CN220445205U - Cutting device is used in hydraulic pressure pipe processing - Google Patents

Abstract

The utility model belongs to the technical field of hydraulic pipe machining, and discloses a cutting device for hydraulic pipe machining, which comprises a workbench, a bearing structure and a cutting structure, and is characterized in that: the workbench is vertically provided with a vertical plate, the vertical plate is provided with a top plate, the bearing structure comprises a first hydraulic cylinder, a moving block, a bearing plate and a pressing block, the pressing block is movably arranged on the positioning stud, the pressing block is provided with a cutting groove and a pressing groove, and the pressing groove and the bearing groove are arranged in a one-to-one corresponding structure; the cutting device comprises a second hydraulic cylinder, a fixing frame, a motor and a cutting wheel. According to the utility model, the hydraulic pipe to be cut is placed in the bearing groove on the bearing block, the pressing block can press the hydraulic pipe, the stability of the hydraulic pipe in the cutting process is enhanced, and the bearing frame is provided with the plurality of bearing grooves, so that the plurality of hydraulic pipes can be cut at one time, and the cutting efficiency of the hydraulic pipe is improved.

Description

Cutting device is used in hydraulic pressure pipe processing

Technical Field

The utility model relates to the technical field of hydraulic pipe machining, in particular to a cutting device for hydraulic pipe machining.

Background

In the course of working of hydraulic pipe, need cut into the hydraulic pipe section that length is different with the hydraulic pipe section that satisfies actual production demand, traditional hydraulic pipe cutting is that operating personnel hand cutting machine is direct to the hydraulic pipe more, the hydraulic pipe can produce with the cutting machine and rock, the cutting precision of hydraulic pipe has been reduced, current mode adopts mechanical cutting more, as the patent of application number 202022696128.X has published a hydraulic pipe cutting device, it has solved the problem that lacks the simple and easy device of cutting hydraulic pipe, but it has not to fix the hydraulic pipe from upper and lower both sides, stability is bad influences hydraulic pipe cutting quality, inconvenient quick getting and putting hydraulic pipe makes the problem that cutting operation goes on continuously.

Disclosure of Invention

The utility model aims to solve the problems that the hydraulic pipe cutting quality is not affected due to poor stability and the hydraulic pipe is inconvenient to quickly take and place so that the cutting operation is continuously performed in the conventional hydraulic pipe cutting device, and provides the cutting device for processing the hydraulic pipe, which has reasonable structural design, can fix the hydraulic pipe from the upper side and the lower side, has high stability, can enhance the hydraulic pipe cutting quality and can quickly take and place the hydraulic pipe.

The technical scheme adopted by the utility model is as follows:

the utility model provides a cutting device is used in hydraulic pressure pipe processing, includes workstation, bearing structure and cutting structure, its characterized in that: the workbench is vertically provided with a vertical plate, the vertical plate is provided with a top plate, the bearing structure comprises a first hydraulic cylinder, a moving block, a bearing plate and a pressing block, the first hydraulic cylinder is arranged on the vertical plate, a first piston rod is arranged on the first hydraulic cylinder, the moving block is connected with the first piston rod, the top of the moving block is vertically provided with a positioning stud, the bearing plate is arranged on the moving block through a mounting bolt, the bearing plate is provided with a bearing block and a cutting groove, the bearing block is provided with a bearing groove, the pressing block is movably arranged on the positioning stud, the pressing block is provided with a cutting groove and a pressing groove, and the pressing groove and the bearing groove are arranged into a one-to-one structure; the hydraulic pipe to be cut is placed in the bearing groove on the bearing block, the pressing block can press the hydraulic pipe, stability of the hydraulic pipe in the cutting process is enhanced, a plurality of bearing grooves are formed in the bearing frame, the hydraulic pipe can be cut and processed once, the bearing device moves back and forth under the action of the first hydraulic cylinder, the hydraulic pipe to be cut is driven to move back and forth, cutting efficiency of the hydraulic pipe is improved, the cutting device comprises a second hydraulic cylinder, a fixing frame, a motor and a cutting wheel, the second hydraulic cylinder is arranged on the top plate, a piston rod is arranged on the second hydraulic cylinder, the fixing frame is arranged on the second hydraulic cylinder, a bearing is arranged on the inner wall of the fixing frame, the motor is arranged on the outer wall of the fixing frame, a transmission shaft is arranged on the motor, one end of the transmission shaft is inserted into the bearing, the cutting wheel is movably mounted on the transmission shaft, the cutting wheel moves vertically under the operation of the second hydraulic cylinder, and rotates vertically after passing through the cutting groove on the pressing block, and the hydraulic pipe between the pressing block and the bearing plate is cut and processed.

