CN104876020A

CN104876020A - Cooler conveyor device

Info

Publication number: CN104876020A
Application number: CN201510258529.8A
Authority: CN
Inventors: 潘益军
Original assignee: SUIYANG HUAFENG ELECTRICAL APPLIANCE Co Ltd
Current assignee: Chongqing Xinrui Technology Service Co.,Ltd.
Priority date: 2015-05-20
Filing date: 2015-05-20
Publication date: 2015-09-02
Anticipated expiration: 2035-05-20
Also published as: CN104876020B

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 feedway, be specifically related to a kind of cambered surface radiator conveying device.

Background technology

Radiating gill is a kind of to the device of the easy heat-generating electronic elements heat radiation in electrical equipment, many by aluminum alloy, brass or bronze make tabular, sheet, splintery etc., as cpu central processing unit in computer will use sizable radiating gill, power supply pipe in vision receiver, line pipe, the power tube in amplifirer all will use radiating gill.General radiating gill in use will be coated with last layer heat-conducting silicone grease at electronic component and radiating rib contact surface, and the heat that components and parts are sent more effectively is transmitted on radiating gill, then is dispersed in surrounding air through radiating gill and goes.

In some device, in order to the needs that dispel the heat, radiating gill is needed to do camber, and in order to need of work, need the radiating gill doing camber, keep the ventricumbent transport of arc, to ensure carrying out smoothly of next procedure, and existing feedway is all generally use load-transfer device directly to transport, and radiating gill is manually carried out the directed operation of cambered surface upward by use, in order to transport efficiency, the speed of conveying is general all very fast, so manufacturing line needs a large amount of manpower to carry out, cause cost of labor too high, and due to manual operation can not ensure to reverse radiating gill at every turn can be directed by radiating gill cambered surface, also may because human element, the supine radiating gill of some arc is caused to be missed, be not inverted, very large trouble is brought to subsequent operation, reduce production efficiency.

Summary of the invention

The invention is intended to provide a kind of can to the cambered surface of arc radiating gill towards carrying out orientation, and reduce cost of labor, the radiator conveying device of enhancing productivity.

Radiator conveying device in this programme, comprise feed well, the side of feed well is provided with the expeller bottom through feed well, feed well has discharging opening away from the side of expeller, the charging cell wall of discharging opening bottom is hinged with baffle plate, baffle plate is connected with the first spring, the other end of the first spring is connected on the charging cell wall above discharging opening, in feed well, bottom is provided with pin near the side of baffle plate, baffle plate is provided with swivel feeding groove away from the side of feed well, and the exit end of swivel feeding groove is provided with load-transfer device.

