CN118023506A - Continuous casting molding equipment for electric power fitting production - Google Patents

Abstract

The invention relates to the technical field of electric power fitting production, and discloses electric power fitting production continuous casting molding equipment, which solves the problem that the existing electric power fitting production continuous casting molding equipment is poor in bubble removal effect. According to the invention, the driving rod at the output end is driven to rotate by the forward and reverse rotation of the motor, so that the driving rod drives the driven rod to rotate by the belt, two groups of cams are respectively arranged on the surfaces of the driving rod and the driven rod, and the four corners of the bottom end of the treatment box are respectively connected with the springs through the connecting plates, so that the cams are upwards rotated to push the cams to downwards rotate without pushing the treatment box, the treatment box downwards moves through the springs due to the gravity of metal liquid in the treatment box, and the treatment box is further vibrated up and down, thereby achieving the effect of removing bubbles, effectively transmitting vibration force to the treatment box, and helping bubbles in materials to smoothly rise and release.

Description

Continuous casting molding equipment for electric power fitting production

Technical Field

The invention relates to the technical field of electric power fitting production, in particular to continuous casting molding equipment for electric power fitting production.

Background

The electric power fitting is a metal accessory for transmitting mechanical load, electric load and certain protection effect, the electric power fitting is produced by casting, the electric power fitting production continuous casting forming equipment is high-efficiency and automatic production equipment specially designed for the electric power fitting manufacturing industry, and the equipment combines an advanced casting technology and an automatic control system, can continuously and stably cast and form the electric power fitting, and greatly improves the production efficiency and quality.

In the operation and use process of the existing continuous casting molding equipment for electric power fitting production, the electric power fitting is taken as an important component of the power transmission equipment, and the quality of the electric power fitting is directly related to the safe and stable operation of a power system. Therefore, the quality of the metal part needs to be ensured in the production process, structural defects such as foam holes or air holes can reduce the strength and durability of the hardware, equipment faults and even accidents can be caused, foam removal treatment is needed, the surface quality of the electric power hardware can be improved, the defects such as air holes and inclusions are reduced, the surface of the hardware is smoother and smoother, the corrosion resistance and the appearance quality of the hardware are improved, the foam removal structure is an important process link in the production of continuous casting forming equipment, the metal flowing state can be helped to be regulated, the wrapping and aggregation of gas in the metal are eliminated, the purity of the metal liquid is improved, and the consistency and the stability of products are improved.

Disclosure of Invention

The invention aims to provide continuous casting forming equipment for electric power fitting production, which adopts the device to work, so that the problem of poor bubble removal effect of the conventional continuous casting forming equipment for electric power fitting production is solved.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an electric power fitting production continuous casting former, includes the workstation, sets up the supporting leg on workstation top, sets up the lower mould on supporting leg top, sets up the frame in workstation one side, sets up the cylinder in frame one end, sets up the upper mould at the cylinder output, sets up the fixture block in upper mould one end, sets up the draw-in groove at lower mould surface, connects the inlet tube in lower mould one end to and set up the material receiving platform in workstation one end, the top of upper mould is provided with feeding structure, feeding structure's one end is provided with the vibrations structure that removes the bubble;

the feeding structure comprises a storage box arranged at the top end of the frame, a feeding pipe connected to the bottom end of the storage box, a treatment box arranged at one end of the feeding pipe and a discharging pipe connected to one end of the treatment box;

The vibration structure comprises a bottom plate arranged at the bottom end of the treatment box, a spring arranged at the bottom end of the bottom plate, a connecting plate arranged at the bottom end of the spring, a motor arranged above the upper die, a driving rod arranged at the output end of the motor, and a cam arranged on the surface of the driving rod.

Further, the discharging pipe is made of a hose material and is communicated with a casting groove formed in the upper die.

Further, the top surface of going up the mould is provided with the riser, and the riser equidistant is provided with four groups, and a set of riser is connected with the motor, another group the riser has cup jointed belt one with the one end swing joint of actuating lever, and driven lever has been cup jointed to belt one's one end, and two other groups the riser is connected with driven lever both ends swing joint, and driven lever's surface also is provided with the cam.

Further, the inside of handling the case is provided with breaks up the structure, breaks up the structure and establishes the drive belt at the motor output including the cover, and the one end cover of drive belt is equipped with the rotary rod, and the rotary rod runs through the pole groove of seting up in handling the case surface, and the one end swing joint of rotary rod has the connecting block, and the one end of connecting block is connected with handling the case surface.

