CN219703035U - Flat square blowing rod pipe pressing machine - Google Patents

Abstract

The utility model relates to the technical field of pipe pressing, and particularly discloses a flat square blowing rod pipe pressing machine, which comprises a base, wherein two mounting plates are parallelly arranged on the base, four mounting grooves are respectively formed in the mounting plates, a pipe pressing mechanism is arranged on the mounting plates, and the pipe pressing mechanism comprises: the device comprises a driving motor, a first extrusion part, a second extrusion part, a third extrusion part, a fourth extrusion part, a first transmission chain, a second transmission chain and a third transmission chain. According to the utility model, the transmission is more stable through the transmission of the gears and the chains, and the blowing rod is extruded into the flat square rod step by step through the first extrusion part, the second extrusion part, the third extrusion part and the fourth extrusion part, so that the molding is more stable, and the continuous production can be realized.

Description

Flat square blowing rod pipe pressing machine

Technical Field

The utility model relates to the technical field of pipe pressing, in particular to a flat square blowing rod pipe pressing machine.

Background

In the case of square tubes produced, a blowing bar is used. In the actual production process, the phenomenon of top blowing rod can often occur, the production efficiency is low, the safety coefficient is low, normal production is not facilitated, in addition, the produced square tube is directly extruded and formed, the required stamping strength is high, the loss to equipment is high, and the product percent of pass is low.

Disclosure of Invention

In order to solve the problems, the utility model discloses a flat square blowing rod pipe pressing machine, which can improve the production efficiency and maintain normal production.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a flat side blows pole pipe press, includes the base, parallel mount has two mounting panels on the base, four mounting grooves have been seted up respectively on the mounting panel, install on the mounting panel and press the pipe mechanism, press pipe mechanism includes: the device comprises a driving motor, a first extrusion part, a second extrusion part, a third extrusion part, a fourth extrusion part, a first transmission chain, a second transmission chain and a third transmission chain;

the first extrusion part, the second extrusion part, the third extrusion part and the fourth extrusion part are respectively installed on four installation grooves, the driving motor drives the first extrusion part, the first transmission chain is connected with the first extrusion part and the second extrusion part, the second transmission chain is connected with the second extrusion part and the third extrusion part, and the third transmission chain is connected with the third extrusion part and the fourth extrusion part.

Preferably, the first extrusion part comprises a first driving gear, a first driven gear, a first driving shaft, a first driving pinch roller, two first driving shaft mounting seats, a first driven shaft, a first driven pinch roller and two first driven shaft mounting seats;

the two first driving shaft mounting seats are respectively mounted in the interiors of mounting grooves of the two mounting plates, the first driving shaft is rotationally connected with the two first driving shaft mounting seats, the first driving dynamic pressure tube wheel is mounted on the first driving shaft between the two mounting plates, the first driving gear and the first driving gear are sequentially mounted on the first driving shaft, the first driving gear is close to one side of the mounting plates, the driving motor is connected with the first driving shaft through a coupler, the two first driven shaft mounting seats are respectively mounted in the interiors of the mounting grooves above the first driving shaft mounting seats, the first driven shaft is rotationally connected with the two first driven shaft mounting seats, the first driven dynamic pressure tube wheel is mounted on the first driven shaft, the first driven dynamic pressure tube wheel is located right above the first driving dynamic pressure tube wheel, annular grooves are formed in the middle of the first driving dynamic pressure tube wheel and the first driving dynamic pressure tube wheel, the first driven shaft is meshed with the annular grooves of the first driving dynamic pressure tube wheel, and the first driven shaft is meshed with the annular grooves of the first driving dynamic pressure tube wheel.

