CN110972340B - Outdoor heating equipment - Google Patents

Abstract

The invention discloses outdoor heating equipment, which structurally comprises a top box, wherein an open inner cavity is arranged in the top box, a top side cavity is communicated and arranged in the upper end wall of the inner cavity, an arc-shaped reflecting plate is fixedly arranged in the top side cavity, an open reflecting cavity is arranged in the arc-shaped reflecting plate, heating object storage devices which are used for placing heating objects and can realize the all-directional rotation of the heating objects are arranged in the inner cavity and the top side cavity, symmetrical equipment supporting devices which support the equipment are arranged at the lower side of the top box, an orientation conversion device which is matched and connected with the top box and can transmit kinetic energy to enable the top box to swing is arranged between the equipment supporting devices, the equipment adopts the design of the heating object storage devices, the equipment supporting devices and the orientation conversion device, so that the equipment can adjust the self structure to enable the equipment to be fully opposite to sunlight so as to improve the heating effect, meanwhile, the equipment is convenient to fold due to the structural design in the equipment, and the heating process is convenient to heat uniformly.

Description

Outdoor heating equipment

Technical Field

The invention belongs to the technical field of outdoor equipment, and particularly relates to outdoor heating equipment.

Background

The shortcoming of the prior art is that current outdoor heating equipment, for example, the equipment of utilizing solar energy heating to eat the material, the regulation that has not realized oneself angle makes equipment can be directed against in order to realize comparatively good heating function with sunshine yet, and equipment is very inconvenient when carrying simultaneously, and the fixed stability of equipment is lower, makes equipment interference killing feature weaker. For this reason, long-term research has been conducted and various solutions have been proposed.

For example, chinese patent document discloses an outdoor cooking apparatus [ application No.: 201810301431.X ], comprising-a removable receiving means (10) arranged to hold food to be cooked, -a removable heating means (20) arranged to provide cooking heat, -an outer basin (30) formed by a wall, receiving the receiving means (10) and the heating means (20), and the inner surface of said wall being arranged to be exposed to the cooking liquids, -a supporting means arranged to rest on a supporting plane at the floor, characterized in that the apparatus comprises a plurality of supports (6) mounted in a removable manner on the outer basin (30), each support (6) comprising a supporting area (61) for supporting the receiving means and a supporting area (62) for supporting the heating means (20).

Above-mentioned scheme has not realized comparatively dexterous folding function yet, and the interference killing feature is relatively weak, can not realize self-regulation in order to realize good heating effect, has reduced work efficiency.

Disclosure of Invention

The invention aims to solve the problems, and provides equipment which has the advantages that the azimuth can be adjusted to meet the function of efficiently heating water or other articles by utilizing solar energy, and the equipment can be stably folded and fixed so as to be convenient for people to install and carry the equipment.

The invention is realized by the following technical scheme: the invention relates to outdoor heating equipment which comprises a top box, wherein an open inner cavity is arranged in the top box, a top side cavity is communicated and arranged in the upper end wall of the inner cavity, an arc-shaped reflecting plate is fixedly arranged in the top side cavity, an open reflecting cavity is arranged in the arc-shaped reflecting plate, heating object storage devices which are used for placing heating objects and can realize omnibearing rotation of the heating objects are arranged in the inner cavity and the top side cavity, symmetrical equipment supporting devices which support the equipment are arranged on the lower side of the top box, and an azimuth conversion device which is matched and connected with the top box and can transmit kinetic energy to enable the top box to swing is arranged between the equipment supporting devices, so that the function of efficiently heating the objects outdoors by using solar energy is realized by using the structure.

According to the technical scheme, the heating article storage device comprises arc-shaped cavities which are communicated with the end walls on the two sides of the top cavity and are provided with openings, the arc-shaped cavities are symmetrically arranged, a placing assembly used for placing an article to be heated is arranged between the arc-shaped cavities, and a rotating assembly used for driving the placing assembly to rotate periodically is arranged in the top box, so that efficient heating and rotation of the placing assembly are achieved by the aid of the rotating assembly.

According to the technical scheme, the placing assembly comprises a cylinder, an open cylinder cavity is formed in the cylinder, a plurality of first circular shafts in annular arrays are fixedly arranged on the right end face of the cylinder, a top circular shell is fixedly arranged on the right end face of the first circular shaft, fixing frames are arranged on the outer surfaces of the cylinder and the top circular shell, the fixing frames fix the cylinder and the top circular shell in the arc-shaped cavity, open circular blocks are arranged in the end wall of the cylinder cavity and on the inner ring of the top circular shell, and shell structures used for containing objects to be heated and convenient for people to use are arranged in the cylinder cavity and the top circular shell, so that the objects to be heated are loaded by the shell structures.

Further technical scheme, shell structure include with the installation barrel that section of thick bamboo chamber and circular section of thick bamboo chamber sliding fit are connected, installation barrel side end face has set firmly the fore-set, the terminal surface has set firmly the circle piece under the installation barrel, the circle piece with cooperation groove sliding fit connects, the diameter of circle piece and cooperation groove is the same, the section of thick bamboo shell is rotated in being provided with of section of thick bamboo intracavity internal rotation, be provided with open-ended circular section of thick bamboo chamber in the rotation section of thick bamboo shell, be close to the fore-set rotate section of thick bamboo shell terminal surface and set firmly first spiral cover, first spiral cover is located fore-set one side, thereby utilize it will to rotate the section of thick bamboo shell the installation barrel seals.

The rotating component comprises a fixed cylinder fixedly arranged on the lower end surface of the top box, a driving motor is fixedly arranged on the lower end surface of the fixed cylinder, a first transmission rotating shaft is arranged in the driving motor in a power connection mode, the first transmission rotating shaft penetrates through the fixed cylinder in a rotating mode, a driving bevel gear is fixedly arranged on the upper end surface of the first transmission rotating shaft, a driven bevel gear is meshed with one side of the driving bevel gear, a second transmission rotating shaft is fixedly arranged on the end surface of the driven bevel gear far away from the driving bevel gear, an installation vertical plate is fixedly arranged on the lower end wall of the inner cavity, the second transmission rotating shaft penetrates through the installation vertical plate and the top box in a rotating mode, a driving belt wheel is fixedly arranged on the end surface of the second transmission rotating shaft far away from the installation vertical plate, a driven belt wheel in power connection with the cylinder is arranged on the upper side of the driving belt wheel, and a transmission belt is wound on the outer surfaces of the driven belt wheel and the driving belt, the driving belt is used for connecting the driven belt wheel with the driving belt wheel in a power mode, so that the driving motor is used for driving the structures such as the cylinder to rotate under the transmission of the structures, and the object to be heated in the cylinder is heated uniformly.

