CN117798261A - Elevator steel sill processing equipment and processing method - Google Patents
Elevator steel sill processing equipment and processing method Download PDFInfo
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- CN117798261A CN117798261A CN202410236906.7A CN202410236906A CN117798261A CN 117798261 A CN117798261 A CN 117798261A CN 202410236906 A CN202410236906 A CN 202410236906A CN 117798261 A CN117798261 A CN 117798261A
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- groove
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- sill
- pushing plate
- waste material
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- 229910000831 Steel Inorganic materials 0.000 title claims abstract description 26
- 239000010959 steel Substances 0.000 title claims abstract description 26
- 238000003672 processing method Methods 0.000 title abstract description 5
- 239000002699 waste material Substances 0.000 claims abstract description 91
- 238000004080 punching Methods 0.000 claims abstract description 30
- 238000000034 method Methods 0.000 claims abstract description 11
- 238000001125 extrusion Methods 0.000 claims description 5
- 238000005452 bending Methods 0.000 claims description 2
- 239000010865 sewage Substances 0.000 abstract description 12
- 238000007599 discharging Methods 0.000 abstract description 4
- 230000005484 gravity Effects 0.000 abstract description 4
- 238000005520 cutting process Methods 0.000 description 11
- 238000009434 installation Methods 0.000 description 10
- 238000003825 pressing Methods 0.000 description 9
- 238000010586 diagram Methods 0.000 description 6
- 238000005096 rolling process Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 239000002184 metal Substances 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
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- Elevator Door Apparatuses (AREA)
Abstract
The invention discloses an elevator steel sill processing device and a processing method, and particularly relates to the field of elevator sill processing. According to the invention, through the arrangement of the vertical pushing plate, the transverse pushing plate and the driving assembly, when the waste material formed during the process of punching the sewage hole needs to be blanked from the bottom of the mounting groove, one end of the waste material is pushed upwards by the vertical pushing plate, the other end of the waste material is pushed transversely by the transverse pushing plate, so that the horizontal waste material is changed into an inclined one, one end of the waste material is positioned at the opening position of the mounting groove, and the waste material can automatically fall under the action of gravity at the moment so as to realize the purpose of discharging the waste material.
Description
Technical Field
The invention relates to the technical field of elevator sill processing, in particular to elevator steel sill processing equipment and a processing method.
Background
The elevator sill is a metal pedal and is arranged at an entrance of an elevator and used for filling a gap between an elevator shaft and the ground, plays a role in preventing people or articles from accidentally falling into the elevator shaft, and is divided into a car sill and a landing door sill. The elevator sill is provided with a guide groove for guiding the movement of the elevator door and a mounting groove for mounting the sill by bolts. In the use process of the elevator, foreign matters inevitably enter the guide groove, so that a drain hole is further formed in the position of the guide groove, and the foreign matters can be pushed out from the drain hole in the sliding process of the elevator door.
In the production and processing process, the elevator sill is generally several meters long and needs to be subjected to procedures such as punching and cutting. The punching is to punch the drain hole, and the cutting is to cut the drain hole into usable lengths, and in general, in order to save the working procedures, the punching is performed before the cutting, and the drain hole can be directly cut after the punching.
The shape and the style of the sill are various, wherein the installation grooves of some sills are arranged below the guide grooves, so that the width of the sills can be reduced, and the installation is simpler. In the prior art, when the sill punches a sewage drain hole, the width of the sewage drain hole is smaller than the widths of the guide groove and the mounting groove, and after punching, punched waste can directly fall. If the width of the blow-down hole is too small, then if the foreign matter is blocked in the guide groove, when the elevator door moves and pushes the foreign matter to the blow-down hole, the foreign matter can still be blocked and can not fall down, therefore, the width of the guide groove is increased at the position of the blow-down hole in the prior art, and thus, the width of the blow-down hole can be wider than the width of the guide groove at the position outside the blow-down hole, and thus, the foreign matter blocked in the guide groove can fall down from the blow-down hole.
However, since the width of the drain hole is larger than the widths of the guide groove and the installation groove, the punched waste is difficult to directly fall down after punching, and after punching, the position of the waste is uncertain, and if the cutting blade cuts the waste during cutting, the situation of blade jamming or chipping and edge rolling may occur.
