CN215864245U - High-temperature alloy processing equipment for intelligent terminal - Google Patents

Abstract

The utility model provides high-temperature alloy processing equipment for an intelligent terminal, which belongs to the technical field of high-temperature alloy processing equipment and comprises a moving seat, wherein an installation frame is arranged at the upper end of the moving seat, a lifting mechanism is arranged at the upper end of the installation frame, a pressing mechanism is arranged in the middle of a horizontal moving mechanism, and a circulating water supply mechanism is arranged on the side of the moving seat. The utility model solves the problems that the side of the equipment is not provided with a baffle structure when the high-temperature alloy processing equipment for the intelligent terminal is cooled at present, so that water in the cooling process is easy to fly out, the cooled water cannot be recycled, serious resource waste is caused, the cooled high-temperature alloy cannot be limited, the high-temperature alloy is easy to slide in the scouring and cooling process, meanwhile, the lower end surface of the high-temperature alloy is attached to the desktop of the equipment, only one end surface of the high-temperature alloy is cooled, the cooling efficiency is low, and the treatment efficiency of the equipment is greatly reduced.

Description

High-temperature alloy processing equipment for intelligent terminal

The technical field is as follows:

the utility model belongs to the technical field of high-temperature alloy processing equipment, and particularly relates to high-temperature alloy processing equipment for an intelligent terminal.

Background art:

the high-temperature alloy is a metal material which takes iron, nickel and cobalt as the base and can work for a long time at a high temperature of more than 600 ℃ under the action of certain stress, and has the comprehensive properties of higher high-temperature strength, good oxidation resistance and corrosion resistance, good fatigue property, good fracture toughness and the like. The high-temperature alloy is a single austenite structure and has good structure stability and use reliability at various temperatures. The superalloy requires cooling of the processed superalloy during processing, which is typically handled by superalloy cooling equipment.

Present high temperature alloy processing equipment to intelligent terminal's avris of equipment does not have the shelves structure of separating when the cooling, and then the water in the cooling process easily flies out, also can't use refrigerated water circulation simultaneously, cause serious wasting of resources, and can't carry on spacingly to refrigerated high temperature alloy, result in high temperature alloy's slip easily in scouring and cooling process, and then the equipment of being not convenient for is to high temperature alloy's cooling, high temperature alloy's lower terminal surface and the desktop laminating of equipment simultaneously, only cool off from high temperature alloy's a terminal surface, the cooling efficiency is low, greatly reduced the treatment effeciency of equipment.

The utility model content is as follows:

the utility model provides high-temperature alloy processing equipment for an intelligent terminal, which aims to solve the problems that the side of the equipment is not provided with a baffle structure when the high-temperature alloy processing equipment for the intelligent terminal is cooled, so that water in the cooling process is easy to fly out, the cooled water cannot be recycled, serious resource waste is caused, the cooled high-temperature alloy cannot be limited, the high-temperature alloy is easy to slide in the scouring and cooling process, the equipment is inconvenient to cool the high-temperature alloy, the lower end face of the high-temperature alloy is attached to the tabletop of the equipment, only one end face of the high-temperature alloy is cooled, the cooling efficiency is low, and the treatment efficiency of the equipment is greatly reduced.

The embodiment of the utility model provides high-temperature alloy processing equipment for an intelligent terminal, which comprises a moving seat, wherein an installation frame is arranged at the upper end of the moving seat, a water blocking plate is arranged at the upper end of the moving seat, which is positioned at the outer side of the installation frame, a lifting mechanism is arranged at the upper end of the installation frame, a horizontal moving mechanism is arranged on the lifting mechanism, a pressing mechanism is arranged at the middle position of the horizontal moving mechanism, an angle adjusting mechanism is arranged on the horizontal moving mechanism, a circulating water supply mechanism is arranged at the side of the moving seat, a push rod is arranged at the outer side of the circulating water supply mechanism on the moving seat, and a control panel is arranged at the front side of the moving seat.

