JP2020138235A - Crimping machine - Google Patents

Abstract

SOLUTION: A crimping machine comprises a crimping machine body 1. A driving hydraulic pump 3 is fixedly connected to the top of the crimping machine body 1. The output end of the driving hydraulic pump 3 is connected to a driving hydraulic cylinder 4. A transmission shaft 5 is fixedly welded to a telescopic shaft of the driving hydraulic cylinder 4. The end portion, away from the driving hydraulic cylinder 4, of the transmission shaft 5 is connected to a crimping transmission device through a hinge sheet 6. A crimping extrusion device is arranged in the crimping transmission device.EFFECT: When an extrusion moving rod moves to be close to a tube along an arc channel, a plurality of wedge extrusion blocks can be driven to carry out closing extrusion operation. Through an equivalent transmission force provided by the crimping transmission device, a stable radial extrusion force can be provided for the wedge extrusion blocks, the seal buckled connection between a hose and an iron tube is more tight, the defective percentage is reduced, and the crimping quality of the hose is improved.SELECTED DRAWING: Figure 1

Description

The invention specifically relates to a crimping machine in the field of hydraulic piping manufacturing equipment.

When the hydraulic hose is crimped, the crimping machine operates the die holder having a symmetrical conical surface by the inner taper sleeve so as to contract in the radial direction, and crimps the die block to the hose. When the contraction amount reaches the scale set value, the crimping operation is automatically stopped, and after the electromagnetic switching valve switches the direction, the hydraulic oil enters the two mold opening cylinders and moves the crimping plunger in the opposite direction. The die holder recovers the die block by the action of the spring. The hydraulic crimping machine currently in use is moved in the radial direction by a crimping die block installed in each radial direction of hydraulic pressure during the operation process, and the mold matches the radial force of each extrusion die block during extrusion work. Since it is difficult to secure the oil pressure, extrusion deformation and poor extrusion sealing performance may occur in the process of crimping the hose.

Chinese Patent Application Publication No. 202388612

In response to defects in the prior art, the present invention provides a crimping machine to solve the problem of poor press deformation or press seal in the process of crimping a hose.

In order to achieve the above object, the present invention is achieved by the following technical solutions: a crimping machine including a crimping machine body in which support legs are welded to the bottom of the crimping machine body. It is fixed, the drive hydraulic pump is fixedly connected to the top of the crimping machine body, the output end of the drive hydraulic pump is connected to the drive hydraulic cylinder, and the transmission shaft is welded to the telescopic shaft of the drive hydraulic cylinder. The end of the transmission shaft that is fixed and separated from the drive hydraulic cylinder is connected to the crimping transmission device by a hinge sheet, and the crimping pressing device is installed inside the crimping transmission device, and is in front of the crimping pressing device. A lid plate is installed in the lid plate, a fixing screw is installed in front of the lid plate, and the screw end of the fixing screw penetrates the lid plate and is screw-connected to the crimping transmission device.

Preferably, the crimping transmission includes a drive ring, a reinforcing rod, a sleeve bearing, a tube, a cylindrical extrusion bin, an arcuate passage, an arcuate rail, a transmission connection sheet, a transmission rod, a movable joint, a pressing movable rod and a rail bearing. Including, the distant end of the drive hydraulic cylinder of the transmission shaft is movably connected to the drive ring by a hinge seat, the inner wall of the drive ring is welded and fixed to the reinforcement rod and separated from the drive ring of the reinforcement rod. The end is welded and fixed to the sleeve bearing, the inner ring of the sleeve bearing is fixedly fitted to the tube, the cylindrical extrusion bin is located in front of the sleeve bearing, and one end of the sleeve is the sleeve bearing. Is welded to the cylindrical extrusion bin, the inside of the cylindrical extrusion bin is hollow, and the arcuate passage is installed on the side of the cylindrical extrusion bin near the reinforcing rod of the drive ring. The inner ring wall fixedly penetrates the transmission connection sheet and is movably hinged to the transmission rod, and the end portion of the transmission rod away from the transmission connection sheet is welded and fixed to the movable joint to transmit the transmission rod. The end away from the connection sheet is movably connected to the pressing movable rod by a movable joint, and the end away from the movable joint of the pressing movable rod extends through the arcuate passage to the inside of the cylindrical extrusion bin. The arcuate rail is installed on the inner wall of the cylindrical extrusion bin and is located at the outer edge of the arcuate passage, the inner wall of the arcuate rail is rolled connected to the rail bearing, and the inner ring of the rail bearing is fixed to the pressing movable rod. Is fitted.