Preferably, the riser of workstation and riser between be provided with the horizontal pole, the outer wall of movable block opposite both sides on be provided with the slider, be provided with a smooth section of thick bamboo on the slider to transversely pass a smooth section of thick bamboo with the horizontal pole, the movable block round trip movement under the effect of pneumatic cylinder one, the slider on the movable block moves along the horizontal pole round trip movement, the horizontal pole plays limiting displacement to the removal process that the movable block drove the pneumatic tube, avoids the movable block to drive the pneumatic tube and send to rock in the removal process, can strengthen the cutting quality of pneumatic tube.

Preferably, the movable block in be provided with the inner chamber, be provided with the dust collection drawer that can follow the movable block in the movable block middle part and take out, the cutting wheel is vertical to be removed under the operation of pneumatic cylinder two, rotate under the effect of motor, after the vertical cutting groove of passing on the briquetting, cut the hydraulic pipe between briquetting and the loading board and handle, the piece that produces in the hydraulic pipe cutting process falls into the dust collection drawer in the movable block inner chamber through the cutting groove on the loading board, collect the piece that produces the cutting of hydraulic pipe and handle, avoid the piece to scatter the polluted environment at will.

Preferably, the movable block bottom be provided with the exhaust pipe to be provided with the fan in the exhaust pipe, the fan is discharged the air current in the movable block inner chamber from the exhaust pipe, the piece that makes the air current of movable block top carry the cutting of hydraulic pressure pipe to produce enters into the inner chamber in, the dust collection drawer collects the piece, avoid the piece to flow upwards from the cutting groove on the briquetting, improved environmental protection performance, in order to further improve the collection effect of piece, still can set up the dust collection drawer bottom into the filter screen structure, filter the piece that enters into in the dust collection drawer, the piece remains in the dust collection drawer, the air current is discharged from the exhaust pipe after the dust collection drawer.

Preferably, the briquetting relative both sides be provided with the connecting plate, be provided with the connecting hole on the connecting plate, pass the connecting hole with the locating stud vertically, be provided with the connection spiral shell section of thick bamboo on the locating stud of connecting plate top, and be provided with the handle on the connection spiral shell section of thick bamboo, place the hydraulic pipe that needs cutting treatment in the loading groove on the loading board, rotate the handle on the connection spiral shell section of thick bamboo, the connection spiral shell section of thick bamboo descends along Ding Wei double-screw, makes connection spiral shell section of thick bamboo push down connecting plate and briquetting, the indent on the briquetting is pressed it from the hydraulic pipe top, can firmly fix the hydraulic pipe between loading block and briquetting, the stability of reinforcing hydraulic pipe in the cutting process, thereby improve the cutting quality of hydraulic pipe.

Preferably, the connecting plate is connected with the moving block through a spring, the spring is sleeved on a positioning stud between the connecting plate and the moving block, when the hydraulic cylinder is fixed, the connecting plate descends along the positioning stud, the connecting plate compresses the spring, after the hydraulic pipe is cut, the connecting screw cylinder is reversely rotated, the connecting screw cylinder ascends along the positioning stud, the compressed spring pushes the connecting plate to ascend, the pressing block ascends, the pressing groove is separated from the cut hydraulic pipe section, and a new hydraulic pipe needing to be cut is placed after the cut hydraulic pipe is taken out, so that the taking and placing efficiency of the hydraulic pipe is improved.