Through adopting above-mentioned technical scheme, utilize the water-blocking plate can separate the shelves with the water of spill in the cooling process, ensure that refrigerated hydroenergy falls on removing the seat, simultaneously cool off the water after using through circulation water supply mechanism, recycle the water after cooling again, avoid causing the waste of water resource, and remove seat and hold-down mechanism and carry out spacingly with superalloy, the area of contact of superalloy with removing the seat has been reduced simultaneously, superalloy's cooling area has been increased, and then the treatment effeciency of equipment has been improved greatly.

Further, the inside of removing the seat is provided with the water storage chamber, the inlet opening has evenly been seted up to the up end of removing the seat, the inlet opening communicates with the water storage chamber each other, the avris that the up end that removes the seat is located the inlet opening is provided with the fore-set, the fore-set is equidistant distribution.

Through adopting above-mentioned technical scheme, utilize the water storage chamber to store water to and through the leading-in water storage intracavity of water after the inlet opening will use, avoided the waste of water resource, evenly distributed's fore-set can hold up high temperature alloy's lower terminal surface simultaneously, and then increase high temperature alloy's cooling area, improve equipment's treatment effeciency.

Further, elevating system includes pneumatic cylinder one, anchor strut and lifter plate, the upper end at the mounting bracket is installed to pneumatic cylinder one, anchor strut fixed connection is passed through with the upper end of mounting bracket in the both sides of pneumatic cylinder one, the lifter plate is installed to the inboard that the expansion end of pneumatic cylinder one extends to the mounting bracket, four turnings of lifter plate and four pillar sliding connection of mounting bracket, pneumatic cylinder one is connected with the control panel electricity.

Through adopting above-mentioned technical scheme, the shrink through pneumatic cylinder one drives the lifter plate and removes, and then conveniently to hold-down mechanism and angle adjustment mechanism's regulation of position.

Further, the horizontal moving mechanism comprises mounting grooves, sliding grooves, a lead screw, a moving block, two sliding blocks, a mounting cavity, driven bevel gears, a driving bevel gear and a motor, wherein the mounting grooves are formed in two sides of the lower end surface of the lifting plate, the upper end of each mounting groove is communicated with the corresponding sliding groove, the lead screw is rotatably connected inside each mounting groove, the surface of the lead screw is in threaded connection with the corresponding moving block, the sliding blocks are mounted at the upper ends of the moving blocks and are in sliding connection with the corresponding sliding grooves, the mounting cavity is formed in the lifting plate between the two mounting grooves, one end of the lead screw extends to the inner side of the mounting cavity and is provided with the driven bevel gear, the driving bevel gear is rotatably connected inside the mounting cavity, the two driven bevel gears are in meshed connection with the driving bevel gear, the motor is fixed at the lower end of the lifting plate, and the transmission end of the motor is in transmission connection with one end of the driving bevel gear, the motor is electrically connected with the control panel.

Through adopting above-mentioned technical scheme, drive the initiative helical gear through the motor and rotate, under the effect of initiative helical gear, driven helical gear, lead screw and slider, the movable block removes, and then drives angle adjustment mechanism through the movable block and removes, realizes the removal cooling to high temperature alloy.

Furthermore, the pressing mechanism comprises a second hydraulic cylinder, a pressing plate and a launder, the second hydraulic cylinder is fixed at the lower end of the motor, the pressing plate is installed at the movable end of the second hydraulic cylinder, the launder is uniformly formed in the lower end face of the pressing plate, and the second hydraulic cylinder is electrically connected with the control panel.

Through adopting above-mentioned technical scheme, the second extension of pneumatic cylinder promotes the clamp plate and removes, and the clamp plate compresses tightly the location with high temperature alloy, and then avoids equipment to appear sliding when cooling to high temperature alloy.

Further, angle adjustment mechanism includes connecting block, shower nozzle, upper junction pole, lower connecting rod, pneumatic cylinder three and solenoid valve, the lower extreme at the movable block is fixed to the connecting block, the avris of connecting block rotates through the pivot and is connected with the shower nozzle, connecting block and the left side of shower nozzle are installed respectively and are gone up connecting rod and lower connecting rod, it rotates through the pivot to be connected with pneumatic cylinder three to go up between connecting rod and the lower connecting rod, install the solenoid valve in the shower nozzle, pneumatic cylinder three and solenoid valve are connected with the control panel electricity respectively.

