover, and the trend of transaudient pipe is unanimous with the axis direction of casing.

4. A moisture-proof thermal structure of an intelligent voice recognition device according to claim 1, wherein: the utility model discloses a separation of casing, upper cover, lower cover, upper cover and lower cover are all fixed through the inside colloid structure bonding that solidifies of casing, one side that upper cover, lower cover are close to the casing all is equipped with the groove, the activity is equipped with the wane in outstanding casing outer lane in the groove, the fixed articulated seat that is provided with in outer lane department of casing, be provided with the articulated shaft that the activity passed the wane middle part on the articulated seat, thereby the wane can conflict upper cover, lower cover to one side of keeping away from the casing when rotating round the articulated shaft realizes the separation of the inside colloid structure that solidifies of upper cover, lower cover and casing.

5. A moisture-proof thermal structure of an intelligent voice recognition device according to claim 1, wherein: the casing includes the separable drum structure of upper and lower two parts, the position that the casing is located intelligent speech recognition main part outer lane is equipped with rotating device, and rotating device sets up the rotating ring between upper and lower two parts drum structure including the activity, the upper and lower fixed spacing ring that is provided with the cross section for the T font of rotating ring, all is equipped with the activity on the similar face of upper and lower two parts drum structure and holds the spacing groove of spacing ring, the cutter is fixed and is equipped with the multiunit in the inner circle department of rotating ring, has the clearance between the multiunit cutter, the both sides of cutter all are equipped with the sword limit that can be with the inside colloid structure cutting that solidifies of casing, the outer lane department of rotating ring is fixed and is equipped with the push rod, the cutter is close to the fixed binding plate that is equipped with the activity laminating at intelligent speech recognition main part.

6. A moisture-proof thermal structure of an intelligent voice recognition device according to claim 1, wherein: the novel air conditioner is characterized in that a metal pipe communicated with the outside of the shell is arranged in the shell, the metal pipe penetrates through the upper surface of the upper cover in a concave structure, a partition board for partitioning the interior of the metal pipe into a first channel and a second channel is arranged in the middle of the metal pipe, a through hole communicated between the second channel and the first channel is formed in one end, located in the shell, of the metal pipe, an inlet hole for external natural air to enter the second channel is formed in one side, located at the outer ring of the shell, of the metal pipe, the natural air entering the second channel flows to the other end of the metal pipe along the inside of the metal pipe and then enters the first channel from the through hole, the natural air flowing through the first channel reversely flows along the inside of the metal pipe and is discharged from a discharge hole in the other side of the metal pipe, and heat in the process that the natural air enters and exits the metal pipe is transferred to the.

7. A moisture-proof thermal structure of an intelligent voice recognition device according to claim 1, wherein: the inside funnel face that is equipped with easily colloidal fluid and gets into among the watering pipeline of the lower extreme of reserve casing, be equipped with the valve body of its pipe switch of control on the watering pipeline.

8. A moisture-proof thermal structure of an intelligent voice recognition device according to claim 7, wherein: a heating cavity for containing the heating unit is formed between the bottom of the funnel surface and the standby shell, and the heating unit is attached to the lower surface of the funnel surface.

9. A moisture-proof thermal structure of an intelligent voice recognition device according to claim 1, wherein: the upper end of the standby shell is provided with an openable shell cover, and the upper surface of the shell cover is fixedly provided with an adsorption unit which can be adsorbed and fixed on an external carrier.

10. A moisture-proof thermal structure of an intelligent voice recognition device according to claim 1, wherein: the outer ring of the shell cover is provided with a plurality of groups of pressing plates which can be pressed on the inner wall of the groove on the surface of the external carrier, and the outer ring of the shell cover is provided with a telescopic rod which can provide elasticity for the pressing plates.

Images