CN109366945A - A kind of robot encapsulating solar energy heating shuttle - Google Patents

Abstract

The invention discloses a kind of robots for encapsulating solar energy heating shuttle, it includes rack, bottom plate, rotary feeding device and mould molding device, bottom plate is mounted on the rack, rotary feeding device, mould molding device are set to bottom plate, rotary feeding device includes that turntable, fever circle, vacuum chuck and body of punch, mould molding device include upper cavity die and lower cavity die；The present invention encloses fever, vacuum chuck, body of punch is set on turntable, pass through the rotation of turntable, enclose fever, vacuum chuck, body of punch orderly carries out and upper cavity die, lower cavity die cooperation, body of punch is turned to and upper cavity die first, lower cavity die cooperatively forms hemispheric spherical shell, then thermal-arrest shuttle is put by spherical shell after molding in lower cavity die by vacuum chuck, then pass through fever circle heating and melting, by upper cavity die, spherical shell in lower cavity die merges sphere, realize the encapsulation of thermal-arrest shuttle, complete the production of collection hot-bulb, then the collection hot-bulb made is transferred out of by workspace by vacuum chuck again.

Description

A kind of robot encapsulating solar energy heating shuttle

Technical field

The present invention relates to energy equipment manufacturing technology field is adopted, more particularly to a kind of machinery for encapsulating solar energy heating shuttle People.

Background technique

A kind of method that solar energy is absorbed using thermal-arrest shuttle is provided in existing, this method is wrapped in thermal-arrest shuttle one small In ball, thermal-arrest shuttle is in circle shuttle shape small in ends broad in the middle, and as shown in Figure 10, thermal-arrest shuttle is quartzy convex lens, then a fixed number In a collection hot-bulb intake-outlet is arranged, water is according to the warm for receiving the focusing of thermal-arrest shuttle in the roundlet ball sealing of amount in collection hot-bulb Amount variation is exchanged with each other heat without open close flowing excessively, and small ball can roll in the flowing of water, the angle of such thermal-arrest shuttle Any variation, and there is the thermal-arrest shuttle of axially and radially any rotation in entire ball, three dimensions can be focused The sunlight of multi-angle, each thermal-arrest shuttle can freely change angle, thus reduce within the same period on mining energy converter part The phenomenon that most sun gloss energy materials cannot be fully utilized, reduces the wave to sun gloss energy material resources Take.

But there is presently no for production equipment thermal-arrest shuttle being coated in small ball.

Summary of the invention

It is an object of the invention to overcome disadvantages described above, a kind of robot for encapsulating solar energy heating shuttle is provided.

To achieve the above object, concrete scheme of the invention is as follows: a kind of robot encapsulating solar energy heating shuttle, including Rack, bottom plate, rotary feeding device and mould molding device, the bottom plate are mounted on the rack, the rotary feeding device, mould Tool molding machine is installed on bottom plate；

The rotary feeding device includes rotary drive motor, cam protractor and turntable, and the cam protractor is fixed on institute It states on bottom plate, the rotary drive motor is fixed on cam protractor by an electric machine support, the rotary drive motor Output end is connected by the inputting shaft of shaft coupling and cam protractor, the power output axis connection of the turntable and cam protractor, institute Stating arranged for interval on turntable has a sucker stand, a hot melt bracket, a mold connection handle, the sucker stand, hot melt Bracket, mold connection handle the other end extend radially setting, the other end of the sucker stand is equipped with suction motor, institute The output end for stating suction motor, which is passed down through after the bracket, is connected with vacuum chuck, and the other end of the hot melt bracket is equipped with circle Cricoid first is raised, and fever circle is equipped on the inner wall of first protrusion, and the other end of the mold connection handle, which is equipped with, to be justified Cricoid second protrusion, is fixed with body of punch in second protrusion, and the body of punch includes columned ontology, hemispherical Upper male mould and hemispherical lower punch, the relatively fixed top surface in ontology of the upper male mould, lower punch, bottom surface, the upper male mould, The radius of lower punch is equal and is less than the radius of ontology；

