CN200951624Y - Wave pipe mfg. machine - Google Patents

Abstract

The utility model relates to a corrugated pipe manufacturing machine which includes an extrusion device and a guiding device arranged at one side of the extrusion device. The guiding device includes a pedestal, a support unit which is fixedly arranged on the pedestal, a first feed unit arranged on the support unit, a second feed unit corresponding to the first feed unit, a plurality of first modules and second modules arranged around the first feed unit and the second feed unit, a power unit which can drive the first feed unit and the second feed unit to rotate reversely and at least one cooling unit. In this way, the extrusion device extrudes materials for the guiding device to guide and transport; the cooling unit can be used for high-efficient cooling and forming operation.

Description

Wave pipe manufacturer machine

[technical field]

The utility model relates to a kind of manufacturing equipment of unrestrained pipe, particularly relates to a kind of unrestrained pipe manufacturer machine that can make unrestrained pipe continuously.

[background technology]

Existing unrestrained pipe manufacturer machine comprises an extrusion device and one and is arranged on drawing of this extrusion device one side and gets device.But this extrusion device extrusion material, this draws gets device then in the material extrusion, utilizes two supply units to be antiport, drives several modules simultaneously and produces in regular turn to be combined to draw towards a discharging direction and get material, just can produce plastics wave pipe continuously.

The drawing of this unrestrained pipe manufacturer machine gets device and also is provided with the ventilation type cooling unit that can cool off aforementioned modules mostly, that is to say, draw along the discharging direction in the both sides of supply unit and to be provided with the cooling air jet pipe, but because cooling blast can't be covered by an interior volume fully and module is cooled off, so that module is got material and the cooling effectiveness when the discharging direction is transferred is poor drawing, it is poorer when big especially to make special material or unrestrained tube thickness.In order to solve the problem of cooling effectiveness difference, the delivered length of having plenty of supply unit is prolonged, and what have then is the transporting velocity of supply unit of slowing down, and thus, all can cause the low problem of production efficiency.

[utility model content]

The purpose of this utility model is to be to provide a kind of to produce preferable cooling effectiveness and can not prolong delivered length and have the unrestrained pipe manufacturer machine that can improve production capacity under the normal transporting velocity.

In order to achieve the above object, the utility model provides a kind of unrestrained pipe manufacturer machine, comprises an extrusion device and one and is arranged on drawing of this extrusion device one side and gets device.But this extrusion device has the discharge nozzle of an extrusion material.This draws, and to get device be that a discharging direction along this discharge nozzle is arranged on this extrusion device one side, and has a base, a support unit that is installed on this base, one is extended along this discharging direction and to be provided with and group is located at first supply unit on this support unit, one to should first supply unit and be counter-rotational second supply unit with this first supply unit, several rings are located at first module on this first supply unit, several rings be located on this second supply unit and can with the aforementioned first module second involutory module mutually, one drives first, the counter-rotational power unit of two supply units and at least one provide first, two modules produce the cooling unit of cooling, aforementioned first, respectively be concaved with a mutual involutory die cavity on the opposite face of two modules, the mould bottom surface of aforementioned die cavity all is Wave spiral groove shape, this cooling unit have one with this first, the running track of two supply units and produce the rotating disk group that pivots with respect to this support unit, one imports this rotating disk group and first with fluid, input pipe group in two modules, fluid after will absorbing heat is by first, the efferent duct group that two modules derive through this rotating disk group.

The beneficial effects of the utility model are: this draws, and to get device be when the wave pipe is shaped, the cooling fluid of circulation can be imported in each first and second module, can make first and second module get material and the cooling effectiveness when this discharging direction is transferred is improved drawing.

[description of drawings]

Fig. 1 is the forward sight constitutional diagram of a preferred embodiment of the utility model;

Fig. 2 is the left side constitutional diagram of the above-mentioned preferred embodiment of the utility model;

Fig. 3 is the cross-sectional schematic of being got along the straight line 3-3 among Fig. 2;

Fig. 4 is the cross-sectional schematic of being got along the straight line 4-4 among Fig. 2;

Fig. 5 is the sectional perspective schematic diagram of the above-mentioned preferred embodiment of the utility model, and the state of an input pipe group and first and second module of an efferent duct group collocation is described;

Fig. 6 is the action schematic diagram of dividing a word with a hyphen at the end of a line of the above-mentioned preferred embodiment of the utility model, illustrates that two rotating disk groups travel to a left end along two guide rails by a right-hand end;

Fig. 7 is the revolution action schematic diagram of the above-mentioned preferred embodiment of the utility model, illustrates that the rotating disk group produces the state of cast;

Fig. 8 is the action schematic diagram of oppositely dividing a word with a hyphen at the end of a line of the above-mentioned preferred embodiment of the utility model, illustrates that the rotating disk group oppositely travels to right-hand end along guide rail by left end.

