CN104876020B - Cooler conveyor device - Google Patents

Abstract

The invention discloses a cooler conveyer device. The cooler conveyer device comprises a feeding groove, wherein one side of the feeding groove is provided with a pushing block which penetrates through the bottom part of the feeding groove, one side of the feeding groove far away from the pushing block is provided with a discharge hole, and the wall of the feeding groove in the bottom end of the discharge hole is hinged with a baffle connected with a first spring; another end of the first spring is connected to the wall of the feeding groove above the discharge hole, one side of the inner bottom end of the feeding groove adjacent to the baffle is provided with a stop lever, one side of the baffle far away from the feeding groove is provided with a rotary feeding groove, and a conveyor belt is arranged at the outlet end of the rotary feeding groove. According to the cooler conveyer device provided by the invention, the directions of the cambered surfaces of arc-shaped cooling fins can be oriented, the labor cost can be reduced, and the production efficiency can be improved.

Description

Radiator conveying device

Technical field

The present invention relates to a kind of conveying device is and in particular to a kind of cambered surface radiator conveying device.

Background technology

Fin is a kind of device to the easy heat-generating electronic elements radiating in electrical equipment, how by aluminium alloy, brass or bronze Make tabular, sheet, in splintery etc., such as computer, cpu central processing unit will use sizable fin, power supply in television set Pipe, line pipe, the power tube in amplifirer will use fin.General fin in use will be in electronic component and fin Contact surface applies last layer heat-conducting silicone grease, so that the heat that components and parts send more effectively is transmitted on fin, then dissipates through fin It is dealt in surrounding air.

In some devices, for the needs that radiate, need for fin to do camber, and for need of work, need The fin of camber will be made, kept cambered surface transport directed downwardly, to ensure being smoothed out of next procedure, and existing conveying Device is typically all directly to be transported using conveyer belt, and fin is manually carried out the operation that cambered surface is upwardly directed by use, in order to Transfer efficiency, the speed of conveying is general all quickly, so needing a large amount of manpowers to carry out on production line, causes cost of labor mistake Height, and due to artificial operation it cannot be guaranteed that every time reversion fin can by fin cambered surface orientation it is also possible to because artificial because Element, leads to the face-up fin of some arcs to be missed, is not inverted, bring very big trouble to subsequent operation, reduce Production efficiency.

Content of the invention

The invention is intended to offer is a kind of can be oriented to the direction of the cambered surface of arc fin, and reduce artificial one-tenth This, the radiator conveying device of improve production efficiency.

Radiator conveying device in this programme, including feed well, the side of feed well is provided through feeding trench bottom Expeller, feed well has discharging opening away from the side of expeller, and the charging cell wall of discharging opening bottom is hinged with baffle plate, baffle plate On be connected with the first spring, the first spring is connected on the charging cell wall above discharging opening away from one end of baffle plate, in feed well Bottom is provided with pin near the side of baffle plate, and baffle plate is provided with swivel feeding groove away from the side of feed well, the going out of swivel feeding groove Mouth end is provided with conveyer belt.

