CN217775242U - Hydraulic automatic groove pressing system - Google Patents

Abstract

The utility model discloses an automatic indent system of hydraulic pressure, include automatic indent device and collude a tub elevating gear, automatic indent device includes the workstation and installs the automatic indent mechanism of hydraulic pressure on the workstation both ends, is equipped with between two automatic indent mechanisms of hydraulic pressure and puts a tub sideslip subassembly, colludes a tub elevating gear and installs on the portal frame, colludes a tub elevating gear and arranges the oblique top of putting a tub sideslip subassembly in. The utility model discloses increasing and colluding a tub elevating gear and putting a tub sideslip subassembly, the pipe that will need the indent is sent to indent machine department indent, realizes automaticly, reduces personnel's work load, improves work efficiency, reduces intensity of labour, reduces the emergence of incident, is favorable to the safety in production.

Description

Hydraulic automatic groove pressing system

Technical Field

The utility model relates to a pipe fitting processing equipment technical field especially relates to a hydraulic pressure is from dynamic pressure groove system.

Background

The indent equipment is mainly suppressed the slot to galvanized pipe connection position, and the slot is convenient for connect between two galvanized pipes, and current course of working adopts artifical transport to treat on steel pipe to the indent station of processing, then manual operation indent equipment carries out manual indent, and is inefficient, and intensity of labour is big, if the misoperation, the easy production accident that takes place is unfavorable for safety in production.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an automatic indent system of hydraulic pressure solves foretell problem.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the utility model relates to an automatic indent system of hydraulic pressure, include automatic indent device and collude a tub elevating gear, automatic indent device includes the workstation and installs hydraulic pressure automatic indent mechanism on the workstation both ends, two be equipped with between the hydraulic pressure automatic indent mechanism and put a tub sideslip subassembly, collude a tub elevating gear and install on the portal frame, collude a tub elevating gear and arrange in put tub sideslip subassembly's oblique top.

Further, the automatic grooving mechanism of hydraulic pressure includes indent motor and speed reducer, indent motor and speed reducer are all installed on the base, the base passes through the sliding assembly to be connected on the workstation, the end connection of base has advance and retreat power cylinder, be equipped with down the indent mould on the main shaft of speed reducer, the top of indent mould is equipped with the last pinch roller that matches with it down, go up the pinch roller and pass through the indent cylinder and install on the indent support, the indent support mounting is on the base.

Further, put a tub sideslip subassembly and include the sideslip chassis and through slip subassembly sliding connection be in on the fortune pipe support on the sideslip chassis, the sideslip is controlled through sideslip power cylinder to fortune pipe support, the stiff end of sideslip power cylinder is fixed on the sideslip chassis, flexible end connection is in on the fortune pipe support, be equipped with two pipe supporting components on the fortune pipe support.

Further, the trusteeship subassembly is including trusteeship platform and installing two trusteeship steamboats of the last symmetrical setting of trusteeship platform, the trusteeship platform is installed through trusteeship cylinder on the pipe carrier.

Further, collude a pipe elevating gear and include connecting rod and double-layered pipe hook, the connecting rod is installed through the lifting unit that two sets of symmetries set up the below of portal frame, the both ends top of connecting rod all is equipped with double-layered pipe cylinder, the flexible end of double-layered pipe cylinder is articulated mutually with the tip of double-layered pipe hook, the intermediate position of double-layered pipe hook with the tip of connecting rod is articulated mutually, the hook one end of double-layered pipe hook is arranged in the below of connecting rod.

Furthermore, the lifting assembly comprises a lifting screw rod, the lifting screw rod is driven by an electric turbine hoister and a lifting motor, the electric turbine hoister and the lifting motor are driven to be installed on the portal frame, and the bottom of the lifting screw rod penetrates through the portal frame and then is connected with the connecting rod.

Compared with the prior art, the utility model discloses a beneficial technological effect:

the utility model discloses increasing and colluding a tub elevating gear and putting a tub sideslip subassembly, the pipe that will need the indent is sent to indent machine department indent, realizes automaticly, reduces personnel's work load, improves work efficiency, reduces intensity of labour, reduces the emergence of incident, is favorable to the safety in production.

Drawings

The present invention will be further explained with reference to the following description of the drawings.

