CN218399312U - Unmanned aerial vehicle injection moulding device - Google Patents

Abstract

The utility model relates to an injection moulding device technical field specifically is an unmanned aerial vehicle injection moulding device, including agitator tank and axle I, the one end intercommunication of agitator tank has the pan feeding mouth, axle I runs through the agitator tank and rotates with the agitator tank and be connected, the equal fixedly connected with round gear of the outer wall of two axle I, two meshing of round gear have round gear two, the equal average distribution of the outer wall of two axle I has a plurality of flabellums, motor output power drives axle three, axle three drives the belt pulley, the belt pulley drives the belt, the belt drives another belt pulley, the belt pulley drives round gear two, round gear two drives two round gear one, two round gear one drive two axle I, two axle one rotate and drive each flabellum of outer wall along axle one and rotate, heating rod heating inner wall, dissolve when plastics completely, open the device with valve one prevent that plastic granules from insolubilizing just getting into the pipeline and can be through two axle I and flabellum intensive mixing, make the heating rod in the agitator tank carry out the even heating to plastic granules.

Description

Unmanned aerial vehicle injection moulding device

Technical Field

The utility model relates to an injection moulding device technical field specifically is a fast injection moulding device of cooling forming.

Background

As is known, an unmanned aerial vehicle is an unmanned aerial vehicle operated by a radio remote control device and a self-contained program control device, and some parts of the unmanned aerial vehicle need to be manufactured by injection molding equipment, which is also called an injection molding machine or an injection machine.

Through the retrieval, patent publication No. CN 213260946U's utility model discloses a cooling device's injection molding machine, this equipment be through mutually supporting between each part in the cooling group price, realize the water-cooling circulation, and make the temperature reduction in the water-cooling intracavity and enter into the inside air-cooled cavity through the ventilation hole on the interlayer through the water-cooling circulation, thereby realize that injection mold is whole by even cooling, but the device raw materials stirring of moulding plastics is insufficient, heating and stirring are insufficient can lead to the plastic granules to pile up, make the pipeline block up, thereby influence production, consequently, need an unmanned aerial vehicle injection moulding device of abundant heating and stirring raw materials of moulding plastics.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides an unmanned aerial vehicle injection moulding device.

(II) technical scheme

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides an unmanned aerial vehicle injection moulding device, includes agitator tank and axle one, its characterized in that: the one end intercommunication of agitator tank has the pan feeding mouth, axle one runs through the agitator tank and is connected with the agitator tank rotation, the equal fixedly connected with circular gear one of outer wall of two axle one, two meshing of circular gear one have circular gear two, the equal average distribution of outer wall of two axle one has a plurality of flabellums, the inner wall fixedly connected with axle two of circular gear two, the bottom of axle two rotates and connects on the agitator tank, install the heating rod between the inner wall outer wall of agitator tank, the outer wall fixedly connected with belt pulley of axle two, the bottom fixedly connected with fixed block two and fixed block three of agitator tank, the top fixedly connected with fixed block one of fixed block three, the top fixedly connected with motor one of fixed block one, the output fixedly connected with axle three of motor one, the outer wall fixedly connected with belt pulley of axle three, two belt pulley pass through belt transmission and connect, the through-hole has the filter screen in the bottom fixedly connected with of through-hole, the bottom intercommunication of through-hole has the compression cylinder one, the bottom intercommunication of valve one has the compression cylinder, the one end intercommunication of push rod is close to the fixed block on the fixed block of the fixed cylinder and the one-hole, the one end intercommunication has the push rod of the fixed block and the fixed block connected with the push-plate on the fixed cylinder.

Preferably, elevating system includes two slip posts, two the bottom fixed connection of slip post is on the lower bolster, the top fixedly connected with fixed block six of lower bolster, the one end and six fixed connection of fixed block that fixed block four were kept away from to the cope match-plate pattern, the equal fixedly connected with sliding block in both ends of cope match-plate pattern, each slip post all run through the sliding block and with sliding block sliding connection, the top fixedly connected with fixed plate one of two slip posts, motor two is installed on the top of fixed plate one, the output end fixedly connected with first threaded rod of motor two, first threaded rod run through fixed block six and with six threaded connection of fixed block, first threaded rod rotates to be connected on the lower bolster.

Furthermore, the fixing block IV, the fixing block V, the compression cylinder and the bottom end of the lower template are fixedly connected with a fixing plate II.

And furthermore, the bottom end of the second fixing plate is fixedly connected with eight universal wheels.