According to a further technical scheme, the equipment supporting device comprises an installation box body, an open built-in cavity is arranged in the installation box body, symmetrical first through cavities are communicated and arranged in the lower end wall of the built-in cavity, the first through cavities are rectangular, a fixed cylinder body is fixedly arranged between the upper end wall and the lower end wall of the built-in cavity, an inner cavity which is arranged in a penetrating mode is arranged in the fixed cylinder body, the opening of the inner cavity faces downwards, a rotary external thread shaft is rotationally arranged on the upper end wall of the inner cavity and penetrates through the installation box body in a rotating mode, a top cover is fixedly arranged on the upper end face of the rotary external thread shaft, a lifting plate is arranged on the outer surface of the rotary external thread shaft in a threaded matching mode, symmetrical convex blocks are fixedly arranged on two sides of the lifting plate and connected with the inner cavity in a sliding matching mode, symmetrical open inner sliding cavities are arranged on the end faces of two sides of the installation box body, and a connecting rod supporting component for supporting the equipment is arranged between the inner sliding cavity and the lifting plate, so that the equipment is stably supported by the connecting rod supporting component.

The technical scheme is that the connecting rod supporting assembly comprises a base plate fixedly arranged on the end surfaces of two sides of the lifting plate, a first inner rotating plate is arranged in the base plate in a rotating mode, a penetrating second through cavity is arranged in the first inner rotating plate, a hiding cavity which is positioned in the end surface of the lifting plate and is opened is arranged on the upper side of the base plate, a horizontal keeping structure which limits and keeps the first inner rotating plate horizontal is arranged in the hiding cavity, a second inner rotating plate is arranged in the second through cavity in a sliding mode, a connecting rotating plate is fixedly arranged on one side end surface of the second inner rotating plate, a cross shaft is fixedly arranged between the end walls of the second through cavity, the cross shaft is connected with the connecting rotating plate in a rotating and matching mode, a penetrating matching and clamping cavity is arranged in the second inner rotating plate, a semicircular shell is arranged on the outer side of the second inner rotating plate, and symmetrical lateral convex plates are fixedly arranged on one side end surface of the semicircular shell, the side convex plate is connected with the second rotating plate in a rotating fit mode, an opening clamping cavity is formed in the semicircular shell, a fixing structure capable of fixing the semicircular shell and the second rotating plate in a connecting mode is arranged between the clamping cavity and the matching clamping cavity, the semicircular shell stretches into the inner sliding cavity, symmetrical inner sliding grooves are formed in end walls of two sides of the inner sliding cavity in a communicating mode, sliding plates are arranged in the inner sliding cavities, symmetrical circular blocks are fixedly arranged on end surfaces of two sides of each sliding plate, the circular blocks are connected with the inner sliding grooves in a sliding fit mode, fixed circular shafts are fixedly arranged in the sliding plates, the end surfaces of the turnover plates are fixedly provided with the semicircular shell, the semicircular shell is connected with the fixed circular shafts in a clamping fit mode, and therefore the efficient folding function of the equipment is achieved through the structure.

According to a further technical scheme, the horizontal retaining structure comprises a transverse plate fixedly arranged between end walls on two sides of the hiding cavity, an external thread shaft is arranged in the transverse plate in a rotating mode, the external thread shaft is connected with the upper end wall and the lower end wall of the hiding cavity in a rotating matching mode, a second rotary cover is fixedly arranged on the upper end face of the external thread shaft, a bottom rotary plate is arranged on the lower end wall of the hiding cavity in a rotating mode, a rotation transfer plate is arranged in the bottom rotary plate in a rotating mode, the bottom rotary plate is just abutted to the base plate in a horizontal state, an internal thread plate is arranged in the rotation transfer plate in a rotating mode, the internal thread plate is in threaded matching connection with the external thread shaft, and therefore the first internal rotary plate and the base plate are limited to be horizontal after the bottom rotary plate indirectly swings by rotating the second rotary cover.

According to the technical scheme, the fixing structure comprises a plurality of symmetrical matching shafts fixedly arranged between end walls of matching and matching clamping cavities, rotating plates are arranged in the matching and clamping cavities in a rotating mode, outer rotating blocks are arranged in the rotating plates in a rotating mode, inner rotating shafts are fixedly arranged on one side end faces of the outer rotating blocks, matching blocks are arranged on the outer surfaces of the inner rotating shafts in a rotating mode, a plurality of symmetrical matching arc cavities are arranged on the two side end faces of the matching blocks, openings of the matching arc cavities are formed, the matching arc cavities are connected with the matching shafts in a clamping and matching mode, the matching blocks are arranged on the upper side and the lower side of the matching shafts, and therefore the matching blocks are used for indirectly fixing the rotating plates.

Further technical scheme, position conversion equipment include with both sides the fixed connecting plate of installation box terminal surface, the connecting plate top set up the symmetry and with the fixed drive machine of installation box terminal surface, drive machine one side power connection is provided with the driving gear, the meshing of driving gear upside is provided with driven gear, is close to the installation box the driven gear terminal surface has set firmly the second circle axle, the second circle axle with installation box normal running fit is connected, second circle off-axial surface has set firmly the turning block, installation box up end has set firmly the landing slab, first transmission pivot with the landing slab is fixed to utilize above-mentioned structure to realize the function of the swing angle adjustment of arc reflecting plate isotructure is so that heating effect rises.

The invention has the beneficial effects that: this equipment has adopted the design of heating article storage device, equipment strutting arrangement and position conversion equipment, makes equipment adjust self structure and makes equipment can carry out abundant relative in order to improve the heating effect with sunshine, and structural design in the equipment is convenient for equipment folding simultaneously, and the heating process of being convenient for is heated evenly simultaneously.

