CN108177314A - Auto parts and components cooling device - Google Patents

Abstract

The present invention relates to auto parts machinery manufacture fields, disclose a kind of auto parts and components cooling device, including mounting table, cooling cylinder, two helicla flutes are machined in cooling cylinder, several cooling ball groups and several agitation groups are placed in cold treatment case, cooling ball group includes several cooling balls, and cavity is equipped in cooling ball, the refrigerant that can freeze after heat absorption is housed in cavity；Agitation group includes several and is used to stirring the agitation part of cooling ball, agitation part include with the matched sliding block of helicla flute, be fixed with agitator arm on sliding block, agitation ball be fixed on agitator arm；The workpiece mouth for being sent into parts is provided in the middle part of import, workpiece mouth is externally connected with the transmission device for transmitting parts, and transmission device is mounted on mounting table.This programme can make each position of parts that can be cooled down, and improve the cooling effect of parts, parts is prevented to be deformed in cooling procedure, additionally it is possible to the cooling efficiency of parts be improved, so as to improve the production efficiency of parts.

Description

Auto parts and components cooling device

Technical field

The invention belongs to auto parts machinery manufacture fields.

Background technology

Injection molding part is more in its parts of existing automobile, and injection molding parts are molded by injection molding machine again by mold It takes out, temperature is higher after demoulding, generally has 60 DEG C or so, needs that lower road production process could be carried out after being cooled to, and if Natural cooling in air is placed it in, the consuming time is long, and long-time high temperature is easily adsorbed in air in cooling procedure Sundries, while cause production line stuffy, and due to high temperature and without support, parts may become in cooling procedure Shape.

The patent document of Patent No. ZL201520431971.1 discloses a kind of automobile injection spare and accessory parts cooling device, Including forming box-like structure by two risers in left and right and upper and lower two transverse slats, the riser is closed to form cooling storehouse with transverse slat, Annular conduit is installed, the water inlet pipe of the annular conduit is located at lower horizontal stroke between the upper lower cross plate inner housing and outer housing Plate end face, outlet pipe are located at upper cross plate end face, and the conveyer belt of transmission injection spare and accessory parts is equipped in the cooling storehouse, described Array distribution has isometrical heat emission hole on riser outer housing.

Although the cooling device can play parts certain cooling effect, during cooling, parts Bottom contacts always with conveyer belt, and parts bottom is difficult to realize cool down, and leads to each position inhomogeneous cooling of parts It is even, and the flowing of cooling storehouse interior air-flow is less, the cooling effect of parts is bad, and cooling efficiency is low.

Invention content

The purpose of the present invention is to provide a kind of auto parts and components cooling device, to solve each portion of parts in background technology The problem of position inhomogeneous cooling is even, cooling efficiency is low.

In order to achieve the above object, base case of the invention provides auto parts and components cooling device, including mounting table, institute State and cooling cylinder be installed on mounting table, the cooling cylinder includes inlet and outlet, be machined in cooling cylinder two be oppositely arranged and It is the helicla flute of T shapes, one end of the helicla flute extends to import, and the other end of helicla flute extends to outlet；Every spiral One end that slot is located at import is communicated with guide rail, and the guide rail is located at outside cooling cylinder, and one end connection of the guide rail far from cooling cylinder There is transmitter, the transmitter is connected with cold treatment case, several cooling ball groups and several are placed in the cold treatment case Agitation group, the cooling ball group and agitation group arranged for interval；The cooling ball group includes several cooling balls, in the cooling ball Equipped with cavity, equipped with the refrigerant that can freeze after heat absorption in the cavity；The agitation group includes several and is cooled down for stirring The agitation part of ball, the agitation part include with the matched sliding block of helicla flute, be fixed with agitator arm, the agitation on the sliding block Agitation ball is fixed on bar；The workpiece mouth for being sent into parts is provided in the middle part of import, the workpiece mouth, which is externally connected with, to be used for The transmission device of parts is transmitted, the transmission device is mounted on mounting table.

The principle of this base case is：During work, cooling ball and agitation part are pressed into certain quantity arranged for interval first In cold treatment case, cooling ball and agitation part are cooled down, part cooling ball is then taken out and is first put into cooling cylinder bottom.