[specific embodiment]

Below in conjunction with drawings and Examples the utility model is elaborated:

As shown in Figure 1, the preferred embodiment of the utility model wave pipe manufacturer machine comprises an extrusion device 100 and one and is arranged on drawing of these extrusion device 100 1 sides and gets device 200.

But this extrusion device 100 has the discharge nozzle 110 of an extrusion material.

This draws, and to get device 200 be that a discharging direction X along this discharge nozzle 110 is arranged on this extrusion device 100 1 sides, and have a base 10, a support unit 20 that is installed on this base 10, one extend to be provided with and to be installed in first supply unit 30 on this support unit 20 along this discharging direction X, one is arranged on these first supply unit, 30 belows abreast and is counter-rotational second supply unit 40 with this first supply unit 30, several rings are located at first module 50 on this first supply unit 30, several rings be located on this second supply unit 40 and can with aforementioned first module, the 50 mutual second involutory modules 60, one can drive aforementioned first, two supply units 30,40 are counter-rotational power unit 70 and can provide aforementioned first, two modules 50,60 produce first of cooling, two cooling units 80,90.

Cooperate and to consult Fig. 2, Fig. 4, this support unit 20 have four vertically be arranged on column 21 on these base 10 end faces, two be attached on the aforementioned column 21 gripper shoe 22, gripper shoe 22 that is attached at the top on and suspension 23 above this first and second supply unit 30,40 and two the guide rail 24 that bridges to should first and second supply unit 30,40 and extending along this discharging direction X.Aforementioned gripper shoe 22 1 sides can be set the position for 30,40 of this first and second supply units, and aforementioned guide rail 24 is arranged on this suspension 23 and this base 10, and column 21 equal positions are at a rear side of this first and second supply unit 30,40.

This first and second supply unit the 30, the 40th is the crawler belt shape and goes to upper and lower arranged side by side.

Respectively be concaved with on the opposite face of aforementioned first and second module 50,60 one can be involutory mutually die cavity 51,61, the mould bottom surface of aforementioned die cavity 51,61 all is Wave spiral groove shape.

This first and second cooling unit 80,90 respectively has one can back and forth 81,91, one of the rotating disk groups of operation, 82,92 and one of the input pipe groups that cooling fluid (present embodiment is to adopt water) can be imported in this rotating disk group 81,91 and first and second module 50,60 can be with the fluid after absorbing heat by the efferent duct groups 83,93 of first and second module 50,60 through these rotating disk group 81,91 derivation with the running track of this first and second supply unit 30,40 and along aforementioned guide rail 24.

Aforementioned rotating disk group 81, the 91st, be and be nested in movably on the guide rail 24, cooperate and consult Fig. 3, rotating disk group 81,91 respectively have one is the slide block 811 that is embedded slidably on guide rail 24,911, one is fixed in this slide block 811, conduit 812 on 911,912, one is the rotatable earth's axis and is located at this conduit 812, first rotating disk 813 on 912,913 and one and this first rotating disk 813,913 link and be the rotatable earth's axis is located at this conduit 812, second rotating disk 814 on 912,914, aforementioned first rotating disk 813,913 and second rotating disk 814,914 can rotate with respect to guide rail 24.Aforementioned slide block 811,911 respectively has one can be for the outlet 811 of deriving the cooling fluid after having absorbed heat for the inlet 811 ', 911 ' that imports cooling fluid, one ", 911 ".Aforementioned conduit 812,912 respectively have one be switched to this inlet 811 ', 911 ' introducing hole 812 ', 912 ' and one be switched to this outlet 811 ", 911 " fairlead 812 ", 912 ".Aforementioned first rotating disk 813,913 respectively has two can be communicated with this introducing hole 812 ', 912 ' first flow 813 ', 913 '.Aforementioned second rotating disk 814,914 also respectively has two and can be communicated with this fairlead 812 ", 912 " second runner 814 ', 914 '.

