CN208100872U - Bellow forming module water cooling plant and corrugated pipe production equipment - Google Patents

Abstract

The utility model relates to plastic products production technical fields, more particularly, to a kind of bellow forming module water cooling plant and corrugated pipe production equipment.The bellow forming module water cooling plant, including multiple coolant flow channel groups, each coolant flow channel group include the upper coolant flow channel, module coolant flow channel and lower coolant flow channel being from top to bottom sequentially communicated；It further include the lower water box higher than the high water tank of upper coolant flow channel and lower than lower coolant flow channel；Each upper coolant flow channel is connected to far from one end of module coolant flow channel with high water tank, and can be moved freely with respect to high water tank, and each the lower one end of coolant flow channel far from module coolant flow channel is connected to lower water box, and can be moved freely with respect to lower water box；Multiple module coolant flow channels for being arranged in multiple forming modules one by one.Bellow forming module provided by the utility model is simple with water cooling plant structure, and manufacturing cost is low, and does not interfere between coolant flow channel group, long service life.

Description

Bellow forming module water cooling plant and corrugated pipe production equipment

Technical field

The utility model relates to plastic products production technical fields, more particularly, to a kind of bellow forming module water cooling Device and corrugated pipe production equipment.

Background technique

In process of production, the temperature of forming module has a significant impact to the production efficiency of bellows to plastic film capicitor, is Raising production efficiency needs are cooled down to module, and the continuous water cooling of inside modules is the preferable type of cooling.

Currently, common cold-zone device includes multiple cold water hoses and for driving cooling tube and forming module to keep The driving device unanimously moved, structure is complicated with water cooling plant for this bellow forming module, at high cost.

Utility model content

The purpose of this utility model is to provide bellow forming module water cooling plants, to solve to exist in the prior art The bellow forming module of plastic film capicitor production equipment with water cooling plant, structure is complicated, technical problem at high cost.

Bellow forming module water cooling plant provided by the utility model, including multiple coolant flow channel groups, each cooling Each runner group includes the upper coolant flow channel, module coolant flow channel and lower coolant flow channel being from top to bottom sequentially communicated；It further include height High water tank in upper coolant flow channel and the lower water box lower than lower coolant flow channel；Each upper coolant flow channel is cooling far from module One end of runner is connected to high water tank, and can be moved freely with respect to high water tank, and each lower coolant flow channel is cold far from module But one end of runner is connected to lower water box, and can be moved freely with respect to lower water box；Multiple module coolant flow channels are used for one One is arranged in multiple forming modules.

Further, flowing water Valve is provided on lower water box.

Further, the material of upper coolant flow channel is metal；

And/or the material of lower coolant flow channel is metal.

The utility model also provides a kind of corrugated pipe production equipment, including circular orbit, is arranged on circular orbit Multiple forming modules and bellow forming module water cooling plant provided by the utility model, multiple forming modules are along circular rails Road is arranged successively, and multiple module coolant flow channels are arranged in one by one in multiple forming modules.

Further, forming module includes the forming module ontology of bottom plate interconnected and semicircular in shape, and module is cold But runner includes first runner, second flow channel and third flow channel；The first end of first runner be located at the top of bottom plate and with it is upper Coolant flow channel connection, the second end of first runner extend to the top of forming module ontology, second flow channel first end and first runner Second end connection, the second end of second flow channel extends to the bottom of forming module ontology, the first end and second of third flow channel The second end in road is connected to, and the second end of third flow channel is located at the bottom of bottom plate, and is connected to lower coolant flow channel.

Further, first runner, second flow channel and third flow channel are the through-hole being arranged on forming module.

Further, high water tank is higher than the top 100mm or more of forming module.

Further, lower water box is lower than the bottom end 100mm or more of forming module.

Further, high water tank in a ring, and matches with circular orbit.

Further, lower water box in a ring, and matches with circular orbit.

Using bellow forming module water cooling plant provided by the utility model during, each bellows at Be respectively provided with module coolant flow channel in pattern block, a upper coolant flow channel connect on a module coolant flow channel, under connect and cooled down under one Runner, the cold water in high water tank flow successively through upper coolant flow channel, module coolant flow channel, lower cooling stream under self gravitation effect Road finally flows into lower coolant flow channel；Cold water takes away the heat of forming module during flowing through module coolant flow channel, to make into Pattern block cooling, to improve the shaping efficiency of bellows.