Preferably, the second extrusion part comprises a second driving gear, a second driven gear, a second driving gear, a second transmission gear, a second driving shaft, a second driving pinch roller, two second driving shaft mounting seats, a second driven shaft, a second driven pinch roller and two second driven shaft mounting seats;

the two second driving shaft mounting seats are respectively mounted in the interiors of mounting grooves of the two mounting plates, the second driving shaft is rotationally connected with the two second driving shaft mounting seats, the second driving dynamic pressure tube wheel is mounted on the second driving shaft between the two mounting plates, the second transmission gear, the second driving gear and the second driving gear are sequentially mounted on the second driving shaft, the second driving gear is close to one side of the mounting plates, the two second driven shaft mounting seats are respectively mounted in the interiors of the mounting grooves and above the second driving shaft mounting seats, the second driven shaft is rotationally connected with the two second driven shaft mounting seats, the second driven dynamic pressure tube wheel is mounted on the second driven shaft, the second driven dynamic pressure tube wheel is positioned right above the second driving dynamic pressure tube wheel, annular grooves are formed in the middle parts of the second driving dynamic pressure tube wheel and the second driving dynamic pressure tube wheel, the annular grooves of the second driven dynamic pressure tube wheel and the second driving driven shaft are respectively meshed with the second driving gear, and the second driven shaft is meshed with the annular grooves of the second driving dynamic pressure tube wheel, and the second driven shaft is meshed with the first driving gear.

Preferably, the third extrusion part comprises a third driving gear, a third driven gear, a third driving gear, a third transmission gear, a third driving shaft, a third driving pinch roller, two third driving shaft mounting seats, a third driven shaft, a third driven pinch roller and two third driven shaft mounting seats;

the two third driving shaft mounting seats are respectively mounted in the interiors of mounting grooves of the two mounting plates, the third driving shaft is rotationally connected with the two third driving shaft mounting seats, the third driving dynamic pressure pipe wheel is mounted on the third driving shaft between the two mounting plates, the third transmission gear, the third driving gear and the third driving gear are sequentially mounted on the third driving shaft, the third driving gear is close to one side of the mounting plates, the two third driven shaft mounting seats are respectively mounted in the interiors of the mounting grooves and above the third driving shaft mounting seats, the third driven shaft is rotationally connected with the two third driven shaft mounting seats, the third driven shaft is mounted on the third driven shaft, the third driven dynamic pressure pipe wheel is located right above the third driving dynamic pressure pipe wheel, annular grooves are formed in the middle of the third driving dynamic pressure pipe wheel and the third driving dynamic pressure pipe wheel, the lower end faces of the third driven dynamic pressure pipe wheel and the annular grooves of the third driving dynamic pressure pipe wheel are respectively mounted on the upper end faces of the third driving gear and the third driven shaft, the third driven shaft is meshed with the third driving gear, and the driving gear is meshed with the third driven shaft.

Preferably, the fourth extrusion part comprises a fourth driving gear, a fourth driven gear, a fourth driving shaft, a fourth driving pinch roller, two fourth driving shaft mounting seats, a fourth driven shaft, a fourth driven pinch roller and two fourth driven shaft mounting seats;

the two fourth driving shaft mounting seats are respectively mounted in the interiors of mounting grooves of the two mounting plates, the fourth driving shaft is rotationally connected with the two fourth driving shaft mounting seats, the fourth driving dynamic pressure pipe wheel is mounted on the fourth driving shaft between the two mounting plates, the fourth driving gear and the fourth driving gear are sequentially mounted on the fourth driving shaft, the fourth driving gear is close to one side of the mounting plates, the two fourth driven shaft mounting seats are respectively mounted in the interiors of the mounting grooves above the fourth driving shaft mounting seats, the fourth driven shaft is rotationally connected with the two fourth driven shaft mounting seats, the fourth driven dynamic pressure pipe wheel is mounted on the fourth driven shaft, the fourth driven dynamic pressure pipe wheel is located right above the fourth driving dynamic pressure pipe wheel, annular grooves are formed in the middle of the fourth driving dynamic pressure pipe wheel, square grooves are formed in the lower end faces of the fourth driven dynamic pressure pipe wheel and the annular grooves of the fourth driving dynamic pressure pipe wheel, the fourth driven shaft is in transition joint with the fourth driven shaft, the fourth driven shaft is in transition joint with the fourth driving gear, and the fourth driven shaft is in transition joint, and the fourth driving gear is meshed with the fourth driven gear.

Preferably, the device further comprises adjusting mechanisms, wherein the adjusting mechanisms are respectively arranged above the mounting grooves.

Preferably, the adjusting mechanism comprises an adjusting seat, a screw rod, a connecting nut, an upper nut and a lower nut, wherein the adjusting seat is fixed above the mounting groove through a bolt, the connecting nut is mounted above the first driven shaft mounting seat, and the screw rod passes through the upper nut, the adjusting seat and the lower nut to be connected with the connecting nut.