Through adopting above-mentioned technical scheme, utilize the flexible shower nozzle rotation that drives of pneumatic cylinder three, adjust its angle through rotatory shower nozzle, and then improve equipment's cooling efficiency.

Further, the circulating water supply mechanism comprises a shell, a cooling fan, a condensation pipe, a first connecting pipe, a water pump, a second connecting pipe, a heat discharge hole, a third connecting pipe, a shunt pipe and a drain valve, wherein the shell is fixed on the movable seat, the cooling fan is installed on the left side of the shell, the cooling fan is communicated with the inner side of the shell, the condensation pipe is installed on the inner side of the shell, the first connecting pipe is installed at the lower end of the shell, the lower end of the condensation pipe is communicated with the upper end of the first connecting pipe, the drain valve is installed on the left side of the first connecting pipe, the water pump is communicated on the right side of the first connecting pipe, the water inlet end of the water pump is communicated with the lower end of the water storage cavity through the second connecting pipe, the heat discharge hole is uniformly formed in the front side and the rear side of the shell, the third connecting pipe is installed at the upper end of the shell, and the lower end of the third connecting pipe is communicated with the upper end of the condensation pipe, the upper end of the third connecting pipe is communicated with a flow dividing pipe, the left end and the right end of the flow dividing pipe are respectively communicated with the two spray heads, and the cooling fan and the water pump are respectively electrically connected with the control panel.

Through adopting above-mentioned technical scheme, utilize the water pump to pass through in the water of water storage cavity connecting pipe one and the two suction condenser pipes of connecting pipe, cooling blower bloies, cools off the hot water in the condenser pipe, and the water after the cooling is through using in connecting pipe three and the leading-in shower nozzle of shunt tubes, and then realizes recycling the water after using, greatly reduced the waste of water resource.

The utility model has the beneficial effects that:

1. the utility model can separate the water splashed in the cooling process by the water-blocking plate through the arrangement of the water-blocking plate, ensures that the cooled water can fall on the movable seat, and simultaneously, through the arrangement of the circulating water supply mechanism, the circulating water supply mechanism cools the used water and recycles the cooled water, thereby avoiding the waste of water resources.

2. According to the utility model, through the mutual matching of the pressing mechanism and the ejection column, the pressing plate on the pressing mechanism presses the high-temperature alloy, and the ejection column supports the high-temperature alloy, so that the high-temperature alloy can be stably limited, the cooling area of the high-temperature alloy is increased, and the treatment efficiency of the equipment is greatly improved.

3. According to the utility model, through the arrangement of the lifting mechanism, the horizontal moving mechanism and the angle adjusting mechanism, the height, the horizontal position and the angle of the spray head can be adjusted, and the cooling efficiency of the equipment on the high-temperature alloy is ensured.

Additional features and advantages of the utility model will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model. The objectives and other advantages of the utility model may be realized and attained by the structure particularly pointed out in the written description and drawings.

Description of the 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 principles of the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a schematic overall structure diagram of an embodiment of the present invention;

FIG. 2 is a schematic front view of an embodiment of the present invention;

FIG. 3 is a schematic main sectional view of an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of FIG. 3a according to an embodiment of the present invention;

FIG. 5 is a schematic view of an exemplary embodiment of a showerhead;