The know-why of this programme and have the beneficial effect that radiator conveying device, including feed well, fin can enter into In feed well, feed well is used to transport fin, and inside it, fin is carried out the orientation to cambered surface direction；Charging The side of groove is provided through feeding the expeller of trench bottom, and when fin drops down onto feed well bottom, expeller can promote radiating Piece moves to feed well Way out；Feed well has discharging opening away from the side of expeller, the radiating promoting through expeller Piece, can enter in swivel feeding groove through discharging opening；It is hinged with baffle plate, when processing arc on the charging cell wall of discharging opening bottom Fin or do not need transport arc fin when, discharging opening can be blocked by baffle plate, thus ensure that material will not be from feed well Middle flower drops out, when needing to transport fin, flapper, and discharging opening can be opened, so that material is arranged from feed well Go out；First spring is connected with baffle plate, the other end of the first spring is connected on the charging cell wall above discharging opening, the first spring Setting, make baffle plate after opened, the position blocking discharging opening can be automatically reset to；In feed well, bottom is near the one of baffle plate Side is provided with pin, and when pusher pushes fin, fin can contact pin first, if fin is contacted with charging bottom Be cambered surface, cambered surface can be slided on pin, and keep fin cambered surface all the time facing downward sliding to discharging opening；If with charging What bottom contacted is the two ends of fin, and fin can be offseted with pin near the side of pin, and pusher continues to press on, radiating Sector-meeting by two ends invert upward, cambered surface down, thus the direction of fin cambered surface is oriented it is ensured that each cambered surface radiating Device can cambered surface transport down, enhances stability during transporting for the radiator；Baffle plate is provided with away from the side of feed well Swivel feeding groove, the port of export of swivel feeding groove is provided with conveyer belt, and swivel feeding groove rotates near the direction of baffle plate, and rotation is sent The entrance point of hopper is offseted with baffle plate upper end, and pushes baffle plate, and now the first spring is in extended state, and because of the first spring It is connected with the charging cell wall above discharging opening away from one end of baffle plate, so baffle plate and swivel feeding groove are in the meeting of a certain appropriate location Stop motion, whole device starts feeding；When processing arc fin or not needing to transport arc fin, swivel feeding groove Move to the direction away from baffle plate, thus ensure that fin quantity can adjust according to need of work, now baffle plate can be In the presence of one spring, resetted, and material can be blocked and skidded off from feed well；When fin is transported on conveyer belt, Because through the fin of orientation, cambered surface all can directed downwardly contact with conveyer belt it is ensured that being smoothed out of subsequent operation.With now Conveying device is had to compare, this device only needs a people can reduce cost of labor by the cambered surface of arc fin towards orientation, and The orientation of fin cambered surface direction being ensured, decreasing the trouble that subsequent operation is produced, thus improve operating efficiency.

Further, conveyer belt is provided with equidistant projection, forms arc groove between two projections.Arc fin from When chute feeder skids off on conveyer belt, because arc fin cambered surface is down, even if cambered surface contact projection top, arc dissipates Backing also can similarly can slip in the arc groove being formed between two projections, and because arc groove and arc fin phase Coupling, so arc fin can be fixed in arc groove, so that arc fin is during transporting, more Stablize, be difficult to rock.

Further, it is provided with limiting plate below baffle plate.When swivel feeding groove turns left, swivel feeding groove left end can be by baffle plate Pull down, and baffle plate moves to downwards at limiting plate always, baffle plate and chute feeder can be oriented in feed well discharging by limiting plate Position, limiting plate decreases the stress of spring, so that spring is hardly damaged.

Further, feed well bottom is provided with vertical pole near the side of baffle plate, and vertical pole is provided with perpendicular to pole Bridge, what pin relatively rotated is sleeved on bridge.Pin can rotate on bridge, when arc fin drops down onto feed well During bottom, expeller promotes arc fin to move to pin；During arc fin contact pin, if contacted with charging bottom Be cambered surface, cambered surface can be slided on pin, decreases the frictional force of cambered surface and pin, and enhance expeller has moved back efficiency, Fin is rotationally passed out to feed well outlet on bridge by pin, and fin cambered surface all the time down, will not invert upward；As What fruit was contacted with charging bottom is the two ends of fin, and fin can be offseted with pin near the side of pin, and pusher continues Promote, fin can by two ends invert upward, cambered surface down, thus ensure that each cambered surface radiator can cambered surface be transported down Send, enhance stability during transporting for the radiator.

Further, the side of feed well is provided through the adjusting lever of feed well, and adjusting lever is located at the one end outside feed well It is connected with second spring, second spring is connected with fix bar away from one end of adjusting lever.If arc fin cambered surface down to During lower landing, cambered surface first can contact adjusting bar end, and cambered surface with adjustment boom end offset, cambered surface is more smooth, can adjust Whole boom end slides, and now to one thrust of adjusting lever, adjusting lever moves cambered surface to second spring direction, because fix bar connects Second spring away from adjusting lever one end, so second spring is adjusted bar compression, and arc fin still cambered surface is down Drop down onto feed well bottom；If arc fin cambered surface upward falls downward when, one end of arc fin can be connect with adjusting lever Touch, because fin ends are not relative with adjusting lever sliding, adjusting lever will not move to second spring direction, arc fin One end is adjusted bar and stops landing, and the other end of arc fin may proceed to decline, so arc fin can be inverted to arc Face-down drop down onto charging trench bottom, arc fin has been carried out with for the first time orientation.

