CN107511975A - Automobile moulding suction type cooling device - Google Patents

Abstract

The present patent application discloses a kind of automobile moulding suction type cooling device,Including cooler bin,Cooling water pipe is fixed with cooler bin,The entrance of cooler bin is provided with conveyer belt,The first turbine is rotatably connected in cooling water pipe,First turbine is coaxially connected with negative pressure blade,Negative pressure cover is provided with cooler bin,Negative pressure blade is arranged in negative pressure cover,Charging aperture and discharging opening are provided with negative pressure cover,Inclined guide plate is provided with below negative pressure cover,Negative pressure hole is provided with negative pressure cover,The side of guide plate is provided with arc groove,Guide plate is rotatably connected in cooler bin,Oscillating rod is fixed with guide plate,The second turbine is rotatably connected in cooling water pipe,Second turbine is coaxially connected with cam,Cam offsets with oscillating rod,Cooler bin exit slidably connects buffer gear,Buffer gear is located at below guide plate,Compared with prior art,This programme passes through negative pressure blade,Negative pressure cover,The setting of guide plate and cam etc.,It highly shortened cool time,Improve cooling effectiveness.

Description

Automobile moulding suction type cooling device

Technical field

The present invention relates to auto parts machinery production equipment technology, specially automobile moulding suction type cooling device.

Background technology

Existing auto parts and components be all much by injection molding, injection molding parts by injection machine be molded again by Taken out in mould, temperature is higher after it is stripped, and typically there are 60 DEG C or so, it is necessary to could carry out lower road production work after being cooled to Sequence, and if place it in natural cooling in air, but natural cooling need take considerable time, influence production efficiency.

In order to solve problem above, Chinese Patent Application No. is 201510347907.X patent of invention, discloses one kind Automobile is molded spare and accessory parts cooling device, and it includes forming box-like structure by the riser of left and right two and upper and lower two transverse slats, riser and Transverse slat is closed to form cooling storehouse, and annular conduit, the water inlet pipe of annular conduit are provided between upper lower cross plate inner housing and shell body Positioned at lower cross plate end face, outlet pipe is located at upper cross plate end face, and the conveyer belt of transmission injection spare and accessory parts, riser are equipped with cooling storehouse Array distribution has isometrical heat emission hole on shell body.The program automobile injection communicated band of parts enters cooling storehouse, is transmitting During, the water circulation band heat through annular conduit is cooled down, while is radiated by the heat emission hole on riser, can be achieved more While individual injection parts quickly cool down, it is ensured that cooling procedure is indeformable, improves the cooling effectiveness of automobile injection parts.

Above scheme realizes the quick cooling of injection parts, but this device still has by the setting of cooling storehouse Problems with：During cooling, because parts bottom contacts with conveyer belt all the time, and cooling storehouse interior air-flow flows It is less, therefore, it is impossible to preferably be cooled down to the part that cold part contacts with conveyer belt, it may eventually form cool lower hot shape State, need to cool to cold part bottom again, cooling efficiency is not still high.

The content of the invention

Can be to the cooling of injection parts bottom it is an object of the invention to provide one kind, and the automobile of cooling efficiency can be improved Moulding suction type cooling device.

Automobile moulding suction type cooling device in this programme, including cooler bin, cooling water pipe is fixed with cooler bin, The entrance of cooler bin is provided with conveyer belt, and the first turbine is rotatably connected in cooling water pipe, and the first turbine is coaxially connected with position In being provided with negative pressure cover in the negative pressure blade outside cooling water pipe, cooler bin, negative pressure blade is arranged in negative pressure cover, opened on negative pressure cover There are charging aperture and discharging opening, conveyer belt is extended into charging aperture, is provided with inclined guide plate below negative pressure cover, negative pressure cover is close Negative pressure hole is provided with the side of guide plate, guide plate is provided with arc groove close to the side of negative pressure cover, and guide plate is rotatably connected on In cooler bin, torsion spring is connected with the rotation connection of guide plate and cooler bin, is fixed with oscillating rod on guide plate, in cooling water pipe The second turbine is rotatably connected to, the second turbine is coaxially connected with cam, and cam offsets with oscillating rod, and cooler bin exit, which is slided, to be connected Buffer gear is connected to, buffer gear is located at below guide plate.