reference numerals: 1. a movable seat; 2. a mounting frame; 3. a water-blocking plate; 4. a lifting mechanism; 5. a horizontal movement mechanism; 6. a hold-down mechanism; 7. an angle adjusting mechanism; 8. a circulating water supply mechanism; 9. a push rod; 10. a control panel; 11. a water storage cavity; 12. a water inlet hole; 13. a top pillar; 41. a first hydraulic cylinder; 42. a reinforcing rod; 43. a lifting plate; 51. mounting grooves; 52. a chute; 53. a screw rod; 54. a moving block; 55. a slider; 56. installing a cavity; 57. a driven helical gear; 58. a driving bevel gear; 59. a motor; 61. a second hydraulic cylinder; 62. pressing a plate; 63. a launder; 71. connecting blocks; 72. a spray head; 73. an upper connecting rod; 74. a lower connecting rod; 75. a hydraulic cylinder III; 76. an electromagnetic valve; 81. a housing; 82. a cooling fan; 83. a condenser tube; 84. a first connecting pipe; 85. a water pump; 86. a second connecting pipe; 87. heat removal holes; 88. a third connecting pipe; 89. a shunt tube; 810. and (4) draining the water valve.

The specific implementation mode is as follows:

in order to make the objects, technical solutions and advantages of the technical solutions of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the drawings of the specific embodiments of the present invention. Like reference symbols in the various drawings indicate like elements. It should be noted that the described embodiments are only some embodiments of the utility model, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the utility model without any inventive step, are within the scope of protection of the utility model.

Referring to fig. 1-3, the embodiment of the utility model provides high-temperature alloy processing equipment for an intelligent terminal, which comprises a movable seat 1, wherein an installation frame 2 is arranged at the upper end of the movable seat 1, a water storage cavity 11 is arranged inside the movable seat 1, water inlet holes 12 are uniformly formed in the upper end surface of the movable seat 1, the water inlet holes 12 are communicated with the water storage cavity 11, jack posts 13 are arranged on the side, located at the water inlet holes 12, of the upper end surface of the movable seat 1, the jack posts 13 are distributed at equal intervals, water is stored by using the water storage cavity 11, and used water is guided into the water storage cavity 11 through the water inlet holes 12, so that waste of water resources is avoided, meanwhile, the jack posts 13 which are uniformly distributed can support the lower end surface of the high-temperature alloy, the cooling area of the high-temperature alloy is increased, and the treatment efficiency of the equipment is improved.