Cooperate ginseng Fig. 3 and Fig. 5, aforementioned input pipe group 82,92 respectively has one and can produce the first flow 813 ', 913 ' that 821,921, two of smooth and easy exterior lines of scratching are engaged on first rotating disk 813,913 along guide rail 24 shift reciprocatelies with aforementioned rotating disk group 81,91 and be communicated with first conducting pipeline 823,923 of first and second module 50,60 that is positioned at odd positions and the second conducting pipeline 824,924 of first and second module 50,60 that several connections are positioned at the even number position with connecting line 822,922, most bar of 50,60 of pairing first and second modules.

Cooperate ginseng Fig. 3 and Fig. 5, aforementioned efferent duct group 83,93 respectively has one can produce second runner 814 ' that 831,931, two of smooth and easy exterior lines of scratching are engaged on this second rotating disk 814,914,914 ' and the connecting line 832,932 of 50,60 of pairing first and second modules along guide rail 24 shift reciprocatelies with rotating disk group 81,91, aforementioned connecting line 832,932 and connecting line 822,922 adjacent settings, and import first and second module 50,60 cooling off for fluid respectively, and make fluid heat absorption back from first and second module 50,60 outputs.

Again as shown in Figure 1, a home position supposing rotating disk group 81,91 is to level off to a right-hand end of this extrusion device 100, and at this moment, exterior line 821,921 extends along guide rail 24.As Fig. 5 and shown in Figure 6, when extrusion device 100 at the extrusion material and when starting this power unit 70 simultaneously, be to make this first and second supply unit 30,40 drive first and second module 50,60 to move, and the material of continuous extrusion 50,60 of first and second involutory mutually modules moved towards discharging direction X constantly towards discharging direction X.At this moment, input pipe group 82,92 also is directed into cooling fluid in rotating disk group 81,91 and first and second module 50,60, and make material by first and second module 50,60 operations, also utilize the cooling fluid that imports continuously to cool off simultaneously, and make the wave pipe of made can reach the effect of finalizing the design rapidly.And as Fig. 3, Fig. 5 and shown in Figure 6, rotating disk group 81,91 also can because of and 50,60 of pairing first and second modules be connected with connecting line 832,932 and connecting line 822,922, so can utilize slide block 811,911 to slide onto a left end with the nested effect of guide rail 24, exterior line the 821,831,921, the 931st is the deflection shape.

Fig. 3 and shown in Figure 7 and for example, when rotating disk group 81,91 arrives left end, can rotate and make this first rotating disk 813,913 and second rotating disk 814,914 produce the original place with respect to this conduit 812,912 simultaneously again along with pairing first and second module 50,60 produces 180 degree revolutions.

Fig. 3 and shown in Figure 8 for another example, rotating disk group 81,91 oppositely travels to right-hand end by left end along guide rail 24 along with the running of this first and second supply unit 30,40 again, and along with pairing first and second module 50,60 produces 180 degree revolutions, rotate and make this first rotating disk 813,913 and second rotating disk 814,914 produce the original place with respect to this conduit 812,912 simultaneously, and return back to the home position of Fig. 1.

Therefore, utilize this extrusion device 100 extrusion materials, and cooperate this first, two supply units 30,40 reciprocally drive first, two modules 50,60 when carrying out the operation of continuously shaped unrestrained pipe, utilize rotating disk group 81,91 can be along these guide rail 24 shift reciprocatelies, and first rotating disk 813,913 and second rotating disk 814,914 simultaneously with respect to this conduit 812,912 produce the original place rotates, but smooth delivery of power cooling fluid, and can be after the fluid heat absorption again via connecting line 832,932, second rotating disk 814,914 second runner 814 ', 914 ' and exterior line 831,931 delivery and discharging, and can continue cool cycles again and use.