The advantages are embodied in that the indirectly fixed structure of the platform plate can swing by using the design mode of the transmission motor, the driving gear, the driven gear, the second circular shaft, the rotating block and the platform plate, the pitching angle can be adjusted, so that the sunlight can be better absorbed by the equipment at the pitching angle, the driving motor, the first transmission rotating shaft, the driving bevel gear, the driven bevel gear, the transmission rotating shaft, the driving belt wheel, the driven belt wheel and the transmission belt are designed, so that the transmission of the driving motor can drive the installation cylinder to rotate, the object to be heated in the circular cylinder cavity can be driven to periodically rotate after the installation cylinder rotates, the object to be heated in the circular cylinder cavity is prevented from being bonded, and the design advantages of the cylinder, the first circular shaft and the top circular shell are that the installation cylinder can conveniently slide out, the design advantage of the top column is that a person can conveniently pull out the installation cylinder body, the first rotary cover is protected inside, the rotating cylinder shell and the installation cylinder body are prevented from moving relatively due to the fact that the first rotary cover is touched by mistake, objects to be heated in the circular cylinder cavity are enabled to leak, the rotating flat plate can be stably fixed relative to the first inner rotating plate through the structural design of the rotating flat plate, the outer rotating block, the inner rotating shaft, the clamping matching block, the clamping arc cavity and the matching shaft, the clamping cavity is designed to have the advantage that the rotating flat plate can be hidden in the clamping cavity when the device is folded, the device has a complete folding hiding function, and the bottom rotating plate, the rotating transfer plate, the inner thread plate, the outer thread shaft and the second rotary cover are designed to have the advantage that the bottom rotating plate can keep the first inner rotating plate and the base plate in the same straight line, the rotating transfer plate and the bottom rotating plate can be hidden in the hiding cavity so as to be convenient for folding of the first inner rotating plate, the second penetrating cavity and the first inner rotating plate are designed so that the second inner rotating plate can rotate in the second penetrating cavity to achieve a folding function, and due to the folding design of the turnover plate, the first inner rotating plate and the second inner rotating plate, the equipment is convenient to fold and carry, and the practicability and the convenience of the equipment are improved.

Drawings

FIG. 1 is a schematic diagram of the apparatus of the present invention;

FIG. 2 is a schematic bottom view of the apparatus of FIG. 1 according to the present invention;

FIG. 3 is an enlarged schematic view of the placement module of FIG. 1 in accordance with the present invention;

FIG. 4 is an enlarged schematic view of the top round shell of FIG. 3 according to the present invention;

FIG. 5 is an expanded view of the placement assembly of FIG. 1 in accordance with the present invention;

FIG. 6 is a schematic view of the cylindrical chamber of FIG. 5 taken in the direction B in accordance with the present invention;

FIG. 7 is an enlarged schematic view of the apparatus support of FIG. 1 of the present invention;

FIG. 8 is a schematic view of the mounting housing of FIG. 7 in the direction C of the present invention;

FIG. 9 is a schematic view of the semi-circular housing of FIG. 7 in the direction D of the present invention;

FIG. 10 is a schematic view of the present invention in the direction E of the rotating plate of FIG. 9;

FIG. 11 is a schematic view of the lifter plate of FIG. 7 of the present invention in the direction F;

FIG. 12 is a schematic view of the inner rotating plate of FIG. 7 in the direction of G according to the present invention;

FIG. 13 is a front view of the device support apparatus of FIG. 1 in accordance with the present invention;

FIG. 14 is a schematic view in the direction H of the mounting case of FIG. 13 according to the present invention;

FIG. 15 is a schematic view of the apparatus support of FIG. 1 in a preliminary folded configuration in accordance with the present invention;

FIG. 16 is a schematic view in the direction I of the roll-over panel of FIG. 15 according to the present invention;

FIG. 17 is a schematic view in the direction J of the semi-circular housing of FIG. 16 in accordance with the present invention;

FIG. 18 is a fully collapsed schematic view of the support apparatus of FIG. 1 in accordance with the present invention;

FIG. 19 is a schematic view of the invention in the direction K of the internal chamber of FIG. 18;

FIG. 20 is a schematic view in the direction L of the inner slide chamber of FIG. 18 according to the present invention;

FIG. 21 is a schematic view of the apparatus of FIG. 1 after folding in accordance with the present invention;

in the figure, a driving motor 101, a connecting plate 102, a driving gear 103, a driven gear 104, a transmission motor 105, a rotating block 106, a second circular shaft 107, a fixed cylinder 108, an inner cavity 109, a first transmission rotating shaft 110, a driving bevel gear 111, a driven bevel gear 112, a top cavity 113, a fixed frame 114, a reflection cavity 115, an arc reflection plate 116, a driven pulley 117, an arc cavity 118, a top box 119, a transmission belt 120, a driving pulley 121, a second transmission rotating shaft 123, a mounting riser 124, a platform plate 125, a mounting box 126, a first circular shaft 201, a cylinder 202, a cylinder cavity 203, a top circular shell 211, a top column 213, a first rotary cover 215, a circular block 216, a matching groove 217, a mounting cylinder 218, a circular cylinder cavity 221, a rotating cylinder shell 223, a top cover 301, an internal cavity 302, an opening 303, a fixed cylinder 304, a lifting plate 305, a first through cavity 306, a convex block 307, an internal cavity 308, an internal sliding cavity 320, an internal sliding groove 321, a block 322, a circular block 322, a driving bevel gear 111, a driven bevel gear 112, a top cavity 113, a driven bevel gear, a driven pulley 117, a driving gear, the device comprises a fixed round shaft 323, a semicircular shell 324, a turnover plate 325, a sliding plate 326, a card loading cavity 330, a rotating flat plate 331, a matching card loading cavity 332, a matching shaft 333, a side convex plate 334, a second inner rotating plate 335, a card loading matching block 351, an outer rotating block 353, an inner rotating shaft 354, a card loading arc cavity 355, a second rotary cover 361, a hiding cavity 362, a transverse plate 363, an outer threaded shaft 364, an inner threaded plate 365, a rotation transfer plate 367, a second penetrating cavity 368, a first inner rotating plate 369, a base plate 370, a slope 371, a bottom rotating plate 372, a connecting rotating plate 391, a transverse shaft 392, a rotating outer threaded shaft 401, a heated article storage device 950, a device supporting device 951 and an orientation conversion device 952.