Further, one end of the rotating rod is provided with a scattering rod, and one end of the scattering rod is movably connected with the inner wall of the treatment box.

Further, the one end of handling the case is provided with exhaust structure, and exhaust structure is provided with the gas tank including setting up the connecting leg at handling case one end, and the one end of connecting leg, the one end of gas tank is connected with the intake pipe, and the one end of intake pipe is connected with check valve one, and the one end of check valve one is linked together with handling the case inner chamber.

Further, the other end of the air box is connected with an air outlet pipe, once the air outlet pipe is connected with a second check valve, a piston plate is movably linked in the air box, one end of the piston plate is connected with a first rack, a notch is formed in the bottom surface of the air box, and the first rack moves in the notch.

Further, one end meshing of rack one has gear one, and gear one is connected with the rotary rod, the one end of processing case is provided with the fixed plate, and the fixed plate is connected with the connecting block, and the spout has been seted up to the surface of fixed plate, and the inside of spout slides has the slider, and the one end of slider is provided with the extension spring, and the one end of extension spring is connected with the spout bottom.

Further, the top of workstation is provided with elevation structure, elevation structure including setting up the longboard at the workstation top surface, and the top of longboard is provided with the motor, and the output of motor is provided with the lead screw, and the surface threaded connection of lead screw has the sleeve, and telescopic top is provided with the plectane, and the top of plectane is provided with the roof, the inside of lower mould is seted up flutedly, and the sleeve is inside the recess.

Further, the one end of lower mould is provided with the pushing structure, and the pushing structure is including the cover to be established at the belt two of motor output, and the one end cover of belt two is equipped with the dwang, and the surface of dwang is provided with gear two, and gear two's one end meshing has rack two, and rack two's one end is provided with the push pedal, the one end of lower mould is provided with the extension board, and the channel has been seted up on the surface of extension board, and the inside slip of channel has the slide, and the slide is connected with rack two.

Compared with the prior art, the invention has the following beneficial effects:

The continuous casting molding equipment for the electric power fitting production provided by the invention has poor bubble removal effect; the invention starts through the positive and negative rotation of the motor, the motor drives the driving rod at the output end to rotate, the vertical plate is provided with four groups, the other end of the driving rod is movably connected with the other group of vertical plates, the driving rod drives the driven rod to rotate through the belt, the two ends of the driven rod are movably connected with the other two groups of vertical plates, the surfaces of the driving rod and the driven rod are further provided with two groups of cams, the driving rod and the driven rod drive the four groups of cams to rotate upwards to push the treatment box, as the four corners at the bottom end of the treatment box are respectively connected with the springs through the connecting plate, the bottom ends of the four groups of springs are connected with the upper die, the cams are enabled to rotate upwards to push the cams downwards not to push the treatment box, the treatment box further enables the treatment box to vibrate up and down through the springs due to the gravity of metal liquid in the treatment box, the effect of removing bubbles can be effectively transmitted to the treatment box, bubbles in the material are helped to rise and release smoothly, and the effect of removing bubbles is achieved.

Drawings

FIG. 1 is a schematic view of the overall three-dimensional structure of the present invention;

FIG. 2 is a schematic view of the three-dimensional structure of the feed structure, vibrating structure, break-up structure, exhaust structure and upper die of the present invention;

FIG. 3 is a schematic three-dimensional view of a vibrating structure according to the present invention;

FIG. 4 is a schematic three-dimensional structure of the scattering structure according to the present invention;

FIG. 5 is a schematic three-dimensional structure of the exhaust structure of the present invention;

FIG. 6 is an enlarged schematic view of the three-dimensional structure of FIG. 5A according to the present invention;

FIG. 7 is a schematic three-dimensional view of a lifting structure according to the present invention;

Fig. 8 is a schematic three-dimensional structure of the pushing structure of the present invention.