Preferably, the cutting wheel on be provided with the collar, fix the collar on the transmission shaft through fastening bolt to set up the cutting wheel into the structure that can adjust the position on the transmission shaft through collar, fastening bolt, through adjusting the position of cutting wheel on the transmission shaft, make the hydraulic pipe section after the cutting satisfy the requirement of different length, improved hydraulic pipe cutting device's commonality.

Preferably, the fixing frame side wall on be provided with the scale, be convenient for the staff through the scale and directly perceived the position of cutting wheel on the transmission shaft, also can accurate adjustment cutting wheel and cutting wheel between the distance to can cut out the hydraulic pipe section that satisfies the length requirement.

The beneficial effects are that:

1. the hydraulic pipe to be cut is placed in the bearing groove on the bearing block, the pressing block can press the hydraulic pipe, the stability of the hydraulic pipe in the cutting process is enhanced, the bearing frame is provided with a plurality of bearing grooves, the hydraulic pipes can be cut at one time, and the cutting quality and the cutting efficiency of the hydraulic pipe are improved.

2. After the hydraulic pipe is cut, the connecting screw cylinder is reversely rotated, the connecting screw cylinder ascends along the positioning stud, the compressed spring pushes the connecting plate to ascend, the pressing block ascends, the pressing groove is separated from the cut hydraulic pipe section, a new hydraulic pipe needing to be cut is placed after the cut hydraulic pipe is taken out, and the taking and placing efficiency of the hydraulic pipe is improved.

3. The mounting ring is fixed on the transmission shaft through the fastening bolt, the cutting wheel is arranged to be of a structure capable of adjusting the position on the transmission shaft through the mounting ring and the fastening bolt, and the cut hydraulic pipe section meets the requirements of different lengths through adjusting the position of the cutting wheel on the transmission shaft, so that the universality of the hydraulic pipe cutting device is improved.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic view of a part of the structure of the present utility model, illustrating the internal structure of the moving block and the cross bar.

Fig. 3 is a schematic view of a part of the structure of the present utility model, illustrating the connection structure of the moving block and the inner cavity.

FIG. 4 is a partial schematic view of the present utility model illustrating the connection structure of the positioning stud and the connection screw.

Fig. 5 is a schematic view of a part of the structure of the present utility model, showing the connection structure of the pressing block and the cutting groove.

Fig. 6 is a schematic view of a part of the structure of the present utility model, illustrating the connection structure between the fixing frame and the motor.

Fig. 7 is a schematic diagram of another embodiment of the present utility model.

In the figure: 1. a hydraulic drive system for a hydraulic drive system includes a workbench, a hydraulic cylinder I, a moving block, a bearing plate 4, a pressing block 5, a hydraulic cylinder II, a fixing frame 7, a motor 8, a cutting wheel 9, a vertical plate 10, a top plate 11, a cross rod 12, a piston rod I, a positioning stud 15, an inner cavity 16, a dust collecting drawer 17, a sliding block 18, an exhaust pipe 19, a fan 20, a bearing block 21, a mounting bolt 22, a bearing groove 23, a cutting groove 24, a pressing groove 25, a connecting plate 26, a connecting hole 27, a connecting screw cylinder 28, a handle 29, a spring 30, a piston rod II, a bearing 31, a graduated scale 32, a driving shaft 33, a mounting ring 34, a fastening bolt 35, a sliding cylinder 36 and a skid bar 37.

Detailed Description

The utility model will be described in more detail below with reference to the accompanying drawings.

