CN208341444U - One kind being used for the molding device of thin-wall metal wave duct - Google Patents

Abstract

The utility model discloses one kind to be used for the molding device of thin-wall metal wave duct, comprising: molding machine for metallic corrugated pipe ontology；Rectangular base seat board；Feeding driven subassembly comprising the upper surface of rectangular base seat board is arranged in the first vertical axes, the first abutment sleeve, driven wheel and the first positioning pin, the first vertical axes, and the first abutment sleeve is set in the first vertical axes, and driven wheel is set on the first abutment sleeve；Feeding Power Component, it includes the first rectangle supporting plate, the second rectangle supporting plate and driving motor, the upper surface of rectangular base seat board is arranged in first rectangle supporting plate, and the upper surface of the first rectangle supporting plate is arranged in the second rectangle supporting plate, and the upper surface of the second rectangle supporting plate is arranged in driving motor；Feeding driving assembly comprising the second vertical axes, driving wheel, the second abutment sleeve and the second positioning pin.It is provided by the utility model for the design of thin-wall metal wave duct molding device rationally, structure it is simple and low in cost, and there is high promotional value.

Description

One kind being used for the molding device of thin-wall metal wave duct

Technical field

The utility model relates to corrugated pipe production equipment technical fields, and more specifically, the utility model relates to a kind of use In the molding device of thin-wall metal wave duct.

Background technique

Existing metal bellows tuber is generally adopted by two button cinctures or a button cincture adds one to play side The mode of device, but use that there is debugging difficulties when in use is big with the metal bellows tuber of upper type, play side effect The bad problem of fruit, these problems reduce the efficiency of production metal bellows, and cause to produce because of side effect difference Metal bellows snap-in is insecure, not closed, shaky.

Chinese patent " 106077129 A of CN " discloses a kind of metal bellows tuber, including base, feeding molding Device and button side device, the feeding molding machine and button side device are mounted on the base, and the button side device includes rolling Axis plays side needle, buckles cincture, stamp wheel and extruding wheel；According to work sequencing, described side needle and buckles cincture and be sequentially arranged at Above the roller bearing, the stamp wheel is mounted on the side of the roller bearing, and the extruding wheel is mounted on the other side of the roller bearing； Described roller bearing one end has been equipped with side locating module, and described side locating module diameter is slightly larger than the roller bearing diameter, the button side The wheel mouth of wheel is located at described rise above the locating module of side.By adopting the above technical scheme, the metal bellows tuber debugging letter Single, it is good in effect and effect when detaining to rise, and metal bellows producing efficiency is high, and metal bellows is high-quality.A kind of above-mentioned metal Corrugated tube making machine, the feeding molding machine in the metal bellows tuber can not be according to the different-diameter spirit of metal bellows Use is adjusted livingly, keeps its use scope limited.

Utility model content

One purpose of the utility model is to solve at least the above problems, and provide the advantages of at least will be described later.

There is provided one kind to be used for the molding device of thin-wall metal wave duct there are one purpose for the utility model, this is for thin For the molding device of wall metal wave duct by setting feeding driven subassembly, feeding driven subassembly and feeding driving assembly flexibly match co-clip Metal bellows is held, the position in the first vertical axes of the driven wheel in adjustable feeding driven subassembly, to adapt to different-diameter Metal bellows.

To achieve the goals above, the utility model provides a kind of for the molding device of thin-wall metal wave duct, comprising:

Molding machine for metallic corrugated pipe ontology；

Rectangular base seat board is arranged on the molding machine for metallic corrugated pipe ontology, and the rectangular base seat board is located at thin-walled The lower section of metal pipe billet；

Feeding driven subassembly comprising the first vertical axes, the first abutment sleeve, driven wheel and the first positioning pin, it is described The upper surface of the rectangular base seat board is arranged in first vertical axes, and multiple first positioning are provided in first vertical axes Hole, first abutment sleeve are set in the first vertical axes, be provided on first abutment sleeve it is multiple with it is the multiple The corresponding second location hole of first positioning hole, one end of first positioning pin pass through the second location hole and extend to institute It states in first positioning hole, the driven wheel, which is set on first abutment sleeve and rotates with first abutment sleeve, to be connected It connects；

