CN215355695U - Spinning type stainless steel spiral air duct flanging machine - Google Patents

Abstract

The utility model relates to the technical field of cyclone tube production, and discloses a spinning type stainless steel spiral air duct flanging machine. According to the utility model, the transverse distance between the embossing roller and the pressure head cam is adjusted through the transverse adjusting mechanism, and the longitudinal distance between the embossing roller and the pressure head cam is adjusted through the longitudinal adjusting mechanism, so that the flexible assembling usability is realized, the flanging operation of different sizes of spiral air pipes by workers can be facilitated, the operation intensity of the workers is reduced, and meanwhile, the flanging efficiency and accuracy of the spiral air pipes can be improved.

Description

Spinning type stainless steel spiral air duct flanging machine

Technical Field

The utility model relates to the technical field of cyclone tube production, in particular to a spinning type stainless steel spiral air duct flanging machine.

Background

The flanging machine is a professional device for flanging various circular tubes, is simple and convenient to operate, quick in die replacement, low in energy consumption and high in efficiency, can be used for completing circular tube flanging production by one person, is an ideal device in the air duct and fan manufacturing industry, and is generally used for flanging circular cylinders and circular tubes with the thickness of 1-5 mm, so that the complex process of manually cutting and welding flanges is omitted, the produced finished products are more attractive, and the quality is more durable.

But the flanger about stainless steel spiral duct in the existing market has some shortcomings, and traditional flanger structure is comparatively single, and its nimble adjustability is not enough, is not convenient for carry out the turn-ups work to the not tuber pipe of equidimension, and at the turn-ups in-process, turn-ups efficiency is comparatively low. Therefore, the person skilled in the art provides a spinning type stainless steel spiral air duct flanging machine to solve the problems in the background art.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a spinning type stainless steel spiral air duct flanging machine to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: a spinning type stainless steel spiral air duct flanging machine comprises a flanging station, wherein a transverse adjusting mechanism is arranged at the bottom end of the flanging station, two groups of longitudinal adjusting mechanisms are symmetrically arranged at the front side of a mounting support in each transverse adjusting mechanism, one group of lifting slide seats in the two groups of longitudinal adjusting mechanisms is provided with a first hydraulic push rod, the other group of lifting slide seats in the two groups of longitudinal adjusting mechanisms is provided with a second hydraulic push rod, the telescopic end of the first hydraulic push rod is provided with an embossing roller, and the telescopic end of the second hydraulic push rod is provided with a pressure head cam;

the transverse adjusting mechanism comprises a transverse guide rail frame arranged at the bottom end of the flanging station, the inner side of the transverse guide rail frame is rotatably connected with a transverse transmission screw rod, a transverse transmission motor is fixed at one end position below the transverse guide rail frame, two groups of transverse guide rail grooves are symmetrically formed in the end face of the transverse guide rail frame, an installation support is embedded and clamped in the inner sides of the transverse guide rail grooves, transverse transmission screw sleeves are symmetrically sleeved on the outer sides of the transverse transmission screw rods, and the transverse transmission screw sleeves are fixedly connected with the installation support;

the longitudinal adjusting mechanism comprises two groups of longitudinal guide rail frames fixed at the front side of the mounting support, the inner sides of the longitudinal guide rail frames are rotatably connected with longitudinal transmission screw rods, longitudinal guide rail grooves are formed in the end faces of the front sides of the longitudinal guide rail frames, the output ends of the longitudinal transmission screw rods penetrate through the end faces of the longitudinal guide rail frames and are connected with a longitudinal transmission motor, longitudinal transmission screw sleeves are sleeved on the outer sides of the longitudinal guide rail frames, and the longitudinal transmission screw sleeves penetrate through the longitudinal guide rail grooves and are fixedly connected with the lifting slide seat.

As a still further scheme of the utility model: the end face of the output end of the transverse transmission motor penetrating through the transverse guide rail frame is provided with a bevel gear A, the top end of the transverse transmission screw rod is provided with a bevel gear B, and the bevel gear A and the bevel gear B are meshed with each other.

As a still further scheme of the utility model: the transverse transmission screw rod takes a central line as a boundary, positive and negative screw threads which are symmetrically arranged are respectively arranged on two sides of the central line, the transverse transmission screw rod is symmetrically sleeved with the transverse transmission screw sleeve through the positive and negative screw threads, and the outer diameter of the transverse transmission screw sleeve is matched with the inner diameter of a guide rail of the transverse guide rail frame.

As a still further scheme of the utility model: the length of the thread of the longitudinal transmission screw rod is the same as the length of the groove diameter of the longitudinal guide rail groove, and the length of the thread of the longitudinal transmission screw rod is not less than 1m as compared with the length of the groove diameter of the longitudinal guide rail groove.