Detailed Description

As shown in fig. 1 to 21, the present invention will be explained in detail, and for convenience of description, the following orientations are defined as follows: the outdoor heating equipment comprises a top box 119, an open inner cavity 109 is arranged in the top box 119, a top side cavity 113 is communicated and arranged in the upper end wall of the inner cavity 109, an arc-shaped reflecting plate 116 is fixedly arranged in the top side cavity 113, an open reflecting cavity 115 is arranged in the arc-shaped reflecting plate 116, the reflecting cavity 115 is of a semicircular structure, the diameter of the reflecting cavity 115 is at least 0.6m, heating object storage devices 950 which are used for placing heating objects and can realize omnidirectional rotation of the heating objects are arranged in the inner cavity 109 and the top side cavity 113, symmetrical equipment supporting devices 951 which support the equipment are arranged at the lower side of the top box 119, and an orientation conversion device 952 which is connected with the top box 119 in a matched manner and can transfer kinetic energy to enable the top box 119 to swing is arranged between the equipment supporting devices 951, so that the function of efficiently heating the objects outdoors by using solar energy is realized by using the structure.

Beneficially, the heated material storage device 950 comprises arc cavities 118 which are communicated with the end walls of the two sides of the top cavity 113 and are provided with openings, the arc cavities 118 are symmetrically arranged, a placing assembly for placing an object to be heated is arranged between the arc cavities 118, and a rotating assembly for driving the placing assembly to rotate periodically is arranged in the top box 119, so that the efficient heating and rotation of the placing assembly are realized by the aid of the rotating assembly.

Beneficially, the placing assembly includes a cylinder 202, an open cylinder cavity 203 is arranged in the cylinder 202, a plurality of first circular shafts 201 in an annular array are fixedly arranged on the right end face of the cylinder 202, the diameter of each first circular shaft 201 is at least 1cm, a top circular shell 211 is fixedly arranged on the right end face of each first circular shaft 201, each top circular shell 211 is in an annular structure, a fixing frame 114 is arranged on the outer surfaces of the cylinder 202 and the top circular shell 211, the cylinder 202 and the top circular shell 211 are fixed in the arc-shaped cavity 118 by the fixing frame 114, open circular blocks 216 are annularly arranged in the end wall of the cylinder cavity 203 and the inner wall of the top circular shell 211, each circular block 216 is in a semicircular structure, the diameter of each circular block 216 is at least 1cm, and shell structures which are used for containing articles to be heated and are convenient for people to use are arranged in the cylinder cavity 203 and the top circular shell 211, so that the objects to be heated are loaded by the shell structures.

Beneficially, the housing structure comprises a mounting cylinder 218 connected with the cylinder cavity 203 and the circular cylinder cavity 221 in a sliding fit mode, a top column 213 is fixedly arranged on one side end face of the mounting cylinder 218, a round block 216 is fixedly arranged on the lower end face of the mounting cylinder 218, the round block 216 is connected with the matching groove 217 in a sliding fit mode, the diameter of the round block 216 is the same as that of the matching groove 217, a rotating cylinder casing 223 is rotatably arranged in the cylinder cavity 203, an open circular cylinder cavity 221 is formed in the rotating cylinder casing 223, the rotating cylinder casing 223 is of a semicircular casing type structure, the diameter of the rotating cylinder casing 223 is the same as that of the cylinder cavity 203, a first rotary cover 215 is fixedly arranged on the end face of the rotating cylinder casing 223 close to the top column 213, and the first rotary cover 215 is located on one side of the top column 213, so that the mounting cylinder 218 is closed through the rotating cylinder casing 223.

Beneficially, the rotating assembly includes a fixed cylinder 108 fixedly arranged on the lower end surface of the top box 119, a driving motor 101 is fixedly arranged on the lower end surface of the fixed cylinder 108, a first driving rotating shaft 110 is arranged in the driving motor 101 in a power connection manner, the first driving rotating shaft 110 rotatably penetrates through the fixed cylinder 108, a driving bevel gear 111 is fixedly arranged on the upper end surface of the first driving rotating shaft 110, a driven bevel gear 112 is arranged on one side of the driving bevel gear 111 in a meshing manner, a second driving rotating shaft 123 is fixedly arranged on the end surface of the driven bevel gear 112 far away from the driving bevel gear 111, a mounting vertical plate 124 is fixedly arranged on the lower end wall of the inner cavity 109, a vertical plate 124 and the top box 119 are rotatably arranged on the second driving rotating shaft 123 in a penetrating manner, the diameter of the second driving rotating shaft 123 is at least 2cm, a driving pulley 121 is fixedly arranged on the end surface of the second driving rotating shaft 123 far away from the mounting vertical plate 124, a driven pulley 117 dynamically connected with the cylinder 202 is arranged on the upper side of the driving pulley 121, and a driving belt 120 is arranged on the outer surfaces of the driven pulley 117 and the driving pulley 121, the driving belt 120 connects the driven pulley 117 and the driving pulley 121, so that the driving motor 101 drives the cylinder 202 to rotate under the transmission of the above structure, and the object to be heated in the cylinder 202 is heated uniformly.