On the basis of the scheme, the bottom of fixed plate two is connected with three supporting mechanism of group, and every supporting mechanism of group includes the second threaded rod, and the bottom fixedly connected with fixed plate three of fixed plate two, the top fixedly connected with dwang of second threaded rod, second threaded rod run through fixed plate three and with three threaded connection of fixed plate, the bottom fixedly connected with backup pad of second threaded rod.

On the basis of the scheme, the bottom end of each supporting plate is fixedly connected with a non-slip mat.

(III) advantageous effects

Compared with the prior art, the utility model provides an unmanned aerial vehicle injection moulding device possesses following beneficial effect:

this unmanned aerial vehicle injection moulding device, when needs use injection moulding device, starter motor one and heating rod pass through axle three, the belt pulley, the belt, round gear two, axle two and the cooperation of two round gear one carry out the transmission operation, it rotates to drive two axles and makes the flabellum on two axle outer walls rotate along an axle and can make plastic granules be heated evenly, can be isolated outside with the plastic granules that does not liquefy through the filter screen, avoid blockking up filter screen and valve one, inner wall cooperation through electric putter and compression cylinder, it makes the compression cylinder remove to two directions of valve to drive the sliding plate, the inside liquefied plastics of extrusion are discharged to the cavity of cope match-plate pattern and lower bolster from the nozzle, the device easy operation and practicality, consequently, need an unmanned aerial vehicle injection moulding device of abundant heating and stirring raw materials of moulding plastics.

Drawings

Fig. 1 is a schematic view of the structure of the present invention;

FIG. 2 is a schematic view of a portion of the enlarged structure of FIG. 1;

FIG. 3 is a schematic view of the partial sectional structure of the front view of the present invention;

fig. 4 is a schematic diagram of a partial enlarged structure at B in fig. 3 according to the present invention.

In the figure: 1. a stirring tank; 2. a feeding port; 3. a first shaft; 4. a first circular gear; 5. a second shaft; 6. a pulley; 7. a second circular gear; 8. a fan blade; 9. a belt; 10. a third shaft; 11. a first motor; 12. a first fixing block; 13. a second fixing block; 14. a third fixed block; 15. a filter screen; 16. a first valve; 17. an electric push rod; 18. a fourth fixed block; 19. a fifth fixed block; 20. a compression cylinder; 21. a second valve; 22. a first pipeline; 23. a nozzle; 24. a lower template; 25. mounting a template; 26. a sliding post; 27. a first fixing plate; 28. a second motor; 29. a first threaded rod; 30. a sixth fixing block; 31. a heating rod; 32. a sliding plate; 33. a slider; 34. a second fixing plate; 35. a universal wheel; 36. rotating the rod; 37. a support plate; 38. a second threaded rod; 39. a non-slip mat; 40. and a third fixing plate.