Disclosure of Invention
The invention provides an elevator steel sill processing device and a processing method, which aims to solve the problems that: when the blow-down hole is punched, the punched waste is difficult to directly fall down and the position is uncertain because the width of the blow-down hole is larger than the widths of the guide groove and the mounting groove, and if the cutting blade cuts the waste during cutting, the condition of blade clamping stagnation or tipping and edge rolling can occur.
In order to achieve the above purpose, the present invention provides the following technical solutions: the elevator steel sill processing equipment comprises a machine base, wherein a punching component is arranged at the top of the machine base, an upper die is fixedly arranged at the output end of the punching component, a lower die is arranged on the machine base and used for bearing an elevator sill, a mounting groove of the elevator sill slides outside the lower die, a groove is formed in the lower die, and the punching component drives the upper die to punch the elevator sill at the position of the groove during punching, so that a sewage hole is punched and waste is formed;
the two sides of one end of the lower die are respectively provided with a vertical groove and a horizontal groove, the vertical groove and the horizontal groove are the same as the elevator sill in the length direction, a vertical pushing plate is vertically arranged in the vertical groove in a sliding manner, and a horizontal pushing plate is transversely arranged in the horizontal groove in a sliding manner;
the elevator steel sill processing equipment further comprises a driving assembly, wherein the driving assembly is used for driving the vertical pushing plate to vertically move so as to push one end of the waste upwards, and the driving assembly is further used for driving the transverse pushing plate to horizontally move so as to push the other end of the waste, so that the waste punched by the upper die inclines and falls from the bottom of the mounting groove.
In a preferred embodiment, the vertical push plate is disposed at the bottom of the inside of the groove and the lateral push plate is disposed in the side wall of the inside of the groove.
In a preferred embodiment, the guide groove is arranged above the mounting groove, a sewage draining position is arranged on the guide groove, the punching assembly punches the elevator sill at the sewage draining position, and the punched waste is wider than the opening at the bottom of the mounting groove.
In a preferred embodiment, the driving assembly comprises a driving block and a first cylinder, the first cylinder is used for driving the driving block to transversely move, a chute which is obliquely arranged is formed in the side wall of the driving block, one end of the vertical pushing plate is fixedly connected with the vertical pushing rod, the bottom end of the vertical pushing rod slides in the chute, one end of the horizontal pushing plate is fixedly connected with the horizontal pushing rod, and the horizontal pushing rod is fixedly connected with the driving block.
In a preferred embodiment, the side notch is all offered at the both ends of recess, and the both ends of lower mould all are provided with extrusion subassembly, and extrusion subassembly includes clamp plate and cylinder two, and the clamp plate slides the inside that sets up at the side notch, and cylinder two is used for driving the clamp plate and removes to make two clamp plates extrude the waste material and bend.
In a preferred embodiment, a support assembly is provided directly below the recess, the support assembly comprising a third cylinder with a pallet secured to the output end above the third cylinder, the third cylinder being adapted to drive the pallet into the recess to support scrap.
In a preferred embodiment, the bottom of the lower die is provided with a discharge hopper, the discharge hopper is obliquely arranged, the bottom surface of the discharge hopper is provided with an avoidance groove, and the supporting plate is positioned on the inner side of the avoidance groove.
In a preferred embodiment, the punching assembly comprises a hydraulic cylinder, a guide rod is vertically and slidably arranged at the upper end of the base, and the output end of the hydraulic cylinder and the bottom end of the guide rod are fixedly connected with the upper die.
In a preferred embodiment, the elevator steel sill processing apparatus further includes a conveying table on which conveying rollers are mounted for conveying the elevator sill toward the machine base, a flat plate fixedly mounted above the conveying table, the flat plate being in contact with an upper surface of the elevator sill.
The invention also provides a method for processing by using the elevator steel sill processing equipment, which comprises the following steps:
step one: the elevator sill is sleeved on the outer side of the lower die in a sliding manner;
step two: the upper die is driven to move downwards through the stamping assembly to stamp the elevator sill, so that a drain hole is stamped, waste materials are formed, and the waste materials fall into the mounting groove;
step three: the driving assembly drives the vertical pushing plate to vertically move so as to push one end of the waste upwards, and the driving assembly drives the transverse pushing plate to transversely move so as to transversely push the other end of the waste, so that the waste punched by the upper die inclines and falls from the bottom of the mounting groove.