Embodiment one:

1-6 show, a cutting device is used in hydraulic pressure pipe processing, including workstation 1, bearing structure and cutting structure, its characterized in that: the workbench 1 is vertically provided with a vertical plate 10, the vertical plate 10 is provided with a top plate 11, the bearing structure comprises a first hydraulic cylinder 2, a moving block 3, a bearing plate 4 and a pressing block 5, the first hydraulic cylinder 2 is arranged on the vertical plate 10, a first piston rod 13 is arranged on the first hydraulic cylinder 2, the moving block 3 is connected with the first piston rod 13, the top of the moving block 3 is vertically provided with a positioning stud 14, the bearing plate 4 is arranged on the moving block 3 through a mounting bolt 21, the bearing plate 4 is provided with a bearing block 20 and a cutting groove 23, and the bearing block 20 is provided with a bearing groove 22, the pressing block 5 is movably arranged on the positioning stud 14, and the pressing block 5 is provided with the cutting groove 23 and the pressing groove 24, and the pressing groove 24 and the bearing groove 22 are arranged into a one-to-one structure; the hydraulic pipe to be cut is placed in the bearing groove 22 on the bearing block 20, the pressing block 5 can press the hydraulic pipe, stability of the hydraulic pipe in the cutting process is enhanced, a plurality of bearing grooves 22 are formed in the bearing frame, cutting treatment can be conducted on a plurality of hydraulic pipes at one time, the bearing device moves back and forth under the action of the first hydraulic cylinder 2, the hydraulic pipe to be cut is driven to move back and forth, cutting efficiency of the hydraulic pipe is improved, the cutting device comprises the second hydraulic cylinder 6, a fixing frame 7, a motor 8 and a cutting wheel 9, the second hydraulic cylinder 6 is arranged on the top plate 11, a piston rod 30 II is arranged on the second hydraulic cylinder 6, the fixing frame 7 is arranged on the second hydraulic cylinder 6, a bearing 31 is arranged on the inner wall of the fixing frame 7, the motor 8 is arranged on the outer wall of the fixing frame 7, a transmission shaft 33 is arranged on the motor 8, one end of the transmission shaft 33 is inserted into the bearing 31, the cutting wheel 9 is movably mounted on the transmission shaft 33, the cutting wheel 9 moves vertically under the operation of the second hydraulic cylinder 6, rotates under the action of the motor 8, and passes through the pressing block 5 and then carries out treatment on the hydraulic pipe 4.

Preferably, a cross rod 12 is arranged between the vertical plate 10 and the vertical plate 10 of the workbench 1, sliding blocks 17 are arranged on the outer walls of two opposite sides of the moving block 3, sliding drums 36 are arranged on the sliding blocks 17, the cross rod 12 transversely passes through the sliding drums 36, the moving block 3 moves back and forth under the action of the first hydraulic cylinder 2, the sliding blocks 17 on the moving block 3 move back and forth along the cross rod 12, the cross rod 12 plays a limiting role on the moving process of the moving block 3 driving the hydraulic pipe, the shaking is avoided when the moving block 3 drives the hydraulic pipe to move, and the cutting quality of the hydraulic pipe can be enhanced.

Preferably, an inner cavity 15 is arranged in the moving block 3, a dust collecting drawer 16 which can be pulled out from the moving block 3 is arranged in the middle of the moving block 3, the cutting wheel 9 moves vertically under the operation of the hydraulic cylinder II 6, rotates under the action of the motor 8, vertically passes through the cutting groove 23 on the pressing block 5, then cuts the hydraulic pipe between the pressing block 5 and the bearing plate 4, and scraps generated in the cutting process of the hydraulic pipe fall into the dust collecting drawer 16 in the inner cavity 15 of the moving block 3 through the cutting groove 23 on the bearing plate 4, so that scraps generated in the cutting of the hydraulic pipe are collected and treated, and random scattering of the scraps is avoided, so that the environment is polluted.

Preferably, an exhaust pipe 18 is arranged at the bottom of the moving block 3, a fan 19 is arranged in the exhaust pipe 18, the fan 19 discharges the air flow in the inner cavity 15 of the moving block 3 from the exhaust pipe 18, so that the air flow above the moving block 3 carries the scraps generated by cutting the hydraulic pipe into the inner cavity 15, the dust collecting drawer 16 collects the scraps, the scraps are prevented from flowing upwards from the cutting groove 23 on the pressing block 5, the environmental protection performance is improved, the bottom of the dust collecting drawer 16 can be provided with a filter screen structure for further improving the collection effect of the scraps, the scraps entering the dust collecting drawer 16 are filtered, the scraps stay in the dust collecting drawer 16, and the air flow is discharged from the exhaust pipe 18 after passing through the dust collecting drawer 16.