Feeding Power Component comprising the first rectangle supporting plate, the second rectangle supporting plate and driving motor, first rectangle The upper surface of the rectangular base seat board is arranged in supporting plate, and the upper table of the first rectangle supporting plate is arranged in the second rectangle supporting plate Face, the upper surface of the first rectangle supporting plate are provided with direct neck, the lower surface of the second rectangle supporting plate be provided with it is described The corresponding protrusion clamping portion of direct neck, the direct neck run through two side walls being parallel to each other of the first rectangle supporting plate, And the direct neck is perpendicular to the thin-wall metal pipe, so that the opening direction of the direct neck is vertical towards described first The upper surface of the second rectangle supporting plate is arranged in axis, the driving motor；

Feeding driving assembly comprising the second vertical axes, driving wheel, the second abutment sleeve and the second positioning pin, it is described Second vertical axes are arranged in the upper surface of the second rectangle supporting plate and are rotatablely connected with the second rectangle supporting plate, described second Vertical axes and the driving motor are sequentially connected, and multiple first card holes are provided in second vertical axes, and described second is fixed Position sleeve is set in second vertical axes and is provided with multiple second card holes opposite with first card hole, described One end of second positioning pin passes through second card hole and extends in first card hole, and the driving wheel is set in institute State on the second abutment sleeve and corresponding with the driven wheel, the driving wheel and the driven wheel are for clamping the thin-walled gold Belong to pipe, the outer tube wall and the driving wheel of the thin-wall metal pipe and the circumferential side wall of the driven wheel are rotatablely connected.

It is preferably, described in the molding device of thin-wall metal wave duct, further includes:

Firm component comprising vertical pole and one end and described vertical of the second rectangle supporting plate upper surface are set The horizontal strut that the upper end of strut connects and the other end is connect with the upper end of second vertical axes, the horizontal strut it is another End and the upper end of second vertical axes are rotatablely connected, and the length of the horizontal strut is greater than the radius of the driving wheel.

Preferably, described in the molding device of thin-wall metal wave duct, the axial wall of second vertical axes to be close The position of the upper end is arranged with first bearing, and the other end of the horizontal strut is connect with the lateral wall of the first bearing.

Preferably, described in the molding device of thin-wall metal wave duct, the upper surface of the second rectangle supporting plate Position setting corresponding with second vertical axes is fluted, and the groove content is equipped with second bearing, and described second is vertical The lower end of axis is protruded into the second bearing and is rotatablely connected with the second bearing.

Preferably, described in the molding device of thin-wall metal wave duct, the circumferential side wall of the driving wheel be in First arc of its axis direction recess.

Preferably, described for being covered in the circumferential side wall of the driving wheel in the molding device of thin-wall metal wave duct Equipped with the first resilient sleeve.

Preferably, described in the molding device of thin-wall metal wave duct, it is resistance to that first resilient sleeve is set as rubber Grinding set.

Preferably, described in the molding device of thin-wall metal wave duct, the circumferential side wall of the driven wheel be in Second arc of its axis direction recess.

Preferably, described for being covered in the circumferential side wall of the driven wheel in the molding device of thin-wall metal wave duct Equipped with the second resilient sleeve.

Preferably, described in the molding device of thin-wall metal wave duct, it is resistance to that second resilient sleeve is set as rubber Grinding set.

The utility model is include at least the following beneficial effects:

1, it is described in the utility model for the molding device of thin-wall metal wave duct not only design rationally, structure simply but also It is low in cost, and there is high promotional value.

2, described in the utility model to be driven for the molding device setting feeding Power Component of thin-wall metal wave duct and feeding Dynamic component, feeding Power Component include the first rectangle supporting plate, the second rectangle supporting plate and driving motor, and the second rectangle supporting plate is the Movement that can be opposite on one rectangle supporting plate, and then drive feeding driving assembly mobile, it can be by the thin metallic tubd of different-diameter Base, which is clamped between driving wheel and driven wheel, carries out feeding, manufacture easy to produce.

3, described in the utility model to pass through setting feeding driven subassembly, feeding for the molding device of thin-wall metal wave duct Driven subassembly and feeding driving assembly flexibly cooperate clamping metal bellows, and the driven wheel in adjustable feeding driven subassembly exists Position in first vertical axes, to adapt to the metal bellows of different-diameter.

It is described in the utility model to be used for the molding device of thin-wall metal wave duct, the further advantage, target of the utility model It will be partially reflected by the following instructions with feature, part will also be this field by the research and practice to the utility model Technical staff understood.