Then, parts being placed on transmission device, parts are progressively delivered in cooling cylinder by transmission device, due to Parts are sent into from the middle part of cooling cylinder, so parts can be fallen on cooling ball, at this point, cooling ball can to parts into The preliminary cooling of row.Then, the cooling ball in two cold treatment casees is sent in transmitter successively, is emitted by transmitter cold But ball has certain initial velocity, and cooling ball is injected into after guide rail in the helicla flute in cooling cylinder, and leading in helicla flute Cooling ball and parts in cooling cylinder is driven to generate rotation downwards and is moved toward the exit of cooling cylinder.Wherein, from cooling cylinder The cooling ball that top enters can drive one end of cooling cylinder inside points cooling ball and parts to rotate from top to bottom, and past together The exit movement of cooling cylinder, and the cooling ball entered from cooling cylinder bottom can drive cooling cylinder inside points cooling ball and zero The other end of part rotates from lower to upper, and is moved together toward the exit of cooling cylinder, so as to which parts be made to be more prone to overturn And exit is transported to during overturning, each position of parts can either be made can be contacted with cooling ball, improved The cooling effect and cooling efficiency of parts, and parts after cooling can be sent out cooling cylinder, it is convenient for people to carry out next Step operation.Meanwhile the cooling ball newly injected in cooling cylinder cooling ball, parts have impetus, can make cooling ball with And parts after cooling are more successfully moved toward the exit of cooling cylinder.

In addition, the heat on parts gradually can be absorbed by cooling ball when being contacted with parts, work as cooling When on the refrigerant in the heat transfer to cavity that comes of ball absorption, can freeze after refrigerant heat absorption, so as to cooling ball into Row cools down again, prevents cooling ball from leading to cooling effect when absorbing parts heat during being cooled down to parts Decline, further improve cooling effect of the cooling ball to parts.

After the completion of a cooling ball group is injected, the agitation part in agitation group is progressed into transmitter, in the transmitter It is projected, is injected into after guide rail in corresponding helicla flute with certain initial velocity, the cunning in the helicla flute and agitation part of T shapes Under the mutual cooperation of block, agitation part, which can be slided along helicla flute and be generated in cooling cylinder, to be rotated and moves, in cooling cylinder Cooling ball is stirred, and the overturning for parts provides power-assisted, is enhanced the rotating effect of cooling ball, is improved parts Efficiency is overturn, so as to improve the cooling effect of parts.Meanwhile it can be cooling ball and zero to stir movement of the part in cooling cylinder The discharge of component provides power-assisted, makes parts after cooling that can more successfully be moved toward the exit of cooling cylinder.

The advantageous effect of this base case is：

(1) this programme can make each position of parts that can be cooled down, and improve the cooling effect of parts, prevent Only parts are deformed in cooling procedure, additionally it is possible to the cooling efficiency of parts are improved, so as to improve the production of parts Efficiency；

(2) two helicla flutes of this programme are oppositely arranged, wherein one end of a helicla flute is located at the top of cooling cylinder, separately One end of one helicla flute is located at the bottom of cooling cylinder, make cooling ball in injection cooling cylinder respectively positioned at the bottom of parts and Top, so as to allow parts overturn and moving process in be always positioned at the middle part of cooling cylinder, make each position of parts can be with Cooling ball contacts, and improves the effect of parts cooling；In addition, cooling ball injects the helicla flute that one end is located at the top of cooling cylinder In, one end of cooling cylinder inside points cooling ball and parts can be driven to rotate from top to bottom, and together toward the outlet of cooling cylinder Place's movement, cooling ball are injected one end and are located in the helicla flute of cooling cylinder bottom, can drive cooling cylinder inside points cooling ball and zero The other end of component rotates from lower to upper, and is moved together toward the exit of cooling cylinder, so as to which parts be made to be more prone to turn over Turn；

(3) helicla flute of this programme both can play guiding role to the rotation of cooling ball, and cooling ball is made to be produced in cooling cylinder Raw rotation can also be oriented to for agitation part as the slideway of agitation part, agitation part is made to rotate in cooling cylinder and be carried out to cooling ball Agitation and promotion further enhance the cooling effect of parts；

(4) helicla flute of this programme is set as T shapes, and the sliding block for stirring part is matched with helicla flute, can prevent agitation part It is fallen due to the influence of gravity when rotating at the top of cooling cylinder, the rotation to stir part provides guarantee；

(5) the cold treatment case of this programme can to cooling ball and agitation part cool down, make cooling ball and stir part with Parts realize the cooling of parts during contacting, improve the cooling efficiency of parts；

(6) transmitter of this programme can make the cooling ball in injection helicla flute have certain initial velocity with agitation part, Condition is provided for the rotation of cooling ball and agitation part in cooling cylinder, so as to which parts be enable quickly to realize cooling；