The invention has the technical effects and advantages that: according to the invention, through the arrangement of the vertical pushing plate, the horizontal pushing plate and the driving assembly, when the waste material formed during the stamping of the sewage hole is required to be blanked from the bottom of the mounting groove, one end of the waste material is pushed upwards by the vertical pushing plate, the other end of the waste material is pushed transversely by the horizontal pushing plate, so that the horizontal waste material is changed into an inclined state, one end of the waste material is positioned at the opening position of the mounting groove, and the waste material can automatically fall under the action of gravity at the moment so as to realize the purpose of discharging the waste material, thereby avoiding the influence of the waste material on the cutting knife during the subsequent cutting of the elevator sill.
Drawings
Fig. 1 is a schematic diagram of the overall structure of the present invention.
Fig. 2 is a schematic diagram of a partial structure of the present invention.
Fig. 3 is a schematic diagram of a partial structure of the present invention.
Fig. 4 is a schematic diagram of a partial structure of the present invention.
Fig. 5 is a schematic illustration of the scrap of the present invention being pushed to an incline.
Fig. 6 is a schematic diagram of a partial structure of the present invention.
FIG. 7 is a schematic illustration of the scrap of the present invention being bent.
Fig. 8 is a schematic diagram of a partial structure of the present invention.
Fig. 9 is a schematic view of a conveyor table arrangement of the present invention.
Fig. 10 is a flowchart of a method for processing an elevator steel sill according to the present invention.
The reference numerals are: 1. a base; 2. a punching assembly; 21. a hydraulic cylinder; 22. a guide rod; 3. an upper die; 4. a lower die; 41. a groove; 42. a vertical groove; 43. a transverse groove; 44. a side notch; 5. a vertical pushing plate; 6. a transverse pushing plate; 7. a drive assembly; 71. a driving block; 711. a chute; 72. a first cylinder; 73. a vertical push rod; 74. a transverse pushing rod; 8. an extrusion assembly; 81. a pressing plate; 82. a second cylinder; 9. a support assembly; 91. a supporting plate; 92. a third cylinder; 100. discharging a hopper; 101. an avoidance groove; 110. a conveying table; 111. a conveying roller; 112. a flat plate; 200. an elevator sill; 201. a guide groove; 202. a mounting groove; 203. a sewage disposal site; 204. a blow-down hole; 300. waste material.
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.
Referring to fig. 1-10 of the specification, an elevator steel sill processing device comprises a machine base 1, wherein a punching component 2 is arranged at the top of the machine base 1, an upper die 3 is fixedly arranged at the output end of the punching component 2, a lower die 4 is arranged on the machine base 1, the lower die 4 is used for bearing an elevator sill 200, a mounting groove 202 of the elevator sill 200 slides outside the lower die 4, a groove 41 is formed in the lower die 4, and during punching, the punching component 2 drives the upper die 3 to punch the elevator sill 200 at the position of the groove 41, so that a drain hole 204 is punched and a waste 300 is formed;
the two sides of one end of the lower die 4 are respectively provided with a vertical groove 42 and a horizontal groove 43, the vertical groove 42 and the horizontal groove 43 are the same as the elevator sill 200 in length direction, a vertical pushing plate 5 is vertically arranged in the vertical groove 42 in a sliding manner, and a horizontal pushing plate 6 is transversely arranged in the horizontal groove 43 in a sliding manner;
the elevator steel sill processing apparatus further includes a driving assembly 7, the driving assembly 7 being for driving the vertical pushing plate 5 to vertically move so as to push one end of the scrap 300 upward, the driving assembly 7 being for driving the horizontal pushing plate 6 to horizontally move so as to laterally push the other end of the scrap 300, so that the scrap 300 punched by the upper mold 3 is inclined and falls from the bottom of the installation groove 202.
As shown in fig. 3 and 6, the elevator sill 200 has a guide groove 201 at an upper portion thereof, a mounting groove 202 below the guide groove 201, a drainage place 203 in a length direction of the guide groove 201, and a width of the drainage place 203 is larger than a width of the guide groove 201 and a bottom opening of the mounting groove 202, and in fig. 2, 3, 6 and 8, in order to show a structure of the apparatus, the length of the elevator sill 200 is shortened.
In the above technical solution, the driving assembly 7 may be two cylinders, which are used for driving the vertical pushing plate 5 to move vertically and driving the horizontal pushing plate 6 to move laterally respectively.