Beneficially, the device supporting apparatus 951 includes a mounting box 126, an open internal cavity 302 is disposed in the mounting box 126, symmetrical first through cavities 306 are disposed in the lower end wall of the internal cavity 302 in a communicating manner, the first through cavity 306 is rectangular, a fixed cylinder 304 is fixedly disposed between the upper end wall and the lower end wall of the internal cavity 302, an internal cavity 308 penetrating forward and backward is disposed in the fixed cylinder 304, a rotary external threaded shaft 401 is disposed in the internal cavity 308 such that an opening 303 on one side of the internal cavity 308 rotates toward the upper end wall of the internal cavity 308, the rotary external threaded shaft 401 rotates to penetrate the mounting box 126, a top cover 301 is fixedly disposed on the upper end surface of the rotary external threaded shaft 401, a lifting plate 305 is disposed on the outer surface of the rotary external threaded shaft 401 in a threaded fit manner, symmetrical raised blocks 307 are fixedly disposed on two sides of the lifting plate 305, the raised blocks 307 are slidably engaged with the internal cavity 308, symmetrical open internal sliding cavities 320 are disposed in the two side end surfaces of the mounting box 126, a link support assembly for supporting the equipment is provided between the inner slide chamber 320 and the lifting plate 305, so that the equipment is stably supported by the link support assembly.

Advantageously, the link rod supporting assembly includes a base plate 370 fixed on the end surfaces of the two sides of the lifting plate 305, a first inner rotating plate 369 is rotatably disposed on the base plate 370, a second through cavity 368 penetrating through the first inner rotating plate 369 is disposed in the first inner rotating plate 369, the second through cavity 368 has a depth of at least 1cm, a hiding cavity 362 disposed on the upper side of the base plate 370 and opening in the end surface of the lifting plate 305, a horizontal holding structure for limiting and holding the first inner rotating plate 369 horizontally is disposed in the hiding cavity 362, a second inner rotating plate 335 is slidably disposed in the second through cavity 368, a connecting rotating plate 391 is fixed on one side end surface of the second inner rotating plate 335, a cross shaft 392 is fixed between the end walls 368 of the second through cavity, the cross shaft 392 is connected with the connecting rotating plate 391 in a rotating fit manner, the diameter of the cross shaft 392 is smaller than the depth of the second through cavity 368, a matching clamping cavity 335 penetrating through the second inner rotating plate 335 is disposed in the second inner rotating plate 335, a semi-circle housing 324 is disposed on the outer side of the second inner rotating plate, a symmetrical side convex plate 334 is fixedly arranged on one side end face of the semicircular shell 324, the side convex plate 334 is connected with a second inner rotating plate 335 in a rotating matching manner, an open card installing cavity 330 is arranged in the semicircular shell 324, a fixing structure capable of indirectly fixing the semicircular shell 324 and the second inner rotating plate 335 is arranged between the card installing cavity 330 and the matching card installing cavity 332, the semicircular shell 324 extends into the inner sliding cavity 320, symmetrical inner sliding chutes 321 are arranged in the end walls at the two sides of the inner sliding cavity 320 in a communicating manner, sliding plates 326 are arranged in the inner sliding cavity 320, symmetrical circular blocks 322 are fixedly arranged on the end faces at the two sides of the sliding plates 326, the circular blocks 322 are connected with the inner sliding chutes 321 in a sliding matching manner, the diameter of each circular block 322 is at least 1cm, a fixed circular shaft 323 is fixedly arranged in the sliding plates 326, a semicircular shell 324 is fixedly arranged on the end face of the turnover plate 325, the semicircular shell 324 is of a semicircular structure, the semicircular shell 324 is connected with the fixed circular shaft 323 in a matching manner, the, therefore, the structure is utilized to realize the efficient folding function of the equipment.

Advantageously, the horizontal holding structure comprises a transverse plate 363 fixedly arranged between the end walls at the two sides of the hiding cavity 362, an external threaded shaft 364 is rotatably arranged in the transverse plate 363, the external threaded shaft 364 is connected with the upper end wall and the lower end wall of the hiding cavity 362 in a rotating fit manner, the depth height of the hiding cavity 362 is at least 5cm, a second rotary cover 361 is fixedly arranged on the upper end surface of the external threaded shaft 364, the diameter of the second rotary cover 361 is smaller than the horizontal depth of the hiding cavity 362, a rotary plate 372 is rotatably arranged on the lower end wall of the hiding cavity 362, a rotary transmission plate 367 is rotatably arranged in the rotary plate 372, one side of the transmission plate 371 is provided with an inclined surface, the rotary plate 372 is just abutted against the base plate 370 in a horizontal state, the sum of the lengths of the rotary plate 372 and the rotary transmission plate 367 is smaller than the vertical depth of the hiding cavity 362, an internal threaded plate 365 is rotatably arranged in the rotary transmission plate 367, and the internal threaded fit connection of the external threaded shaft 364 is, so that the first inner rotating plate 369 and the base plate 370 are horizontally constrained by indirectly swinging the bottom rotating plate 372 by rotating the second rotating cover 361.

Advantageously, the fixing structure includes a plurality of symmetrical fitting shafts 333 fixedly disposed between end walls of the fitting cavity 332, the fitting shafts 333 are at least 1cm in length, a rotating plate 331 is rotatably disposed in the fitting cavity 330, the length of the rotating plate 331 is smaller than the vertical depth of the fitting cavity 330, an outer rotating block 353 is rotatably disposed in the rotating plate 331, an inner rotating shaft 354 is fixedly disposed on an end surface of one side of the outer rotating block 353, a fitting and fitting block 351 is rotatably disposed on an outer surface of the inner rotating shaft 354, a plurality of symmetrical fitting and fitting arc cavities 355 are disposed on end surfaces of two sides of the fitting and fitting block 351, the fitting and fitting arc cavities 355 are open, the fitting and fitting arc cavities 355 are fittingly connected with the fitting shafts 333, the diameter of the fitting and fitting arc cavities 355 is the same as that of the fitting and fitting shafts 333, and the fitting and fitting block 351 is disposed between the upper and lower fitting shafts 333, so that the rotating plate 331 is indirectly fixed by the fitting and fitting block 351.

Advantageously, the orientation conversion device 952 includes a connection plate 102 fixed to the end faces of the installation boxes 126 on both sides, a transmission motor 105 symmetrically arranged above the connection plate 102 and fixed to the end face of the installation box 126, a driving gear 103 dynamically connected to one side of the transmission motor 105, a driven gear 104 engaged with the driving gear 103, a second circular shaft 107 fixed to the end face of the driven gear 104 near the installation box 126, the second circular shaft 107 rotatably coupled to the installation box 126, a rotation block 106 fixed to the outer surface of the second circular shaft 107, a platform plate 125 fixed to the upper end face of the installation box 126, a first transmission rotation shaft 110 fixed to the platform plate 125, and the platform plate 125 having the same length as the connection plate 102, so that the above structure is used to realize the function of adjusting the swing angle of the arc reflection plate 116 and other structures to increase the heating effect.