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

according to the utility model, the transmission is more stable through the transmission of the gears and the chains, and the blowing rod is extruded into the flat square rod step by step through the first extrusion part, the second extrusion part, the third extrusion part and the fourth extrusion part, so that the molding is more stable, and the continuous production can be realized.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model. In the drawings:

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic structural view of a first slave pinch roller and a first master pinch roller;

FIG. 3 is a schematic diagram of the structure of a second slave pinch roller and a second master pinch roller;

FIG. 4 is a schematic structural view of a third slave pinch roller and a third master pinch roller;

fig. 5 is a schematic structural view of a fourth driven pinch roller and a fourth driving pinch roller.

Detailed Description

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

In order that those skilled in the art will better understand the present utility model, a technical solution in the embodiments of the present utility model will be clearly and completely described below, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, shall fall within the scope of the present utility model.

As shown in fig. 1-5, the flat square blowing rod pipe pressing machine comprises a base 1, two mounting plates 2 are mounted on the base 1 in parallel, four mounting grooves 21 are respectively formed in the mounting plates 2, a pipe pressing mechanism is mounted on the mounting plates 2, and the pipe pressing mechanism comprises: a driving motor (not shown), a first pressing member 3, a second pressing member 4, a third pressing member 5, a fourth pressing member 6, a first transmission chain (not shown), a second transmission chain (not shown), and a third transmission chain (not shown);

the first extrusion part 3, the second extrusion part 4, the third extrusion part 5 and the fourth extrusion part 6 are respectively installed on the four installation grooves 21, the driving motor drives the first extrusion part 3, the first transmission chain is connected with the first extrusion part 3 and the second extrusion part 4, the second transmission chain is connected with the second extrusion part 4 and the third extrusion part 5, and the third transmission chain is connected with the third extrusion part 5 and the fourth extrusion part 6.

The first extrusion part 3 comprises a first driving gear 31, a first driven gear 32, a first driving gear 33, a first driving shaft 34, a first driving pinch roller 35, two first driving shaft mounting seats 36, a first driven shaft 37, a first driven pinch roller 38 and two first driven shaft mounting seats 39;

the two first driving shaft mounting seats 36 are respectively mounted in the interiors of the mounting grooves 21 of the two mounting plates 2, the first driving shaft 34 is rotationally connected with the two first driving shaft mounting seats 36, the first driving dynamic pressure tube wheel 35 is mounted on the first driving shaft 34 between the two mounting plates 2, the first driving gear 33 and the first driving gear 31 are sequentially mounted on the first driving shaft 34, the first driving gear 31 is close to one side of the mounting plates 2, the driving motor is connected with the first driving shaft 34 through a coupler, the two first driven shaft mounting seats 39 are respectively mounted in the interiors of the mounting grooves 21 above the first driving shaft mounting seats 36, the first driven shaft 37 is rotationally connected with the two first driven shaft mounting seats 39, the first driven dynamic pressure tube wheel 38 is mounted on the first driven shaft 37, the first driven dynamic pressure tube wheel 38 is positioned right above the first driving dynamic pressure tube wheel 35, the first driven dynamic pressure tube wheel 38 and the first driven shaft 38 are respectively meshed with the first driving dynamic pressure tube wheel 35, the first driven shaft 37 and the first driven shaft 35 are meshed with the first driving dynamic pressure tube wheel 32, and the first driven shaft 37 are meshed with the first driven shaft 37, and the first driven shaft 35 are meshed with the first driven shaft 32.

The second extrusion part 4 comprises a second driving gear 41, a second driven gear 42, a second driving gear 43, a second transmission gear 44, a second driving shaft 45, a second driving pinch roller 46, two second driving shaft mounting seats 47, a second driven shaft 48, a second driven pinch roller 49 and two second driven shaft mounting seats 410;