The technical principle of this programme is：Cooler bin is used to cool to injection parts, and as the bone of whole device Frame, before not cooled down to injection parts, cooling water first is passed through to cooling water pipe so that cooling ring is formed in cooler bin Border, injection parts are put on conveyer belt, start conveyer belt, conveyer belt is sent to parts are molded in cooler bin, directly Drop into negative pressure cover from the charging aperture of negative pressure cover to injection parts, then dropped out from negative pressure cover discharging opening, and drop into guiding In the arc groove of plate, in the process, the flowing of cooling water drives the first turbine rotation, and the first turbine rotation drives coaxial Negative pressure blade rotates, and negative pressure blade to form negative pressure in negative pressure cover, and the air in cooler bin will pass through the negative pressure on negative pressure cover Hole and discharging opening, flowed to the charging aperture of negative pressure cover, outflow charging aperture will flow out to outdoor, air flow from the import of cooler bin The air flow for be molded around parts is increased, is molded parts while water pipe sub-cooled is cooled, by To the air-cooled of air flow, dual-cooled will shorten cool time, improve cooling effectiveness, and be molded parts from conveyer belt On fall on arc groove during, the whole parts that are molded are in vacant state, each surface with cooler bin Cold air contacts, and no dead angle cooling, has further speeded up the cooling of injection parts；After injection parts fall into guide plate, turn Moving cam, cam ordinatedly will be swung guide plate with torsion spring, and injection parts are in the arc groove of guide plate, are put Dynamic guide plate will make injection parts carry out swing upset, and guide plate is in heeling condition, and injection parts will be also to buffering Slided in mechanism, in the process, injection parts are overturn, and are purged by moving air, can make injection parts Remain exposed to everywhere in air, yet further accelerate cooling, so as to greatly lift cooling effectiveness；After cooling, note Modeling parts will be pushed on buffer gear, and buffer gear enters row buffering to the whereabouts for being molded parts, in order to avoid injection zero Part is damaged, sliding buffer gear, and injection parts are skidded off into cooler bin.

Compared with prior art, this programme has the beneficial effect that：This programme by negative pressure blade, negative pressure cover, guide plate and The setting of cam etc., while injection parts can be made to enter line slip in cooler bin, it can also be overturn in cooler bin, While entering Mobile state cooling to injection parts, the cooling at no dead angle is carried out, highly shortened cool time, is improved cold But efficiency.

Further：Buffer gear includes the base being slidably connected in cooler bin, and elastic plate, base are provided with above base Spring is connected between elastic plate.When injection parts are dropped on elastic plate, elastic plate has certain elasticity in itself, Injection parts can preliminarily be buffered, then under the action of the spring, injection parts can do upper and lower past in elastic plate Moving again, until static so that injection parts are further buffered, in order to avoid injection damage of components, and buffering During, upper and lower reciprocally move can equally cool to injection parts so that injection parts cool more thorough Bottom.

Further：Cooler bin bottom is provided with cylinder, and the take-off lever of cylinder is fixedly connected with base.The setting of cylinder, can Base is set reciprocally to be slided in cooler bin, help is molded parts and is transported to subsequent processing, realizes the automatic of base Change operation.

Further：Support frame is provided with cooler bin, guide plate is rotatably connected on support frame.The setting of support frame, rise The effect of support guide plate has been arrived, during guide plate is swung, guide plate can have been made more stable.

Further：Rubber slab is provided with arc groove.The setting of rubber slab, when being molded parts swing, mitigation is led To plate to being molded parts active force, so as to avoid being molded damage of components, when injection parts are dropped on guide plate, rubber Offset plate has certain elasticity in itself, can enter row buffering to injection parts, avoid being molded damage of components.

Further：Conveyer belt is ribbon conveyer.The setting of ribbon conveyer, can make injection parts be more easy to be transported to it is cold But in case.

Brief description of the drawings

Fig. 1 is the schematic diagram of automobile moulding suction type cooling device embodiment of the present invention.

Embodiment

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

Reference in Figure of description includes：Cooler bin 1, cooling water pipe 2, negative pressure blade 3, negative pressure cover 4, discharging opening 5, band Formula conveyer 6, guide plate 7, oscillating rod 8, cam 9, charging aperture 10, support frame 11, cylinder 12, elastic rubber slab 13, base 14, Stage clip 15.

Shown in the basic reference chart 1 of embodiment, automobile moulding suction type cooling device, including cooler bin 1, in cooler bin 1 Cooling water pipe 2 is fixed with by clip, the entrance of cooler bin 1 is provided with ribbon conveyer 6, is rotatablely connected in cooling water pipe 2 There is the first turbine, the first turbine is coaxially connected with the negative pressure blade 3 outside cooling water pipe 2, negative pressure cover is provided with cooler bin 1 4, negative pressure blade 3 is arranged in negative pressure cover 4, is provided with charging aperture 10 and discharging opening 5 on negative pressure cover 4, ribbon conveyer 6 extend into In material mouth 10, support frame 11 is fixed with the wall of cooler bin 1 of the lower section of negative pressure cover 4, inclined lead is rotatably connected on support frame 11 To plate 7, torsion spring is connected with the rotation connection of guide plate 7 and support frame 11, the downside of negative pressure cover 4 is provided with negative pressure hole, on guide plate 7 Side is provided with arc groove, and rubber slab is bonded with arc groove, and oscillating rod 8 is welded with guide plate 7, is rotated in cooling water pipe 2 The second turbine is connected with, the second turbine is coaxially connected with cam 9, and cam 9 offsets with oscillating rod 8, and the exit of cooler bin 1, which is slided, to be connected Buffer gear is connect, buffer gear includes the base 14 being slidably connected in cooler bin 1, and the top of base 14 is provided with elastic rubber slab 13, elastic rubber slab 13 is located at the lower section of guide plate 7, and stage clip 15, cooler bin 1 are welded between base 14 and elastic rubber slab 13 Bottom has been bolted cylinder 12, and take-off lever and the base 14 of cylinder 12 weld.