Referring to fig. 1 to 5, a water blocking plate 3 is arranged on the upper end of a movable base 1 at the outer side of a mounting frame 2, a lifting mechanism 4 is mounted at the upper end of the mounting frame 2, the lifting mechanism 4 comprises a first hydraulic cylinder 41, a reinforcing rod 42 and a lifting plate 43, the first hydraulic cylinder 41 is mounted at the upper end of the mounting frame 2, two sides of the first hydraulic cylinder 41 are fixedly connected with the upper end of the mounting frame 2 through the reinforcing rod 42, the movable end of the first hydraulic cylinder 41 extends to the inner side of the mounting frame 2 to be provided with the lifting plate 43, four corners of the lifting plate 43 are slidably connected with four pillars of the mounting frame 2, the first hydraulic cylinder 41 is electrically connected with a control panel 10, the lifting plate 43 is driven to move through contraction of the first hydraulic cylinder 41, so as to conveniently adjust the positions of a pressing mechanism 6 and an angle adjusting mechanism 7, a horizontal moving mechanism is mounted on the lifting mechanism 4, the horizontal moving mechanism 5 comprises a mounting groove 51, a sliding groove 52, The lifting plate 43 comprises a screw rod 53, a moving block 54, a sliding block 55, an installation cavity 56, a driven bevel gear 57, a driving bevel gear 58 and a motor 59, wherein two installation grooves 51 are formed in two sides of the lower end surface of the lifting plate 43, the upper end of each installation groove 51 is communicated with a sliding groove 52, the inside of each installation groove 51 is rotatably connected with the screw rod 53, the surface of each screw rod 53 is in threaded connection with the moving block 54, the upper end of each moving block 54 is provided with the sliding block 55, the sliding block 55 is in sliding connection with the sliding groove 52, the lifting plate 43 is provided with the installation cavity 56 between the two installation grooves 51, one end of each screw rod 53 extends to the inner side of the installation cavity 56 and is provided with the driven bevel gear 57, the inside of the installation cavity 56 is rotatably connected with the driving bevel gear 58, the two driven bevel gears 57 are in meshed connection with the driving bevel gear 58, the motor 59 is fixed at the lower end of the lifting plate 43, and the driving end of the motor 59 is in transmission connection with one end of the driving bevel gear 58, the motor 59 is electrically connected with the control panel 10, the motor 59 drives the driving bevel gear 58 to rotate, the moving block 54 moves under the action of the driving bevel gear 58, the driven bevel gear 57, the lead screw 53 and the slide block 55, and further, the moving block 54 drives the angle adjusting mechanism 7 to move, so as to realize the moving cooling 5 of the high-temperature alloy, the pressing mechanism 6 is installed at the middle position of the horizontal moving mechanism 5, the pressing mechanism 6 comprises a second hydraulic cylinder 61, a pressing plate 62 and a water flowing groove 63, the second hydraulic cylinder 61 is fixed at the lower end of the motor 59, the pressing plate 62 is installed at the moving end of the second hydraulic cylinder 61, the water flowing groove 63 is evenly formed in the lower end surface of the pressing plate 62, the second hydraulic cylinder 61 is electrically connected with the control panel 10, the second hydraulic cylinder 61 extends to push the pressing plate 62 to move, the pressing plate 62 presses and positions the high-temperature alloy, so as to avoid the sliding of the equipment during the cooling of the high-temperature alloy, the angle adjusting mechanism 7 is installed on the horizontal moving mechanism 5, the angle adjusting mechanism 7 comprises a connecting block 71, a spray head 72, an upper connecting rod 73, a lower connecting rod 74, three hydraulic cylinders 75 and an electromagnetic valve 76, the connecting block 71 is fixed at the lower end of the moving block 54, the side of the connecting block 71 is connected with the spray head 72 through a shaft pin in a rotating manner, the connecting block 71 and the left side of the spray head 72 are respectively provided with the upper connecting rod 73 and the lower connecting rod 74, the three hydraulic cylinders 75 are connected between the upper connecting rod 73 and the lower connecting rod 74 through shaft pin in a rotating manner, the electromagnetic valve 76 is installed in the spray head 72, the three hydraulic cylinders 75 and the electromagnetic valve 76 are respectively electrically connected with the control panel 10, the spray head 72 is driven to rotate by the expansion of the three hydraulic cylinders 75, the angle of the spray head is adjusted through the rotating spray head 72, and the cooling efficiency of the equipment is further improved.

Referring to fig. 1-3, a circulating water supply mechanism 8 is provided at a side of a movable base 1, the circulating water supply mechanism 8 includes a housing 81, a cooling fan 82, a condenser pipe 83, a first connection pipe 84, a water pump 85, a second connection pipe 86, a heat exhaust hole 87, a third connection pipe 88, a shunt pipe 89 and a drain valve 810, the housing 81 is fixed on the movable base 1, the cooling fan 82 is installed at a left side of the housing 81, the cooling fan 82 is communicated with an inner side of the housing 81, the condenser pipe 83 is installed at an inner side of the housing 81, the first connection pipe 84 is installed at a lower end of the housing 81, a lower end of the condenser pipe 83 is communicated with an upper end of the first connection pipe 84, the drain valve 810 is installed at a left side of the first connection pipe 84, the water pump 85 is communicated with a right side of the first connection pipe 84, a water inlet end of the water pump 85 is communicated with a lower end of a water storage chamber 11 through the second connection pipe 86, heat exhaust holes 87 are uniformly formed at front and rear sides of the housing 81, the third connection pipe 88 is installed at an upper end of the housing 81, the lower end of a third connecting pipe 88 is communicated with the upper end of a condensing pipe 83, the upper end of the third connecting pipe 88 is communicated with a shunt pipe 89, the left end and the right end of the shunt pipe 89 are communicated with two spray heads 72 respectively, a cooling fan 82 and a water pump 85 are electrically connected with a control panel 10 respectively, water in a water storage cavity 11 is pumped into the condensing pipe 83 through a first connecting pipe 84 and a second connecting pipe 86 by using the water pump 85, the cooling fan 82 blows air to cool hot water in the condensing pipe 83, the cooled water is led into the spray heads 72 through the third connecting pipe 88 and the shunt pipe 89 to be used, and then the used water is recycled, so that waste of water resources is greatly reduced, a push rod 9 is installed on the outer side of a circulating water supply mechanism 8 on a movable seat 1, and the control panel 10 is installed on the front side of the movable seat 1.