Moreover, module coolant flow channel is located in forming module, upper coolant flow channel and lower coolant flow channel are again cooling with module Runner connection while then forming module moves in orbit, drives module coolant flow channel to move synchronously, thus cooling on driving Runner and lower coolant flow channel move synchronously, i.e., bellow forming module water cooling plant and bellow forming module share ripple The driving device of pipe molding equipment, bellow forming module water cooling plant is without being separately provided driving device, thus greatly Structure is simplified greatly, greatly reduces production cost.

Bellow forming module provided by the utility model is simple with water cooling plant structure, easy to use, and manufacturing cost is low, And do not interfered between coolant flow channel group, avoid phase mutual friction, long service life.

Detailed description of the invention

It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art Specific embodiment or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below In attached drawing be that some embodiments of the utility model are not paying creativeness for those of ordinary skill in the art Under the premise of labour, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is a structural schematic diagram of bellow forming module water cooling plant provided by the embodiment of the utility model；

Fig. 2 is another structural schematic diagram of bellow forming module water cooling plant shown in FIG. 1；

Fig. 3 is a structural schematic diagram of corrugated pipe production equipment provided by the embodiment of the utility model；

Fig. 4 is another structural schematic diagram of corrugated pipe production equipment shown in Fig. 3.

In figure：1- coolant flow channel group；2- high water tank；3- lower water box；4- flowing water Valve；The upper coolant flow channel of 11-；12- Module coolant flow channel；Coolant flow channel under 13-；111- first runner；112- second flow channel；113- third flow channel；100- shaping mould Block；200- bellow forming module water cooling plant；101- bottom plate；102- forming module ontology.

Specific embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described Embodiment is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, originally Field those of ordinary skill every other embodiment obtained without making creative work belongs to practical Novel protected range.

It is in the description of the present invention, it should be noted that term " center ", "upper", "lower", "left", "right", " perpendicular Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only For ease of description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have it is specific Orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.In addition, term " the One ", " second ", " third " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, be also possible to be electrically connected；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition The concrete meaning of language in the present invention.

Fig. 1 is a structural schematic diagram of bellow forming module water cooling plant provided by the embodiment of the utility model；Fig. 2 For another structural schematic diagram of bellow forming module water cooling plant shown in FIG. 1.As depicted in figs. 1 and 2, the utility model The bellow forming module water cooling plant of offer, including multiple coolant flow channel groups 1, each coolant flow channel group 1 include by upper Upper coolant flow channel 11, module coolant flow channel 12 and the lower coolant flow channel 13 being sequentially communicated under and；It further include being higher than upper cooling stream The high water tank 2 in road 11 and lower water box 3 lower than lower coolant flow channel 13；Each upper coolant flow channel 11 is far from the cooling stream of module The one end in road 12 is connected to high water tank 2, and can be moved freely with respect to high water tank 2, and each lower coolant flow channel 13 is far from mould One end of block coolant flow channel 12 is connected to lower water box 3, and can be moved freely with respect to lower water box 3；The cooling stream of multiple modules Road 12 for being arranged in multiple forming modules one by one.

Wherein, the material of upper coolant flow channel 11 can be a variety of, such as：Plastics, rubber or stone material etc., are preferably adopted With metallic hard materials such as copper, iron, aluminium-alloy pipe or stainless steels, one side intensity is high, on the other hand can keep uniting for a long time One shape avoids multiple upper coolant flow channels from interfering with each other.

The material of lower coolant flow channel 13 can be a variety of, such as：Plastics, rubber or stone material etc., preferably using copper, The metallic hard materials such as iron, aluminium-alloy pipe or stainless steel, one side intensity is high, on the other hand can keep unified shape for a long time Shape avoids multiple lower cooling pipes from interfering with each other.

Upper coolant flow channel 11 can use unlike material with lower coolant flow channel 13, preferably use same material, can So that material uniformly facilitates processing and manufacturing.