In use, cooling water first is passed through to cooling water pipe 2 so that cooler environment is formed in cooler bin 1, flow of cooling water will The first turbine rotation is driven, the first turbine rotation drives coaxial negative pressure blade 3 to rotate, and negative pressure blade 3 causes shape in negative pressure cover 4 Into negative pressure, the air in cooler bin 1 flows by the negative pressure hole on negative pressure cover 4 and discharging opening 5 to the charging aperture 10 of negative pressure cover 4 Dynamic, outflow charging aperture 10 will flow out to outdoor from the import of cooler bin 1, and injection parts are put on ribbon conveyer 6, opened Dynamic ribbon conveyer 6, ribbon conveyer 6 are sent to parts are molded in cooler bin 1, until being molded parts from negative pressure cover 4 Charging aperture 10 drop into negative pressure cover 4, then dropped out from the discharging opening 5 of negative pressure cover 4, and drop into the arc groove of guide plate 7, After injection parts are fallen on the rubber slab of arc groove, rotation cam 9, cam 9 will prop up ordinatedly guide plate 7 with torsion spring Being swung on support 11, the guide plate 7 of swing will make injection parts carry out swing upset, and guide plate 7 is in heeling condition, Injection parts will be also to sliding on buffer gear.

After cooling, injection parts will be pushed on elastic rubber slab 13, when injection parts drop into elasticity When on rubber slab 13, elastic rubber slab 13 itself has certain elasticity, injection parts preliminarily can be buffered, then In the presence of stage clip 15, injection parts can elastic rubber slab 13 do it is upper and lower reciprocally move, until static so that note Modeling parts are further buffered, in order to avoid injection damage of components, restarts cylinder 12, cylinder 12 will promote base 14 to slide Go out cooler bin 1, injection parts will go into subsequent processing.

Above-described is only embodiments of the invention, and the general knowledge such as known concrete structure and characteristic is not made herein in scheme Excessive description., without departing from the structure of the invention, can be with it should be pointed out that for those skilled in the art Several modifications and improvements are made, these should also be considered as protection scope of the present invention, and these are implemented all without the influence present invention Effect and practical applicability.The scope of protection required by this application should be based on the content of the claims, in specification The records such as embodiment can be used for the content for explaining claim.

Claims (6)

1. automobile moulding suction type cooling device, including cooler bin, cooling water pipe, the import of cooler bin are fixed with cooler bin Place is provided with conveyer belt, it is characterised in that the first turbine is rotatably connected in cooling water pipe, the first turbine, which is coaxially connected with, to be located at Negative pressure blade outside cooling water pipe, negative pressure cover is provided with cooler bin, negative pressure blade is arranged in negative pressure cover, is provided with negative pressure cover Charging aperture and discharging opening, conveyer belt are extended into charging aperture, and inclined guide plate is provided with below negative pressure cover, and negative pressure cover is close to lead Negative pressure hole is provided with to the side of plate, guide plate is provided with arc groove close to the side of negative pressure cover, and guide plate is rotatably connected on cold But in case, torsion spring is connected with the rotation connection of guide plate and cooler bin, oscillating rod is fixed with guide plate, is turned in cooling water pipe Dynamic to be connected with the second turbine, the second turbine is coaxially connected with cam, and cam offsets with oscillating rod, and cooler bin exit is slidably connected There is buffer gear, buffer gear is located at below guide plate.

2. automobile moulding suction type cooling device according to claim 1, it is characterised in that：The buffer gear includes The base being slidably connected in cooler bin, base top are provided with elastic plate, and elastic plate is located at the lower section of guide plate, base and bullet Spring is connected between property plate.

3. automobile moulding suction type cooling device according to claim 2, it is characterised in that：The cooler bin bottom is set Cylinder is equipped with, the take-off lever of cylinder is fixedly connected with base.

4. automobile moulding suction type cooling device according to claim 1, it is characterised in that：Set in the cooler bin There is support frame, guide plate is rotatably connected on support frame.

5. automobile moulding suction type cooling device according to claim 4, it is characterised in that：Set in the arc groove It is equipped with rubber slab.

6. the automobile moulding suction type cooling device according to any one of claim 1-5, it is characterised in that：The biography It is ribbon conveyer to send band.