Further, the side of swivel feeding groove is connected with rotating shaft, swivel feeding groove is additionally provided with pull bar, pull bar is away from rotation One end of chute feeder is connected with handle.When processing arc fin or not needing to transport arc fin, operating personnel hold Handle, pulls pull bar, due to the setting of rotating shaft, therefore swivel feeding groove can move to operating personnel's pull direction, thus ensureing Fin quantity can adjust according to need of work, and now baffle plate can be resetted in the presence of the first spring, and can keep off Live material to skid off from feed well.

Further, expeller is by air cylinder driven.Cylinder controls expeller, achievable Automated condtrol, need not manually carry out Operation, it is possible to decrease cost of labor.

Brief description

Fig. 1 is the schematic diagram of radiator conveying device embodiment one of the present invention；

Fig. 2 is the schematic diagram of radiator conveying device embodiment two of the present invention；

Fig. 3 is the schematic diagram of radiator conveying device embodiment three of the present invention；

Fig. 4 is the schematic diagram of adjusting lever.

Specific embodiment

Below by specific embodiment, the present invention is further detailed explanation:

Reference in Figure of description includes: feed well 1, expeller 2, cylinder 3, pin 4, vertical pole 5, spacing Plate 6, baffle plate 7, the first spring 8, swivel feeding groove 9, pull bar 10, rotating shaft 11, handle 12, conveyer belt 13, projection 14, adjusting lever 15th, second spring 16, fix bar 17.

Embodiment one: as shown in figure 1, radiator conveying device, including feed well 1, the left side of feed well 1 be provided through into The expeller 2 of hopper 1 bottom, expeller 2 is driven by cylinder 3, has discharging opening, the charging of discharging opening bottom on the right side of feed well 1 Baffle plate 7 is hinged with groove 1 wall, baffle plate 7 is connected with the first spring 8, the left end of the first spring 8 is connected to entering above discharging opening On hopper 1 wall, below baffle plate 7, it is provided with limiting plate 6, limiting plate 6 is connected to feed well 1 bottom, and in feed well 1, the right side of bottom sets There is vertical pole 5, vertical pole 5 is provided with the bridge in the direction from front to back perpendicular to vertical pole 5, bridge is provided with pin 4, what pin 4 relatively rotated is set on bridge, is provided with swivel feeding groove 9, is connected with rear side of swivel feeding groove 9 on the right side of baffle plate 7 Rotating shaft 11, swivel feeding groove 9 is additionally provided with pull bar 10, and pull bar 10 right-hand member end is connected with handle 12, the port of export of swivel feeding groove 9 It is provided with conveyer belt 13, conveyer belt 13 is provided with projection 14 at equal intervals, between two projections 14, form arc.

When arc fin drops down onto feed well 1 bottom, cylinder 3 drives expeller 2 to promote arc fin, and arc radiates Piece moves right, and arc fin can contact pin 4 first, if arc fin cambered surface is upward, pin 4 can prop up fin One end, expeller 2 continues to press on fin, and fin can be inverted, and makes cambered surface down, to fin cambered surface towards entering Gone orientation, and if arc fin cambered surface down, fin directly can skid off the outlet of feed well 1 from pin 4；Dissipate When backing slides into outlet, the downwardly direction that fin can tilt along baffle plate 7 is moved, and transports through swivel feeding groove 9 To conveyer belt 13；When arc fin is when chute feeder skids off conveyer belt 13, because arc fin cambered surface is down, institute Even if with cambered surface contact projection 14 top, it is recessed that arc fin also similarly can slip into the arc being formed between two projections 14 In groove, and because arc groove is matched with arc fin, arc fin can be fixed in arc groove, thus Make arc fin during transporting, more stable, it is difficult to rock；When processing arc fin or do not need transport During arc fin, operating personnel hold handle 12, pull pull bar 10, due to the setting of rotating shaft 11, therefore swivel feeding groove 9 meeting Move to operating personnel's pull direction, thus ensure that fin quantity can adjust according to need of work, now baffle plate 7 meeting exists In the presence of first spring 8, resetted, and material can be blocked and skidded off from feed well 1.