Preferably, the outer surface of the cylindrical extrusion bin is welded and fixed to the crimping machine body, the lid plate is in contact with the front surface of the pressing bin, and the screw end of the fixing screw penetrates the lid plate and is fixed to the pressing bin. Screw connected to.
Preferably, the crimping pressing device includes a pressing connection block, a wedge-shaped pressing block, a pressing contact groove, an anastomotic arc-shaped concave surface, an anastomotic arc-shaped lug, a movable connecting groove and a serial ring, and is separated from the movable joint of the pressing movable rod. The end portion is movably fitted to a pressing connection block installed inside the cylindrical extrusion bin, and the wedge-shaped pressing block is welded and fixed to the pressing connection block.

Preferably, the number of the wedge-shaped pressing blocks is eight, the eight wedge-shaped pressing blocks are installed equidistantly with the cylindrical extrusion bin as the central axis, and the pressing contact groove is the cylindrical extrusion of the wedge-shaped pressing blocks. Installed on the side close to the central axis of the bin, the anastomotic arc-shaped concave surface and the anastomotic arc-shaped lug are installed on both sides of the wedge-shaped pressing block, respectively, and the anastomotic arc groove between the eight wedge-shaped pressing blocks faces the anastomotic arc-shaped lug. The movable connecting groove is installed on the outer surface of the anasted arcuate lug, the serial ring is movably connected inside the movable connecting groove, and is connected by a serial ring between eight wedge-shaped pressing blocks. Wedge.

The present invention provides a crimping machine. It has the following beneficial effects:

1. 1. The crimping machine can move the transmission shaft to the left by the drive hydraulic cylinder to drive the drive ring and rotate it along the tube, and the drive ring moves the pressing movable rod in the process of rotating along the tube. Each anastomotic arc-shaped lug is connected to the serial ring by a movable connecting groove, and the wedge-shaped pressing blocks move each other along the arc-shaped passage by the pressing movable rod. It can be driven to move closer or further away. When the pressing movable rod moves along the arcuate passage until it approaches the tube, multiple wedge-shaped pressing blocks can be driven to perform the closing pressing operation by the equal amount of power transmitted by the crimping transmission. The wedge-shaped pressing block can provide a stable radial pressing force, can be tightly and sealedly crimped between the hose and the iron tube, and reduces the defective rate and improves the crimping quality of the hose. Can be improved.

2. 2. The crimping machine is circular with eight pressing contact grooves in the process in which the anastomotic arc groove and the anastomotic arc lug are fitted and contacted with each other by the facing installation of the anastomotic arc groove and the anastomotic arc lug between the eight wedge-shaped pressing blocks. Grooves can be formed.

3. 3. It is possible to facilitate the radial extrusion of the hose and improve the quality of crimping.

It is the schematic of the structure of this invention.

It is the schematic of the structure of the transmission of crimping of this invention.

It is the schematic of the structure of the crimping transmission device and the crimping pressing device of this invention.

It is the schematic of the structure of the crimping transmission device and the crimping pressing device of this invention.

It is the schematic of the closing crimping of the structure of the wedge-shaped pressing block of this invention.

Here, 1 crimping machine body, 2 support legs, 3 drive hydraulic pump, 4 drive hydraulic cylinder, 5 transmission shaft, 6 hinge seat, 7 crimp transmission device, 701 drive ring, 702 reinforcement rod, 703 sleeve bearing, 704 Tube, 705 cylindrical extrusion bin, 706 arcuate passage, 707 arcuate rail, 708 transmission connection sheet, 709 transmission rod, 710 movable joint, 711 pressing movable rod, 712 rail bearing, 8 crimping pressing device, 801 pressing connection block , 802 wedge-shaped pressing block, 803 pressing contact groove, 804 hinged arcuate concave surface, 805 hinged arcuate lug, 806 movable connection groove, 807 serial ring, 9 lid plate, 10 fixing screw.

Hereinafter, the present invention will be further described with reference to the drawings and examples.