(7) cooling ball newly injected in this programme has impetus to cooling ball, the parts in cooling cylinder, can make cold But ball and parts after cooling are more successfully moved toward the exit of cooling cylinder；

(8) heat on parts gradually can be absorbed by the cooling ball in this programme when being contacted with parts And the dry ice in cavity is passed to, dry ice heat is vaporized, and absorbs a large amount of heat from surrounding, so as to fulfill to cooling ball It cools down again, prevents cooling ball in the case where leading to cooling effect during being cooled down to parts when absorbing parts heat Drop, further improves cooling effect of the cooling ball to parts；

(9) the agitation part of this programme can stir the cooling ball in cooling cylinder, and the overturning for parts is provided and helped Power enhances the rotating effect of cooling ball, improves the overturning efficiency of parts, so as to improve the cooling effect of parts； Meanwhile movement of the agitation part in cooling cylinder can provide power-assisted for the discharge of cooling ball and parts, make parts after cooling It can more successfully be moved toward the exit of cooling cylinder；

(10) the workpiece mouth of this programme is arranged on the middle part of import so that and parts enter always from the middle part of cooling cylinder, It is always positioned at providing guarantee in the middle part of cooling cylinder for parts, improves the cooling effect of parts；

(11) guide rail of this programme can connect transmitter and helicla flute, make cooling ball or agitation part when projecting I.e. in the state that can inject helicla flute, cooling ball or agitation part is enable quickly to enter in helicla flute, improves zero The cooling effect of part.

Scheme two：This is the preferred of basic scheme, and the exit of cooling cylinder is equipped with collecting tank.Collecting tank can will be from cooling cylinder The parts, cooling ball and agitation part for exporting discharge collect, and are convenient for people to be sorted.

Scheme three：This is preferred for scheme two, sieve plate is equipped at the top of the collecting tank, cooling can be held by being provided on the sieve plate Ball and agitation part by sieve pore.Parts and cooling ball, agitation part can be screened out out by sieve plate, be convenient for people to carry out workpiece It operates in next step, is also convenient for people and cooling ball, agitation part are handled, realize cooling ball, stir recycling for part.

Scheme four：This is preferred for scheme three, and the one end of the collecting tank far from cooling cylinder is fixed with baffle.Baffle can be right The cooling ball or agitation part projected from helicla flute plays barrier effect, prevents cooling ball or agitation part from shooting worker wounded, while Cooling ball or agitation part can be made to fall nearby, worker is facilitated to be collected.

Scheme five：This is preferred for scheme four, and the baffle is flexible board.Flexible board is carried out to cooling ball or agitation part It can reduce to cooling ball or stir the damage of part during blocking.

Scheme six：This is preferred for scheme five, and the flexible board is rubber slab.Rubber slab has good cushion performance, Barrier effect can either be played to cooling ball or agitation part, and cooling ball or agitation part will not be damaged.

Scheme seven：This is the preferred of basic scheme, and the cooling ball surface is machined with several grooves.Groove can increase Frictional force between cooling ball makes the cooling ball of injection be easier to drive the cooling ball in cooling cylinder to generate rotation.

Scheme eight：This is preferred for scheme seven, and the material of the cooling ball is identical with parts.It is identical with parts material Cooling ball can parts be played with better conductive force, so as to improve the cooling efficiency of parts.

Scheme nine：This is the preferred of basic scheme, and the material of the agitation part is identical with parts.With parts material phase Same agitation part can play parts better conductive force, so as to improve the cooling efficiency of parts.

Scheme ten：This is the preferred of basic scheme, and the refrigerant is dry ice.Dry ice prepares simple easily acquisition, reduces The cost of parts cooling.

Description of the drawings

Fig. 1 is the structure diagram of auto parts and components cooling device of the present invention；

Fig. 2 is the sectional view of helicla flute；

Fig. 3 is the structure diagram of cooling ball；

Fig. 4 is the structure diagram for stirring part.

Specific embodiment

Below by the further details of explanation of specific embodiment：

Reference numeral in Figure of description includes：Mounting table 1, cooling cylinder 2, helicla flute 3, guide rail 4, transmitter 5, Leng Chu Manage case 6, transmission device 7, parts 8, collecting tank 9, sieve plate 10, sieve pore 11, baffle 12, cooling ball 13, cavity 14, dry ice 15, Stir part 16, sliding block 17, agitator arm 18, agitation ball 19, groove 20.