The mould molding device includes four support columns, top plate, sizing material heat staking members, upper sliding component and lower slider component, One end of four support columns is fixed on bottom plate, and the top plate is fixed on the other end of four support columns, the glue Material heat staking members are fixed on the top plate；The upper sliding component includes upper driving cylinder and upper sliding plate, the upper driving Cylinder is fixed on top plate, and the output end of the upper driving cylinder is connect after being passed down through top plate with the one side of upper sliding plate, The opposite another side of the upper sliding plate is equipped with upper cavity die；The lower slider component includes lower driving cylinder and lower slider Plate, the lower driving cylinder are fixed on the bottom surface of bottom plate, and the output end of the lower driving cylinder is upward through after bottom plate and downslide The one side of movable plate connects, and the opposite another side of the downslide movable plate is fixed with lower cavity die；The sizing material heat staking members connection It is connect after thering is feeding main pipe, one end of the feeding main pipe to pass through top plate with the sizing material heat staking members, the feeding main pipe The other end is connected with top hose and bottom hose；The upper cavity die, lower cavity die are respectively equipped with the groove cooperated with upper male mould, lower punch And the feeding-passage being connected to groove, the top hose is connected to by feed head with the feeding-passage in upper cavity die, soft under described Pipe is connected to by feed head with the feeding-passage in lower cavity die.

Wherein, the top surface of the ontology of the body of punch be symmetrically arranged with the first pillar, the body of punch ontology bottom surface pair Claim to be equipped with the first circular hole, the upper cavity die is equipped with the second circular hole for cooperate with the pillar, and the lower cavity die is equipped with described the Second pillar of one circular hole cooperation.

Wherein, the upper sliding component further includes two symmetrically arranged upper guiding axis, and the one of two upper guiding axis End is each attached on upper sliding plate, and the other end of two upper guiding axis passes through linear bearing and top plate is slidably connected backward Upper stretching.

Wherein, the lower slider component further includes two symmetrically arranged lower guiding axis, and the one of two lower guiding axis End is slidably connected with bottom plate by linear bearing and is stretched out upwards and is fixedly connected with downslide movable plate, two lower guiding axis The other end extends downwardly.

It wherein, further include feed device, the feed device is set on the bottom plate and is located at the one of the rotary feeding device Side, the feed device include conveyer belt and two power drums, and the conveyer belt is coiled on two power drums simultaneously It joins end to end, axis connects on a bearing block respectively at the both ends of the power drum, and the bearing block is fixed on bottom plate.

Wherein, further include blowpit, the blowpit be fixed on bottom plate and be located at the rotary feeding device it is opposite The other side.

The invention has the benefit that the present invention will generate heat, circle, vacuum chuck, body of punch arranged for interval are led on turntable The rotation for crossing turntable makes fever circle, vacuum chuck, body of punch orderly carry out cooperating with upper cavity die, lower cavity die, first by body of punch It turns to and cooperatively forms hemispheric spherical shell with upper cavity die, lower cavity die, thermal-arrest shuttle is then put by lower cavity die by vacuum chuck Spherical shell in upper cavity die, lower cavity die is merged sphere, realizes collection by interior spherical shell after molding then by fever circle heating and melting The production of collection hot-bulb is completed in the encapsulation of hot shuttle, and the collection hot-bulb made then is transferred out of workspace by vacuum chuck again；This Invention mechanized operation, and structure is simple, it is high-efficient.

Detailed description of the invention

Fig. 1 is structural schematic diagram of the invention；

Fig. 2 is the structural schematic diagram at another visual angle of the present invention；

Fig. 3 is the structural schematic diagram of rotary feeding device of the present invention；

Fig. 4 is the structural schematic diagram of inventive die molding machine；

Fig. 5 is the structural schematic diagram at another visual angle of inventive die molding machine；

Fig. 6 is the structural schematic diagram of body of punch of the present invention；

Fig. 7 is the structural schematic diagram at another visual angle of body of punch of the present invention；

Fig. 8 is the structural schematic diagram of upper cavity die of the present invention；

Fig. 9 is the structural schematic diagram of lower cavity die of the present invention；

Figure 10 is the schematic diagram of thermal-arrest shuttle；

Description of symbols: 1- rack；2- bottom plate；30- body of punch；301- ontology；302- upper male mould；303- lower punch；31- rotation Turn driving motor；32- cam protractor；33- turntable；34- sucker stand；35- heats bracket；36- mold connection handle；37- inhales Expect motor；38- vacuum chuck；39- fever circle；41- support column；42- top plate；43- sizing material heat staking members；44- upper cavity die；45- Lower cavity die；Cylinder is driven on 461-；462- upper sliding plate；Cylinder is driven under 471-；472- downslide movable plate；51- conveyer belt；6- is unloaded Hopper.