Detailed Description

Examples

Referring to fig. 1-4, the unmanned aerial vehicle injection molding equipment comprises an agitator tank 1 and a first shaft 3, one end of the agitator tank 1 is communicated with a feeding port 2, the first shaft 3 penetrates through the agitator tank 1 and is rotatably connected with the agitator tank 1, the outer walls of the first shaft 3 are fixedly connected with a first circular gear 4, the first circular gears 4 are meshed with a second circular gear 7, a plurality of fan blades 8 are evenly distributed on the outer walls of the first shaft 3, the inner wall of the second circular gear 7 is fixedly connected with a second shaft 5, the bottom end of the second shaft 5 is rotatably connected with the agitator tank 1, a heating rod 31 is arranged between the outer walls of the inner wall of the agitator tank 1, the outer wall of the second shaft 5 is fixedly connected with a belt wheel 9, the bottom end of the agitator tank 1 is fixedly connected with a second fixed block 13 and a third fixed block 14, the top end of the third fixed block 14 is fixedly connected with a first fixed block 12, the top end of the first fixed block 12 is fixedly connected with a first motor 11, and the output end of the first motor 11 is fixedly connected with a third shaft 10, the outer wall of the third shaft 10 is fixedly connected with a belt 9 wheel 6, the two belt 9 wheels 6 are in transmission connection through the belt 9, the first motor 11, the third shaft 10, the belt 9 wheel 6, the belt 9, the second shaft 5, the second circular gear 7 and the first circular gear 4 are matched to carry out transmission operation, the first shaft 3 drives each fan blade 8 on the first shaft 3 to rotate, so that plastic particles in the melting tank are fully heated, a through hole is formed in the bottom end of the stirring tank 1, a filter screen 15 is fixedly connected to the inner wall of the through hole, the filter screen 15 prevents the plastic particles from being melted into a pipeline, the bottom end of the through hole is communicated with a first valve 16, the bottom end of the first valve 16 is communicated with a compression cylinder 20, the second fixing block 13 and the third fixing block 14 are both fixedly connected to the compression cylinder 20, a sliding plate 32 is connected to the inner wall of the compression cylinder 20 in a sliding manner, and five fixing blocks 19 are fixedly connected to one end of the compression cylinder 20, one end of the fixing block five 19, which is far away from the compression cylinder 20, is fixedly connected with a fixing block four 18, one end of the fixing block four 18, which is near to the compression cylinder 20, is fixedly connected with an electric push rod 17, the output end of the electric push rod 17 penetrates through the compression cylinder 20 and is fixedly connected to a sliding plate 32, one end of the compression cylinder 20, which is far away from the fixing block five 19, is communicated with a pipeline one 22, the middle part of the pipeline one 22 is communicated with a valve two 21, the pipeline one 22 is communicated with a nozzle 23, the outer wall of the nozzle 23 is slidably connected with a lower template 24, the top end of the nozzle 23 is slidably connected with an upper template 25 and a fixing block six 30, the upper template 25 is fixedly connected with the fixing block six 30, the top end of the lower template 24 is connected with a lifting mechanism, one end of the lower template 24, which is close to the fixing block four 18, is provided with a through hole, the through the output end of the electric push rod 17 extrudes the sliding plate 32 to enable the sliding plate 32 to slide along the inner wall of the compression cylinder 20, the lifting mechanism comprises two sliding columns 26, the bottom ends of the two sliding columns 26 are fixedly connected to the lower template 24, the top end of the lower template 24 is fixedly connected with a fixed block six 30, one end, far away from the fixed block four 18, of the upper template 25 is fixedly connected with the fixed block six 30, both ends of the upper template 25 are fixedly connected with sliding blocks 33, each sliding column 26 penetrates through the sliding block 33 and is in sliding connection with the sliding block 33, the top ends of the two sliding columns 26 are fixedly connected with a fixed plate one 27, the top end of the fixed plate one 27 is provided with a motor two 28, the output end of the motor two 28 is fixedly connected with a first threaded rod 29, the first threaded rod 29 penetrates through the fixed block six 30 and is in threaded connection with the fixed block six 30, the first threaded rod 29 is rotatably connected to the lower template 24, the first threaded rod 29 is driven by the motor two 28 to enable the fixed block six 30 to move upwards, the fixed block six 30 drives the upper template 25, the upper template 25 drives the sliding block 33 to move along the sliding columns 26, conveniently take out the unmanned aerial vehicle part after moulding plastics of lower bolster 24 and cope match-plate pattern 25 inside.

It should also be noted that, fixed block four 18, fixed block five 19, bottom fixedly connected with fixed plate two 34 of compression cylinder 20 and lower bolster 24, promote the device stability, eight universal wheels 35 of bottom fixedly connected with of fixed plate two 34, make things convenient for the equipment to remove, the bottom of fixed plate two 34 is connected with three supporting mechanism of group, every supporting mechanism of group includes second threaded rod 38, bottom fixedly connected with fixed plate three 40 of fixed plate two 34, the top fixedly connected with dwang 36 of second threaded rod 38, second threaded rod 38 runs through fixed plate three 40 and with fixed plate three 40 threaded connection, the bottom fixedly connected with backup pad 37 of second threaded rod 38, conveniently support fixed plate two 34, promote the device stability, the bottom fixedly connected with slipmat 39 of each backup pad 37, improve the frictional force of backup pad 37, improve the device stability.

In summary, when the injection molding device of the unmanned aerial vehicle is used, firstly, the first motor 11 and the heating rod 31 are started, the first motor 11 outputs power to drive the third shaft 10, the third shaft 10 drives the belt 9 wheel 6, the belt 9 wheel 6 drives the belt 9, the belt 9 wheel 6 drives the other belt 9 wheel 6, the belt 9 wheel 6 drives the second circular gear 7, the second circular gear 7 drives the first circular gear 4, the first circular gear 4 drives the first circular gear 3, the first circular gear 3 rotates to drive the fan blades 8 on the outer wall to rotate along the first shaft 3, the heating rod 31 heats the inner wall, when the plastic is completely dissolved, the first valve 16 is opened, plastic liquid is placed inside the compression cylinder 20, the electric push rod 17 is started, the electric push rod 17 outputs power to extrude the sliding plate 32, the sliding plate 32 extrudes the liquid plastic, the second valve 21 is opened, the liquid plastic enters the lower mold plate 24 and the upper mold plate 25 through the nozzle 23, the cavity of the lower mold plate 24 and the upper mold plate 25 is filled up, the second valve 21 and the electric push rod 17 are closed, the electric push rod 17 is started, the motor second motor 28 drives the first threaded rod 28 to rotate, the first threaded rod 29 to rotate, the six threaded rod 29, the upper mold plate 30 and the lower mold plate 25 to move up and down, the sliding block 25 is driven by the sliding block 26, and down movement of the sliding block 25, and up and down movement of the sliding block 25 is realized.