In the figure: 1. a work table; 2. support legs; 3. a lower die; 4. a feed structure; 41. a feed pipe; 42. a treatment box; 43. a discharge pipe; 44. a storage bin; 5. a vibrating structure; 51. a bottom plate; 52. a spring; 53. a connecting plate; 54. a riser; 55. a motor; 56. a first belt; 57. a driving rod; 58. a cam; 59. a driven rod; 6. a scattering structure; 61. a transmission belt; 62. a rotating rod; 63. a connecting block; 64. scattering the rods; 7. an exhaust structure; 71. an air box; 72. a connecting leg; 73. an air inlet pipe; 74. a first check valve; 75. an air outlet pipe; 76. a second check valve; 77. a piston plate; 78. a notch; 79. a first rack; 710. a first gear; 712. a slide block; 713. a tension spring; 714. a fixing plate; 715. a chute; 8. a lifting structure; 81. a long plate; 82. a motor; 83. a screw rod; 84. a sleeve; 85. a circular plate; 86. a top plate; 87. a groove; 9. a pushing structure; 91. a second belt; 92. a rotating lever; 93. a second gear; 94. a second rack; 95. a slide plate; 96. an extension plate; 97. a channel; 98. a push plate; 10. a water inlet pipe; 11. a frame; 12. a cylinder; 13. an upper die; 14. a clamping block; 15. a clamping groove; 16. and a receiving platform.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

For a further understanding of the present invention, the present invention will be described in detail with reference to the drawings.

Referring to fig. 1-3, a continuous casting molding device for electric power fitting production comprises a workbench 1, a supporting leg 2 arranged at the top end of the workbench 1, a lower die 3 arranged at the top end of the supporting leg 2, a frame 11 arranged at one side of the workbench 1, an air cylinder 12 arranged at one end of the frame 11, an upper die 13 arranged at the output end of the air cylinder 12, a clamping block 14 arranged at one end of the upper die 13, a clamping groove 15 formed on the surface of the lower die 3, a water inlet pipe 10 connected at one end of the lower die 3, and a material receiving table 16 arranged at one end of the workbench 1, wherein a feeding structure 4 is arranged at the top end of the upper die 13, and a foam removing vibration structure 5 is arranged at one end of the feeding structure 4.

The invention is further described below with reference to examples.

Referring to fig. 1-3, the feeding structure 4 includes a storage tank 44 disposed at the top end of the frame 11, a feeding pipe 41 connected to the bottom end of the storage tank 44, a processing tank 42 disposed at one end of the feeding pipe 41, and a discharging pipe 43 connected to one end of the processing tank 42, so as to facilitate feeding.

The vibration structure 5 comprises a bottom plate 51 arranged at the bottom end of the treatment box 42, a spring 52 arranged at the bottom end of the bottom plate 51, a connecting plate 53 arranged at the bottom end of the spring 52, a motor 55 arranged above the upper die 13, a driving rod 57 arranged at the output end of the motor 55, and a cam 58 arranged on the surface of the driving rod 57, wherein a discharging pipe 43 is made of a hose material, the discharging pipe 43 is communicated with a casting groove formed in the upper die 13, the top surface of the upper die 13 is provided with vertical plates 54, four groups of vertical plates 54 are arranged at equal intervals, one group of vertical plates 54 is connected with the motor 55, the other group of vertical plates 54 are movably connected with one end of the driving rod 57, a first belt 56 is sleeved on the surface of the driving rod 57, a second driven rod 59 is movably connected with two ends of the driven rod 59, and a cam 58 is also arranged on the surface of the driven rod 59, so that the vibration force treatment box 42 can be effectively transmitted, bubbles in materials can be smoothly lifted and released, and the effect of bubble removal is achieved.