Detailed description of the invention

Fig. 1 is the utility model structure for the molding device of thin-wall metal wave duct in one embodiment Schematic diagram.

Fig. 2 is that the utility model is described for feeding in the molding device of thin-wall metal wave duct in one embodiment The structural schematic diagram of driving assembly and feeding Power Component.

Fig. 3 is the utility model structure for the molding device of thin-wall metal wave duct in one embodiment Side view.

Arrow in Fig. 1 represents the rotation direction of driven roller.

Marked in the figure:

1- molding machine for metallic corrugated pipe ontology；2- rectangular base seat board；3- thin-wall metal pipe；The first vertical axes of 4-；5- One abutment sleeve；6- driven wheel；The first positioning pin of 7-；8- first positioning hole；9- second location hole；10- the first rectangle supporting plate； 11- the second rectangle supporting plate；12- driving motor；13- direct neck；14- protrudes clamping portion；The second vertical axes of 15-；16- driving wheel； The second abutment sleeve of 17-；The second positioning pin of 18-；The first card hole of 19-；The second card hole of 20-；21- vertical pole；22- horizontal Strut；23- first bearing；24- groove；25- second bearing；The first arc of 26-；The first resilient sleeve of 27-；The second arc of 28-； The second resilient sleeve of 29-.

Specific embodiment

With reference to the accompanying drawing and embodiment is described in further detail the utility model, to enable those skilled in the art Member's refer to the instruction text can be implemented accordingly.

It should be appreciated that such as " having ", "comprising" and " comprising " term used herein are not precluded one or more The presence or addition of a other elements or combinations thereof.

As shown in FIG. 1 to 3, the utility model provide in one embodiment it is a kind of for thin-wall metal wave duct at The device of type, comprising:

Molding machine for metallic corrugated pipe ontology 1；

Rectangular base seat board 2 is arranged on the molding machine for metallic corrugated pipe ontology 1, and the rectangular base seat board 2 is located at thin The lower section of wall metallic pipe base 3；

Feeding driven subassembly comprising the first vertical axes 4, the first abutment sleeve 5, driven wheel 6 and the first positioning pin 7, The upper surface of the rectangular base seat board 2 is arranged in first vertical axes 4, and multiple are provided in first vertical axes 4 A positioning hole 8, first abutment sleeve 5 are set in the first vertical axes 4, are provided on first abutment sleeve 5 multiple Second location hole 9 corresponding with the multiple first positioning hole 8, it is fixed that one end of first positioning pin 7 passes through described second Position hole 9 simultaneously extend in the first positioning hole 8, the driven wheel 6 be set on first abutment sleeve 5 and with it is described The rotation connection of first abutment sleeve 5；

Feeding Power Component comprising the first rectangle supporting plate 10, the second rectangle supporting plate 11 and driving motor 12, described The upper surface of the rectangular base seat board 2 is arranged in one rectangle supporting plate 10, and the second rectangle supporting plate 11 is arranged in first square The upper surface of shape supporting plate 10, the upper surface of the first rectangle supporting plate 10 are provided with direct neck 13, the second rectangle supporting plate 11 Lower surface be provided with protrusion clamping portion 14 corresponding with the direct neck 13, the direct neck 13 runs through first rectangle Two side walls being parallel to each other of supporting plate 10, and the direct neck 13 is perpendicular to the thin-wall metal pipe 3, so that described straight For the opening direction of card slot 13 towards first vertical axes 4, the second rectangle supporting plate 11 is arranged in the driving motor 12 Upper surface；

Feeding driving assembly comprising the second vertical axes 15, driving wheel 16, the second abutment sleeve 17 and the second positioning pin 18, second vertical axes 15 be arranged in the upper surface of the second rectangle supporting plate 11 and with described 11 turns of second rectangle supporting plate Dynamic connection, second vertical axes 15 are sequentially connected with the driving motor 12, are provided in second vertical axes 15 multiple First card hole 19, second abutment sleeve 17 are set in second vertical axes 15 and are provided with multiple with described first The second opposite card hole 20 of card hole 19, one end of second positioning pin 18 pass through second card hole 20 and extend To in first card hole 19, the driving wheel 16 be set on second abutment sleeve 17 and with 6 phase of driven wheel It is corresponding, the driving wheel 16 and the driven wheel 6 for clamping the thin-wall metal pipe 3, the thin-wall metal pipe 3 it is outer The circumferential side wall of tube wall and the driving wheel 16 and the driven wheel 6 is rotatablely connected.