Embodiment is substantially as shown in Figure 1：

Auto parts and components cooling device, mainly by mounting table 1, cooling cylinder 2, helicla flute 3, guide rail 4, transmitter 5, cold treatment Case 6, transmission device 7 are formed.Cooling cylinder 2 is welded on mounting table 1, and guide rail 4, transmitter 5, transmission device 7 and cold treatment case 6 are equal It positioned at the left side of cooling cylinder 2 and is each attached on mounting table 1, collecting tank 9 is fixed on the right side of cooling cylinder 2 and is fixed on mounting table On 1.9 top of collecting tank is equipped with sieve plate 10, be provided on sieve plate 10 can hold cooling ball 13 and stir part 16 by sieve pore 11.It receives The right end of collection slot 9 is fixed with baffle 12, and baffle 12 is flexible board, and flexible board is rubber slab.

Cooling cylinder 2 includes inlet and outlet, is provided with the workpiece mouth for being sent into parts 8 in the middle part of import, outside workpiece mouth The transmission device 7 for transmitting parts 8 is connected with, transmission device 7 is mounted on mounting table 1, and transmission device 7 is transmitted for belt Device 7.

Be machined with the helicla flute 3 of two T shapes in cooling cylinder 2, helicla flute 3 as shown in Figure 2, wherein helicla flute 3 Left end extends to import and positioned at the top of cooling cylinder 2, and right end, which extends to, to be exported and positioned at the lower part of cooling cylinder 2；Another spiral shell The left end of spin slot 3 extends to import and positioned at the lower part of cooling cylinder 2, and right end, which extends to, to be exported and positioned at the top of cooling cylinder 2.Two The left end of helicla flute 3 is communicated with guide rail 4, and the left end of two guide rails 4 is respectively connected with transmitter 5, the left end of two transmitters 5 It is respectively connected with cold treatment case 6.13 groups of several cooling balls and several agitation groups, 13 groups of cooling ball are placed in cold treatment case 6 With agitation group arranged for interval.13 groups of cooling ball includes 6 cooling balls 13, as shown in Figure 3, is machined in each cooling ball 13 Cavity 14,14 built-in dry ice 15 of cavity；13 surface of cooling ball is machined with several grooves 20, and the material of cooling ball 13 and zero Part 8 is identical.Agitation group includes 3 for stirring the agitation part 16 of cooling ball 13, and as shown in Figure 4, agitation part 16 includes and spiral shell The sliding block 17 of 3 matched T shapes of spin slot is welded with agitator arm 18 on sliding block 17, and agitation ball 19 is fixed on agitator arm 18；Agitation The material of part 16 is identical with parts 8.

During work, first by cooling ball 13 and agitation part 16 by certain quantity arranged for interval in cold treatment case 6, to cold But ball 13 and agitation part 16 are cooled down, and are then taken out part cooling ball 13 and are first put into 2 bottom of cooling cylinder.

Then, parts 8 are placed on transmission device 7, parts 8 are progressively delivered to cooling cylinder 2 by transmission device 7 It is interior, since parts 8 are sent into from the middle part of cooling cylinder 2, so parts 8 can be fallen on cooling ball 13, at this point, cooling ball 13 can tentatively cool down parts 8.Then, the cooling ball 13 in two cold treatment casees 6 is sent to successively in transmitter 5, There is certain initial velocity by the cooling ball 13 that transmitter 5 emits, cooling ball 13 is injected into cooling cylinder 2 after guide rail 4 In interior helicla flute 3, and under the guiding of helicla flute 3 drive cooling cylinder 2 in cooling ball 13 and parts 8 generate rotation and it is past The exit movement of cooling cylinder 2.Wherein, the cooling ball 13 entered from 2 top of cooling cylinder can drive 2 inside points cooling ball of cooling cylinder 13 and one end of parts 8 rotate from top to bottom, and moved together toward the exit of cooling cylinder 2, and from 2 bottom of cooling cylinder into The cooling ball 13 entered can drive the other end of 2 inside points cooling ball 13 of cooling cylinder and parts 8 to rotate from lower to upper, and together It is moved toward the exit of cooling cylinder 2, so as to fulfill the overturning and transport of parts 8, each position that can either make parts 8 is equal It can be contacted with cooling ball 13, improve the cooling effect and cooling efficiency of parts 8, and parts 8 after cooling can sent out Cooling cylinder 2 is convenient for people to carry out next step operation.Meanwhile the cooling ball 13 newly injected is to the cooling ball 13, zero in cooling cylinder 2 Component 8 has impetus, and cooling ball 13 and parts after cooling 8 can be made more successfully to be moved toward the exit of cooling cylinder 2 It is dynamic.

