CN202052780U

CN202052780U - Tube clamping and conveying device for automatic cold drawing machine of non-ferrous metal tubing

Info

Publication number: CN202052780U
Application number: CN2011201369176U
Authority: CN
Inventors: 蒋国富; 黄建国
Original assignee: QIYANG HONGTAI ALUMINUM INDUSTRY Co Ltd
Current assignee: QIYANG HONGTAI ALUMINUM INDUSTRY Co Ltd
Priority date: 2011-04-29
Filing date: 2011-04-29
Publication date: 2011-11-30
Anticipated expiration: 2021-04-29

Abstract

The utility model discloses a tube clamping and conveying device for an automatic cold drawing machine of non-ferrous metal tubing, which relates to the technical field of non-ferrous metal tubing processing and is formed by a machine frame 2, a pair of groove-shaped vertical rods 39, a transverse bar 43, a tube clamping air cylinder 5, a transverse pressing rod 44, a pair of vertical pressing rods 42, a conveying assembly, a pressure assembly, a vibration damping spring 41, a position switch 46 and a conveying power assembly. The tube clamping and conveying device has the advantages of reducing labor intensity, improving production efficiency and product quality and the like. By matching with the automatic cold drawing machine of the non-ferrous metal tubing, the tube clamping and conveying device is suitable for cold drawing tubing made of various non-ferrous metals such as aluminum and copper.

Description

The clamp conveying device that the automatic cold-drawn machine of a kind of non-ferrous metal tubing is used

Technical field

The utility model includes non-ferrous metal tubing processing technique field, the clamp conveying device that the automatic cold-drawn machine of particularly a kind of non-ferrous metal tubing is used.

Background technology

In the prior art, the conveying of material pipe mostly is to adopt the mode of manually drawing to carry out feeding in the processing of non-ferrous metal tubing.This feeding style, on the one hand, labor intensity of operating personnel is bigger; On the other hand, in course of conveying, be difficult to guarantee moving linearly of material pipe, thereby, cause the distortion of material pipe easily, influence the drawing quality; On the one hand, its production efficiency is lower again.

Summary of the invention

At the deficiency that prior art exists, technical problem to be solved in the utility model provides a kind of can reducing labor intensity, can enhance productivity again, and the conveying device that can improve the quality of products.

Technical solution adopted in the utility model is the clamp conveying device that the automatic cold-drawn machine of a kind of non-ferrous metal tubing of design is used: comprise frame 2 and transmitting power assembly, described transmitting power assembly comprises feeding motor 37 and connected feeding transferring elements 38; Also include a pair of grooved vertical rod 39, cross bar 43, clamp cylinder 5, horizontal depression bar 44, a pair of perpendicular depression bar 42 and conveying assembly and hold down assembly;

A, described conveying assembly comprise conveying axis 71 and are loaded on one or more conveying roller 48 on this;

B, described holding down assembly comprise compression axis 45 and are loaded on one or more pinch rollers 47 on this;

C, a pair of grooved vertical rod 39 are installed respectively on the both sides of frame 2, and cross bar 43 devices are in the upper end of grooved vertical rod 39, and clamp cylinder 5 devices are on cross bar 43; The two ends of horizontal depression bar 44 are sleeved in the groove 40 of grooved vertical rod 39, are connected with the moving bar of clamp cylinder 5 in the middle of it; Conveying axis 71 is installed on the bottom of grooved vertical rod 39, and the one end passes grooved vertical rod 39 back device feeding transferring elements 38; The two ends of compression axis 45 are installed in the groove 40 at grooved vertical rod 39 middle parts; The upper and lower end of perpendicular depression bar 42 is installed on the both sides of compression axis 45 and horizontal depression bar 44 respectively.

On perpendicular depression bar 42, also be set with shock-absorbing spring 41.

Returning apparatus has travel switch 46 in the bottom of grooved vertical rod 39.

The clamp conveying device that the automatic cold-drawn machine of non-ferrous metal tubing of the present utility model is used realize feeding owing to adopt conveying roller and pinch rollers to clamp the material pipe, thereby it compared with prior art has following beneficial technical effects:

The one, both alleviated labor intensity of operating personnel, can also realize producing automatically and continuously;

The 2nd, when conveying roller and pinch rollers are carried, have guide effect, thus in course of conveying, can not cause the distortion of material pipe, thereby, can improve the quality of products;

The 3rd, can continuous feed, so, can improve its production efficiency.

Description of drawings

Fig. 1 is that master of the present utility model looks schematic diagram.

Among the figure: the 2nd, frame, the 5th, clamp cylinder, the 37th, feeding motor, the 38th, feeding transferring elements, the 39th, grooved vertical rod, the 40th, groove, the 41st, shock-absorbing spring, the 42nd, perpendicular depression bar, the 43rd, cross bar, the 44th, horizontal depression bar, the 45th, compression axis, the 46th, travel switch, the 47th, pinch rollers, the 48th, conveying roller, the 71st, conveying axis.

The specific embodiment

Below in conjunction with drawings and Examples, the utility model is further described.Following explanation is to adopt the mode that exemplifies, but protection domain of the present utility model should not be limited to this.