The know-why of this programme and beneficial effect are: radiator conveying device, comprises feed well, and radiating gill can enter into feed well, and feed well is used to transport radiating gill, and therein radiating gill to be carried out to cambered surface towards orientation; The side of feed well is provided with the expeller bottom through feed well, and when radiating gill drops down onto feed well bottom, expeller can promote radiating gill and move to feed well Way out; Feed well has discharging opening away from the side of expeller, through the radiating gill that expeller promotes, can be passed through discharging opening and enters into swivel feeding groove; The charging cell wall of discharging opening bottom is hinged with baffle plate, when processing arc radiating gill or do not need to transport arc radiating gill, baffle plate can by discharging opening shutoff, thus ensure that material can not spend from feed well drop out come, when needs transport radiating gill, flapper, can open discharging opening, thus material is discharged from feed well; Baffle plate is connected with the first spring, the other end of the first spring is connected on the charging cell wall above discharging opening, the setting of the first spring, makes baffle plate after opened, can automatically reset to the position blocking discharging opening; In feed well, bottom is provided with pin near the side of baffle plate, when pusher pushes radiating gill, first radiating gill can contact pin, if radiating gill contacts with charging bottom is cambered surface, cambered surface can be slided on pin, and keep radiating gill cambered surface all the time facing downward sliding to discharging opening; If what contact with charging bottom is the two ends of radiating gill, radiating gill can offset with pin near the side of pin, pusher continues to promote, radiating gill can by two ends reversion upward, cambered surface down, thus to radiating gill cambered surface towards carrying out orientation, ensure that each cambered surface radiator can cambered surface transport down, enhance the stability of radiator in transport process; Baffle plate is provided with swivel feeding groove away from the side of feed well, the exit end of swivel feeding groove is provided with load-transfer device, swivel feeding groove rotates near the direction of baffle plate, entrance point and the baffle plate upper end of swivel feeding groove offset, and press down baffle plate, now the first spring is in extended state, and is connected with the charging cell wall above discharging opening away from one end of baffle plate because of the first spring, so baffle plate and swivel feeding groove are in the meeting stop motion of a certain appropriate location, whole device starts feeding; When processing arc radiating gill or do not need to transport arc radiating gill, swivel feeding groove moves to the direction away from baffle plate, thus ensure that radiating gill quantity can adjust according to need of work, and now baffle plate can under the effect of the first spring, reset, and material can be blocked skid off from feed well; When radiating gill is transported on load-transfer device, because through directed radiating gill, cambered surface all can contact with load-transfer device down, ensure that carrying out smoothly of subsequent operation.Compared with existing feedway, this device only needs a people just by the cambered surface of arc radiating gill towards orientation, can reduce cost of labor, and can ensure radiating gill cambered surface towards orientation, decrease the trouble that subsequent operation is produced, thus improve work efficiency.

Further, load-transfer device is provided with equally spaced projection, forms arc groove between two projections.When arc radiating gill skids off load-transfer device from chute feeder, because arc radiating gill cambered surface down, even if so cambered surface contact projection top, arc radiating gill also can slip in the arc groove formed between two projections too, again because arc groove and arc radiating gill match, so arc radiating gill can be fixed in arc groove, thus make arc radiating gill in the process of transporting, more stable, not easily rock.

Further, positioning plate is provided with below baffle plate.When swivel feeding groove turns left, baffle plate can press downwards by swivel feeding groove left end, and baffle plate moves to positioning plate place downwards always, and baffle plate and chute feeder can be oriented in the position of feed well discharging by positioning plate, positioning plate decreases the stressed of spring, thus makes spring not fragile.

Further, feed well bottom, feed well bottom is provided with vertical pole near the side of baffle plate, and vertical pole is provided with the bridge perpendicular to pole, and pin is sleeved on bridge in relative rotation.Pin can rotate on bridge, and when arc radiating gill drops down onto feed well bottom, expeller promotes arc radiating gill and moves to pin; During arc radiating gill contact pin, if what contact with charging bottom is cambered surface, cambered surface can be slided on pin, decrease the friction force of cambered surface and pin, what enhance expeller has moved back efficiency, radiating gill is passed out to feed well outlet rotationally by pin on bridge, and radiating gill cambered surface all the time down, can not be reversed upward; If what contact with charging bottom is the two ends of radiating gill, radiating gill can offset with pin near the side of pin, pusher continues to promote, radiating gill can by two ends reversion upward, cambered surface down, thus ensure that each cambered surface radiator can cambered surface transport down, enhance the stability of radiator in transport process.

Further, the side of feed well is provided with the adjusting lever through feed well, and one end that adjusting lever is positioned at feed well outside is connected with the second spring, and the second spring other end is connected with fixed link.If arc radiating gill cambered surface down falls downward time, cambered surface first can the end of contact adjusting bar, and cambered surface and adjusting lever end offset, cambered surface is more smooth, can slide in adjusting lever end, and now cambered surface is to adjusting lever thrust, adjusting lever moves to the second spring direction, because fixed link is connected to the second spring one end away from adjusting lever, the second spring is compressed by adjusting lever, and arc radiating gill still cambered surface towards falling to feed well bottom; If arc radiating gill cambered surface upward falls downward time, one end of arc radiating gill can contact with adjusting lever, because fin ends not with adjusting lever relative sliding, adjusting lever can not to the second spring direction motion, one end of arc radiating gill is stoped landing by adjusting lever, and the other end of arc radiating gill can continue to decline, so arc radiating gill can be inverted to, arc is ventricumbent to be dropped down onto bottom feed well, has carried out first time orientation to arc radiating gill.

