CN216470367U - Spiral transmission device of electric part bearing box - Google Patents

Abstract

The utility model relates to a spiral conveying device of an electric part bearing box, which comprises a conical spiral conveying channel with a small upper part and a big lower part, wherein the conical spiral conveying channel is used for conveying the box from top to bottom; the input end of the conical spiral conveying channel is connected with a feeding conveying part; the conical spiral conveying channel is provided with a channel lower outlet and a channel upper inlet; the conical spiral conveying channel is provided with a central hollow part; the outer side wall of the conical spiral conveying channel is externally tangent and connected with a channel side output channel; an inlet driving gear shaft is arranged at an inlet on the channel, the inlet driving gear shaft is in transmission connection with an inlet reciprocating rack part, an inlet driving flexible wire is arranged at the end part of the inlet reciprocating rack part, and an inlet driving baffle is arranged at the end head of the inlet driving flexible wire; the utility model has reasonable design, compact structure and convenient use.

Description

Spiral transmission device of electric part bearing box

Technical Field

The utility model relates to a screw conveyor for an electrical component carrying box.

Background

In industries involving electronics, such as the aerospace field, a large number of electronic components such as power supply components and controllers are needed, and field assembly is needed, and the existing assembly mode generally adopts a production line or a rotating disc to realize the assembly buckling and covering effect on the accessory electronic components, so that although the lines are seen to be distributed neatly, the existing assembly mode has the defects that the occupied area of a factory building is large, fixed assets are wasted, and how to improve on the production line is required, so that the problem of shortage of land resources is solved, and the assembly area is saved, which becomes a technical problem which is urgently needed to be solved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a spiral conveying device of an electrical component bearing box.

In order to solve the problems, the technical scheme adopted by the utility model is as follows:

a spiral conveying device of an electrical part bearing box comprises a conical spiral conveying channel with a small upper part and a big lower part, so as to convey the box from top to bottom; the input end of the conical spiral conveying channel is connected with a feeding conveying part; the conical spiral conveying channel is provided with a channel lower outlet and a channel upper inlet; the conical spiral conveying channel is provided with a central hollow part; the outer side wall of the conical spiral conveying channel is externally tangent and connected with a channel side output channel;

an inlet driving gear shaft is arranged at an inlet on the channel, the inlet driving gear shaft is in transmission connection with an inlet reciprocating rack part, an inlet driving flexible wire is arranged at the end part of the inlet reciprocating rack part, and an inlet driving baffle is arranged at the end head of the inlet driving flexible wire; the bottom of the conical spiral conveying channel is provided with a hollowed-out channel inlet process through hole, and the cross section of the conical spiral conveying channel is of two L-shaped symmetrical structures; an inlet process channel is arranged on the inlet driving baffle plate,

an inlet pushing front guide rotating shaft is arranged at the end part of the inlet driving flexible wire, an inlet guiding taper head is arranged at the end of the inlet pushing front guide rotating shaft, and an inlet rear top plate and an inlet front baffle plate which are positioned at two sides of the inlet driving baffle plate are arranged on the inlet pushing front guide rotating shaft;

the inlet pushing front guide rotating shaft is rotatably arranged in the inlet process channel.

As a further improvement of the above technical solution:

an internal process auxiliary spiral brush roller is rotatably arranged in the central hollow part.

An auxiliary conveying belt is arranged at the hollow channel.

And a passage deceleration baffle is arranged at the lower outlet of the passage.

The inlet driving flexible line is a steel wire rope or a flexible shaft or a plurality of connected universal couplings.

A screw conveyor loading process, comprising the steps of: s3, conveying the box through a conical spiral conveying channel with a small upper part and a big lower part to finish the corresponding capping process on the conical spiral conveying channel; the method specifically comprises the following steps;

s3.1, firstly, an upper port of a channel of the conical spiral conveying channel is used for bearing a box which is sent by the feeding conveying part and is preloaded with accessories; then, the inlet driving gear shaft is meshed with the inlet reciprocating rack part to advance; secondly, the inlet drives the flexible wire to move forward along the inlet process through hole, and the inlet rear top plate is driven to push the inlet driving baffle to move forward in the conical spiral conveying channel, so that the box moves forward; thirdly, the inlet front baffle drives the inlet driving baffle to be pulled back to the initial station to wait for the subsequent box to fall down;

s3.2, firstly, capping the box on the conical spiral conveying channel; then, the box after capping is checked; secondly, outputting the unqualified boxes through a channel side output channel, and outputting the qualified boxes through a channel lower outlet; and thirdly, under the action of the lower outlet of the channel, the speed is reduced and blocked by the channel speed reduction baffle.