Preferably, the connecting plates 25 are arranged on two opposite sides of the pressing block 5, the connecting plates 25 are provided with connecting holes 26, the positioning studs 14 vertically penetrate through the connecting holes 26, the positioning studs 14 above the connecting plates 25 are provided with connecting screw cylinders 27, handles 28 are arranged on the connecting screw cylinders 27, hydraulic pipes needing cutting treatment are placed in the bearing grooves 22 on the bearing plates 4, the handles 28 on the connecting screw cylinders 27 are rotated, the connecting screw cylinders 27 descend along the Ding Wei studs, the connecting screw cylinders 27 push the connecting plates 25 and the pressing block 5 downwards, the pressing grooves 24 on the pressing block 5 press the hydraulic pipes from the tops of the hydraulic pipes, the hydraulic pipes can be firmly fixed between the bearing blocks 20 and the pressing block 5, and the stability of the hydraulic pipes in the cutting process is enhanced, so that the cutting quality of the hydraulic pipes is improved.

Preferably, the connecting plate 25 is connected with the moving block 3 through a spring 29, the spring 29 is sleeved on the positioning stud 14 between the connecting plate 25 and the moving block 3, when the hydraulic cylinder is fixed, the connecting plate 25 descends along the positioning stud 14, the connecting plate 25 compresses the spring 29, after the hydraulic pipe is cut, the connecting screw cylinder 27 reversely rotates, the connecting screw cylinder 27 ascends along the positioning stud 14, the compressed spring 29 pushes the connecting plate 25 to ascend, the pressing block 5 ascends, the pressing groove 24 is separated from the cut hydraulic pipe section, and a new hydraulic pipe to be cut is put into after the cut hydraulic pipe is taken out, so that the taking and putting efficiency of the hydraulic pipe is improved.

Preferably, the mounting ring 34 is arranged on the cutting wheel 9, the mounting ring 34 is fixed on the transmission shaft 33 through the fastening bolt 35, the cutting wheel 9 is arranged to be of a structure capable of adjusting the position on the transmission shaft 33 through the mounting ring 34 and the fastening bolt 35, and the cut hydraulic pipe section meets the requirements of different lengths through adjusting the position of the cutting wheel 9 on the transmission shaft 33, so that the universality of the hydraulic pipe cutting device is improved.

Preferably, the side wall of the fixing frame 7 is provided with a graduated scale 32, and staff can intuitively know the position of the cutting wheel 9 on the transmission shaft 33 through the graduated scale 32, and can accurately adjust the distance between the cutting wheel 9 and the cutting wheel 9, so that the hydraulic pipe section meeting the length requirement can be cut.

Embodiment two:

fig. 7 shows, a cutting device for hydraulic pipe processing, including workstation 1, bearing structure and cutting structure, its characterized in that: the workbench 1 is vertically provided with a vertical plate 10, the vertical plate 10 is provided with a top plate 11, the bearing structure comprises a first hydraulic cylinder 2, a moving block 3, a bearing plate 4 and a pressing block 5, the first hydraulic cylinder 2 is arranged on the vertical plate 10, a first piston rod 13 is arranged on the first hydraulic cylinder 2, the moving block 3 is connected with the first piston rod 13, the top of the moving block 3 is vertically provided with a positioning stud 14, the bearing plate 4 is arranged on the moving block 3 through a mounting bolt 21, the bearing plate 4 is provided with a bearing block 20 and a cutting groove 23, and the bearing block 20 is provided with a bearing groove 22, the pressing block 5 is movably arranged on the positioning stud 14, and the pressing block 5 is provided with the cutting groove 23 and the pressing groove 24, and the pressing groove 24 and the bearing groove 22 are arranged into a one-to-one structure; the hydraulic pipe to be cut is placed in the bearing groove 22 on the bearing block 20, the pressing block 5 can press the hydraulic pipe, stability of the hydraulic pipe in the cutting process is enhanced, a plurality of bearing grooves 22 are formed in the bearing frame, cutting treatment can be conducted on a plurality of hydraulic pipes at one time, the bearing device moves back and forth under the action of the first hydraulic cylinder 2, the hydraulic pipe to be cut is driven to move back and forth, cutting efficiency of the hydraulic pipe is improved, the cutting device comprises the second hydraulic cylinder 6, a fixing frame 7, a motor 8 and a cutting wheel 9, the second hydraulic cylinder 6 is arranged on the top plate 11, a piston rod 30 II is arranged on the second hydraulic cylinder 6, the fixing frame 7 is arranged on the second hydraulic cylinder 6, a bearing 31 is arranged on the inner wall of the fixing frame 7, the motor 8 is arranged on the outer wall of the fixing frame 7, a transmission shaft 33 is arranged on the motor 8, one end of the transmission shaft 33 is inserted into the bearing 31, the cutting wheel 9 is movably mounted on the transmission shaft 33, the cutting wheel 9 moves vertically under the operation of the second hydraulic cylinder 6, rotates under the action of the motor 8, and passes through the pressing block 5 and then carries out treatment on the hydraulic pipe 4.

Preferably, a cross rod 12 is arranged between the vertical plate 10 and the vertical plate 10 of the workbench 1, sliding blocks 17 are arranged on the outer walls of two opposite sides of the moving block 3, sliding drums 36 are arranged on the sliding blocks 17, the cross rod 12 transversely passes through the sliding drums 36, the moving block 3 moves back and forth under the action of the first hydraulic cylinder 2, the sliding blocks 17 on the moving block 3 move back and forth along the cross rod 12, the cross rod 12 plays a limiting role on the moving process of the moving block 3 driving the hydraulic pipe, the shaking is avoided when the moving block 3 drives the hydraulic pipe to move, and the cutting quality of the hydraulic pipe can be enhanced.

Preferably, an inner cavity 15 is arranged in the moving block 3, a dust collecting drawer 16 which can be pulled out from the moving block 3 is arranged in the middle of the moving block 3, the cutting wheel 9 moves vertically under the operation of the hydraulic cylinder II 6, rotates under the action of the motor 8, vertically passes through the cutting groove 23 on the pressing block 5, then cuts the hydraulic pipe between the pressing block 5 and the bearing plate 4, and scraps generated in the cutting process of the hydraulic pipe fall into the dust collecting drawer 16 in the inner cavity 15 of the moving block 3 through the cutting groove 23 on the bearing plate 4, so that scraps generated in the cutting of the hydraulic pipe are collected and treated, and random scattering of the scraps is avoided, so that the environment is polluted.

Preferably, an exhaust pipe 18 is arranged at the bottom of the moving block 3, a fan 19 is arranged in the exhaust pipe 18, the fan 19 discharges the air flow in the inner cavity 15 of the moving block 3 from the exhaust pipe 18, so that the air flow above the moving block 3 carries the scraps generated by cutting the hydraulic pipe into the inner cavity 15, the dust collecting drawer 16 collects the scraps, the scraps are prevented from flowing upwards from the cutting groove 23 on the pressing block 5, the environmental protection performance is improved, the bottom of the dust collecting drawer 16 can be provided with a filter screen structure for further improving the collection effect of the scraps, the scraps entering the dust collecting drawer 16 are filtered, the scraps stay in the dust collecting drawer 16, and the air flow is discharged from the exhaust pipe 18 after passing through the dust collecting drawer 16.