In addition, the heat on parts 8 gradually can be absorbed by cooling ball 13 when being contacted with parts 8, when When cooling ball 13 is absorbed on the dry ice 15 in the heat transfer to cavity 14 that comes, 15 heat of dry ice is vaporized, and from surrounding A large amount of heat is absorbed, so as to fulfill the cooling again to cooling ball 13, prevents cooling ball 13 from being cooled down to parts 8 Cooling effect is caused to decline when absorbing 8 heat of parts in the process, further improve cooling of the cooling ball 13 to parts 8 Effect.

After the completion of the 13 groups of injections of a cooling ball, the agitation part 16 in agitation group is progressed into transmitter 5, is being emitted It is projected, is injected into after guide rail 4 in corresponding helicla flute 3 with certain initial velocity in device 5, helicla flute 3 and agitation in T shapes Under the mutual cooperation of sliding block 17 in part 16, agitation part 16 can slide along helicla flute 3 and rotation is generated in cooling cylinder 2 and is moved It is dynamic, the cooling ball 13 in cooling cylinder 2 is stirred, and the overturning for parts 8 provides power-assisted, enhance turning for cooling ball 13 Dynamic effect improves the overturning efficiency of parts 8, so as to improve the cooling effect of parts 8.Meanwhile part 16 is stirred cold But the movement in cylinder 2 can provide power-assisted for the discharge of cooling ball 13 and parts 8, make parts 8 after cooling can be more successfully It is moved toward the exit of cooling cylinder 2.

Parts 8 after cooling discharge together from the outlet of cooling cylinder 2 with cooling ball 13, agitation part 16 and fall on sieve plate 10 On, cooling ball 13, agitation part 16 can from sieve pore 11 by and drop into collecting tank 9, and parts 8 due to volume it is larger and It is left on sieve plate 10, at this point, parts 8 can be transported and carry out next step operation by people, and cooling ball 13 and agitation part 16 are repeating utilization after treatment.

Above-described is only the embodiment of the present invention, and the common sense such as well known concrete structure and characteristic are not made herein in scheme Excessive description.It, 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, these all do not interfere with what the present invention was implemented 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 specific embodiment can be used for explaining the content of claim.

Claims (10)

1. auto parts and components cooling device, including mounting table, cooling cylinder is installed on the mounting table, the cooling cylinder include into Mouth and outlet, it is characterised in that：Two helicla flutes for being oppositely arranged and be T shapes are machined in cooling cylinder, the helicla flute One end extends to import, and the other end of helicla flute extends to outlet；One end that every helicla flute is located at import is communicated with guide rail, The guide rail is located at outside cooling cylinder, and the one end of guide rail far from cooling cylinder is connected with transmitter, and the transmitter is connected with cold place Case is managed, several cooling ball groups and several agitation groups are placed in the cold treatment case, between the cooling ball group and agitation group Every arrangement；The cooling ball group includes several cooling balls, cavity is equipped in the cooling ball, after heat absorption is housed in the cavity The refrigerant that can freeze；The agitation group includes several agitation parts for being used to stir cooling ball, and the agitation part includes and spiral shell Spin slot matched sliding block is fixed with agitator arm on the sliding block, agitation ball is fixed on the agitator arm；It is opened in the middle part of import It is useful for being sent into the workpiece mouth of parts, the workpiece mouth is externally connected with the transmission device for transmitting parts, the transmission Device is mounted on mounting table.

2. auto parts and components cooling device according to claim 1, it is characterised in that：The exit of the cooling cylinder is equipped with Collecting tank.

3. auto parts and components cooling device according to claim 2, it is characterised in that：Sieve is equipped at the top of the collecting tank Plate, be provided on the sieve plate can hold cooling ball and stir part by sieve pore.

4. auto parts and components cooling device according to claim 3, it is characterised in that：The collecting tank is far from cooling cylinder One end is fixed with baffle.

5. auto parts and components cooling device according to claim 4, it is characterised in that：The baffle is flexible board.

6. auto parts and components cooling device according to claim 5, it is characterised in that：The flexible board is rubber slab.

7. auto parts and components cooling device according to claim 1, it is characterised in that：If the cooling ball surface is machined with Dry groove.

8. auto parts and components cooling device according to claim 7, it is characterised in that：The material of the cooling ball with zero Part is identical.

9. auto parts and components cooling device according to claim 1, it is characterised in that：It is described agitation part material with zero Part is identical.

10. auto parts and components cooling device according to claim 1, it is characterised in that：The refrigerant is dry ice.