The shape of high water tank 2 can be a variety of, such as：Rectangle, circle, ellipse or abnormity etc., high water tank 2 Size needs are determined according to particular condition in use, and size, which meets, can make the water inlet of all upper coolant flow channels 11 (far from mould One end of block coolant flow channel 12) it can protrude into high water tank 2.

The shape of lower water box 3 can be a variety of, such as：Rectangle, circle, ellipse or abnormity etc., lower water box 3 Size needs are determined according to particular condition in use, and size, which meets, can make the water outlet of all lower coolant flow channels 13 (far from mould One end of block coolant flow channel 12) it can protrude into lower water box 3.

High water tank 2 can be different from the shape and size of lower water box 3, preferably the geomery phase of the two Together, uniform specification facilitates processing and manufacturing.

Realize that each the upper one end of coolant flow channel 11 far from module coolant flow channel 12 is connected to high water tank 2, and being capable of phase High water tank 2 is moved freely, 2 top of high water tank can be arranged and be open, open wide, the water inlet of each upper coolant flow channel 11 It is protruded into the water of high water tank 2 by opening, the without hindrance rotation under the drive of module, and the water inlet of upper coolant flow channel 11 Mouth extends to underwater always, and can ensure can be drawn onto water always during the motion.This structure is simple, easy for installation, side Just it uses.

It should be noted that then 2 domestic demand of high water tank ensures enough in order to ensure that upper coolant flow channel can be drawn onto water at any time Water.

Realize that each the lower one end of coolant flow channel 13 far from module coolant flow channel 12 is connected to lower water box 3, and being capable of phase Lower water box 3 is moved freely, 3 top of lower water box can be arranged and be open, open wide, the water outlet of each lower coolant flow channel 13 It is protruded into lower water box 3 by opening, the without hindrance rotation under the drive of module.This structure is simple, easy for installation, convenient It uses.

Multiple coolant flow channel groups 1 can be arranged in parallel, neither interferes and makes bellow forming module water The compound with regular structure of device for cooling is orderly.

During using bellow forming module water cooling plant provided in this embodiment, in the molding of each bellows Be respectively provided with module coolant flow channel 12 in module, a upper coolant flow channel 11 connect on a module coolant flow channel 12, under connect under one Coolant flow channel 13, the cold water in high water tank 2 flow successively through upper coolant flow channel 11, module coolant flow channel under self gravitation effect 12, lower coolant flow channel 13 finally flows into lower coolant flow channel 13；Cold water flows through module coolant flow channel 12 in the process for forming module Heat is taken away, to make forming module cool down, to improve the shaping efficiency of bellows.

Moreover, module coolant flow channel 12 is located in forming module, upper coolant flow channel 11 and lower coolant flow channel 13 are again and mould Block coolant flow channel 12 connects, then while forming module moves in orbit, module coolant flow channel 12 is driven to move synchronously, thus Coolant flow channel 11 and lower coolant flow channel 13 move synchronously in drive, i.e., bellow forming module water cooling plant and bellows at Pattern block shares the driving device of corrugated pipe forming equipment, and bellow forming module water cooling plant is without being separately provided drive Dynamic device greatly reduces production cost to enormously simplify structure.

Bellow forming module provided in this embodiment is simple with water cooling plant structure, easy to use, and manufacturing cost is low, and It is not interfered between coolant flow channel group 1, avoids phase mutual friction, long service life, cold water can under self gravitation effect To complete cooling, not only simplifies structure and also reduce energy consumption.

As shown in Fig. 2, further, flowing water Valve 4 is provided on lower water box 3 on above-described embodiment basis.

When bellow forming module is started to work with water cooling plant, flowing water Valve 4 is opened, can be facilitated lower water box Water outflow in 3, avoids lower water box spilling water.

Overflow valve can also be set on high water tank, and when the water of high water tank reaches a certain amount of, extra water can be with It is flowed out by overflow valve, reminds the user that control water.

Fig. 3 is a structural schematic diagram of corrugated pipe production equipment provided by the embodiment of the utility model；Fig. 4 is shown in Fig. 3 Corrugated pipe production equipment another structural schematic diagram.