In the initial state, the above-mentioned devices, assemblies and structures are in the state of stopping working, and in the initial state of the apparatus, the apparatus is in the state of unfolding.

When the device works, firstly the installation cylinder 218 is pulled out from the top circular shell 211, the top column 213 is convenient for people to pull out the device, at this time, the first rotary cover 215 is rotated, the first rotary cover 215 drives the rotary cylinder shell 223 to rotate, at this time, the rotary cylinder shell 223 is separated from the abutting state with the installation cylinder 218, at this time, the to-be-heated object is filled into the circular cylinder cavity 221, the structure is reset, at this time, the angle of the device is adjusted according to the angle of sunlight, wherein, for the adjustment of the plane angle, the device can be directly rotated, so that the reflection cavity 115 focuses the heat of the sun into the rotary cylinder shell 223, the driving gear 103 is driven to rotate after the transmission motor 105 works in the adjustment of the pitch angle, the driving gear 103 drives the driven gear 104 to rotate, then the rotary block 106 also rotates along with the rotation, so that the platform plate 125 drives the first transmission rotating shaft 110 and other structures to adjust the pitch angle, the arc-shaped reflecting plate 116 can be adjusted in the pitching angle, so that sunlight can be better focused in the reflecting cavity 115, and meanwhile, the heating is uniformly performed in the heating process to prevent the heated objects from sticking to the equipment, so that the cylinder 202 rotates under the action of the first transmission rotating shaft 110, the driving bevel gear 111, the driven bevel gear 112, the second transmission rotating shaft 123, the driving belt wheel 121, the transmission belt 120 and the driven belt wheel 117 after the driving motor 101 works, and the rotating cylinder shell 223 and the mounting cylinder 218 also rotate to realize the balanced heating of the objects to be heated in the circular cylinder cavity 221.

When the equipment is folded, after the clamping matching block 351 is rotated, the clamping arc cavity 355 and the matching shaft 333 are separated from clamping matching connection, at this time, the rotating flat plate 331 can be turned over and hidden in the clamping cavity 330, at this time, the second inner rotating plate 335 can rotate relative to the semicircular shell 324, then the second rotating cover 361 is rotated, the second rotating cover 361 drives the external thread shaft 364 to rotate, the external thread shaft 364 drives the internal thread plate 365 to move upwards after rotating, the structure formed by the internal thread plate 365, the rotating transmission plate 367 and the bottom rotating plate 372 is enabled to separate from the limit of the first inner rotating plate 369 and abut against the limit of the first inner rotating plate 369, the bottom rotating plate 372 and the rotating transmission plate 367 are hidden in the hidden cavity 362, at this time, the first inner rotating plate can swing relative to the base plate 370, and after the position relationship among the turning plate 325, the second inner rotating plate 335 and the first inner rotating plate 369 is adjusted, the turnover plate 325 is positioned under the inner sliding cavity 320, the second inner rotating plate 335 and the first inner rotating plate 369 form a frame structure and are positioned under the first penetrating cavity 306, the rotating external threaded shaft 401 rotates after the top cover 301 is rotated, the raised block 307 drives the lifting plate 305 to move upwards, so that the turnover plate 325 enters the inner sliding cavity 320, the second inner rotating plate 335 and the first inner rotating plate 369 enter the first penetrating cavity 306, and the purpose of completely hiding and folding can be achieved at the moment.

The invention has the beneficial effects that: this equipment has adopted the design of heating article storage device 950, equipment strutting arrangement 951 and position conversion device 952, makes equipment adjust self structure and makes equipment can carry out abundant relative in order to improve the heating effect with sunshine, and structural design in the equipment is convenient for equipment folding simultaneously, and the heating process of being convenient for is heated evenly simultaneously.