Specific embodiment

The present invention is described in further detail in the following with reference to the drawings and specific embodiments, is not reality of the invention It applies range and is confined to this.

As shown in Figures 1 to 10, a kind of robot of encapsulation solar energy heating shuttle described in the present embodiment, including rack 1, Bottom plate 2, rotary feeding device and mould molding device, the bottom plate 2 are mounted in rack 1, the rotary feeding device, mold Molding machine is respectively mounted on a base plate 2；

The rotary feeding device includes rotary drive motor 31, cam protractor 32 and turntable 33, the cam protractor 32 It is fixed on the bottom plate 2, the rotary drive motor 31 is fixed on cam protractor 32 by an electric machine support, the rotation The output end for turning driving motor 31 is connect by shaft coupling with the inputting shaft of cam protractor 32, and the turntable 33 is indexed with cam The power output axis connection of device 32 has been equidistantly spaced from 35, one, the hot melt bracket mould of sucker stand 34, one on the turntable 33 Have connection handle 36, the sucker stand 34, hot melt bracket 35, mold connection handle 36 the other end extend radially setting, institute The other end for stating sucker stand 34 is equipped with suction motor 37, after the output end of the suction motor 37 is passed down through the bracket Be connected with vacuum chuck 38, the other end of the hot melt bracket 35 is equipped with the first circular protrusion, first protrusion it is interior Fever circle 39 is installed, the other end of the mold connection handle 36 is equipped with the second circular protrusion, second protrusion on wall Inside it is fixed with body of punch 30, the body of punch 30 includes columned ontology 301, hemispherical upper male mould 302 and hemispherical Lower punch 303, the relatively fixed top surface in ontology 301 of the upper male mould 302, lower punch 303, bottom surface, the upper male mould 302, The radius of lower punch 303 is equal and is less than the radius of ontology 301, the ontology 301, upper male mould 302, the one of lower punch 303 at Type setting；

The mould molding device includes four support columns 41, top plate 42, sizing material heat staking members 43, upper sliding component and lower slider Component, one end of four support columns 41 is fixed on a base plate 2, and the top plate 42 is fixed on the another of four support columns 41 One end, the sizing material heat staking members 43 are fixed on the top plate 42；The upper sliding component includes upper driving cylinder 461 and upper Sliding panel 462, the upper driving cylinder 461 are fixed on top plate 42, and the output end of the upper driving cylinder 461 is passed down through top It is connect after plate 42 with the one side of upper sliding plate 462, the opposite another side of the upper sliding plate 462 is equipped with upper cavity die 44； The lower slider component includes lower driving cylinder 471 and downslide movable plate 472, and the lower driving cylinder 471 is fixed on the bottom of bottom plate 2 Face, the output end of the lower driving cylinder 471 are connect after being upward through bottom plate 2 with the one side of downslide movable plate 472, the downslide The opposite another side of movable plate 472 is fixed with lower cavity die 45；The sizing material heat staking members 43 are connected with feeding main pipe, the feeding One end of supervisor is connect after passing through top plate 42 with the sizing material heat staking members 43, and the other end of the feeding main pipe is connected with soft Pipe and bottom hose；The upper cavity die 44, lower cavity die 45 be respectively equipped with upper male mould 302, lower punch 303 cooperation groove and with it is recessed The feeding-passage of slot connection, the top hose are connected to by feed head with the feeding-passage in upper cavity die 44, and the bottom hose is logical Feed head is crossed to be connected to the feeding-passage in lower cavity die 45.