As shown in fig. 1, the punching assembly 2 comprises a hydraulic cylinder 21, a guide rod 22 is vertically and slidably mounted at the upper end of the stand 1, and the output end of the hydraulic cylinder 21 and the bottom end of the guide rod 22 are fixedly connected with the upper die 3.
In this embodiment, the implementation manner is specifically as follows: when the elevator sill 200 is stamped, firstly, the elevator sill 200 is sleeved on the outer side of the lower die 4 in a sliding manner, namely, the mounting groove 202 is sleeved on the outer side of the lower die 4, the pollution discharge position 203 is positioned right below the upper die 3, and at the moment, the pollution discharge position 203 is positioned at the position of the groove 41; then, the upper die 3 is driven to move downwards by the hydraulic cylinder 21 to punch the drain hole 204, and the waste 300 formed during punching enters the inside of the mounting groove 202, and the waste 300 is horizontally supported in the inside of the mounting groove 202 because the width of the waste 300 is larger than the width of the opening at the bottom of the mounting groove 202, so that the waste 300 cannot automatically fall out of the mounting groove 202; therefore, as shown in fig. 4 and 5, the driving assembly 7 drives the vertical pushing plate 5 to move upwards, so that the vertical pushing plate 5 pushes one end of the waste 300 upwards, and the driving assembly 7 drives the horizontal pushing plate 6 to move transversely, so that the other end of the waste 300 is pushed transversely, as shown in fig. 5, one end of the waste 300 moves upwards, and the other end moves leftwards, and when one end of the bottom of the waste 300 moves to the position of the bottom opening of the mounting groove 202, the waste 300 falls downwards due to the action of gravity, so that the purpose of blanking the waste 300 is achieved.
In the above technical scheme, through setting up of perpendicular push pedal 5, horizontal push pedal 6 and drive assembly 7, when the waste material 300 that forms when punching press blowdown hole 204 needs to follow the bottom blanking of mounting groove 202, utilize perpendicular push pedal 5 to promote the one end of waste material 300 upwards, utilize horizontal push pedal 6 to promote the other end of waste material 300 transversely, make horizontal waste material 300 become the slope, and make the one end of waste material 300 be located mounting groove 202 open position, can fall automatically under the action of gravity this moment, in order to realize the purpose of discharging waste material 300, thereby avoided when later cutting elevator sill 200 waste material 300 to produce the influence to the cutting knife.
Further, the vertical pushing plate 5 is disposed at the bottom of the inner side of the groove 41, and the lateral pushing plate 6 is disposed in the side wall of the inner side of the groove 41.
It should be noted that, the vertical pushing plate 5 is disposed at the bottom of the inner side of the groove 41, so as to facilitate the vertical pushing plate 5 to push the waste 300 upwards, the horizontal pushing plate 6 is disposed in the side wall of the inner side of the lower mold 4, that is, a receiving groove is formed on the side wall of the groove 41, and when the horizontal pushing plate 6 does not push the waste 300, the horizontal pushing plate 6 is disposed in the receiving groove, and the purpose is to prevent the waste 300 from being pushed down, one end of the waste 300 is supported on the horizontal pushing plate 6, which causes the problem that the horizontal pushing plate 6 cannot push the waste 300.
Further, a guide groove 201 is arranged above the installation groove 202, a pollution discharge position 203 is arranged on the guide groove 201, the punching assembly 2 punches the elevator sill 200 at the position of the pollution discharge position 203, and the width of the punched waste 300 is larger than the width of the bottom opening of the installation groove 202.
It should be noted that, the width of the drain hole 204 is greater than the width of the mounting groove 202, so that when the foreign matter is blocked in the mounting groove 202, the foreign matter can be pushed to the position of the drain hole 204 by the elevator door to be discharged, and the foreign matter cannot be continuously blocked at the position of the drain hole 204.
Referring to fig. 2-4 of the specification, the driving assembly 7 includes a driving block 71 and a first cylinder 72, the first cylinder 72 is used for driving the driving block 71 to move transversely, a chute 711 arranged obliquely is formed in the side wall of the driving block 71, one end of the vertical pushing plate 5 is fixedly connected with a vertical pushing rod 73, the bottom end of the vertical pushing rod 73 slides in the chute 711, one end of the transverse pushing plate 6 is fixedly connected with a transverse pushing rod 74, and the transverse pushing rod 74 is fixedly connected with the driving block 71.