As shown in Figure 3 and Figure 4, the utility model also provides a kind of corrugated pipe production equipment, including circular orbit, is respectively provided with Multiple forming modules 100 and bellow forming module provided by the utility model water cooling plant 200 on circular orbit, Multiple forming modules 100 are arranged successively along circular orbit, and multiple forming modules 100 are arranged in multiple module coolant flow channels 12 one by one It is interior.

In the present embodiment, the cold water in high water tank 2 flows successively through upper coolant flow channel 11, module under self gravitation effect Coolant flow channel 12, lower coolant flow channel 13 finally flow into lower coolant flow channel 13；Cold water flows through during module coolant flow channel 12 will be at The heat of pattern block 100 is taken away, to make forming module cool down, to improve the shaping efficiency of bellows.

Moreover, module coolant flow channel 12 is located in forming module 100, upper coolant flow channel 11 and lower coolant flow channel 13 again with Module coolant flow channel 12 connects, then while forming module 100 moves in orbit, drives the synchronous fortune of module coolant flow channel 12 It is dynamic, so that upper coolant flow channel 11 and lower coolant flow channel 13 be driven to move synchronously, i.e. bellow forming module water cooling plant 200 The driving device that corrugated pipe forming equipment is shared with bellow forming module 100, enormously simplifies structure, greatly reduces Production cost.

Corrugated pipe production equipment provided in this embodiment, structure is simply regular, and manufacturing cost is low, and cooling efficiency is high, and cold But cost is small.

As shown in Fig. 2, further, forming module 100 includes bottom plate interconnected on above-described embodiment basis 101 and semicircular in shape forming module ontology 102, module coolant flow channel 12 include first runner 111, second flow channel 112 with And third flow channel 113；The first end of first runner 111 is located at the top of bottom plate 101 and is connected to upper coolant flow channel 11, first-class The second end in road 111 extends to the top of forming module ontology 102, the second end of second flow channel 112 first end and first runner 111 Connection, the second end of second flow channel 112 extend to the bottom of forming module ontology 102, the first end and second of third flow channel 113 The second end in road 112 is connected to, and the second end of third flow channel 113 is located at the bottom of bottom plate 101, and is connected to lower coolant flow channel 13.

Wherein, the first end of first runner 111 is located at the top of bottom plate 101 and is connected to upper coolant flow channel 11, first-class The second end in road 111 extends to the top of forming module ontology 102, the second end of second flow channel 112 first end and first runner 111 Connection, the second end of second flow channel 112 extend to the bottom of forming module ontology 102, the first end and second of third flow channel 113 The second end in road 112 is connected to, and the second end of third flow channel 113 is located at the bottom of bottom plate 101, and is connected to lower coolant flow channel 13, That is module coolant flow channel 12 bypasses each position of forming module 100, film-cooled heat is maximized, it is preferred that mould Block coolant flow channel 12 is curvilinear, is adapted with the shape of forming module ontology 102, to the full extent to forming module 100 It is cooled down.

In the present embodiment, bottom plate 101 is arranged in the water inlet (first end of first runner 111) of module coolant flow channel 12 Top, the water outlet (second end of third flow channel 113) of module coolant flow channel 12, not only makes compound with regular structure, also helps cold Water flows through each position of module coolant flow channel 12 under self gravity.

First runner 111, second flow channel 112 and third flow channel 113 can be pre-plugged in forming module 100 Metal tube, it is preferred that first runner 111, second flow channel 112 and third flow channel 113 are to be arranged on forming module 100 Through-hole, that is to say, that module coolant flow channel 12 is the pipeline being set up directly on forming module 100, and the processing is simple, heat exchange More quickly.

Preferably, high water tank 2 is higher than the top 100mm or more of forming module 100.

In the present embodiment, the top of forming module 100 refers to the highest point of forming module 100, that is, semicircular The upper vertex of forming module 100.High water tank 2 is higher than the top 100mm or more of forming module 100, has ensured that cold water has enough Potential energy, so as to ensure the highest point for flowing through forming module 100, ensure cold water to each position of forming module 100 into Row cooling, further increases shaping efficiency.