As a still further scheme of the utility model: the outer diameter of the longitudinal transmission screw sleeve is matched with the inner diameter of the longitudinal guide rail frame, and the longitudinal transmission screw sleeve is clamped with the longitudinal guide rail frame through a longitudinal transmission screw rod to slide.

As a still further scheme of the utility model: the first hydraulic push rod and the second hydraulic push rod are arranged in a forward and reverse symmetrical mode, and the first hydraulic push rod and the second hydraulic push rod are identical in telescopic length.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the transverse distance between the embossing roller and the pressure head cam is adjusted through the transverse adjusting mechanism, and the longitudinal distance between the embossing roller and the pressure head cam is adjusted through the longitudinal adjusting mechanism, so that the flexible assembling usability is realized, the flanging operation of different sizes of spiral air pipes by workers can be facilitated, the operation intensity of the workers is reduced, and meanwhile, the flanging efficiency and accuracy of the spiral air pipes can be improved.

Drawings

FIG. 1 is a schematic structural view of a spinning stainless steel spiral duct flanger;

FIG. 2 is a schematic structural diagram of a transverse adjusting mechanism in a spinning stainless steel spiral duct flanger;

fig. 3 is a schematic structural diagram of a longitudinal adjusting mechanism in a spinning stainless steel spiral air duct flanging machine.

In the figure: 1. a transverse guide rail bracket; 2. a transverse transmission motor; 3. a longitudinal drive motor; 4. a longitudinal rail mount; 5. a lifting slide seat; 6. a first hydraulic push rod; 7. embossing rollers; 8. a flanging station; 9. a ram cam; 10. a second hydraulic push rod; 11. a bevel gear A; 12. a bevel gear B; 13. a transverse guide rail groove; 14. a transverse transmission screw rod; 15. a transverse transmission thread sleeve; 16. mounting a support; 17. a longitudinal transmission screw rod; 18. a longitudinal drive wire sleeve; 19. a longitudinal rail groove.

Detailed Description

Referring to fig. 1 to 3, in the embodiment of the present invention, a spinning stainless steel spiral duct flanging machine includes a flanging station 8, a transverse adjusting mechanism is disposed at the bottom end of the flanging station 8, the transverse adjusting mechanism includes a transverse guide rail frame 1 disposed at the bottom end of the flanging station 8, a transverse transmission screw 14 is rotatably connected to the inner side of the transverse guide rail frame 1, a transverse transmission motor 2 is fixed at one end of the lower portion of the transverse guide rail frame 1, two sets of transverse guide rail grooves 13 are symmetrically disposed on the end surface of the transverse guide rail frame 1, an installation support 16 is embedded and clamped in the inner side of the transverse guide rail groove 13, a transverse transmission screw sleeve 15 is symmetrically sleeved on the outer side of the transverse transmission screw 14, the transverse transmission screw sleeve 15 is fixedly connected to the installation support 16, a conical gear a11 is disposed at the output end of the transverse transmission motor 2 through the end surface of the transverse guide rail frame 1, a conical gear B12 is disposed at the top end of the transverse transmission screw 14, the bevel gear A11 and the bevel gear B12 are meshed with each other, the transverse transmission screw rod 14 takes a central line as a boundary, positive and negative screw threads which are symmetrically arranged with each other are respectively arranged on two sides of the central line, the transverse transmission screw rod 14 is symmetrically sleeved with the transverse transmission screw sleeve 15 through the positive and negative screw threads, the outer diameter of the transverse transmission screw sleeve 15 is matched with the inner diameter of a guide rail of the transverse guide rail frame 1, when the flanging operation is carried out on spiral air pipes with different sizes, the transverse transmission motor 2 works to drive the bevel gear A11 to rotate, the transverse transmission screw rod 14 is driven to rotate through the meshing of the bevel gear A11 and the bevel gear B12, the transverse transmission screw sleeve 15 is further driven to symmetrically slide in the transverse guide rail frame 1 through the positive and negative screw threads which are symmetrically arranged with each other on the transverse transmission screw rod 14, the mounting support 16 is synchronously driven to symmetrically slide, and the spacing distance between the embossing roller 7 and the pressure head cam 9 is adjusted, make it can adapt to different spiral duct, after adjusting, the staff cup joints spiral duct on turn-ups station 8, and turn-ups station 8 drives the spiral duct rotation.