As a further improvement of the above technical solution:

during the conveying process of the conical spiral conveying channel, the internal process auxiliary spiral brush roller rotates to push the box forwards flexibly.

The utility model has the advantages of reasonable design, low cost, firmness, durability, safety, reliability, simple operation, time and labor saving, capital saving, compact structure and convenient use.

Drawings

Fig. 1 is a schematic view of the structure of the present invention for use in spiral conveyance.

Wherein: 35. a feeding conveying part; 36. a conical spiral conveying channel; 37. a lower channel outlet; 38. an internal process auxiliary spiral brush roller; 39. an upper inlet of the channel; 40. a channel side output channel; 41. a channel deceleration baffle; 42. an inlet drive gear shaft; 43. an inlet reciprocating rack portion; 44. an inlet drive flexible wire; 45. an inlet drive baffle; 46. an inlet process via; 47. an inlet process channel; 48. the inlet pushes the front guide rotating shaft; 49. an inlet rear ceiling; 50. an inlet front baffle; 51. the inlet is guided to the taper head.

Detailed Description

As shown in fig. 1, the screw conveyor of the electrical component carrying box of the present embodiment includes a tapered screw conveying passage 36 having a small top and a large bottom to convey the box from top to bottom; the input end of the conical spiral conveying channel 36 is connected with a feeding conveying part 35; the conical spiral conveying channel 36 is provided with a channel lower outlet 37 and a channel upper inlet 39; the conical helical conveying channel 36 has a central hollow portion; a channel side output channel 40 is externally tangent to the outer side wall of the conical spiral conveying channel 36;

an inlet driving gear shaft 42 is arranged at an inlet 39 of the channel, the inlet driving gear shaft 42 is in transmission connection with an inlet reciprocating rack portion 43, an inlet driving flexible wire 44 is arranged at the end of the inlet reciprocating rack portion 43, and an inlet driving baffle 45 is arranged at the end of the inlet driving flexible wire 44; the bottom of the conical spiral conveying channel 36 is provided with a hollowed-out channel inlet process through hole 46, and the cross section of the conical spiral conveying channel 36 is of two L-shaped symmetrical structures; an inlet process channel 47 is provided on the inlet drive baffle 45,

an inlet pushing front guide rotating shaft 48 is arranged at the end part of the inlet driving flexible wire 44, an inlet guiding taper head 51 is arranged at the end of the inlet pushing front guide rotating shaft 48, and an inlet rear top plate 49 and an inlet front baffle 50 which are positioned at two sides of the inlet driving baffle 45 are arranged on the inlet pushing front guide rotating shaft 48;

an inlet push front guide shaft 48 is rotatably disposed in the inlet process channel 47.

An internal process assist spiral brush roller 38 is rotatably disposed within the central hollow portion.

An auxiliary conveying belt is arranged at the hollow channel.

There is a tunnel deceleration baffle 41 at tunnel lower exit 37.

The flexible inlet drive line 44 is a steel wire or flexible shaft or a plurality of connected universal couplings.

The spiral conveying feeding process of the embodiment comprises the following steps: s3, conveying the box through the conical spiral conveying channel 36 with a small upper part and a big lower part to finish the corresponding capping process on the conical spiral conveying channel 36; the method specifically comprises the following steps;

s3.1, firstly, an upper channel inlet 39 of the conical spiral conveying channel 36 receives the box which is fed by the feeding conveying part 35 and is preloaded with accessories; then, the inlet drive gear shaft 42 engages the inlet reciprocating rack portion 43 to advance; secondly, the inlet driving flexible wire 44 advances along the inlet process through hole 46, and drives the inlet rear top plate 49 to push the inlet driving baffle 45 to advance in the conical spiral conveying channel 36, so that the box advances; thirdly, the inlet front baffle 50 drives the inlet driving baffle 45 to be pulled back to the initial station to wait for the subsequent box to fall down;

s3.2, firstly, capping the box on the conical spiral conveying channel 36; then, the box after capping is checked; secondly, outputting unqualified boxes through a channel side output channel 40, and outputting qualified boxes through a channel lower outlet 37; again, the speed is reduced by the passage speed reduction baffle 41 under the action of the passage lower outlet 37.