Further, further includes:

Firm component comprising be arranged in 11 upper surface of the second rectangle supporting plate vertical pole 21 and one end with it is described The horizontal strut 22 that the upper end of vertical pole 21 connects and the other end is connect with the upper end of second vertical axes 15, the horizontal The upper end of the other end of strut 22 and second vertical axes 15 is rotatablely connected, and the length of the horizontal strut 22 is greater than the drive The radius of driving wheel 16.

Further, the axial wall of second vertical axes 15 is arranged with first bearing 23 close to the position of the upper end, described The other end of horizontal strut 22 is connect with the lateral wall of the first bearing 23.

Further, the upper surface of the second rectangle supporting plate 11 position setting corresponding with second vertical axes 15 Fluted 24,24 content of groove is equipped with second bearing 25, and the second bearing is protruded into the lower end of second vertical axes 15 It is rotatablely connected in 25 with the second bearing 25.

Further, the circumferential side wall of the driving wheel 16 is in the first arc 26 being recessed to its axis direction.

Further, the first resilient sleeve 27 is arranged in the circumferential side wall of the driving wheel 16.

Further, first resilient sleeve 27 is set as rubber wear-resisting set.

Further, the circumferential side wall of the driven wheel 6 is in the second arc 28 being recessed to its axis direction.

Further, the second resilient sleeve 29 is arranged in the circumferential side wall of the driven wheel 6.

Further, second resilient sleeve 29 is set as rubber wear-resisting set.

Application method provided by the utility model for the molding device of thin-wall metal wave duct is as follows:

It is provided by the utility model for the molding device of thin-wall metal wave duct when in use, user is by thin metallic tubd Base 3 is placed on molding machine for metallic corrugated pipe ontology 1, and thin-wall metal bellows 3 is placed on feeding driven subassembly and feeding is driven Between dynamic component, according to the diameter of thin-wall metal pipe 3, the first abutment sleeve 5 is moved up and down in the first vertical axes 4, with The intermediate location contacts for making the second resilient sleeve 29 on the tube wall and driven wheel 6 of the thin-wall metal pipe 3, by the second rectangle supporting plate 11 are moved on the first rectangle supporting plate 10, so that the intermediate location contacts thin-walled gold of the first resilient sleeve 27 on driving wheel 16 The tube wall for belonging to pipe 3, then adjusts the second abutment sleeve 17 position in the second vertical axes 15 again, so that driving wheel 16 and driven Wheel 6 is in corresponding position, and in order to preferably clamp thin-wall metal pipe 3, user again connects driving motor 12 outer Portion's alternating current starts driving motor 12, drives the second vertical axes 15 by belt, the second vertical axes 15 drive driving wheel 16 to carry out Rotation, and then shaping mechanism of the thin-wall metal pipe 3 on molding machine for metallic corrugated pipe ontology 1 is sent into, it is completed to thin-walled The ripple forming of metal pipe billet 3 manufactures.

It is not only in the description and the implementation although the embodiments of the present invention have been disclosed as above Listed utilization, it can be applied to various fields suitable for the present invention completely, for those skilled in the art, Other modifications may be easily implemented, therefore without departing from the general concept defined in the claims and the equivalent scope, this reality It is not limited to specific details and legend shown and described herein with novel.

Claims (10)

1. one kind is used for the molding device of thin-wall metal wave duct characterized by comprising

Molding machine for metallic corrugated pipe ontology (1)；

Rectangular base seat board (2) is arranged on the molding machine for metallic corrugated pipe ontology (1), and the rectangular base seat board is located at thin The lower section of wall metallic pipe base (3)；

Feeding driven subassembly comprising the first vertical axes (4), the first abutment sleeve (5), driven wheel (6) and the first positioning pin (7), the first vertical axes (4) setting is all provided on the upper surface of the rectangular base seat board (2), first vertical axes (4) It is equipped with multiple first positioning holes (8), first abutment sleeve (5) is set on the first vertical axes (4), first positioning sleeve Multiple second location holes (9) corresponding with the multiple first positioning hole (8), first positioning pin are provided on cylinder (5) (7) one end passes through the second location hole (9) and extends in the first positioning hole (8), and the driven wheel (6) is set in It is rotatablely connected on first abutment sleeve (5) and with first abutment sleeve (5)；