Preferably, the connecting plates 25 are arranged on two opposite sides of the pressing block 5, the connecting plates 25 are provided with connecting holes 26, the positioning studs 14 vertically penetrate through the connecting holes 26, the positioning studs 14 above the connecting plates 25 are provided with connecting screw cylinders 27, handles 28 are arranged on the connecting screw cylinders 27, hydraulic pipes needing cutting treatment are placed in the bearing grooves 22 on the bearing plates 4, the handles 28 on the connecting screw cylinders 27 are rotated, the connecting screw cylinders 27 descend along the Ding Wei studs, the connecting screw cylinders 27 push the connecting plates 25 and the pressing block 5 downwards, the pressing grooves 24 on the pressing block 5 press the hydraulic pipes from the tops of the hydraulic pipes, the hydraulic pipes can be firmly fixed between the bearing blocks 20 and the pressing block 5, and the stability of the hydraulic pipes in the cutting process is enhanced, so that the cutting quality of the hydraulic pipes is improved.

Preferably, the connecting plate 25 is connected with the moving block 3 through a spring 29, the spring 29 is sleeved on the positioning stud 14 between the connecting plate 25 and the moving block 3, when the hydraulic cylinder is fixed, the connecting plate 25 descends along the positioning stud 14, the connecting plate 25 compresses the spring 29, after the hydraulic pipe is cut, the connecting screw cylinder 27 reversely rotates, the connecting screw cylinder 27 ascends along the positioning stud 14, the compressed spring 29 pushes the connecting plate 25 to ascend, the pressing block 5 ascends, the pressing groove 24 is separated from the cut hydraulic pipe section, and a new hydraulic pipe to be cut is put into after the cut hydraulic pipe is taken out, so that the taking and putting efficiency of the hydraulic pipe is improved.

Preferably, the mounting ring 34 is arranged on the cutting wheel 9, the mounting ring 34 is fixed on the transmission shaft 33 through the fastening bolt 35, the cutting wheel 9 is arranged to be of a structure capable of adjusting the position on the transmission shaft 33 through the mounting ring 34 and the fastening bolt 35, and the cut hydraulic pipe section meets the requirements of different lengths through adjusting the position of the cutting wheel 9 on the transmission shaft 33, so that the universality of the hydraulic pipe cutting device is improved.

Preferably, the side wall of the fixing frame 7 is provided with a graduated scale 32, and staff can intuitively know the position of the cutting wheel 9 on the transmission shaft 33 through the graduated scale 32, and can accurately adjust the distance between the cutting wheel 9 and the cutting wheel 9, so that the hydraulic pipe section meeting the length requirement can be cut.

Preferably, the anti-slip strips 37 are arranged on the inner walls of the bearing groove 22 and the pressing groove 24, so that the friction force of the hydraulic pipe in the bearing groove 22 and the pressing groove 24 can be increased through the anti-slip strips 37, the phenomenon that the hydraulic pipe idles between the bearing groove 22 and the pressing groove 24 in the cutting process is avoided, the stability of the hydraulic pipe in the cutting process is enhanced, and the cutting quality of the hydraulic pipe is improved.

Working principle: according to the different external diameter sizes of the hydraulic pipes, the bearing plate 4 of the corresponding bearing groove 22 and the pressing block 5 of the corresponding pressing groove 24 are selected, after the bearing plate 4 and the pressing block 5 are installed, the hydraulic pipe to be cut is placed in the bearing groove 22, the handle 28 on the connecting screw cylinder 27 is rotated, the connecting screw cylinder 27 descends along the Ding Wei stud, the connecting screw cylinder 27 pushes the connecting plate 25 and the pressing block 5 downwards, the pressing groove 24 on the pressing block 5 presses the hydraulic pipe from the top of the hydraulic pipe, the first hydraulic cylinder 2, the second hydraulic cylinder 6, the motor 8 and the fan 19 are started, the first hydraulic cylinder 2 pushes the moving block 3 and the fixed hydraulic pipe to move, the cutting wheel 9 vertically moves under the operation of the second hydraulic cylinder 6, the hydraulic pipe between the pressing block 5 and the bearing plate 4 is cut after the cutting groove 23 vertically penetrating through the pressing block 5, the air flow in the inner cavity 15 of the moving block 3 is discharged from the exhaust pipe 18, the air flow above the moving block 3 carries the hydraulic pipe to cut and generate into the inner cavity 15, the dust collecting drawer 16 pushes the collecting pipe to collect dust, the second hydraulic pipe is pushed by the cutting wheel 9, the cutting pipe is pushed upwards by the cutting wheel is pushed upwards, the cutting pipe is pushed upwards after the cutting pipe is separated by the cutting wheel 9, the cutting pipe is pushed upwards after the cutting pipe is pushed upwards, the cutting pipe is cut by the cutting pipe is separated by the cutting pipe is connected with the cutting pipe, and the cutting pipe is separated, and the cutting pipe is cut by the cutting pipe is separated, and the cutting pipe is cut into the cutting pipe is separated.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