Two groups of longitudinal adjusting mechanisms are symmetrically arranged on the front side of a mounting support 16 in the transverse adjusting mechanism, each longitudinal adjusting mechanism comprises two groups of longitudinal guide rail frames 4 fixed at the front side of the mounting support 16, the inner sides of the longitudinal guide rail frames 4 are rotatably connected with longitudinal transmission screw rods 17, the front side end faces of the longitudinal guide rail frames 4 are provided with longitudinal guide rail grooves 19, the output ends of the longitudinal transmission screw rods 17 penetrate through the end faces of the longitudinal guide rail frames 4 to be connected with a longitudinal transmission motor 3, the outer sides of the longitudinal guide rail frames 4 are sleeved with longitudinal transmission screw sleeves 18, the longitudinal transmission screw sleeves 18 penetrate through the longitudinal guide rail grooves 19 to be fixedly connected with a lifting slide seat 5, the thread length of the longitudinal transmission screw rods 17 is the same as the groove diameter length of the longitudinal guide rail grooves 19, the thread length of the longitudinal transmission screw rods 17 and the groove diameter length of the longitudinal guide rail grooves 19 are not less than 1m, and the outer diameter of the longitudinal transmission screw sleeves 18 is matched with the inner diameter of the longitudinal guide rail frames 4, and the longitudinal transmission screw sleeve 18 is clamped and slides with the longitudinal guide rail frame 4 through a longitudinal transmission screw rod 17, in the process of flanging the spiral duct, the longitudinal transmission motor 3 works to drive the longitudinal transmission screw rod 17 to rotate, the longitudinal transmission screw sleeve 18 is synchronously pushed to lift and slide in the longitudinal guide rail frame 4, the longitudinal transmission screw sleeve 18 drives the lifting slide seat 5 to synchronously lift and slide in the lifting and sliding process, one group of the lifting slide seat 5 drives the embossing roller 7 to lift and move, the embossing roller 7 is moved to the position of the spiral duct to be embossed, the other group of the lifting slide seat 5 drives the press head cam 9 to synchronously lift and move, and the embossed spiral duct is flanged.

One group of the lifting slide carriage 5 in the two groups of longitudinal adjusting mechanisms is provided with a first hydraulic push rod 6, the other group of the lifting slide carriage 5 in the two groups of longitudinal adjusting mechanisms is provided with a second hydraulic push rod 10, the telescopic end of the first hydraulic push rod 6 is provided with an embossing roller 7, the telescopic end of the second hydraulic push rod 10 is provided with a pressure head cam 9, the first hydraulic push rod 6 and the second hydraulic push rod 10 are symmetrically arranged in the positive direction and the reverse direction, the telescopic lengths of the first hydraulic push rod 6 and the second hydraulic push rod 10 are the same, in the process of flanging the spiral duct, the telescopic end of the first hydraulic push rod 6 extends out, the embossing roller 7 is pushed to the spiral duct, the embossing roller is subjected to embossing treatment, the flanging of the spiral duct is positioned, after the embossing is finished, the telescopic end of the second hydraulic push rod 10 extends out, the pressure head cam 9 is pushed to the position right below the spiral duct, and under the lifting pushing of the lifting slide seat 5, the embossed spiral air pipe is flanged.

The working principle of the utility model is as follows: when the flanging operation is carried out on the spiral air pipes with different sizes, the transverse transmission motor 2 works to drive the bevel gear A11 to rotate, the bevel gear A11 is meshed with the bevel gear B12 teeth to drive the transverse transmission screw rod 14 to rotate, further the transverse transmission screw rod 14 is driven to push the transverse transmission screw sleeve 15 to symmetrically slide in the transverse guide rail frame 1 through the positive and negative screw teeth which are symmetrically arranged with each other, the synchronous push mounting support 16 symmetrically slides, the spacing distance between the embossing roller 7 and the pressure head cam 9 is adjusted to be suitable for different spiral air pipes, after the adjustment is finished, a worker sleeves the spiral air pipes on the flanging station 8, the flanging station 8 drives the spiral air pipes to rotate, further, in the flanging process of flanging the spiral air pipes, the longitudinal transmission motor 3 works to drive the longitudinal transmission screw rod 17 to rotate, the longitudinal transmission screw sleeve 18 is synchronously pushed to lift and slide in the longitudinal guide rail frame 4, the longitudinal transmission screw sleeve 18 drives the lifting slide seat 5 to synchronously lift and slide in the lifting slide process, one group of the lifting slide seat 5 drives the embossing roller 7 to lift and move, the embossing roller 7 is moved to a position where the spiral duct is to be embossed, and then the telescopic end of the first hydraulic push rod 6 extends out, the embossing roller 7 is pushed to the spiral duct, embossing is carried out on the spiral duct, the flanging of the spiral duct is positioned, the other group of the synchronous lifting slide seat 5 drives the pressure head cam 9 to synchronously lift and move, the spiral duct after embossing is flanged, and further after the spiral duct is embossed, the telescopic end of the second hydraulic push rod 10 extends out, the pressure head cam 9 is pushed to the position under the spiral duct, and the spiral duct after embossing is flanged under the lifting push of the lifting slide seat 5.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the scope of the present invention, and the technical solutions and the utility model concepts of the present invention are equivalent to or changed within the scope of the present invention.