Feeding Power Component comprising the first rectangle supporting plate (10), the second rectangle supporting plate (11) and driving motor (12), it is described The setting of first rectangle supporting plate (10) is arranged in the upper surface of the rectangular base seat board (2), the second rectangle supporting plate (11) in institute The upper surface of the first rectangle supporting plate (10) is stated, the upper surface of the first rectangle supporting plate (10) is provided with direct neck (13), described The lower surface of second rectangle supporting plate (11) is provided with protrusion clamping portion (14) corresponding with the direct neck (13), the straight card Slot (13) runs through two side walls being parallel to each other of the first rectangle supporting plate (10), and the direct neck (13) is perpendicular to institute Thin-wall metal pipe (3) are stated, so that the opening direction of the direct neck (13) is towards first vertical axes (4), the driving Motor (12) is arranged in the upper surface of the second rectangle supporting plate (11)；

Feeding driving assembly comprising the second vertical axes (15), driving wheel (16), the second abutment sleeve (17) and the second positioning Sell (18), second vertical axes (15) setting the second rectangle supporting plate (11) upper surface and with the second rectangle branch Plate (11) rotation connection, second vertical axes (15) and the driving motor (12) are sequentially connected, second vertical axes (15) multiple first card holes (19) are provided on, second abutment sleeve (17) is set on second vertical axes (15) And it is provided with multiple and opposite the second card hole (20) of first card hole (19), one end of second positioning pin (18) It across second card hole (20) and extends in first card hole (19), the driving wheel (16) is set in described the On two abutment sleeves (17) and corresponding with the driven wheel (6), the driving wheel (16) is with the driven wheel (6) for clamping The thin-wall metal pipe (3), the outer tube wall and the driving wheel (16) and the driven wheel of the thin-wall metal pipe (3) (6) circumferential side wall rotation connection.

2. according to claim 1 a kind of for the molding device of thin-wall metal wave duct, which is characterized in that further include:

Firm component comprising be arranged the second rectangle supporting plate (11) upper surface vertical pole (21) and one end with it is described The horizontal strut (22) that the upper end of vertical pole (21) connects and the other end is connect with the upper end of second vertical axes (15), institute The upper end of the other end and second vertical axes (15) of stating horizontal strut (22) is rotatablely connected, the length of the horizontal strut (22) Degree is greater than the radius of the driving wheel (16).

3. according to claim 2 a kind of for the molding device of thin-wall metal wave duct, which is characterized in that described second is perpendicular The axial wall of d-axis (15) is arranged with first bearing (23) close to the position of the upper end, the other end of the horizontal strut (22) and institute State the lateral wall connection of first bearing (23).

4. according to claim 1 a kind of for the molding device of thin-wall metal wave duct, which is characterized in that second square Fluted (24) are arranged in the upper surface of shape supporting plate (11) position corresponding with the second vertical axes (15), the groove (24) Content is equipped with second bearing (25), and the lower end of second vertical axes (15) is protruded into the second bearing (25) with described second Bearing (25) rotation connection.

5. according to claim 1 a kind of for the molding device of thin-wall metal wave duct, which is characterized in that the driving wheel (16) circumferential side wall is in the first arc (26) being recessed to its axis direction.

6. a kind of according to claim 1 or 5 be used for the molding device of thin-wall metal wave duct, which is characterized in that the drive The first resilient sleeve (27) are arranged in the circumferential side wall of driving wheel (16).

7. according to claim 6 a kind of for the molding device of thin-wall metal wave duct, which is characterized in that first bullet Property set (27) is set as rubber wear-resisting set.

8. according to claim 1 a kind of for the molding device of thin-wall metal wave duct, which is characterized in that the driven wheel (6) circumferential side wall is in the second arc (28) being recessed to its axis direction.

9. one kind according to claim 1 or 8 be used for the molding device of thin-wall metal wave duct, which is characterized in that it is described from The second resilient sleeve (29) are arranged in the circumferential side wall of driving wheel (6).

10. according to claim 9 a kind of for the molding device of thin-wall metal wave duct, which is characterized in that described second Resilient sleeve (29) is set as rubber wear-resisting set.