In the description of the present utility model, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model.

The utility model is not related in part to the same as or can be practiced with the prior art.

Claims (8)

1. The utility model provides a cutting device is used in hydraulic pressure pipe processing, includes workstation, bearing structure and cutting structure, its characterized in that: the workbench is vertically provided with a vertical plate, the vertical plate is provided with a top plate, the bearing structure comprises a first hydraulic cylinder, a moving block, a bearing plate and a pressing block, the first hydraulic cylinder is arranged on the vertical plate, a first piston rod is arranged on the first hydraulic cylinder, the moving block is connected with the first piston rod, the top of the moving block is vertically provided with a positioning stud, the bearing plate is arranged on the moving block through a mounting bolt, the bearing plate is provided with a bearing block and a cutting groove, the bearing block is provided with a bearing groove, the pressing block is movably arranged on the positioning stud, the pressing block is provided with a cutting groove and a pressing groove, and the pressing groove and the bearing groove are arranged into a one-to-one structure; the cutting device comprises a second hydraulic cylinder, a fixing frame, a motor and a cutting wheel, wherein the second hydraulic cylinder is arranged on the top plate, a second piston rod is arranged on the second hydraulic cylinder, the fixing frame is arranged on the second hydraulic cylinder, a bearing is arranged on the inner wall of the fixing frame, the motor is arranged on the outer wall of the fixing frame, a transmission shaft is arranged on the motor, one end of the transmission shaft is inserted into the bearing, and the cutting wheel is movably mounted on the transmission shaft.

2. The cutting device for hydraulic pipe machining according to claim 1, wherein: the horizontal rod is arranged between the vertical plates of the workbench, sliding blocks are arranged on the outer walls of the two opposite sides of the moving block, sliding drums are arranged on the sliding blocks, and the horizontal rod transversely penetrates through the sliding drums.

3. The cutting device for hydraulic pipe machining according to claim 1 or 2, characterized in that: an inner cavity is arranged in the moving block, and a dust collection drawer which can be pulled out from the moving block is arranged in the middle of the moving block.

4. The cutting device for hydraulic pipe machining according to claim 1, wherein: the bottom of the moving block is provided with an exhaust pipe, and a fan is arranged in the exhaust pipe.

5. The cutting device for hydraulic pipe machining according to claim 1, wherein: the pressing block is provided with connecting plates at two opposite sides, connecting holes are formed in the connecting plates, positioning studs vertically penetrate through the connecting holes, connecting screw barrels are arranged on the positioning studs above the connecting plates, and handles are arranged on the connecting screw barrels.

6. The cutting device for hydraulic pipe machining according to claim 5, wherein: the connecting plate is connected with the moving block through a spring, and the spring is sleeved on the positioning stud between the connecting plate and the moving block.

7. The cutting device for hydraulic pipe machining according to claim 1, wherein: the cutting wheel is provided with a mounting ring, the mounting ring is fixed on the transmission shaft through a fastening bolt, and the cutting wheel is provided with a structure capable of adjusting the position on the transmission shaft through the mounting ring and the fastening bolt.

8. The cutting device for hydraulic pipe machining according to claim 1, wherein: the side wall of the fixing frame is provided with a graduated scale.