In the direction of fig. 4, when the first cylinder 72 pushes the driving block 71 to move to the left, the driving block 71 drives the vertical pushing rod 73 to move upwards through the chute 711, so that the vertical pushing rod 73 drives the vertical pushing plate 5 to move upwards, and one end of the waste 300 is pushed by the vertical pushing plate 5 to move upwards; the driving block 71 drives the transverse pushing plate 6 to move leftwards through the transverse pushing rod 74, so that the transverse pushing plate 6 is driven to move leftwards through the transverse pushing rod 74, and the other end of the waste 300 is pushed leftwards by the transverse pushing plate 6.
Referring to fig. 2 to 4 of the drawings, if the height of the installation groove 202 is low, the upper end of the scrap 300 is pushed into the interior of the drain hole 204 when the vertical pushing plate 5 pushes the scrap 300, and the scrap 300 can drop when the lower end of the scrap 300 is pushed to the opening position of the bottom of the installation groove 202, however, since the scrap 300 is punched out from the position of the drain hole 204, when the vertical pushing plate 5 pushes the scrap 300 upward, the scrap 300 is pushed against the upper wall of the installation groove 202 and cannot be pushed further to be inclined, and thus cannot be discharged, the side slots 44 are opened at both ends of the groove 41, the pressing assembly 8 including the pressing plate 81 and the cylinder two 82 is slidably disposed in the interior of the side slots 44, and the pressing plate 81 is moved by the cylinder two pressing plates 81, so that the two pressing plates 81 press and bend the scrap 300.
Further, a supporting member 9 is disposed right under the recess 41, the supporting member 9 includes a third cylinder 92, a pallet 91 is fixedly mounted at an output end above the third cylinder 92, and the third cylinder 92 is used for driving the pallet 91 into the recess 41 so as to support the waste 300.
It should be noted that, when the height of the mounting groove 202 is low, before the vertical pushing plate 5 and the horizontal pushing plate 6 push the two ends of the waste 300, a supplementary operation step is needed, that is, the air cylinder three 92 drives the supporting plate 91 to move upwards to extend into the groove 41, so as to lift the waste 300 upwards, and then the air cylinder two 82 on two sides of the lower die 4 drives the two pressing plates 81 to approach each other to press the front and rear ends of the waste 300, so that the waste 300 is bent, and as shown in fig. 7, the bending direction of the driving assembly 7 is arbitrary; the supporting plate 91 and the pressing plate 81 are reset, and the two ends of the waste 300 are pushed by the vertical pushing plate 5 and the horizontal pushing plate 6, at this time, the upper end of the waste 300 can extend into the sewage hole 204 and cannot be propped against the upper wall of the mounting groove 202, on one hand, because the two pressing plates 81 can push the waste 300 to a position aligned with the sewage hole 204, and on the other hand, because the waste 300 is bent, the length of the waste 300 is smaller than the length of the sewage hole 204, and therefore, in the process that the waste 300 is pushed to incline by the vertical pushing plate 5 and the horizontal pushing plate 6, the upper end of the waste 300 can extend into the sewage hole 204 until the upper end of the waste 300 is pushed to the opening position at the bottom of the mounting groove 202, and the waste 300 falls down.
Further, as shown in fig. 2, the bottom of the lower die 4 is provided with a discharge hopper 100, the discharge hopper 100 is obliquely arranged, the bottom surface of the discharge hopper 100 is provided with an avoidance groove 101, and the supporting plate 91 is positioned at the inner side of the avoidance groove 101.
The falling waste 300 can be discharged from the discharge hopper 100, and the escape groove 101 is provided for accommodating the pallet 91.
Further, as shown in fig. 9, the elevator steel sill processing apparatus further includes a conveying table 110, on which a conveying roller 111 is mounted, the conveying roller 111 being for conveying the elevator sill 200 to the machine base 1, a flat plate 112 is fixedly mounted above the conveying table 110, and the flat plate 112 is in contact with the upper surface of the elevator sill 200.
The conveying roller 111 is rotated by a motor to convey the elevator sill 200.