Specifically, electric machine support is arranged in frame shape, and shaft coupling is set in electric machine support, in use, rotary drive motor 31 Driving drives cam protractor 32 to work, and cam protractor 32 drives turntable 33 to rotate, and turntable 33 rotates driven mold connection handle 36 turn to and are aligned with upper cavity die 44, lower cavity die 45, and body of punch 30 is between upper cavity die 44 and lower cavity die 45, then on Cylinder 461, the work of lower driving cylinder 471 are driven, drives upper cavity die 44, lower cavity die 45 to move toward one another and molded, upper cavity die 44 Cooperate with upper male mould 302, lower cavity die 45 and lower punch 303 cooperate, then the upward cavity plate 44 of sizing material heat staking members 43, lower cavity die 45 On groove inject sizing material, be molded by hemispheric spherical shell in upper cavity die 44, lower cavity die 45；Then upper cavity die 44, lower cavity die 45 withdraw, while thermal-arrest shuttle being placed on to the lower section of vacuum chuck 38, and then suction cylinder drives 38 test of vacuum chuck and inhales Firmly thermal-arrest shuttle, after thermal-arrest shuttle is sucked in vacuum chuck 38, suction cylinder drives vacuum chuck 38 to withdraw, and then turntable 33 rotates, and makes Vacuum chuck 38 is between upper cavity die 44 and lower cavity die 45, and then the suction cylinder drives again, makes under vacuum chuck 38 It visits to lower cavity die 45, while vacuum chuck 38 unclamps thermal-arrest shuttle, and thermal-arrest shuttle is placed on to the hemispherical formed in lower cavity die 45 Spherical shell in；Then turntable 33 rotates again, makes fever circle 39 between upper cavity die 44 and lower cavity die 45, then upper cavity die 44, lower cavity die 45 moves towards again, is molded, and the spherical shell in upper cavity die 44 is being sent out with the spherical shell seam crossing in lower cavity die 45 The edge for melting the two under the action of gas ket 39 is realized in spherical encapsulation, i.e., thermal-arrest shuttle is encapsulated in spherical sizing material It is interior, complete the production collection hot-bulb process；Then lower cavity die 45 is withdrawn, and drives packaged collection hot-bulb to move down, then upper cavity die 44 withdraw upwards, while turntable 33 drives fever circle 39 to remove, and vacuum chuck 38 is made to be located at the top of lower cavity die 45, then very Simultaneously packaged collection hot-bulb is sucked in 38 test of suction disk, and under the drive of turntable 33, packaged collection hot-bulb is transferred out of workspace； It repeats the above steps, the encapsulation of thermal-arrest shuttle can be carried out continuously.

Fever circle 39, vacuum chuck 38,30 arranged for interval of body of punch on turntable 33, are passed through turntable 33 by the present embodiment Rotation makes fever circle 39, vacuum chuck 38, body of punch 30 orderly carry out cooperating with upper cavity die 44, lower cavity die 45, first by punch-pin Body 30, which is turned to, cooperatively forms hemispheric spherical shell with upper cavity die 44, lower cavity die 45, then passes through vacuum chuck 38 for thermal-arrest shuttle It is put into spherical shell after molding in lower cavity die 45, then by fever 39 heating and meltings of circle, by the ball in upper cavity die 44, lower cavity die 45 Shell merges sphere, realizes the encapsulation of thermal-arrest shuttle, completes the production of collection hot-bulb, the collection that then will be made by vacuum chuck 38 again Hot-bulb is transferred out of workspace；The present embodiment mechanized operation, and structure is simple, it is high-efficient.

On the basis of based on the above embodiment, further, the top surface of the ontology 301 of the body of punch 30 is symmetrically arranged with One pillar, the body of punch 30 the bottom surface of ontology 301 be symmetrically arranged with the first circular hole, the upper cavity die 44 is equipped with and described first Second circular hole of pillar cooperation, the lower cavity die 45 are equipped with the second pillar cooperated with first circular hole；Specifically, described When upper cavity die 44, lower cavity die 45 and 30 cooperating of body of punch, first pillar is inserted into second circular hole and institute It states the second pillar to be inserted into first circular hole, upper cavity die 44 is made to cooperate stronger, lower cavity die 45 and body of punch with body of punch 30 30 cooperations are stronger, form hemispheric spherical shell in upper cavity die 44 and lower cavity die 45 conducive to sizing material.