Embodiment two: as shown in Fig. 2 on the basis of embodiment one, its difference is, the left side of feed well 1 is additionally provided with Through the adjusting lever 15 of feed well 1, the shape of adjusting lever 15 is specifically as shown in figure 4, adjusting lever 15 left end is connected with second spring 16, second spring 16 left end is connected with fix bar 17, and adjusting lever 15 is located at the top of expeller 2, the right side of bottom in feed well 1 It is provided with pin 4.

If arc fin cambered surface down falls downward when, cambered surface first can contact adjusting bar 15 end, and cambered surface Offset with adjusting lever 15 end, cambered surface is more smooth, can slide in adjusting lever 15 end, now cambered surface pushes away for 15 1 to adjusting lever Power, adjusting lever 15 moves to second spring 16 direction, because fix bar 17 is connected to second spring 16 away from the one of adjusting lever 15 End, so second spring 16 is adjusted bar 15 and compresses, and arc fin still cambered surface towards falling to feed well 1 bottom；If Arc fin cambered surface upward falls downward when, one end of arc fin can be contacted with adjusting lever 15, because fin ends Not relative with adjusting lever 15 slip, adjusting lever 15 will not move to second spring 16 direction, and one end of arc fin is adjusted Bar 15 stops landing, and the other end of arc fin may proceed to decline, thus arc fin to be inverted to cambered surface directed downwardly Drop down onto feed well 1 bottom, the cambered surface of arc fin is oriented towards having carried out first time；When fin drops down onto feed well 1 bottom When on end, to being possible to the fin that is not directed, by the effect of expeller 2 and pin 4, carry out to arc fin Cambered surface orients towards second.

Embodiment three: as shown in figure 3, on the basis of embodiment one, the left side of feed well 1 is additionally provided with through feed well 1 adjusting lever 15, adjusting lever 15 left end is connected with second spring 16, and second spring 16 left end is connected with fix bar 17.

Above-described is only embodiments of the invention, and in scheme, the general knowledge here such as known concrete structure and characteristic is not made Excessive description.It should be pointed out that for a person skilled in the art, on the premise of without departing from present configuration, acceptable Make some deformation and improve, these also should be considered as protection scope of the present invention, these are implemented all without the impact present invention Effect and practical applicability.This application claims protection domain should be defined by the content of its claim, in specification Specific embodiment etc. records the content that can be used for explaining claim.

Claims (7)

1. radiator conveying device it is characterised in that: include feed well, the side of feed well is provided through feeding pushing away of trench bottom Material block, feed well has discharging opening away from the side of expeller, the charging cell wall of discharging opening bottom is hinged with baffle plate, on baffle plate It is connected with the first spring, the first spring is connected on the charging cell wall above discharging opening away from one end of baffle plate, bottom in feed well End is provided with pin near the side of baffle plate, and baffle plate is provided with swivel feeding groove, the outlet of swivel feeding groove away from the side of feed well End is provided with conveyer belt.

2. radiator conveying device according to claim 1 it is characterised in that: described conveyer belt is provided with convex at equal intervals Rise, between two projections, form arc.

3. radiator conveying device according to claim 2 it is characterised in that: be provided with limiting plate below described baffle plate.

4. radiator conveying device according to claim 3 it is characterised in that: described feed well bottom is near the one of baffle plate Side is provided with vertical pole, and vertical pole is provided with the bridge perpendicular to pole, and what pin relatively rotated is sleeved on bridge.

5. radiator conveying device according to claim 4 it is characterised in that: the side of described feed well be provided through into The adjusting lever of hopper, adjusting lever is located above expeller, and one end that adjusting lever is located at outside feed well is connected with second spring, the Two springs are connected with fix bar away from one end of adjusting lever.

6. radiator conveying device according to claim 5 it is characterised in that: the side of described swivel feeding groove is connected with Rotating shaft, swivel feeding groove is additionally provided with pull bar, and pull bar is connected with handle away from one end of swivel feeding groove.

7. the radiator conveying device according to any one of claim 1-6 it is characterised in that: described expeller is driven by cylinder Dynamic.