The implementation mode is specifically as follows: when the high-temperature alloy cooling device is used, high-temperature alloy is placed on the top column 13, the hydraulic cylinder I41 extends to enable the spray head 72 to move to a specified position, the hydraulic cylinder II 61 extends, the hydraulic cylinder II 61 pushes the pressing plate 62, the pressing plate 62 presses the high-temperature alloy tightly, the top column 13 supports the high-temperature alloy, the hydraulic cylinder III 75 adjusts the angle of the spray head 72 through contraction to ensure that the high-temperature alloy can be sufficiently cooled, the water pump 85 pumps water into the spray head 72, the electromagnetic valve 76 in the spray head 72 is opened, the water is sprayed out of the spray head 72, the motor 59 drives the driving bevel gear 58 to rotate, the moving block 54 moves under the action of the driving bevel gear 58, the driven bevel gear 57, the screw rod 53 and the sliding block 55, the spray head 72 is driven by the moving block 54 to move, the high-temperature alloy is moved and cooled, the washed water falls on the lower end face of the high-temperature alloy and cools the lower end face of the high-temperature alloy, and the cooled water enters the water storage cavity 11 through the water inlet hole 12, water pump 85 again with the water suction in condenser pipe 83, cooling blower 82 bloies, cools off the hot water in the condenser pipe 83, the leading-in shower nozzle 72 of water after the cooling uses once more, and then realize the water after the use and circulate, greatly reduced the waste of water resource, after the superalloy treatment was accomplished, water pump 85 stop work, pneumatic cylinder one 41 and two 61 contractions of pneumatic cylinder drive lifter plate 43 and clamp plate 62 and reset, take down superalloy from fore-set 13.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. The high-temperature alloy processing equipment for the intelligent terminal comprises a movable seat (1) and is characterized in that, the upper end of the movable seat (1) is provided with a mounting rack (2), the upper end of the movable seat (1) is positioned at the outer side of the mounting rack (2) and is provided with a water blocking plate (3), the upper end of the mounting rack (2) is provided with a lifting mechanism (4), the lifting mechanism (4) is provided with a horizontal moving mechanism (5), a pressing mechanism (6) is arranged in the middle of the horizontal moving mechanism (5), an angle adjusting mechanism (7) is arranged on the horizontal moving mechanism (5), the avris of removing seat (1) is provided with circulation water supply mechanism (8), push rod (9) are installed to the outside that lies in circulation water supply mechanism (8) on removing seat (1), control panel (10) are installed to the front side of removing seat (1).

2. The superalloy processing device for an intelligent terminal as claimed in claim 1, wherein: the inside of removing seat (1) is provided with water storage chamber (11), inlet opening (12) have evenly been seted up to the up end of removing seat (1), inlet opening (12) and water storage chamber (11) switch-on each other, the avris that the up end that removes seat (1) is located inlet opening (12) is provided with fore-set (13), fore-set (13) are equidistant distribution.

3. The superalloy processing device for an intelligent terminal as claimed in claim 1, wherein: elevating system (4) include pneumatic cylinder (41), anchor strut (42) and lifter plate (43), the upper end at mounting bracket (2) is installed in pneumatic cylinder (41), anchor strut (42) fixed connection is passed through with the upper end of mounting bracket (2) in the both sides of pneumatic cylinder (41), lifter plate (43) is installed to the inboard that the expansion end of pneumatic cylinder (41) extends to mounting bracket (2), four turnings of lifter plate (43) and four pillar sliding connection of mounting bracket (2), pneumatic cylinder (41) are connected with control panel (10) electricity.