Specifically, firstly, a worker starts the cylinder 12 at one end of the frame 11 through an external button, the cylinder 12 drives the upper die 13 at the output end to move downwards, the clamping block 14 of the upper die 13 is clamped with the clamping groove 15 of the lower die 3, then the pump body connected with one end of the feeding pipe 41 is started, the feeding pipe 41 conveys the metal liquid in the storage tank 44 into the treatment tank 42, then the metal liquid is conveyed into the casting grooves of the upper die 13 and the lower die 3 through the discharging pipe 43 after being treated in the treatment tank 42, meanwhile, the water inlet pipe is connected with an external cold water source, cold water is conveyed into the cavity of the lower die 3 through the water inlet pipe 10, so that the cold water cools the forming hardware fittings in the lower die 3, and the motor 55 at one end of the vertical plate 54 at the top end of the upper die 13 is started in a positive and negative rotation way through the external button, the motor 55 drives the driving rod 57 at the output end to rotate, four groups of vertical plates 54 are arranged, the other ends of the driving rod 57 are movably connected with the other groups of vertical plates 54, the driving rod 57 drives the driven rod 59 to rotate through the first belt 56, two ends of the driven rod 59 are movably connected with the other two groups of vertical plates 54, two groups of cams 58 are respectively arranged on the surfaces of the driving rod 57 and the driven rod 59, the driving rod 57 and the driven rod 59 drive the four groups of cams 58 to rotate upwards to push the treatment box 42 upwards, as four corners of the bottom end of the treatment box 42 are respectively connected with springs 52 through connecting plates 53, the bottom ends of the four groups of springs 52 are connected with the upper die 13 through the bottom plate 51, the cams 58 rotate upwards to push the treatment box 42 upwards, the cams 58 rotate downwards to not push the treatment box 42, the treatment box 42 moves downwards through the springs 52 due to the gravity of metal liquid in the treatment box 42, the treatment box 42 is further vibrated upwards and downwards, the effect of removing bubbles is achieved, the vibration force box 42 can be effectively transmitted, bubbles in materials are helped to rise smoothly and are released, therefore, the foam removing effect is achieved, the vibration transmission is uniform and controllable, the air bubbles in the material can be ensured to be removed uniformly in the whole mixture, the product quality is improved, the influence of the air bubbles in the material on the product quality can be reduced, the production efficiency is improved, and the rejection rate is reduced.

Referring to fig. 4-8, a breaking structure 6 is disposed in the treatment tank 42, the breaking structure 6 includes a driving belt 61 sleeved at an output end of the motor 55, a rotating rod 62 is sleeved at one end of the driving belt 61, the rotating rod 62 penetrates through a rod groove formed in the surface of the treatment tank 42, one end of the rotating rod 62 is movably connected with a connecting block 63, one end of the connecting block 63 is connected with the surface of the treatment tank 42, a breaking rod 64 is disposed at one end of the rotating rod 62, one end of the breaking rod 64 is movably connected with an inner wall of the treatment tank 42, mixing and dispersing of internal materials can be effectively achieved, and treatment efficiency and quality are improved.

One end of the treatment tank 42 is provided with the exhaust structure 7, the exhaust structure 7 comprises a connecting leg 72 arranged at one end of the treatment tank 42, one end of the connecting leg 72 is provided with an air tank 71, one end of the air tank 71 is connected with an air inlet pipe 73, one end of the air inlet pipe 73 is connected with a first check valve 74, one end of the first check valve 74 is communicated with the inner cavity of the treatment tank 42, the other end of the air tank 71 is connected with an air outlet pipe 75, once the second check valve 76 is connected with the air outlet pipe 75, a piston plate 77 is movably linked in the air tank 71, one end of the piston plate 77 is connected with a first rack 79, a notch 78 is formed in the bottom surface of the air tank 71, the first rack 79 moves in the notch 78, one end of the first rack 79 is meshed with a first gear 710, the first gear 710 is connected with a rotating rod 62, one end of the treatment tank 42 is provided with a fixed plate 714, the fixed plate 714 is connected with the connecting block 63, a sliding groove 715 is formed in the surface of the fixed plate 714, the sliding inside of the sliding groove slides with a sliding block 713, one end of the sliding block 713 is provided with a tension spring, one end of the sliding groove 713 is connected with the bottom end of the sliding groove 715, and gas in the treatment tank 42 can be effectively discharged.

The top of workstation 1 is provided with elevation structure 8, elevation structure 8 is provided with motor 82 including setting up the long board 81 at workstation 1 top surface, the top of long board 81, motor 82's output is provided with lead screw 83, the surface threaded connection of lead screw 83 has sleeve 84, the top of sleeve 84 is provided with plectane 85, the top of plectane 85 is provided with roof 86, the inside of lower mould 3 is seted up flutedly 87, sleeve 84 is inside recess 87, the automatic ejection of compact after the shaping of being convenient for reduces the manual work volume.

One end of lower mould 3 is provided with pushing structure 9, pushing structure 9 is including the cover to establish the belt two 91 at the motor 82 output, the one end cover of belt two 91 is equipped with dwang 92, the surface of dwang 92 is provided with gear two 93, gear two 93's one end meshing has rack two 94, rack two 94's one end is provided with push pedal 98, lower mould 3's one end is provided with extension board 96, the channel 97 has been seted up on extension board 96's surface, the inside slip of channel 97 has slide 95, slide 95 is connected with rack two 94, the linkage through ejecting structure 8 is automatic to promote the ejecting shaping work piece of roof 86 to connect material platform 16 surface through push pedal 98, continuous operation of being convenient for.