The advantages are embodied in that the structure indirectly fixed with the platform plate 125 can swing by using the design mode of the transmission motor 105, the driving gear 103, the driven gear 104, the second circular shaft 107, the rotating block 106 and the platform plate 125, so as to realize the adjustment of the pitch angle, so as to meet the requirement that the equipment can better absorb sunlight in the pitch angle, the installation cylinder 218 can be driven to rotate by the transmission of the driving motor 101, the first transmission rotating shaft 110, the driving bevel gear 111, the driven bevel gear 112, the second transmission rotating shaft 123, the driving pulley 121, the driven pulley 117 and the transmission belt 120, so that the object to be heated in the circular cylinder cavity 221 can be driven to rotate periodically after the installation cylinder 218 rotates, so as to prevent the object to be heated in the circular cylinder cavity 221 from being bonded, the design advantages of the cylinder 202, the first circular shaft 201 and the top circular shell 211 are that the installation cylinder 218 can slide out conveniently, the top column 213 is advantageous in that it is convenient for a person to pull out the installation cylinder 218, and protects the first screw cap 215 therein, so as to prevent the first screw cap 215 from being touched by mistake, so that the rotary cylinder 223 and the installation cylinder 218 move relatively, so that the heated material in the circular cylinder chamber 221 leaks out, the rotary plate 331 can be stably fixed relative to the second inner rotary plate 335 by using the structural design of the rotary plate 331, the outer rotary block 353, the inner rotary shaft 354, the card fitting block 351, the card fitting arc chamber 355 and the fitting shaft 333, the card fitting chamber 330 is advantageous in that, in a folded state, the rotary plate 331 can be hidden in the card fitting chamber 330, so that the device has a complete folding and hiding function, and the bottom rotary plate 372, the rotary transfer plate 367, the inner screw plate 365, the outer screw shaft 364 and the second screw cap 361 are advantageous in that the bottom rotary plate 372 can keep the first inner rotary plate 369 and the base plate 370 in the same straight line, and can make and rotate the transfer plate 367 and the board 372 that rotates hide in hiding the chamber 362 to the folding of first interior rotor plate 369, the design of second wearing chamber 368 and first interior rotor plate 369 makes the interior rotor plate 335 of second can wear the intracavity 368 internal rotation at the second, in order to realize folding function, the folding design of rotor plate 335 and first interior rotor plate 369 in upset board 325, the second makes equipment be convenient for fold in carrying, the practicality and the convenience of equipment have been improved.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although the driving motor 101, the connecting plate 102, the driving gear 103, the driven gear 104, the transmission motor 105, the rotating block 106, the second circular shaft 107, the fixed cylinder 108, the inner cavity 109, the first transmission rotating shaft 110, the driving bevel gear 111, the driven bevel gear 112, the top cavity 113, the fixed frame 114, the reflection cavity 115, the arc reflection plate 116, the driven pulley 117, the arc cavity 118, the top box 119, the transmission belt 120, the driving pulley 121, the second transmission rotating shaft 123, the mounting riser 124, the platform plate 125, the mounting box 126, the first circular shaft 201, the cylinder 202, the cylinder cavity 203, the top circular shell 211, the top column 213, the first rotary cover 215, the circular block 216, the fitting groove 217, the mounting cylinder 218, the circular cylinder cavity 221, the rotating cylinder shell 223, the top cover 301, the built-in cavity 302, the fixed cylinder 304, the lifting plate 305, the first through cavity 306, the protruding block 307, the inner cavity 308, the inner sliding groove 321, the inner sliding groove 320, the inner sliding groove 321, The terms of the circular block 322, the fixed circular shaft 323, the semicircular shell 324, the flip plate 325, the sliding plate 326, the card-receiving cavity 330, the rotating flat plate 331, the matching card-receiving cavity 332, the matching shaft 333, the side convex plate 334, the second inner rotating plate 335, the card-receiving matching block 351, the outer rotating block 353, the inner rotating shaft 354, the card-receiving arc cavity 355, the second rotary cover 361, the hiding cavity 362, the transverse plate 363, the external threaded shaft 364, the internal threaded plate 365, the rotation transmission plate 367, the second through cavity 368, the first inner rotating plate 369, the base plate 370, the bottom rotating plate 372, the connecting rotating plate 391, the transverse shaft 392, the rotating external threaded shaft 401, the heated object storage device 950, the device supporting device 951, the orientation conversion device 952, etc., but do not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention and they are to be interpreted as any additional limitation which is not in accordance with the spirit of the present invention.

Claims (7)

1. The outdoor heating equipment is characterized by comprising a top box (119), wherein an open-ended inner cavity (109) is arranged in the top box (119), a top side cavity (113) is communicated and arranged in the upper end wall of the inner cavity (109), an arc-shaped reflecting plate (116) is fixedly arranged in the top side cavity (113), an open-ended reflecting cavity (115) is arranged in the arc-shaped reflecting plate (116), heating object storage devices (950) which are used for placing heating objects and can realize heating object omnibearing rotation are arranged in the inner cavity (109) and the top side cavity (113), symmetrical equipment supporting devices (951) which support the equipment are arranged at the lower side of the top box (119), and azimuth conversion devices (952) which are connected with the top box (119) in a matched mode and can transfer kinetic energy to enable the top box (119) to swing are arranged between the equipment supporting devices (951);

the heated material storage device (950) comprises arc-shaped cavities (118) which are communicated with the end walls on the two sides of the top side cavity (113) and are provided with openings, the arc-shaped cavities (118) are symmetrically arranged, a placing assembly for placing an object to be heated is arranged between the arc-shaped cavities (118), and a rotating assembly for driving the placing assembly to rotate periodically is arranged in the top box (119);

the placing assembly comprises a cylinder (202), an open cylinder cavity (203) is arranged in the cylinder (202), a plurality of first circular shafts (201) in an annular array are fixedly arranged on the right end face of the cylinder (202), a top circular shell (211) is fixedly arranged on the right end face of the first circular shaft (201), fixing frames (114) are arranged on the outer surfaces of the cylinder (202) and the top circular shell (211), the cylinder (202) and the top circular shell (211) are fixed in the arc-shaped cavity (118) through the fixing frames (114), open circular blocks (216) are arranged in the end wall of the cylinder cavity (203) and the inner ring of the top circular shell (211), and shell structures which are used for containing articles to be heated and are convenient for people to use are arranged in the cylinder cavity (203) and the top circular shell (211);

the shell structure include with installation barrel (218) that barrel chamber (203) and circular barrel chamber (221) sliding fit are connected, installation barrel (218) a side end face has set firmly fore-set (213), the terminal surface has set firmly disk (216) under installation barrel (218), be provided with cooperation groove (217) in top circle shell (211), disk (216) with cooperation groove (217) sliding fit is connected, the diameter of disk (216) and cooperation groove (217) is the same, the internal rotation of barrel chamber (203) is provided with and rotates barrel casing (223), be provided with open-ended circular barrel chamber (221) in rotating barrel casing (223), be close to fore-set (213) it has set firmly first spiral cover (215) to rotate barrel casing (223) terminal surface, first spiral cover (215) are located fore-set (213) one side.

2. An outdoor heating apparatus according to claim 1, wherein: the rotating assembly comprises a fixed cylinder (108) fixedly arranged on the lower end face of the top box (119), a driving motor (101) is fixedly arranged on the lower end face of the fixed cylinder (108), a first transmission rotating shaft (110) is arranged in the driving motor (101) in a power connection mode, the first transmission rotating shaft (110) rotatably penetrates through the fixed cylinder (108), a driving bevel gear (111) is fixedly arranged on the upper end face of the first transmission rotating shaft (110), a driven bevel gear (112) is arranged on one side of the driving bevel gear (111) in a meshed mode, a second transmission rotating shaft (123) is fixedly arranged on the end face of the driven bevel gear (112) far away from the driving bevel gear (111), an installation vertical plate (124) is fixedly arranged on the lower end wall of the inner cavity (109), the second transmission rotating shaft (123) rotatably penetrates through the installation vertical plate (124) and the top box (119), and a driving belt pulley (121) is fixedly arranged on the end face of the second transmission rotating shaft, the upper side of the driving pulley (121) is provided with a driven pulley (117) in power connection with the cylinder (202), the outer surfaces of the driven pulley (117) and the driving pulley (121) are wound with a transmission belt (120), and the transmission belt (120) is used for power connection of the driven pulley (117) and the driving pulley (121).