4. The superalloy processing device for an intelligent terminal as claimed in claim 3, wherein: the horizontal moving mechanism (5) comprises mounting grooves (51), sliding grooves (52), a lead screw (53), moving blocks (54), sliding blocks (55), mounting cavities (56), driven bevel gears (57), a driving bevel gear (58) and a motor (59), wherein the mounting grooves (51) are formed in two sides of the lower end face of the lifting plate (43), the mounting grooves (51) are formed in two parts, the sliding grooves (52) are communicated with the upper ends of the mounting grooves (51), the lead screw (53) is rotatably connected to the inside of the mounting grooves (51), the moving blocks (54) are in threaded connection with the surface of the lead screw (53), the sliding blocks (55) are mounted at the upper ends of the moving blocks (54), the sliding blocks (55) are in sliding connection with the sliding grooves (52), the mounting cavities (56) are formed between the two mounting grooves (51) on the lifting plate (43), one ends of the lead screws (53) extend to the inner sides of the mounting cavities (56) and are provided with the driven bevel gears (57), the inner part of the mounting cavity (56) is rotatably connected with a driving bevel gear (58), the two driven bevel gears (57) are meshed with the driving bevel gear (58), the motor (59) is fixed at the lower end of the lifting plate (43), the transmission end of the motor (59) is in transmission connection with one end of the driving bevel gear (58), and the motor (59) is electrically connected with the control panel (10).

5. The superalloy processing device for an intelligent terminal as claimed in claim 4, wherein: hold-down mechanism (6) are including pneumatic cylinder two (61), clamp plate (62) and tye (63), the lower extreme at motor (59) is fixed in pneumatic cylinder two (61), clamp plate (62) are installed to the expansion end of pneumatic cylinder two (61), tye (63) have evenly been seted up to the lower terminal surface of clamp plate (62), pneumatic cylinder two (61) are connected with control panel (10) electricity.

6. The superalloy processing device for an intelligent terminal as claimed in claim 4, wherein: the angle adjusting mechanism (7) comprises a connecting block (71), a spray head (72), an upper connecting rod (73), a lower connecting rod (74), a hydraulic cylinder III (75) and an electromagnetic valve (76), the connecting block (71) is fixed at the lower end of the moving block (54), the side of the connecting block (71) is connected with the spray head (72) in a rotating mode through a shaft pin, the connecting block (71) and the left side of the spray head (72) are respectively provided with the upper connecting rod (73) and the lower connecting rod (74), the upper connecting rod (73) and the lower connecting rod (74) are connected with the hydraulic cylinder III (75) in a rotating mode through the shaft pin, the electromagnetic valve (76) is installed in the spray head (72), and the hydraulic cylinder III (75) and the electromagnetic valve (76) are respectively electrically connected with the control panel (10).

7. The superalloy processing device for an intelligent terminal as claimed in claim 6, wherein: circulating water supply mechanism (8) are including shell (81), cooling blower (82), condenser pipe (83), connecting pipe (84), water pump (85), connecting pipe two (86), heat extraction hole (87), connecting pipe three (88), shunt tubes (89) and drain valve (810), shell (81) are fixed on removing seat (1), cooling blower (82) are installed in the left side of shell (81), cooling blower (82) and the inboard of shell (81) are put through each other, condenser pipe (83) are installed to the inboard of shell (81), connecting pipe one (84) are installed to the lower extreme of shell (81), the lower extreme of condenser pipe (83) and the upper end switch-on of connecting pipe one (84), drain valve (810) are installed in the left side of connecting pipe one (84), the right side switch-on of connecting pipe one (84) has water pump (85), the inlet end of water pump (85) and the lower extreme of water storage chamber (11) are through connecting pipe two (86) interconnect Lead to, heat extraction hole (87) have evenly been seted up to the front and back side of shell (81), three (88) of connecting pipe are installed to the upper end of shell (81), the lower extreme of three (88) of connecting pipe and the upper end of condenser pipe (83) switch-on each other, the upper end switch-on of three (88) of connecting pipe has shunt tubes (89), both ends respectively with two about shunt tubes (89) shower nozzle (72) switch-on each other, cooling blower (82) and water pump (85) are connected with control panel (10) electricity respectively.

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