On the basis of based on the above embodiment, further, the upper sliding component further includes on two symmetrically arranged One end of guiding axis, two upper guiding axis is each attached on upper sliding plate 462, and the other end of two upper guiding axis is equal It is stretched out upwards after being slidably connected by linear bearing with top plate 42；Specifically, the fovea superior is driven in the upper driving cylinder 461 When mould 44 moves up and down, two upper guiding axis also can be moved up and down and then, keep the upper cavity die 44 more steady when moving up and down It is fixed, keep the upper cavity die 44 more acurrate and cooperates with the body of punch 30 or lower cavity die 45.

On the basis of based on the above embodiment, further, the lower slider component further includes under two symmetrically arranged Guiding axis, one end of two lower guiding axis passes through linear bearing and bottom plate 2 is slidably connected and stretching and lower slider upwards Plate 472 is fixedly connected, and the other end of two lower guiding axis extends downwardly；Specifically, in lower 471 band of driving cylinder When moving the lower cavity die 45 and moving up and down, two lower guiding axis also can be moved up and down and then, make about 45 lower cavity die It is more stable when mobile, keep the lower cavity die 45 more acurrate and cooperates with the body of punch 30 or upper cavity die 44.

It further include feed device further on the basis of based on the above embodiment, the feed device is set to bottom plate 2 The side of the rotary feeding device is gone up and is located at, the feed device includes conveyer belt 51 and two power drums, the biography It send band 51 to be coiled on two power drums and joins end to end, axis connects in a bearing respectively at the both ends of the power drum On seat, the bearing block is fixed on a base plate 2；Specifically, thermal-arrest shuttle is sequentially placed on conveyer belt 51, then the power rolling Cylinder rotation, rotates conveyer belt 51, and thermal-arrest shuttle is driven to be moved to the lower section of the vacuum chuck 38, is convenient for the vacuum chuck 38 Thermal-arrest shuttle is grabbed, machine driving feeding is more efficient, is more convenient.

It further include blowpit 6 further, the blowpit 6 is fixed on bottom plate 2 on the basis of based on the above embodiment The opposite other side of the rotary feeding device is gone up and is located at, the rotary feeding device, mould molding device are respectively positioned on described Between feed device and the blowpit 6；Specifically, when thermal-arrest shuttle is packaged, that is, the collection hot-bulb made is inhaled in the vacuum Under the drive of disk 38, be moved to the upper of blowpit 6, then 38 test of vacuum chuck and by collection hot-bulb be placed on blowpit 6, Workspace, more reasonable structure are transferred out of by the blowpit 6.

The above is only a preferred embodiment of the invention, therefore all according to structure described in present patent application range It makes, the equivalent change or modification that feature and principle are done, in the protection scope of present patent application.

Claims (7)

1. a kind of robot for encapsulating solar energy heating shuttle, it is characterised in that: including rack (1), bottom plate (2), rotation blowing dress It sets and mould molding device, the bottom plate (2) is mounted on rack (1), the rotary feeding device, mould molding device are pacified On bottom plate (2)；

The rotary feeding device includes rotary drive motor (31), cam protractor (32) and turntable (33), the cam point Degree device (32) is fixed on the bottom plate (2), and the rotary drive motor (31) passes through the fixed cam indexing of an electric machine support On device (32), the output end of the rotary drive motor (31) is connect by shaft coupling with the inputting shaft of cam protractor (32), The power output axis connection of the turntable (33) and cam protractor (32), arranged for interval has a sucker stand on the turntable (33) (34), a hot melt bracket (35), a mold connection handle (36), the sucker stand (34), hot melt bracket (35), mold connect The other end for connecing handle (36) extends radially setting, and the other end of the sucker stand (34) is equipped with suction motor (37), The output end of the suction motor (37) is connected with vacuum chuck (38) after being passed down through the bracket, the hot melt bracket (35) The other end be equipped with the first circular protrusion, fever circle (39) is installed on the inner wall of first protrusion, the mold connects The other end for connecing handle (36) is equipped with the second circular protrusion, is fixed with body of punch (30), the punch-pin in second protrusion Body (30) includes columned ontology (301), hemispherical upper male mould (302) and hemispherical lower punch (303), described convex Mould (302), the relatively fixed top surface in ontology (301) of lower punch (303), bottom surface, the upper male mould (302), lower punch (303) Radius it is equal and be less than ontology (301) radius；