An embodiment of the present invention provides a crimping machine, and as shown in FIGS. 1 to 5, a crimping machine main body 1 is included, and a support leg 2 is welded and fixed to the bottom of the crimping machine main body 1 to crimp. The drive hydraulic pump 3 is fixedly connected to the top of the machine body 1, the output end of the drive hydraulic pump 3 is connected to the drive hydraulic cylinder 4, and the transmission shaft 5 is welded and fixed to the telescopic shaft of the drive hydraulic cylinder 4. The end of the transmission shaft 5 away from the drive hydraulic cylinder 4 is connected to the crimping transmission device 7 by a hinge sheet 6, and the crimping pressing device 8 is installed inside the crimping transmission device 7, and the crimping pressing device 8 is installed. A lid plate 9 is installed in front of the lid plate 9, a fixing screw 10 is installed in front of the lid plate 9, and the screw end of the fixing screw 10 penetrates the lid plate 9 and is screw-connected to the crimping transmission device 7.

The crimping transmission device 7 includes a drive ring 701, a reinforcing rod 702, a sleeve bearing 703, a tube 704, a cylindrical extrusion bin 705, an arcuate passage 706, an arcuate rail 707, a transmission connection sheet 708, a transmission rod 709, and a movable joint 710. The end of the transmission shaft 5, which includes the pressing movable rod 711 and the rail bearing 712 and is separated from the driving hydraulic cylinder 4, is movably connected to the driving ring 701 by a hinge seat 6, and the inner wall of the driving ring 701 is welded to the reinforcing rod 702. The end of the reinforcing rod 702 away from the drive ring 701 is welded and fixed to the sleeve bearing 703, the inner ring of the sleeve bearing 703 is fixedly fitted to the tube 704, and the cylindrical extrusion bin 705 Located in front of the sleeve bearing 703, one end of the tube 704 penetrates the sleeve bearing 703 and is welded to the cylindrical extrusion bin 705, the inside of the cylindrical extrusion bin 705 is hollow and the arcuate passage 706. Is installed near the reinforcing rod 702 of the cylindrical extrusion bin 705, and the inner ring wall of the drive ring 701 is fixedly penetrated through the transmission connection sheet 708 and movably hinged to the transmission rod 709 to be connected to the transmission rod 709. The end away from the transmission connection sheet 708 is weldedly fixed to the movable joint 710, and the end of the transmission rod 709 away from the transmission connection sheet 708 is movably connected to the movable rod 711 by the movable joint 710 and pressed. The end of the movable rod 711 away from the movable joint 710 extends through the arcuate passage 706 into the cylindrical extrusion bin 705, and the arcuate rail 707 is installed on the inner wall of the cylindrical extrusion bin 705 and has an arcuate shape. Located on the outer edge of the passage 706, the inner wall of the arcuate rail 707 is rolled and connected to the rail bearing 712, the inner ring of the rail bearing 712 is fixedly fitted to the pressing movable rod 711, and the outer surface of the cylindrical extrusion bin 705 is It is welded and fixed to the crimping machine main body 1, the lid plate 9 comes into contact with the front surface of the pressing bin 705, and the screw end of the fixing screw 10 penetrates the lid plate 9 and is screwed to the pressing bin 705.

The crimping pressing device 8 includes a pressing connection block 801, a wedge-shaped pressing block 802, a pressing contact groove 803, an anastomotic arc-shaped concave surface 804, an anastomotic arc-shaped lug 805, a movable connecting groove 806 and a serial ring 807, and the pressing movable rod 711 is movable. The end portion away from the joint 710 is movably fitted to the pressing connection block 801 installed inside the cylindrical extrusion bin 705, and the wedge-shaped pressing block 802 is welded and fixed to the pressing connection block 801.

The number of wedge-shaped pressing blocks 802 is eight, the eight wedge-shaped pressing blocks 802 are installed in the radial direction at equal distances with the cylindrical extrusion bin 705 as the central axis, and the pressing contact groove 803 is a cylindrical extrusion of the wedge-shaped pressing block 802. Installed on the side of the bin 705 near the central axis, the anasted arcuate concave surface 804 and the anastomotic arc lug 805 are installed on both sides of the wedge-shaped pressing block 802, respectively, and the anastomotic arc groove 803 between the eight wedge-shaped pressing blocks 802 is annotated. Installed facing the arcuate lug 805, the groove portion of the anastomotic arc groove 803 fits into the anastomotic arcuate lug 805 and is contact-fitted, and the anastomotic arc groove 803 between the eight wedge-shaped pressing blocks 802 has an arcuate arcuate shape. By being installed facing the lug 805, a circular groove can be formed by the eight pressing contact grooves 803 in the process in which the anastomotic arc groove 803 and the anastomotic arc lug 805 are fitted and contacted with each other, and the radial direction of the hose The movable connection groove 806 is installed on the outer surface of the anasted arcuate lug 805, and the serial ring 807 is movably connected to the inside of the movable connection groove 806, which can be easily extruded into and the quality of crimping can be improved. The eight wedge-shaped pressing blocks 802 are connected by a serial ring 807. The drive hydraulic cylinder 4 moves the transmission shaft 5 to the left to drive the drive ring 701 and rotate it along the tube 704, and the drive ring 701 pushes the pressing movable rod 711 in the process of rotating along the tube 704. It can be moved and slid along the interior of the arcuate passage 706, each anastomotic arcuate lug 805 is connected to the serial ring 807 by a movable connecting groove 806, and is moved along the arcuate passage 706 by a pressing movable rod 711. The wedge-shaped pressing blocks 802 can be driven so as to approach or separate from each other, and when the pressing movable rod 711 moves along the arcuate passage 706 until it approaches the tube 704, a plurality of wedge-shaped pressing blocks 802 are driven. And the closing pressing operation can be performed, and the equal amount of power transmitted by the crimping transmission 7 can provide a stable radial pressing force for the wedge pressing block 802, made of hose and iron. A tightly sealed crimp can be made between the tubes, the defective rate can be reduced, and the crimping quality of the hose can be improved.