Specifically, as the driving rod 57 rotates to drive the rotating rod 62 at one end of the driving belt 61 to rotate, one end of the rotating rod 62 is movably connected with the connecting block 63, the connecting block 63 is connected with the processing box 42 through the fixing plate 714, the rotating rod 62 penetrates through the rod groove formed in the surface of the processing box 42, the rotating rod 62 drives the scattering rod 64 inside the processing box 42 to rotate, one end of the scattering rod 64 is movably connected with the inner wall of the processing box 42, and therefore mixing and dispersing of internal materials can be effectively achieved, and processing efficiency and quality are improved.

Then, the rotating rod 62 drives the gear one 710 on the surface to rotate, the gear one 710 is meshed with the gear one 79 on one end, the gear one 79 slides up and down in a sliding groove 715 formed in the surface of a fixed plate 714 through a sliding block 712 on the surface, the fixed plate 714 is connected with the surface of the treatment box 42, the sliding block 712 drives a tension spring 713 to stretch and store force, the gear one 79 drives a piston plate 77 on the top to move up and down in the air box 71, the gear one 79 moves in a notch 78 formed in the bottom end of the air box 71, the air box 71 is fixed with the treatment box 42 through four connecting legs 72, when the piston plate 77 moves down, suction force is generated in the air box 71, the first check valve 74 is opened through the air inlet pipe 73 to adsorb the gas on the top of the treatment box 42, when the air box 77 moves up, the first check valve 74 is closed, the second check valve 76 is opened, the piston plate 77 can effectively discharge the gas in the treatment box 42 through the air outlet pipe 75, the automatic discharge of the gas is realized, the manual intervention requirement is reduced, the efficiency is improved, the normal operation of people can be realized, and the normal operation of the people can be realized by only ensuring the operation of the mechanical structure.

After the hardware fitting in the lower die 3 is cooled, the hardware fitting in the lower die 3 needs to be discharged, a motor 82 fixed on a long plate 81 at the top end of the workbench 1 is started by a worker through an external button, the motor 82 drives a screw rod 83 at the output end to be in threaded connection with a sleeve 84, the sleeve 84 drives a top plate 86 connected with a circular plate 85 at the top end to move upwards, the sleeve 84 moves in a groove 87 formed in the lower die 3, the top plate 86 drives the hardware fitting formed in a pouring groove formed in the lower die 3 to push and discharge upwards, automatic ejection and discharge after forming are facilitated, and labor force is reduced.

Therefore, the output end of the motor 82 is used for driving the rotating rod 92 through the belt II 91, the bottom end of the rotating rod 92 is movably connected with the long plate 81, the top end of the rotating rod 92 drives the gear II 93 to be meshed with the rack II 94, the rack II 94 drives the sliding plate 95 to slide in the channel 97 formed in the surface of the extending plate 96, the extending plate 96 is connected with the lower die 3, the pushing plate 98 at one end of the rack II is driven to push the hardware fittings pushed out of the surface of the top plate 86 to the right side onto the receiving table 16, automatic discharging of the hardware fittings is achieved, manual intervention is reduced, production efficiency is improved, an automatic discharging system can reduce the use of manual labor, labor cost is reduced, production efficiency is improved, and the automatic discharging system is beneficial to reducing production cost and improving production efficiency by reducing manual operation.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an electric power fitting production continuous casting former, including workstation (1), set up supporting leg (2) on workstation (1) top, set up lower mould (3) on supporting leg (2) top, set up frame (11) in workstation (1) one side, set up cylinder (12) in frame (11) one end, set up last mould (13) at cylinder (12) output, set up fixture block (14) in last mould (13) one end, set up draw-in groove (15) on lower mould (3) surface, connect inlet tube (10) in lower mould (3) one end, and set up material receiving platform (16) in workstation (1) one end, its characterized in that: a feeding structure (4) is arranged at the top end of the upper die (13), and a foam removing vibration structure (5) is arranged at one end of the feeding structure (4);

The feeding structure (4) comprises a storage box (44) arranged at the top end of the frame (11), a feeding pipe (41) connected to the bottom end of the storage box (44), a treatment box (42) arranged at one end of the feeding pipe (41), and a discharging pipe (43) connected to one end of the treatment box (42);

The vibration structure (5) comprises a bottom plate (51) arranged at the bottom end of the processing box (42), a spring (52) arranged at the bottom end of the bottom plate (51), a connecting plate (53) arranged at the bottom end of the spring (52), a motor (55) arranged above the upper die (13), a driving rod (57) arranged at the output end of the motor (55), and a cam (58) arranged on the surface of the driving rod (57).