What deserves to be mentioned is, the utility model the foregoing description is to cool off with this first and second cooling unit 80,90 first and second module 50,60 of arranging in pairs or groups respectively, certainly also can be only with a cooling unit first and second module 50,60 (figure does not show) of arranging in pairs or groups simultaneously, also can get a desired effect.That is to say, this cooling unit have one can with this first supply unit 30 and second supply unit 40 wherein one running track and along a guide rail 24 back and forth the rotating disk groups, one of operation cooling fluid (present embodiment is to adopt water) can be imported input pipe group in this rotating disk group and first and second module 50,60 and one can be with the fluid after absorbing heat by the efferent duct group of first and second module 50,60 through this rotating disk group derivation.

Therefore, of the present utility modelly draw that to get device be when the wave pipe is shaped, the cooling fluid of circulation is imported in each first and second module 50,60, and can make first and second module 50,60 get material and the cooling effectiveness when this discharging direction X transfers is good drawing, also applicable to making special material or the bigger wave pipe of thickness, and delivered length that will first and second supply unit 30,40 is prolonged, or the transporting velocity of first and second supply unit 30,40 that slows down, can promote production efficiency.

Claims (5)

1. unrestrained pipe manufacturer machine comprises an extrusion device and one and is arranged on drawing of this extrusion device one side and gets device; It is characterized in that:

This extrusion device has the discharge nozzle of an extrusion material;

This draws gets device, be that a discharging direction along this discharge nozzle is arranged on this extrusion device one side, and has a base, a support unit that is installed on this base, one is extended along this discharging direction and to be provided with and group is located at first supply unit on this support unit, one to should first supply unit and be counter-rotational second supply unit with this first supply unit, several rings are located at first module on this first supply unit, several rings be located on this second supply unit and with the aforementioned first module second involutory module mutually, one drives first, the counter-rotational power unit of two supply units and at least one provide first, two modules produce the cooling unit of cooling, aforementioned first, respectively be concaved with a mutual involutory die cavity on the opposite face of two modules, the mould bottom surface of aforementioned die cavity all is Wave spiral groove shape, this cooling unit have one with this first, the running track of two supply units and produce the rotating disk group that pivots with respect to this support unit, one imports this rotating disk group and first with fluid, input pipe group in two modules, fluid after will absorbing heat is by first, the efferent duct group that two modules derive through this rotating disk group.

2. unrestrained pipe manufacturer machine as claimed in claim 1, it is characterized in that: this draws the support unit of getting device and has two pairs of guide rails of should first and second supply unit and extending along this discharging direction, and the rotating disk group of this cooling unit can be slided and be nested on the guide rail along guide rail.

3. unrestrained pipe manufacturer machine as claimed in claim 2, it is characterized in that: this draws the rotating disk group of getting device and has a slide block that is embedded on guide rail, a conduit that is fixed on this slide block, axle is located at that this supravasal first rotating disk and one link with this first rotating disk and axle is located at this supravasal second rotating disk, this conduit is embedded on this slide block, this first rotating disk and this second rotating disk rotate with respect to this guide rail, this slide block has one for the inlet that imports fluid, one for the outlet of deriving the fluid after having absorbed heat, this conduit has the introducing hole and the fairlead that is switched to this outlet that are switched to this inlet, this first rotating disk has at least one first flow that is communicated with this introducing hole and input pipe group, and this second rotating disk has at least one second runner that is communicated with efferent duct group and this fairlead.

4. unrestrained pipe manufacturer machine as claimed in claim 3, it is characterized in that: this input pipe group of drawing the cooling unit of getting device has one and produces smooth and easy exterior line of scratching with the rotating disk group and along the guide rail shift reciprocately, article two, be engaged on the first flow and pairing first of first rotating disk, the connecting line of two intermodules, several connections are positioned at first of odd positions, the first conducting pipeline and several connections of two intermodules are positioned at first of even number position, the second conducting pipeline of two intermodules, aforementioned efferent duct group respectively have one and produce smooth and easy exterior line of scratching with the rotating disk group and along the guide rail shift reciprocately, article two, be engaged on second runner and pairing first of second rotating disk, the connecting line of two intermodules.

5. unrestrained pipe manufacturer machine as claimed in claim 2, it is characterized in that: this draws the support unit of getting device has several and vertically is arranged on column on this base, two and is attached at gripper shoe on the aforementioned column and one and is attached on one of them gripper shoe and the suspension above this first and second supply unit of bridging, aforementioned column is a rear side at this first and second supply unit all, and side of gripper shoe is set the position for this first and second supply unit axle, and guide rail is to be separately positioned on this suspension and this base.

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