FIG. 1 is a schematic view of the hydraulic automatic grooving system of the present invention;

FIG. 2 is a schematic view of the construction of the stinger assembly;

description of reference numerals: 1. a work table; 2. a hydraulic automatic groove pressing mechanism; 3. a gantry; 4. a groove pressing motor; 5. a speed reducer; 6. a base; 7. a driving and reversing power cylinder; 8. pressing a groove die downwards; 9. an upper pinch roller; 10. a groove pressing oil cylinder; 11. a groove pressing bracket; 12. transversely moving the underframe; 13. conveying the pipe frame; 14. a power cylinder is transversely moved; 15. a hosting platform; 16. a small supporting wheel; 17. a pipe supporting cylinder; 18. a connecting rod; 19. a pipe clamping cylinder; 20. a pipe clamping hook; 21. a lifting screw; 22. an electric turbine hoist; 23. a lifting motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

As shown in fig. 1-2, a hydraulic automatic grooving system comprises an automatic grooving device and a hook pipe lifting device, wherein the automatic grooving device comprises a workbench 1 and hydraulic automatic grooving mechanisms 2 arranged at two ends of the workbench 1, each hydraulic automatic grooving mechanism 2 comprises a grooving motor 4 and a speed reducer 5, the grooving motors 4 and the speed reducers 5 are both arranged on a base 6, the base 6 is connected onto the workbench 1 through a sliding assembly, the end part of the base 6 is connected with a driving and reversing power cylinder 7, a lower grooving mold 8 is arranged on a main shaft of the speed reducer 5, an upper pinch roller 9 matched with the lower grooving mold 8 is arranged above the lower grooving mold 8, the upper pinch roller 9 is arranged on a grooving support 11 through a grooving cylinder 10, and the grooving support 11 is arranged on the base 6.

Two be equipped with between the automatic pressure tank mechanism 2 of hydraulic pressure and put a tub sideslip subassembly, it includes sideslip chassis 12 and connects through sliding assembly sliding connection on the fortune pipe support 13 on the sideslip chassis 12 to put a tub sideslip subassembly, fortune pipe support 13 is through sideslip power cylinder 14 control sideslip, sideslip power cylinder 14's stiff end is fixed on the sideslip chassis 12, flexible end is connected fortune pipe support 13 is last. Two pipe supporting components are arranged on the pipe conveying frame 13 and comprise a pipe supporting platform 15 and two pipe supporting small wheels 16 symmetrically arranged on the pipe supporting platform 15, and the pipe supporting platform 15 is arranged on the pipe conveying frame 13 through a pipe supporting air cylinder 17.

The pipe hooking and lifting device is installed on the portal frame 3 and arranged obliquely above the pipe placing and traversing assembly. Collude a tub elevating gear and include connecting rod 18 and press from both sides pipe hook 20, connecting rod 18 is installed through the lifting unit that two sets of symmetries set up portal frame 3's below, the both ends top of connecting rod 18 all is equipped with presss from both sides tub cylinder 19, the flexible end of pressing from both sides tub cylinder 19 is articulated mutually with the tip of pressing from both sides pipe hook 20, press from both sides pipe hook 20 the intermediate position with connecting rod 18's tip is articulated mutually, press from both sides pipe hook 20's hook one end and arrange in connecting rod 18's below.

The lifting assembly comprises a lifting screw 21, the lifting screw 21 is driven by an electric turbine hoister 22 and a lifting motor 23, the electric turbine hoister 22 and the lifting motor 23 are driven to be installed on the portal frame 3, and the bottom of the lifting screw 21 penetrates through the portal frame 3 and then is connected with the connecting rod 18.

The sliding assembly comprises a sliding block and a sliding rail, the sliding rail is laid on the workbench 1 or the transverse moving underframe 12, the sliding block is fixed at the bottom of the base 6 or the pipe conveying frame 13, and the sliding block is connected to the sliding rail in a sliding mode.

And the hydraulic automatic groove pressing mechanism 2 and the hook pipe lifting device are respectively provided with a limiter.

The action process of the utility model is as follows:

when the pipe hooking and lifting device works, a working signal is obtained by the pipe hooking and lifting device, the lifting motor 23 drives the lifting screw 21 to descend through the electric turbine hoister 22, the pipe clamping hooks 20 synchronously descend to the lower limit position and stop, then the pipe clamping cylinder 19 obtains a signal, starting tightening action is performed, the cylinder lever of the pipe clamping cylinder 19 extends to drive the pipe clamping hooks 20 to perform tightening action, after the tightening action is completed, the lifting motor 23 obtains an ascending signal, the lifting screw 21 is driven to ascend through the electric turbine hoister 22 until the pipe clamping hooks ascend to the upper limit position and stop acting, then the pipe placing transverse moving component obtains a signal of lifting the pipe hooking and lifting device to the upper limit position, the transverse moving power cylinder 14 of the pipe placing transverse moving component obtains an advancing signal to drive the pipe conveying frame 13 to advance until the limit position is reached and stop, and then the cylinder lever of the pipe placing cylinder 17 extends out, the pipe supporting platform 15 is driven to ascend to a limit position, a pipe is placed on the pipe supporting small wheel 16 by a signal of the pipe hooking lifting device, a proximity switch on the pipe supporting platform 15 senses that the pipe is placed in place, the pipe placing transverse moving assembly resets, the hydraulic automatic grooving mechanism 2 obtains a signal of resetting the pipe placing transverse moving assembly, the advancing and retreating power cylinder 7 drives the base 6 to advance, after the pipe supporting cylinder 17 descends to the specified position after the specified position is reached, the grooving cylinder 10 drives the upper pressing wheel 9 to descend, a pipe head is clamped between the upper pressing wheel 9 and the lower grooving mold 8, the grooving motor 4 starts to work to perform grooving, after the grooving is finished, the grooving cylinder 10 resets, the pipe supporting cylinder 17 supports the pipe, the advancing and retreating power cylinder 7 drives the base 6 to reset, and the grooved pipe is taken away by the pipe hooking lifting device to complete the grooving.

The above-mentioned embodiments are only intended to describe the preferred embodiments of the present invention, but not to limit the scope of the present invention, and those skilled in the art should also be able to make various modifications and improvements to the technical solution of the present invention without departing from the spirit of the present invention, and all such modifications and improvements are intended to fall within the scope of the present invention as defined in the appended claims.

Claims (6)

1. A hydraulic automatic grooving system, its characterized in that: the automatic grooving device comprises a workbench (1) and hydraulic automatic grooving mechanisms (2) arranged at two ends of the workbench (1), two pipe placing transverse moving assemblies are arranged between the hydraulic automatic grooving mechanisms (2), the hooking pipe lifting device is arranged on a portal frame (3), and the hooking pipe lifting device is arranged above the pipe placing transverse moving assemblies in an inclined mode.

2. The hydraulic automatic notching system of claim 1, wherein: the automatic grooving mechanism of hydraulic pressure includes indent motor (4) and speed reducer (5), indent motor (4) and speed reducer (5) are all installed on base (6), base (6) are connected through sliding assembly on workstation (1), the end connection of base (6) has advance and retreat power cylinder (7), be equipped with down indent mould (8) on the main shaft of speed reducer (5), the top of indent mould (8) is equipped with last pinch roller (9) that matches with it down, it installs on indent support (11) through indent hydro-cylinder (10) to go up pinch roller (9), install on base (6) indent support (11).

3. The hydraulic automatic notching system of claim 1, wherein: put a tub sideslip subassembly and include sideslip chassis (12) and through sliding assembly sliding connection be in on the fortune pipe support (13) on sideslip chassis (12), fortune pipe support (13) are through sideslip power cylinder (14) control sideslip, the stiff end of sideslip power cylinder (14) is fixed on sideslip chassis (12), flexible end is connected fortune pipe support (13) are last, be equipped with two pipe pallet assemblies on fortune pipe support (13).

4. The hydraulic automatic notching system of claim 3, wherein: the pipe supporting component comprises a pipe supporting platform (15) and two pipe supporting small wheels (16) symmetrically arranged on the pipe supporting platform (15), and the pipe supporting platform (15) is installed on the pipe conveying frame (13) through a pipe supporting air cylinder (17).

5. The hydraulic automatic notching system of claim 1, wherein: collude a tub elevating gear and include connecting rod (18) and press from both sides pipe hook (20), lifting unit that connecting rod (18) set up through two sets of symmetries installs the below of portal frame (3), the both ends top of connecting rod (18) all is equipped with presss from both sides tub cylinder (19), the flexible end of pressing from both sides tub cylinder (19) is articulated mutually with the tip of pressing from both sides pipe hook (20), the intermediate position of pressing from both sides pipe hook (20) with the tip of connecting rod (18) is articulated mutually, the hook one end of pressing from both sides pipe hook (20) is arranged in the below of connecting rod (18).

6. The hydraulic automatic notching system of claim 5, wherein: the lifting assembly comprises a lifting screw rod (21), the lifting screw rod (21) is driven by an electric turbine hoister (22) and a lifting motor (23), the electric turbine hoister (22) and the lifting motor (23) are driven to be installed on the portal frame (3), and the bottom of the lifting screw rod (21) penetrates through the portal frame (3) and then is connected with the connecting rod (18).

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