2. The power fitting production continuous casting molding apparatus as claimed in claim 1, wherein: the discharging pipe (43) is made of a hose material, and the discharging pipe (43) is communicated with a casting groove formed in the upper die (13).

3. The power fitting production continuous casting molding apparatus as claimed in claim 2, wherein: the top surface of going up mould (13) is provided with riser (54), and riser (54) equidistant are provided with four groups, a set of riser (54) are connected with motor (55), another group riser (54) are connected with one end swing joint of actuating lever (57), and belt one (56) has been cup jointed on the surface of actuating lever (57), and driven lever (59) has been cup jointed to one end of belt one (56), and two other groups riser (54) and driven lever (59) both ends swing joint, and the surface of driven lever (59) also is provided with cam (58).

4. The power fitting production continuous casting molding apparatus as claimed in claim 1, wherein: the inside of handling case (42) is provided with breaks up structure (6), breaks up structure (6) including cover establish drive belt (61) at motor (55) output, and the one end cover of drive belt (61) is equipped with rotary rod (62), and rotary rod (62) run through the pole groove of seting up in handling case (42) surface, and the one end swing joint of rotary rod (62) has connecting block (63), and the one end of connecting block (63) is connected with handling case (42) surface.

5. The power fitting production continuous casting molding apparatus as claimed in claim 4, wherein: one end of the rotary rod (62) is provided with a breaking rod (64), and one end of the breaking rod (64) is movably connected with the inner wall of the processing box (42).

6. The power fitting production continuous casting molding apparatus as claimed in claim 5, wherein: one end of the treatment box (42) is provided with an exhaust structure (7), the exhaust structure (7) comprises a connecting leg (72) arranged at one end of the treatment box (42), one end of the connecting leg (72) is provided with an air box (71), one end of the air box (71) is connected with an air inlet pipe (73), one end of the air inlet pipe (73) is connected with a first check valve (74), and one end of the first check valve (74) is communicated with an inner cavity of the treatment box (42).

7. The power fitting production continuous casting molding apparatus as claimed in claim 6, wherein: the other end of air tank (71) is connected with outlet duct (75), and in case be connected with check valve two (76) of outlet duct (75), the inside movable link of air tank (71) has piston board (77), and one end of piston board (77) is connected with rack one (79), notch (78) have been seted up to the bottom surface of air tank (71), and rack one (79) remove in notch (78).

8. The power fitting production continuous casting molding apparatus as claimed in claim 7, wherein: one end of the rack I (79) is meshed with a gear I (710), the gear I (710) is connected with a rotary rod (62), one end of the treatment box (42) is provided with a fixing plate (714), the fixing plate (714) is connected with the connecting block (63), a sliding groove (715) is formed in the surface of the fixing plate (714), a sliding block (712) is arranged in the sliding groove (715) in a sliding mode, one end of the sliding block (712) is provided with a tension spring (713), and one end of the tension spring (713) is connected with the bottom end of the sliding groove (715).

9. The power fitting production continuous casting molding apparatus as claimed in claim 1, wherein: the top of workstation (1) is provided with elevation structure (8), and elevation structure (8) are including setting up longboard (81) at workstation (1) top surface, and the top of longboard (81) is provided with motor (82), and the output of motor (82) is provided with lead screw (83), and the surface threaded connection of lead screw (83) has sleeve (84), and the top of sleeve (84) is provided with plectane (85), and the top of plectane (85) is provided with roof (86), fluted (87) are seted up to the inside of lower mould (3), and sleeve (84) are inside recess (87).

10. The power fitting production continuous casting molding apparatus as claimed in claim 1, wherein: one end of lower mould (3) is provided with pushing structure (9), and pushing structure (9) are including the cover to be established in belt two (91) of motor (82) output, and the one end cover of belt two (91) is equipped with dwang (92), and the surface of dwang (92) is provided with gear two (93), and the one end meshing of gear two (93) has rack two (94), and the one end of rack two (94) is provided with push pedal (98), the one end of lower mould (3) is provided with extension board (96), and channel (97) have been seted up on the surface of extension board (96), and the inside slip of channel (97) has slide (95), and slide (95) are connected with rack two (94).