Operating principle: At the time of use, after fitting the hose and the iron pipe joint, place it in the pressing contact groove 803, and move the transmission shaft 5 to the left by the drive hydraulic cylinder 4 to drive the drive ring 701 along the tube 704. The drive ring 701 can move the pressing movable rod 711 in the process of rotating along the tube 704 and slide along the inside of the arcuate passage 706, and each anastomotic arcuate lug 805 is movable. It is connected to the serial ring 807 by the connecting groove 806, and the wedge-shaped pressing blocks 802 can be driven so as to approach or separate from each other in the process of moving along the arcuate passage 706 by the pressing movable rod 711. When the pressing movable rod 711 moves along the arcuate passage 706 until it approaches the tube 704, a plurality of wedge-shaped pressing blocks 802 are driven to perform a closing pressing operation and a crimping operation of the hose and the iron pipe joint. be able to.

The above description has shown and described the basic principles and main features of the present invention, as well as the advantages of the present invention. Those skilled in the art will describe the present invention not limited to the above-mentioned examples, and the above-mentioned examples and the specification describe only the principle of the present invention, but the present invention will be made without departing from the spirit and scope of the present invention. Various changes and improvements can be made, and it should be understood that these changes and improvements are within the scope of the invention requiring protection. The scope of claiming protection of the present invention is defined by the appended claims and their equivalents.

The crimping transmission includes a drive ring, a reinforcing rod, a sleeve bearing, a tube, a cylindrical extrusion bin, an arcuate passage, an arcuate rail, a transmission connection sheet, a transmission rod, a movable joint, a pressing movable rod and a rail bearing. The distant end of the drive hydraulic cylinder of the transmission shaft is movably connected to the drive ring by a hinge seat, the inner wall of the drive ring is welded and fixed to the reinforcement rod, and the end away from the drive ring of the reinforcement rod. Is welded and fixed to the sleeve bearing, the inner ring of the sleeve bearing is fixedly fitted to the tube, the cylindrical extrusion bin is located in front of the sleeve bearing, and one end of the sleeve penetrates the sleeve bearing. Welded to the cylindrical extrusion bin, the inside of the cylindrical extrusion bin is hollow, the arcuate passage is installed closer to the reinforcing rod of the cylindrical extrusion bin, and the inner ring wall of the drive ring is The transmission connection sheet is fixedly penetrated and movably hinged to the transmission rod, and the end portion of the transmission rod away from the transmission connection sheet is welded and fixed to the movable joint to be fixed from the transmission connection sheet of the transmission rod. The separated end is movably connected to the pressing movable rod by a movable joint, and the end of the pressing movable rod distant from the movable joint extends through the arcuate passage to the inside of the cylindrical extrusion bin, and the circle. The arc-shaped rail is installed on the inner wall of the cylindrical extrusion bin and is located at the outer edge of the arc-shaped passage, the inner wall of the arc-shaped rail is rolled connected to the rail bearing, and the inner ring of the rail bearing is fixedly fitted to the pressing movable rod. Be worn.