The clamp conveying device of present embodiment is by frame 2, a pair of grooved vertical rod 39, cross bar 43, clamp cylinder 5, horizontal depression bar 44, a pair of perpendicular depression bar 42 and conveying assembly, hold down assembly, shock-absorbing spring 41 and travel switch 46 and transmitting power assembly constitute; Conveying assembly comprises conveying axis 71 and four conveying rollers 48 (having annular groove on the outer cylinder of this conveying roller 48) that are loaded on this, hold down assembly and comprise compression axis 45 and four pinch rollers 47 (having annular groove on the outer cylinder of this pinch rollers 47) that are loaded on this, the transmitting power assembly comprises that feeding motor 37 (can adopt the motor that can accurately control, as stepper motor etc., this example promptly adopts stepper motor) and connected feeding transferring elements 38 (can adopt belt or chain assemblies etc., this example promptly adopts chain assemblies); A pair of grooved vertical rod 39 is installed respectively on the both sides of frame 2, and cross bar 43 devices are in the upper end of grooved vertical rod 39, and clamp cylinder 5 devices are in the centre of cross bar 43; The two ends of horizontal depression bar 44 are sleeved in the groove 40 of grooved vertical rod 39, are connected with the moving bar of clamp cylinder 5 in the middle of it; Conveying axis 71 is installed on the bottom of grooved vertical rod 39, and the one end passes grooved vertical rod 39 back device feeding transferring elements 38; The two ends of compression axis 45 are installed in the groove 40 at grooved vertical rod 39 middle parts; Suit shock-absorbing spring 41 on the perpendicular depression bar 42, its upper and lower end is installed on the both sides of compression axis 45 and horizontal depression bar 44 respectively; Travel switch 46 devices are in the bottom of grooved vertical rod 39; Pinch rollers 4 is relative with conveying roller 48, its separately the annular groove on the outer cylinder constitute circular-arc.

During use, the material pipe of extruding when extruder is when extruding station and deliver to the feed arrangement of frame 2, and its termination is straight by sign indicating number, and is sent in the clamp conveying device, and at this moment, the termination of material pipe has placed the annular groove of conveying roller 48.

Thereafter, 5 actions of clamp cylinder, promote horizontal depression bar 44 to descending, and then it is descending together with pinch rollers 47 to drive compression axis 45 by perpendicular depression bar 42, and the annular groove of pinch rollers 47 compresses the upper semi-circle cylinder that is pressed in the material pipe, forms the clamping to the material pipe, simultaneously, touch travel switch 46, clamp cylinder 5 stops action (shock-absorbing spring 41 can be regulated pressure, avoids damaging by pressure the material pipe), then, start feeding motor 37, drive conveying roller 48 and rotate, because conveying roller 48 is clamping the material pipe with pinch rollers 47, thereby, when conveying roller 48 rotated, the material pipe can move forward, and realized the conveying of material pipe.When the material pipe was sent to default position, feeding motor 37 stopped operating, and clamp cylinder 5 resets, and drove horizontal depression bar 44 to up, and then it is up together with pinch rollers 47 to drive compression axis 45 by perpendicular depression bar 42, decontrols the material pipe, finishes the conveying of material pipe.

The clamp conveying device that the automatic cold-drawn machine of non-ferrous metal tubing of the present utility model is used with the supporting use of the automatic cold-drawn machine of non-ferrous metal tubing, is suitable for all kinds of non-ferrous metal tubing such as cold drawn aluminium, copper.

Claims

1. the clamp conveying device that the automatic cold-drawn machine of non-ferrous metal tubing is used comprises frame (2) and transmitting power assembly, and described transmitting power assembly comprises feeding motor (37) and connected feeding transferring elements (38); It is characterized in that: also include a pair of grooved vertical rod (39), cross bar (43), clamp cylinder (5), horizontal depression bar (44), a pair of perpendicular depression bar (42) and conveying assembly and hold down assembly;

A, described conveying assembly comprise conveying axis (71) and are loaded on one or more conveying roller (48) on this;

B, described holding down assembly comprise compression axis (45) and are loaded on one or more pinch rollers (47) on this;

C, a pair of grooved vertical rod (39) are installed respectively on the both sides of frame (2), and cross bar (43) installs in the upper end of grooved vertical rod (39), and clamp cylinder (5) installs on cross bar (43); The two ends of horizontal depression bar (44) are sleeved in the groove (40) of grooved vertical rod (39), are connected with the moving bar of clamp cylinder (5) in the middle of it; Conveying axis (71) is installed on the bottom of grooved vertical rod (39), and the one end passes grooved vertical rod (39) back device feeding transferring elements (38); The two ends of compression axis (45) are installed in the groove (40) at grooved vertical rod (39) middle part; The upper and lower end of perpendicular depression bar (42) is installed on the both sides of compression axis (45) and horizontal depression bar (44) respectively.

2. the clamp conveying device that the automatic cold-drawn machine of non-ferrous metal tubing according to claim 1 is used is characterized in that: also be set with shock-absorbing spring (41) on perpendicular depression bar (42).

3. the clamp conveying device that the automatic cold-drawn machine of non-ferrous metal tubing according to claim 1 and 2 is used is characterized in that: the bottom returning apparatus in grooved vertical rod (39) has travel switch (46).