the two second driving shaft mounting seats 47 are respectively mounted in the mounting grooves 21 of the two mounting plates 2, the second driving shaft 45 is rotatably connected with the two second driving shaft mounting seats 47, the second driving tube pressing wheel 46 is mounted on the second driving shaft 45 between the two mounting plates 2, the second transmission gear 44, the second driving gear 43 and the second driving gear 41 are sequentially mounted on the second driving shaft 45, the second driving gear 41 is close to one side of the mounting plates 2, the two second driven shaft mounting seats 410 are respectively mounted in the mounting grooves 21 above the second driving shaft mounting seats 47, the second driven shaft 48 is rotatably connected with the two second driven shaft mounting seats 410, the second driven tube pressing wheel 49 is mounted on the second driven shaft 48, the second driven tube pressing wheel 49 is positioned right above the second driving tube pressing wheel 46, the second driven tube pressing wheel 49 and the second driving tube pressing wheel middle part are close to one side of the mounting plates 2, the second driven tube pressing wheel 48 is meshed with the second driving tube pressing wheel 46, the second driven tube pressing wheel is meshed with the second driving tube pressing wheel 48, the second driving tube pressing wheel is meshed with the second driven tube pressing wheel 46, and the second driving tube pressing wheel is meshed with the second driving tube pressing wheel 46, and the second driven tube pressing wheel is meshed with the second driving tube pressing wheel driving wheel 46.

The third extrusion part 5 comprises a third driving gear 51, a third driven gear 52, a third driving gear 53, a third transmission gear 54, a third driving shaft 55, a third driving pinch roller 56, two third driving shaft mounting seats 57, a third driven shaft 58, a third driven pinch roller 59 and two third driven shaft mounting seats 510;

the two third driving shaft mounting seats 57 are respectively mounted in the mounting grooves 21 of the two mounting plates 2, the third driving shaft 55 is rotatably connected with the two third driving shaft mounting seats 57, the third driving tube pressing wheel 56 is mounted on the third driving shaft 55 between the two mounting plates 2, the third transmission gear 54, the third driving gear 53 and the third driving gear 51 are sequentially mounted on the third driving shaft 55, the third driving gear 51 is close to one side of the mounting plates 2, the two third driven shaft mounting seats 510 are respectively mounted in the mounting grooves 21 above the third driving shaft mounting seats 57, the third driven shaft 58 is rotatably connected with the two third driven shaft mounting seats 510, the third driven shaft 58 is mounted with the third driven tube pressing wheel 59, the third driven tube pressing wheel 59 is located right above the third driving tube pressing wheel 56, the third driven tube pressing wheel 59 and the middle of the third driving tube pressing wheel 56 are provided with annular grooves, the lower end face of the annular groove of the third driven tube pressing wheel 59 and the upper end face of the annular groove of the third driving tube pressing wheel 56 are spliced into an ellipse, the third driven gear 52 is mounted on the third driven shaft 58, the third driven gear 52 is meshed with the third driving gear 51, and the second driving chain connects the third driving gear 54 and the second driving gear 44.

The fourth extrusion part 6 comprises a fourth driving gear 61, a fourth driven gear 62, a fourth driving gear 63, a fourth driving shaft 64, a fourth driving pinch roller 65, two fourth driving shaft mounting seats 66, a fourth driven shaft 67, a fourth driven pinch roller 68 and two fourth driven shaft mounting seats 69;

the two fourth driving shaft mounting seats 66 are respectively mounted in the mounting grooves 21 of the two mounting plates 2, the fourth driving shaft 64 is rotationally connected with the two fourth driving shaft mounting seats 66, the fourth driving dynamic pressure tube wheel 65 is mounted on the fourth driving shaft 64 between the two mounting plates 2, the fourth driving gear 63 and the fourth driving gear 61 are sequentially mounted on the fourth driving shaft 64, the fourth driving gear 61 is close to one side of the mounting plates 2, the two fourth driven shaft mounting seats 69 are respectively mounted in the mounting grooves 21, the upper part of the fourth driving shaft mounting seats 66 is rotationally connected with the two fourth driven shaft mounting seats 69, the fourth driven shaft 67 is mounted on the fourth driven shaft 67, the fourth driven dynamic pressure tube wheel 68 is located right above the fourth driving dynamic pressure tube wheel 65, annular grooves are formed in the middle of the fourth driving dynamic pressure tube wheel 68 and the fourth driving dynamic pressure tube wheel 65, the fourth driven shaft mounting seats 69 are respectively mounted above the fourth driving shaft mounting seats 66, the fourth driven shaft 67 is rotationally connected with the fourth driven shaft mounting seats 68, the fourth driven shaft mounting seats are in an overjoint-shaped manner, and the fourth driving dynamic pressure tube wheel is in the annular grooves are in the annular grooves of the fourth driving dynamic pressure tube wheel 65, and the fourth driven tube wheel is in the annular grooves are in the annular grooves, and the annular grooves are in the annular grooves of the driving wheels, and the driving wheels are in the annular grooves of the driving wheels and the driving wheels.