Further, the side of swivel feeding groove is connected with rotating shaft, and swivel feeding groove is also provided with pull bar, and pull bar is connected with handle away from one end of swivel feeding groove.When processing arc radiating gill or do not need to transport arc radiating gill, operating personal holds handle, pull pull bar, due to the setting of rotating shaft, therefore swivel feeding groove can pull direction to move to operating personal, thus ensure that radiating gill quantity can adjust according to need of work, and now baffle plate can under the effect of the first spring, reset, and material can be blocked skid off from feed well.

Further, expeller is by air cylinder driven.Cylinder controls expeller, can realizing Automated condtrol, without the need to manually operating, can reduce cost of labor.

Accompanying drawing explanation

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.

Detailed description of the invention

Below by detailed description of the invention, the present invention is further detailed explanation:

Reference numeral in Figure of description comprises: feed well 1, expeller 2, cylinder 3, pin 4, vertically pole 5, positioning plate 6, baffle plate 7, first spring 8, swivel feeding groove 9, pull bar 10, rotating shaft 11, handle 12, load-transfer device 13, projection 14, adjusting lever 15, second spring 16, fixed link 17.

Embodiment one: as shown in Figure 1, radiator conveying device, comprise feed well 1, the left side of feed well 1 is provided with the expeller 2 bottom through feed well 1, expeller 2 is driven by cylinder 3, discharging opening is had on the right side of feed well 1, feed well 1 wall of discharging opening bottom is hinged with baffle plate 7, baffle plate 7 is connected with the first spring 8, the left end of the first spring 8 is connected on feed well 1 wall above discharging opening, positioning plate 6 is provided with below baffle plate 7, positioning plate 6 is connected to feed well 1 bottom, in feed well 1, the right side of bottom is provided with 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, pin 4 is set on bridge in relative rotation, swivel feeding groove 9 is provided with on the right side of baffle plate 7, rotating shaft 11 is connected with on rear side of swivel feeding groove 9, swivel feeding groove 9 is also provided with pull bar 10, pull bar 10 right-hand member end is connected with handle 12, the exit end of swivel feeding groove 9 is provided with load-transfer device 13, load-transfer device 13 is provided with equally spaced protruding 14, arc is formed between two projections 14.

When arc radiating gill drops down onto feed well 1 bottom, cylinder 3 drives expeller 2 to promote arc radiating gill, and arc radiating gill moves right, and first arc radiating gill can contact pin 4, if arc radiating gill cambered surface upward, pin 4 can prop up one end of radiating gill, and expeller 2 continues to promote radiating gill, and radiating gill can be inverted, and make cambered surface down, to radiating gill cambered surface towards having carried out orientation, and if arc radiating gill cambered surface down, radiating gill directly can skid off the outlet of feed well 1 from pin 4; When radiating gill slides into outlet, moving in the downward direction that radiating gill can tilt along baffle plate 7, and is transported on load-transfer device 13 through swivel feeding groove 9; When arc radiating gill skids off load-transfer device 13 from chute feeder, because arc radiating gill cambered surface down, even if so cambered surface contact projection 14 top, arc radiating gill also can slip in the arc groove formed between two projections 14 too, again because arc groove and arc radiating gill match, so arc radiating gill can be fixed in arc groove, thus make arc radiating gill in the process of transporting, more stable, not easily rock; When processing arc radiating gill or do not need to transport arc radiating gill, operating personal holds handle 12, pull pull bar 10, due to the setting of rotating shaft 11, therefore swivel feeding groove 9 can pull direction to move to operating personal, thus ensure that radiating gill quantity can adjust according to need of work, and now baffle plate 7 can under the effect of the first spring 8, reset, and material can be blocked skid off from feed well 1.