Claims (6)

1. A spinning type stainless steel spiral air duct flanging machine comprises a flanging station (8), and is characterized in that a transverse adjusting mechanism is arranged at the bottom end of the flanging station (8), two groups of longitudinal adjusting mechanisms are symmetrically arranged on the front side of a mounting support (16) in the transverse adjusting mechanism, one group of lifting slide seats (5) in the two groups of longitudinal adjusting mechanisms is provided with a first hydraulic push rod (6), the other group of lifting slide seats (5) in the two groups of longitudinal adjusting mechanisms is provided with a second hydraulic push rod (10), an embossing roller (7) is arranged at the telescopic end of the first hydraulic push rod (6), and a pressure head cam (9) is arranged at the telescopic end of the second hydraulic push rod (10);

the transverse adjusting mechanism comprises a transverse guide rail frame (1) arranged at the bottom end of a flanging station (8), the inner side of the transverse guide rail frame (1) is rotatably connected with a transverse transmission screw rod (14), a transverse transmission motor (2) is fixed at one end position below the transverse guide rail frame (1), two groups of transverse guide rail grooves (13) are symmetrically formed in the end face of the transverse guide rail frame (1), an installation support (16) is embedded and clamped in the inner side of each transverse guide rail groove (13), transverse transmission screw sleeves (15) are symmetrically sleeved on the outer side of each transverse transmission screw rod (14), and the transverse transmission screw sleeves (15) are fixedly connected with the installation support (16);

longitudinal adjustment mechanism is including fixing two sets of longitudinal guide rail framves (4) at erection support (16) front side position department, the inboard of longitudinal guide rail frame (4) is rotated and is connected with longitudinal transmission lead screw (17), and the front side end face of longitudinal guide rail frame (4) has seted up longitudinal guide rail groove (19), the terminal surface that the output of longitudinal transmission lead screw (17) runs through longitudinal guide rail frame (4) is connected with longitudinal transmission motor (3), and longitudinal transmission silk braid (18) have been cup jointed in the outside of longitudinal guide rail frame (4), longitudinal transmission silk braid (18) run through longitudinal guide rail groove (19) and lift slide (5) fixed connection.

2. The spinning type stainless steel spiral air duct flanging machine according to claim 1, wherein the output end of the transverse transmission motor (2) penetrates through the end face of the transverse guide rail frame (1) to be provided with a bevel gear A (11), the top end of the transverse transmission screw rod (14) is provided with a bevel gear B (12), and the teeth of the bevel gear A (11) and the teeth of the bevel gear B (12) are meshed with each other.

3. The spinning type stainless steel spiral air duct flanging machine according to claim 1, characterized in that the transverse transmission screw rod (14) is bounded by a center line, the two sides of the center line are respectively provided with a positive thread and a negative thread which are symmetrically arranged with each other, the transverse transmission screw rod (14) is symmetrically sleeved with a transverse transmission screw sleeve (15) through the positive thread and the negative thread, and the outer diameter of the transverse transmission screw sleeve (15) is matched with the inner diameter of a guide rail of the transverse guide rail frame (1).

4. The spinning type stainless steel spiral air duct flanging machine according to claim 1, wherein the thread length of the longitudinal transmission screw rod (17) is the same as the groove diameter length of the longitudinal guide rail groove (19), and the thread length of the longitudinal transmission screw rod (17) and the groove diameter length of the longitudinal guide rail groove (19) are not less than 1 m.

5. The spinning type stainless steel spiral air duct flanging machine as claimed in claim 1, wherein the outer diameter of the longitudinal transmission screw sleeve (18) is matched with the inner diameter of the longitudinal guide rail frame (4), and the longitudinal transmission screw sleeve (18) is clamped with the longitudinal guide rail frame (4) through a longitudinal transmission screw rod (17) to slide.

6. The spinning type stainless steel spiral air duct flanging machine according to claim 1, wherein the first hydraulic push rod (6) and the second hydraulic push rod (10) are arranged in a forward and reverse symmetrical manner, and the first hydraulic push rod (6) and the second hydraulic push rod (10) are identical in expansion and contraction length.

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