And the device also comprises an adjusting mechanism 7, wherein the adjusting mechanisms 7 are respectively arranged above the mounting grooves 21.

The adjusting mechanism 7 comprises an adjusting seat 71, a screw rod 72, a connecting nut 73, an upper nut 74 and a lower nut, wherein the adjusting seat 71 is fixed above the mounting groove 21 through bolts, the connecting nut 73 is mounted above the first driven shaft mounting seat 39, and the screw rod 72 is connected with the connecting nut 73 through the upper nut 74, the adjusting seat 71 and the lower nut.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (7)

1. The utility model provides a flat side blows pole pipe press, includes the base, parallel mount has two mounting panels on the base, four mounting grooves have been seted up respectively on the mounting panel, its characterized in that, install on the mounting panel and press the pipe mechanism, press the pipe mechanism to include: the device comprises a driving motor, a first extrusion part, a second extrusion part, a third extrusion part, a fourth extrusion part, a first transmission chain, a second transmission chain and a third transmission chain;

the first extrusion part, the second extrusion part, the third extrusion part and the fourth extrusion part are respectively installed on four installation grooves, the driving motor drives the first extrusion part, the first transmission chain is connected with the first extrusion part and the second extrusion part, the second transmission chain is connected with the second extrusion part and the third extrusion part, and the third transmission chain is connected with the third extrusion part and the fourth extrusion part.

2. The flat square blowing rod tube pressing machine according to claim 1, wherein the first pressing component comprises a first driving gear, a first driven gear, a first driving shaft, a first driving pinch roller, two first driving shaft mounting seats, a first driven shaft, a first driven pinch roller and two first driven shaft mounting seats;

the two first driving shaft mounting seats are respectively mounted in the interiors of mounting grooves of the two mounting plates, the first driving shaft is rotationally connected with the two first driving shaft mounting seats, the first driving dynamic pressure tube wheel is mounted on the first driving shaft between the two mounting plates, the first driving gear and the first driving gear are sequentially mounted on the first driving shaft, the first driving gear is close to one side of the mounting plates, the driving motor is connected with the first driving shaft through a coupler, the two first driven shaft mounting seats are respectively mounted in the interiors of the mounting grooves above the first driving shaft mounting seats, the first driven shaft is rotationally connected with the two first driven shaft mounting seats, the first driven dynamic pressure tube wheel is mounted on the first driven shaft, the first driven dynamic pressure tube wheel is located right above the first driving dynamic pressure tube wheel, annular grooves are formed in the middle of the first driving dynamic pressure tube wheel and the first driving dynamic pressure tube wheel, the first driven shaft is meshed with the annular grooves of the first driving dynamic pressure tube wheel, and the first driven shaft is meshed with the annular grooves of the first driving dynamic pressure tube wheel.

3. The flat square blowing rod tube pressing machine according to claim 2, wherein the second extrusion part comprises a second driving gear, a second driven gear, a second driving gear, a second transmission gear, a second driving shaft, a second driving tube pressing wheel, two second driving shaft mounting seats, a second driven shaft, a second driven tube pressing wheel and two second driven shaft mounting seats;

the two second driving shaft mounting seats are respectively mounted in the interiors of mounting grooves of the two mounting plates, the second driving shaft is rotationally connected with the two second driving shaft mounting seats, the second driving dynamic pressure tube wheel is mounted on the second driving shaft between the two mounting plates, the second transmission gear, the second driving gear and the second driving gear are sequentially mounted on the second driving shaft, the second driving gear is close to one side of the mounting plates, the two second driven shaft mounting seats are respectively mounted in the interiors of the mounting grooves and above the second driving shaft mounting seats, the second driven shaft is rotationally connected with the two second driven shaft mounting seats, the second driven dynamic pressure tube wheel is mounted on the second driven shaft, the second driven dynamic pressure tube wheel is positioned right above the second driving dynamic pressure tube wheel, annular grooves are formed in the middle parts of the second driving dynamic pressure tube wheel and the second driving dynamic pressure tube wheel, the annular grooves of the second driven dynamic pressure tube wheel and the second driving driven shaft are respectively meshed with the second driving gear, and the second driven shaft is meshed with the annular grooves of the second driving dynamic pressure tube wheel, and the second driven shaft is meshed with the first driving gear.