Claims (5)

A crimping machine including a crimping machine main body (1), in which a support leg (2) is welded and fixed to the bottom of the crimping machine main body (1), and is fixed to the top of the crimping machine main body (1). The drive hydraulic pump (3) is fixedly connected, the output end of the drive hydraulic pump (3) is connected to the drive hydraulic cylinder (4), and the transmission shaft (5) is connected to the telescopic shaft of the drive hydraulic cylinder (4). Is welded and fixed, and the end portion of the transmission shaft (5) separated from the drive hydraulic cylinder (4) is connected to the crimping transmission device (7) by a hinge sheet (6), and the crimping transmission device (7) is connected. ), A crimping pressing device (8) is installed, a lid plate (9) is installed in front of the crimping pressing device (8), and a fixing screw (10) is installed in front of the lid plate (9). A crimping machine that is installed and has a screw end of the fixing screw (10) that penetrates a lid plate (9) and is screwed to a crimping transmission device (7). The crimping transmission device (7) includes a drive ring (701), a reinforcing rod (702), a sleeve bearing (703), a tube (704), a cylindrical extrusion bin (705), an arc-shaped passage (706), and an arc-shaped rail. (707), transmission connection sheet (708), transmission rod (709), movable joint (710), pressing movable rod (711) and rail bearing (712), and driving hydraulic cylinder (4) of the transmission shaft (5). ) Is movably connected to the drive ring (701) by a hinge sheet (6), and the inner wall of the drive ring (701) is welded and fixed to the reinforcing rod (702) to fix the reinforcing rod (701). The end of the sleeve bearing (703) away from the drive ring (701) is welded and fixed to the sleeve bearing (703), and the inner ring of the sleeve bearing (703) is fixedly fitted to the tube (704) to form the cylindrical shape. The extrusion bin (705) is located in front of the sleeve bearing (703), and one end of the tube (704) penetrates the sleeve bearing (703) and is welded and fixed to the cylindrical extrusion bin (705). The inside of the cylindrical extrusion bin (705) is hollow, and the arcuate passage (706) is installed on the side of the cylindrical extrusion bin (705) close to the reinforcing rod (702), and the inner ring of the drive ring (701). The wall fixedly penetrates the transmission connection sheet (708) and is movably hinged to the transmission rod (709), and the end of the transmission rod (709) away from the transmission connection sheet (708) is a movable joint (). The end of the transmission rod (709) separated from the transmission connection sheet (708) is movably connected to the pressing movable rod (711) by a movable joint (710), and is welded and fixed to the 710). The end of the rod (711) away from the movable joint (710) penetrates the arcuate passage (706) and extends to the inside of the cylindrical extrusion bin (705), and the arcuate rail (707) is cylindrically extruded. Installed on the inner wall of the bin (705) and located on the outer edge of the arcuate passage (706), the inner wall of the arcuate rail (707) is rolled connected to the rail bearing (712) and the inner ring of the rail bearing (712). The crimping machine according to claim 1, wherein the is fixedly fitted to a pressing movable rod (711). The outer surface of the cylindrical extrusion bin (705) is welded and fixed to the crimping machine main body (1), the lid plate (9) comes into contact with the front surface of the pressing bin (705), and the fixing screw (10) The crimping machine according to claim 2, wherein the screw end of the screw is screwed to the pressing bin (705) through the lid plate (9). The crimping pressing device (8) includes a pressing connection block (801), a wedge-shaped pressing block (802), a pressing contact groove (803), an anastomotic arc-shaped concave surface (804), an anastomotic arc-shaped lug (805), and a movable connecting groove (805). The end of the pressing movable rod (711), including the 806) and the serial ring (807), separated from the movable joint (710) by the pressing connection block (801) installed inside the cylindrical extrusion bin (705). The crimping machine according to claim 1, wherein the crimping machine is movably fitted, and the wedge-shaped pressing block (802) is welded and fixed to the pressing connection block (801). The number of the wedge-shaped pressing blocks (802) is eight, and the eight wedge-shaped pressing blocks (802) are installed in the radial direction at equal distances with the cylindrical extrusion bin (705) as the central axis, and the pressing contact grooves (803) are installed. ) Is installed on the side of the wedge-shaped pressing block (802) near the central axis of the cylindrical extrusion bin (705), and the anastomotic arc-shaped concave surface (804) and the anastomotic arc-shaped lug (805) are respectively wedge-shaped pressing blocks (802). The anastomotic groove (803) between the eight wedge-shaped pressing blocks (802) is installed to face the anastomotic arc lug (805), and the movable connecting groove (806) is an anastomotic arc lug. Installed on the outer surface of (805), the serial ring (807) is movably connected to the inside of a movable connecting groove (806), and is connected by a serial ring (807) between eight wedge-shaped pressing blocks (802). The crimping machine according to claim 4, wherein the crimping machine is made.