3. An outdoor heating apparatus according to claim 2, wherein: the equipment supporting device (951) comprises an installation box body (126), an open built-in cavity (302) is arranged in the installation box body (126), symmetrical first through cavities (306) are communicated and arranged in the lower end wall of the built-in cavity (302), a fixed cylinder body (304) is fixedly arranged between the upper end wall and the lower end wall of the built-in cavity (302), an inner cavity (308) which is arranged in a penetrating manner is arranged in the fixed cylinder body (304) from front to back, the opening of the inner cavity (308) faces downwards, a rotary external thread shaft (401) is rotationally arranged in the upper end wall of the inner cavity (308), the rotary external thread shaft (401) rotatably penetrates through the installation box body (126), a top cover (301) is fixedly arranged on the upper end face of the rotary external thread shaft (401), a lifting plate (305) is arranged on the outer surface of the rotary external thread shaft (401) in a threaded matching manner, and symmetrical raised blocks (307) are fixedly arranged on two sides of the lifting plate (305), the convex block (307) is connected with the inner circular cavity (308) in a sliding fit mode, symmetrical and open inner sliding cavities (320) are arranged in the end faces of the two sides of the installation box body (126), and a connecting rod supporting assembly for supporting equipment is arranged between the inner sliding cavities (320) and the lifting plate (305).

4. An outdoor heating apparatus according to claim 3, wherein: the connecting rod supporting component comprises a base plate (370) fixedly arranged on the end surfaces of two sides of the lifting plate (305), a first inner rotating plate (369) is arranged in the base plate (370) in a rotating mode, a penetrating second through cavity (368) is arranged in the first inner rotating plate (369), a hiding cavity (362) which is located in the end surface of the lifting plate (305) and is open is arranged on the upper side of the base plate (370), a horizontal keeping structure which limits and keeps the first inner rotating plate (369) horizontal is arranged in the hiding cavity (362), a second inner rotating plate (335) is arranged in the second through cavity (368) in a sliding mode, a connecting rotating plate (391) is fixedly arranged on the end surface of one side of the second inner rotating plate (335), a transverse shaft (392) is fixedly arranged between the end walls of the second through cavity (368), and the transverse shaft (392) is connected with the connecting rotating plate (391) in a rotating matching mode, a penetrating matching and clamping cavity (332) is arranged in the second inner rotating plate (335), a semicircular shell (324) is arranged on the outer side of the second inner rotating plate (335), a symmetrical lateral convex plate (334) is fixedly arranged on one lateral end face of the semicircular shell (324), the lateral convex plate (334) is connected with the second inner rotating plate (335) in a rotating matching manner, an open clamping cavity (330) is arranged in the semicircular shell (324), a fixing structure capable of indirectly fixing the semicircular shell (324) and the second inner rotating plate (335) is arranged between the clamping cavity (330) and the matching clamping cavity (332), the semicircular shell (324) extends into the inner sliding cavity (320), symmetrical inner sliding grooves (321) are communicated in the end walls on the two sides of the inner sliding cavity (320), a sliding plate (326) is arranged in the inner sliding cavity (320), and symmetrical round blocks (322) are fixedly arranged on the end faces on the two sides of the sliding plate (326), circular piece (322) with interior spout (321) sliding fit connects, sliding plate (326) internal fixation has fixed circle axle (323), fixed circle axle (323) one side is provided with returning face plate (325), returning face plate (325) terminal surface sets firmly half round shell (324), half round shell (324) with fixed circle axle (323) dress card cooperation is connected.

5. An outdoor heating apparatus according to claim 4, wherein: the horizontal retaining structure comprises a transverse plate (363) fixedly arranged between end walls on two sides of the hiding cavity (362), an external thread shaft (364) is arranged in the transverse plate (363) in a rotating mode, the external thread shaft (364) is connected with the upper end wall and the lower end wall of the hiding cavity (362) in a rotating matching mode, a second rotary cover (361) is fixedly arranged on the upper end face of the external thread shaft (364), a bottom rotary plate (372) is arranged on the lower end wall of the hiding cavity (362) in a rotating mode, a rotating transmission plate (367) is arranged in the bottom rotary plate (372) in a rotating mode, the bottom rotary plate (372) is just abutted against the base plate (370) in a horizontal state, an internal thread plate (365) is arranged in the rotating transmission plate (367) in a rotating mode, and the internal thread plate (365) is connected with the external thread shaft (364) in a threaded matching mode.

6. An outdoor heating apparatus according to claim 4, wherein: fixed knot constructs including set firmly in a plurality of cooperation axles (333) of just symmetry between the cooperation calorie of chamber (332) end wall, dress calorie of intracavity (330) internal rotation is provided with and rotates dull and stereotyped (331), rotate that dull and stereotyped (331) internal rotation is provided with outer commentaries on classics piece (353), a side end face of outer commentaries on classics piece (353) has set firmly interior pivot (354), interior pivot (354) surface pivoted is provided with dress card cooperation piece (351), dress card cooperation piece (351) both sides terminal surface is provided with a plurality of dress card arc chamber (355) of symmetry, dress card arc chamber (355) opening sets up, dress card arc chamber (355) with cooperation axle (333) dress card cooperation is connected, dress card cooperation piece (351) set up in the downside between cooperation axle (333).

7. An outdoor heating apparatus according to claim 3, wherein: position conversion equipment (952) include with both sides installation box (126) fixed connecting plate (102) of terminal surface, connecting plate (102) top set up the symmetry and with installation box (126) fixed drive motor (105) of terminal surface, drive motor (105) one side power connection is provided with driving gear (103), driving gear (103) upside meshing is provided with driven gear (104), is close to installation box (126) driven gear (104) terminal surface has set firmly second circle axle (107), second circle axle (107) with installation box (126) normal running fit is connected, second circle axle (107) surface has set firmly rotor block (106), installation box (126) up end has set firmly landing slab (125), first transmission pivot (110) with landing slab (125) are fixed.

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