4. The flat square blowing rod pipe press according to claim 3, wherein the third extrusion part comprises a third driving gear, a third driven gear, a third driving gear, a third transmission gear, a third driving shaft, a third driving pinch roller, two third driving shaft mounting seats, a third driven shaft, a third driven pinch roller and two third driven shaft mounting seats;

the two third driving shaft mounting seats are respectively mounted in the interiors of mounting grooves of the two mounting plates, the third driving shaft is rotationally connected with the two third driving shaft mounting seats, the third driving dynamic pressure pipe wheel is mounted on the third driving shaft between the two mounting plates, the third transmission gear, the third driving gear and the third driving gear are sequentially mounted on the third driving shaft, the third driving gear is close to one side of the mounting plates, the two third driven shaft mounting seats are respectively mounted in the interiors of the mounting grooves and above the third driving shaft mounting seats, the third driven shaft is rotationally connected with the two third driven shaft mounting seats, the third driven shaft is mounted on the third driven shaft, the third driven dynamic pressure pipe wheel is located right above the third driving dynamic pressure pipe wheel, annular grooves are formed in the middle of the third driving dynamic pressure pipe wheel and the third driving dynamic pressure pipe wheel, the lower end faces of the third driven dynamic pressure pipe wheel and the annular grooves of the third driving dynamic pressure pipe wheel are respectively mounted on the upper end faces of the third driving gear and the third driven shaft, the third driven shaft is meshed with the third driving gear, and the driving gear is meshed with the third driven shaft.

5. The flat square blowing rod tube pressing machine according to claim 4, wherein the fourth extrusion part comprises a fourth driving gear, a fourth driven gear, a fourth driving shaft, a fourth driving pinch roller, two fourth driving shaft mounting seats, a fourth driven shaft, a fourth driven pinch roller and two fourth driven shaft mounting seats;

the two fourth driving shaft mounting seats are respectively mounted in the interiors of mounting grooves of the two mounting plates, the fourth driving shaft is rotationally connected with the two fourth driving shaft mounting seats, the fourth driving dynamic pressure pipe wheel is mounted on the fourth driving shaft between the two mounting plates, the fourth driving gear and the fourth driving gear are sequentially mounted on the fourth driving shaft, the fourth driving gear is close to one side of the mounting plates, the two fourth driven shaft mounting seats are respectively mounted in the interiors of the mounting grooves above the fourth driving shaft mounting seats, the fourth driven shaft is rotationally connected with the two fourth driven shaft mounting seats, the fourth driven dynamic pressure pipe wheel is mounted on the fourth driven shaft, the fourth driven dynamic pressure pipe wheel is located right above the fourth driving dynamic pressure pipe wheel, annular grooves are formed in the middle of the fourth driving dynamic pressure pipe wheel, square grooves are formed in the lower end faces of the fourth driven dynamic pressure pipe wheel and the annular grooves of the fourth driving dynamic pressure pipe wheel, the fourth driven shaft is in transition joint with the fourth driven shaft, the fourth driven shaft is in transition joint with the fourth driving gear, and the fourth driven shaft is in transition joint, and the fourth driving gear is meshed with the fourth driven gear.

6. The flat square blowing rod tube pressing machine according to claim 5, further comprising adjusting mechanisms, wherein the adjusting mechanisms are respectively installed above the installation grooves.

7. The flat square blowing rod pipe pressing machine according to claim 6, wherein the adjusting mechanism comprises an adjusting seat, a screw rod, a connecting nut, an upper nut and a lower nut, the adjusting seat is fixed above the mounting groove through a bolt, the connecting nut is mounted above the first driven shaft mounting seat, and the screw rod passes through the upper nut, the adjusting seat and the lower nut to be connected with the connecting nut.