During transport of the conical helical transport path 36, the internal process auxiliary helical brush rollers 38 rotate to advance the cartons flexibly forward.

The utility model realizes blanking through a feeding conveying part 35 (which can be a conventional push rod, a conveying belt or a mechanical arm and the like), and a conical spiral conveying channel 36, thereby realizing gradually increasing the thread pitch, further leading the box to be automatically separated, having ingenious design, and increasing the auxiliary speed-increasing conveying belt or the mechanical arm or an internal process auxiliary spiral brush roller 38 during the process, thereby avoiding the jamming, realizing better separation distance, and realizing the connection of a channel lower outlet 37 and the next procedure. The waste discharge or corresponding output is realized through the channel side output channel 40, and the buffering is realized through the channel speed reduction baffle 41. As the second improvement of the utility model, the inlet 39 on the channel is optimized, the inlet drives the gear shaft 42, and the inlet reciprocating rack part 43 realizes linear reciprocating driving, realizes one-by-one auxiliary pushing and increases the initial power. Import drive flexible line 44 compares in traditional push rod, its applicable to helical structure that can be fine, it is flexible good, realize the spiral direction through import technology passageway 47, utilize self elasticity, solve the diversion problem, thereby make import drive baffle 45 spiral propelling movement that moves ahead, import technology through-hole 46 realizes that the import promotes preceding swivelling joint to pivot 48, roof 49 behind the import, baffle 50 realizes spiral propelling movement and reverse pull-back before the import, import direction taper head 51 has good guidance quality, so that the better diversion of flexible line, because end department does not restrict the rotational degree of freedom of flexible line, can realize that its stress that produces when rotatory to its flexibility obtains abundant release, this is that prior art does not possess.

The utility model realizes the reconstruction of the assembly line, thereby solving the occupation of land resources and realizing the smooth advancing of spiral surrounding pushing.

The present invention has been described in sufficient detail for clarity of disclosure and is not exhaustive of the prior art.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; it is obvious as a person skilled in the art to combine several aspects of the utility model. And such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (5)

1. A screw conveyor of an electrical component carrying box, comprising: comprises a tapered spiral conveying passage (36) with a small upper part and a large lower part to convey the box from the top to the bottom; the input end of the conical spiral conveying channel (36) is connected with a feeding conveying part (35); the conical spiral conveying channel (36) is provided with a channel lower outlet (37) and a channel upper inlet (39); the conical helical conveying channel (36) has a central hollow portion; a channel side output channel (40) is externally tangent and connected to the outer side wall of the conical spiral conveying channel (36);

an inlet driving gear shaft (42) is arranged at an inlet (39) on the channel, the inlet driving gear shaft (42) is in transmission connection with an inlet reciprocating rack part (43), an inlet driving flexible wire (44) is arranged at the end part of the inlet reciprocating rack part (43), and an inlet driving baffle plate (45) is arranged at the end of the inlet driving flexible wire (44); the bottom of the conical spiral conveying channel (36) is provided with a hollowed-out channel inlet process through hole (46), and the cross section of the conical spiral conveying channel (36) is of two L-shaped symmetrical structures; an inlet process channel (47) is arranged on the inlet driving baffle (45),

an inlet pushing front guide rotating shaft (48) is arranged at the end part of the inlet driving flexible wire (44), an inlet guide taper head (51) is arranged at the end of the inlet pushing front guide rotating shaft (48), and an inlet rear top plate (49) and an inlet front baffle (50) which are positioned at two sides of the inlet driving baffle (45) are arranged on the inlet pushing front guide rotating shaft (48);

an inlet push front guide shaft (48) is rotatably disposed in the inlet process channel (47).

2. The electrical component carrying box screw conveyor of claim 1, wherein: an internal process auxiliary spiral brush roller (38) is rotatably disposed in the central hollow portion.

3. The electrical component carrying box screw conveyor of claim 1, wherein: an auxiliary conveying belt is arranged at the hollow channel.

4. The electrical component carrying box screw conveyor of claim 1, wherein: a passage decelerating barrier (41) is provided at the passage lower outlet (37).

5. The electrical component carrying box screw conveyor of claim 1, wherein: the inlet driving flexible line (44) is a steel wire rope or a flexible shaft or a universal coupling connected through a plurality of joints.

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