Embodiment two: as shown in Figure 2, on the basis of embodiment one, its difference is, the left side of feed well 1 is also provided with the adjusting lever 15 through feed well 1, the shape of adjusting lever 15 is concrete as shown in Figure 4, and adjusting lever 15 left end is connected with the second spring 16, second spring 16 left end and is connected with fixed link 17, adjusting lever 15 is located at the top of expeller 2, and in feed well 1, the right side of bottom is provided with pin 4.

If arc radiating gill cambered surface down falls downward time, cambered surface first can the end of contact adjusting bar 15, and cambered surface and adjusting lever 15 end offset, cambered surface is more smooth, and can slide in adjusting lever 15 end, now cambered surface is to adjusting lever 15 1 thrusts, adjusting lever 15 moves to the second spring 16 direction, because fixed link 17 is connected to the second spring 16 one end away from adjusting lever 15, the second spring 16 is compressed by adjusting lever 15, and arc radiating gill still cambered surface towards falling to feed well 1 bottom; If arc radiating gill cambered surface upward falls downward time, one end of arc radiating gill can contact with adjusting lever 15, because fin ends not with adjusting lever 15 relative sliding, adjusting lever 15 can not to the second spring 16 direction motion, one end of arc radiating gill is stoped landing by adjusting lever 15, and the other end of arc radiating gill can continue to decline, so arc radiating gill can be inverted to, arc is ventricumbent to be dropped down onto bottom feed well 1, directed towards having carried out first time to the cambered surface of arc radiating gill; When radiating gill drops down onto on feed well 1 bottom, to the radiating gill be not likely directed, by the effect of expeller 2 and pin 4, carry out the cambered surface of arc radiating gill directed towards second time.

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

Above-described is only embodiments of the invention, and in scheme, the general knowledge such as known concrete structure and characteristic does not do too much description at this.Should be understood that; for a person skilled in the art, under the prerequisite not departing from structure of the present invention, some distortion and improvement can also be made; these also should be considered as protection scope of the present invention, and these all can not affect effect of the invention process and practical applicability.The protection domain that this application claims should be as the criterion with the content of its claim, and the detailed description of the invention in specification sheets etc. record the content that may be used for explaining claim.

Claims

1. radiator conveying device, it is characterized in that, it is characterized in that: comprise feed well, the side of feed well is provided with the expeller bottom through feed well, feed well has discharging opening away from the side of expeller, the charging cell wall of discharging opening bottom is hinged with baffle plate, baffle plate is connected with the first spring, the other end of the first spring is connected on the charging cell wall above discharging opening, in feed well, bottom is provided with pin near the side of baffle plate, baffle plate is provided with swivel feeding groove away from the side of feed well, and the exit end of swivel feeding groove is provided with load-transfer device.

2. radiator conveying device according to claim 1, is characterized in that: described load-transfer device is provided with equally spaced projection, forms arc between two projections.

3. radiator conveying device according to claim 2, is characterized in that: be provided with positioning plate below described baffle plate.

4. radiator conveying device according to claim 3, it is characterized in that:: feed well bottom, described feed well bottom is provided with vertical pole near the side of baffle plate, vertical pole is provided with the bridge perpendicular to pole, and pin is sleeved on bridge in relative rotation.

5. radiator conveying device according to claim 4, it is characterized in that: the side of described feed well is provided with the adjusting lever through feed well, adjusting lever is located at above expeller, and one end that adjusting lever is positioned at feed well outside is connected with the second spring, and the second spring other end is connected with fixed link.

6. radiator conveying device according to claim 5, is characterized in that: the side of described swivel feeding groove is connected with rotating shaft, and swivel feeding groove is also 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, is characterized in that: described expeller is by air cylinder driven.