Preferably, lower water box 3 is lower than the bottom end 100mm or more of forming module 100.

In the present embodiment, the bottom end of forming module 100 refers to the minimum point of forming module 100, that is, semicircular The lower vertex of forming module 100.Lower water box 3 is lower than the bottom end 100mm or more of forming module 100, has further ensured cold water There is enough potential energy, so as to ensure the minimum point for flowing through forming module 100, further ensures cold water to forming module 100 Each position cooled down, further increase shaping efficiency.

As illustrated in fig. 1, it is preferred that high water tank 2 is in a ring, and match with circular orbit.In the present embodiment, high-order water Case 2 matches in a ring and with circular orbit, i.e., size can accommodate multiple coolant flow channel groups 1, avoids oversized And increase the volume of equipment.

As illustrated in fig. 1, it is preferred that lower water box is in a ring, and match with circular orbit.Lower water box 3 in a ring and Match with circular orbit, i.e., size can accommodate multiple coolant flow channel groups 1, avoid oversized and increase equipment Volume.

Finally it should be noted that：The above various embodiments is only to illustrate the technical solution of the utility model, rather than limits it System；Although the present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should Understand：It is still possible to modify the technical solutions described in the foregoing embodiments, or to some or all of Technical characteristic is equivalently replaced；And these are modified or replaceed, it does not separate the essence of the corresponding technical solution, and this is practical new The range of each embodiment technical solution of type.

Claims (10)

1. a kind of bellow forming module water cooling plant, which is characterized in that including：Multiple coolant flow channel groups, each cooling stream Road group includes the upper coolant flow channel, module coolant flow channel and lower coolant flow channel being from top to bottom sequentially communicated；

It further include the lower water box higher than the high water tank of upper coolant flow channel and lower than lower coolant flow channel；

Each upper coolant flow channel is connected to far from one end of module coolant flow channel with high water tank, and can be with respect to high water tank freedom Mobile, each the lower one end of coolant flow channel far from module coolant flow channel is connected to lower water box, and can be with respect to lower water box certainly By moving；

Multiple module coolant flow channels for being arranged in multiple forming modules one by one.

2. bellow forming module water cooling plant according to claim 1, which is characterized in that set on the lower water box It is equipped with flowing water Valve.

3. bellow forming module water cooling plant according to claim 1, which is characterized in that the upper coolant flow channel Material is metal；

And/or the material of the lower coolant flow channel is metal.

4. a kind of corrugated pipe production equipment, which is characterized in that including circular orbit, the multiple moldings being arranged on circular orbit Module and bellow forming module water cooling plant as claimed in any one of claims 1-3,

Multiple forming modules are arranged successively along circular orbit, and multiple module coolant flow channels are arranged in one by one in multiple forming modules.

5. corrugated pipe production equipment according to claim 4, which is characterized in that the forming module includes interconnected The forming module ontology of bottom plate and semicircular in shape, the module coolant flow channel include first runner, second flow channel and third Runner；

The first end of the first runner is located at the top of the bottom plate and is connected to the upper coolant flow channel, the first runner Second end extend to the top of the forming module ontology, the second end of the second flow channel first end and the first runner connects Logical, the second end of the second flow channel extends to the bottom of the forming module ontology, the first end of the third flow channel with it is described The second end of second flow channel is connected to, and the second end of the third flow channel is located at the bottom of the bottom plate, and flows with the lower cooling Road connection.

6. corrugated pipe production equipment according to claim 5, which is characterized in that the first runner, the second flow channel And third flow channel is the through-hole being arranged on the forming module.

7. corrugated pipe production equipment according to claim 5, which is characterized in that the high water tank is higher than the shaping mould The top 100mm or more of block.

8. corrugated pipe production equipment according to claim 6, which is characterized in that the lower water box is lower than the shaping mould The bottom end 100mm or more of block.

9. corrugated pipe production equipment according to claim 4, which is characterized in that the high water tank in a ring, and with institute Circular orbit is stated to match.

10. corrugated pipe production equipment according to claim 4, which is characterized in that the lower water box in a ring, and with institute Circular orbit is stated to match.