Claims (6)

1. The utility model provides an unmanned aerial vehicle injection moulding device, includes agitator tank (1) and axle one (3), its characterized in that: one end of the stirring tank (1) is communicated with a feeding port (2), a first shaft (3) penetrates through the stirring tank (1) and is rotatably connected with the stirring tank (1), a first circular gear (4) is fixedly connected to the outer walls of the first shaft (3), a second circular gear (7) is meshed with the first circular gear (4), a plurality of fan blades (8) are uniformly distributed on the outer walls of the first shaft (3), a second circular gear (5) is fixedly connected to the inner wall of the second circular gear (7), the bottom end of the second circular gear (5) is rotatably connected to the stirring tank (1), a heating rod (31) is installed between the outer walls of the inner wall of the stirring tank (1), a second shaft (5) is fixedly connected to the outer wall of the second shaft (5), a second fixed block (13) and a third fixed block (14) are fixedly connected to the bottom end of the stirring tank (1), a first fixed block (12) is fixedly connected to the top end of the first fixed block (12), a third shaft (10) is fixedly connected to the outer wall of the first shaft (10), a second shaft (5) is fixedly connected to a through hole (15) formed in a transmission way of the first stirring tank (1), a through hole (16) is formed in the bottom end of the first stirring tank (9), the bottom intercommunication of valve one (16) has compression cylinder (20), equal fixed connection is on compression cylinder (20) for two fixed blocks (13) and three fixed blocks (14), the inner wall sliding connection of compression cylinder (20) has sliding plate (32), the one end fixedly connected with fixed block five (19) of compression cylinder (20), the one end fixedly connected with fixed block four (18) of compression cylinder (20) are kept away from to fixed block five (19), one end fixedly connected with electric putter (17) that fixed block four (18) are close to compression cylinder (20), the output of electric putter (17) runs through compression cylinder (20) and fixed connection on sliding plate (32), the one end intercommunication that fixed block five (19) were kept away from to compression cylinder (20) has pipeline one (22), the middle part intercommunication of pipeline one (22) has valve two (21), pipeline one (22) intercommunication has nozzle (23), the outer wall sliding connection of nozzle (23) has lower bolster (24), the top sliding connection of nozzle (23) has cope match-plate (25) and six (30), cope match-plate (25) and six (30) fixed block (30) and six fixed block (30), the one end fixedly connected with through-hole has been seted up and down template (24).

2. An unmanned aerial vehicle injection moulding device according to claim 1, characterized in that: elevating system includes two slip posts (26), two the bottom fixed connection of slip post (26) is on lower bolster (24), the top fixedly connected with fixed block six (30) of lower bolster (24), the one end and the fixed block six (30) fixed connection of fixed block four (18) are kept away from in cope match-plate pattern (25), the equal fixedly connected with sliding block (33) in both ends of cope match-plate pattern (25), each slip post (26) all run through sliding block (33) and with sliding block (33) sliding connection, the top fixedly connected with fixed plate one (27) of two slip posts (26), motor two (28) are installed on the top of fixed plate one (27), the output fixedly connected with first threaded rod (29) of motor two (28), first threaded rod (29) run through fixed block six (30) and with fixed block six (30) threaded connection, first threaded rod (29) rotate to be connected on lower bolster (24).

3. The unmanned aerial vehicle injection molding apparatus of claim 1, wherein: and the bottom ends of the fourth fixing block (18), the fifth fixing block (19), the compression cylinder (20) and the lower template (24) are fixedly connected with a second fixing plate (34).

4. The unmanned aerial vehicle injection molding apparatus of claim 3, characterized in that: the bottom end of the second fixing plate (34) is fixedly connected with eight universal wheels (35).

5. The unmanned aerial vehicle injection molding apparatus of claim 3, characterized in that: the bottom of fixed plate two (34) is connected with three supporting mechanism of group, and every supporting mechanism of group includes second threaded rod (38), and the bottom fixedly connected with fixed plate three (40) of fixed plate two (34), the top fixedly connected with dwang (36) of second threaded rod (38), second threaded rod (38) run through fixed plate three (40) and with fixed plate three (40) threaded connection, the bottom fixedly connected with backup pad (37) of second threaded rod (38).

6. An unmanned aerial vehicle injection moulding device according to claim 5, characterized in that: the bottom end of each supporting plate (37) is fixedly connected with a non-slip mat (39).

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