The mould molding device include four support columns (41), top plate (42), sizing material heat staking members (43), upper sliding component and One end of lower slider component, four support columns (41) is fixed on bottom plate (2), and the top plate (42) is fixed on described in four The other end of support column (41), the sizing material heat staking members (43) are fixed on the top plate (42)；The upper sliding component packet It includes driving cylinder (461) and upper sliding plate (462), the upper driving cylinder (461) is fixed on top plate (42), the upper drive The output end of cylinder (461) of taking offence is passed down through top plate (42) and connect afterwards with the one side of upper sliding plate (462), the upper sliding plate (462) opposite another side is equipped with upper cavity die (44)；The lower slider component includes lower driving cylinder (471) and lower slider Plate (472), lower driving cylinder (471) are fixed on the bottom surfaces of bottom plate (2), the output end of lower driving cylinder (471) to On connect afterwards with the one side of downslide movable plate (472) across bottom plate (2), the opposite another side of the downslide movable plate (472) is solid Surely there are lower cavity die (45)；The sizing material heat staking members (43) are connected with feeding main pipe, and one end of the feeding main pipe passes through top plate (42) it is connect afterwards with the sizing material heat staking members (43), the other end of the feeding main pipe is connected with top hose and bottom hose；Institute State upper cavity die (44), lower cavity die (45) is respectively equipped with the groove cooperated with upper male mould (302), lower punch (303) and connects with groove Logical feeding-passage, the top hose are connected to by feed head with the feeding-passage in upper cavity die (44), and the bottom hose passes through Feed head is connected to the feeding-passage in lower cavity die (45).

2. a kind of robot for encapsulating solar energy heating shuttle according to claim 1, it is characterised in that: the body of punch (30) top surface of ontology (301) is symmetrically arranged with the first pillar, the bottom surface of ontology (301) of the body of punch (30) is symmetrically arranged with First circular hole, the upper cavity die (44) are equipped with the second circular hole for cooperate with the pillar, the lower cavity die (45) equipped with it is described Second pillar of the first circular hole cooperation.

3. a kind of robot for encapsulating solar energy heating shuttle according to claim 1, it is characterised in that: the upper sliding structure Part further includes two symmetrically arranged upper guiding axis, and one end of two upper guiding axis is each attached on upper sliding plate (462), The other end of two upper guiding axis passes through after linear bearing is slidably connected with top plate (42) to be stretched out upwards.

4. a kind of robot for encapsulating solar energy heating shuttle according to claim 4, it is characterised in that: the lower slider structure Part further includes two symmetrically arranged lower guiding axis, and one end of two lower guiding axis passes through linear bearing and bottom plate (2) It is slidably connected and stretches out upwards and be fixedly connected with downslide movable plate (472), the other end of two lower guiding axis extends downwardly.

5. a kind of robot for encapsulating solar energy heating shuttle according to claim 1, it is characterised in that: further include feeding dress It sets, the feed device is set to the side on bottom plate (2) and being located at the rotary feeding device, and the feed device includes transmission Band (51) and two power drums, the conveyer belt (51) are coiled on two power drums and join end to end, described dynamic Axis connects on a bearing block respectively at the both ends of power roller, and the bearing block is fixed on bottom plate (2).

6. a kind of robot for encapsulating solar energy heating shuttle according to claim 5, it is characterised in that: further include blowpit (6), the blowpit (6) is fixed on bottom plate (2) and is located at the opposite other side of the rotary feeding device.

7. a kind of robot for encapsulating solar energy heating shuttle according to claim 5, it is characterised in that: further include blowpit (6), the blowpit (6) is fixed on bottom plate (2) and is located at the opposite other side of the rotary feeding device.