As shown in fig. 10, the embodiment further provides a method for processing by using the elevator steel sill processing apparatus, which includes the following steps:
step one: the elevator sill 200 is sleeved on the outer side of the lower die 4 in a sliding way;
step two: the upper die 3 is driven to move downwards by the punching assembly 2 to punch the elevator sill 200, so that a drain hole 204 is punched, waste 300 is formed, and the waste 300 falls into the installation groove 202;
step three: the driving assembly 7 drives the vertical pushing plate 5 to vertically move so as to push one end of the waste 300 upwards, and the driving assembly 7 drives the transverse pushing plate 6 to transversely move so as to transversely push the other end of the waste 300, so that the waste 300 punched by the upper die 3 tilts and falls from the bottom of the mounting groove 202.
Finally: the foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the invention are intended to be included within the scope of the invention.
Claims (10)
1. An elevator steel sill processing equipment which is characterized in that: the elevator base comprises a base (1), wherein a punching component (2) is arranged at the top of the base (1), an upper die (3) is fixedly arranged at the output end of the punching component (2), a lower die (4) is arranged on the base (1), the lower die (4) is used for bearing an elevator sill (200), a mounting groove (202) of the elevator sill (200) slides outside the lower die (4), a groove (41) is formed in the lower die (4), and during punching, the punching component (2) drives the upper die (3) to punch the elevator sill (200) at the position of the groove (41), so that a drain hole (204) is punched and waste (300) is formed;
a vertical groove (42) and a transverse groove (43) are respectively formed in two sides of one end of the lower die (4), the vertical groove (42) and the transverse groove (43) are identical to the elevator sill (200) in length direction, a vertical pushing plate (5) is vertically arranged in the vertical groove (42) in a sliding mode, and a transverse pushing plate (6) is transversely arranged in the transverse groove (43) in a sliding mode;
the elevator steel sill processing equipment further comprises a driving assembly (7), wherein the driving assembly (7) is used for driving the vertical pushing plate (5) to vertically move so as to push one end of the waste material (300) upwards, and the driving assembly (7) is further used for driving the transverse pushing plate (6) to horizontally move so as to push the other end of the waste material (300) to horizontally push the waste material (300) flushed by the upper die (3) to incline and fall from the bottom of the mounting groove (202).
2. The elevator steel sill processing apparatus of claim 1 wherein: the vertical pushing plate (5) is arranged at the bottom of the inner side of the groove (41), and the transverse pushing plate (6) is arranged in the side wall of the inner side of the groove (41).
3. The elevator steel sill processing apparatus of claim 1 wherein: the upper portion of mounting groove (202) is guide way (201), have blowdown position (203) on guide way (201), punching press subassembly (2) are punching press elevator sill (200) in the position of blowdown position (203), and the width of the waste material (300) that punches out is greater than mounting groove (202) bottom open-ended width.
4. The elevator steel sill processing apparatus of claim 2 wherein: the driving assembly (7) comprises a driving block (71) and a first cylinder (72), the first cylinder (72) is used for driving the driving block (71) to transversely move, a chute (711) which is obliquely arranged is formed in the side wall of the driving block (71), one end of the vertical pushing plate (5) is fixedly connected with a vertical pushing rod (73), the bottom end of the vertical pushing rod (73) slides in the chute (711), one end of the transverse pushing plate (6) is fixedly connected with a transverse pushing rod (74), and the transverse pushing rod (74) is fixedly connected with the driving block (71).
5. The elevator steel sill processing apparatus of claim 1 wherein: side notch (44) have all been seted up at the both ends of recess (41), the both ends of lower mould (4) all are provided with extrusion subassembly (8), extrusion subassembly (8) are including clamp plate (81) and cylinder two (82), clamp plate (81) slip setting is in the inside of side notch (44), cylinder two (82) are used for driving clamp plate (81) and remove to make two clamp plates (81) extrude waste material (300) bending.
6. The elevator steel sill processing apparatus of claim 5 wherein: a bearing component (9) is arranged right below the groove (41), the bearing component (9) comprises a third cylinder (92), a supporting plate (91) is fixedly arranged at the output end above the third cylinder (92), and the third cylinder (92) is used for driving the supporting plate (91) to enter the groove (41) so as to bear the waste material (300).
7. The elevator steel sill processing apparatus of claim 6 wherein: the bottom of lower mould (4) is provided with out hopper (100), ejection of compact fill (100) slope sets up, dodge groove (101) have been seted up to the bottom surface of ejection of compact fill (100), layer board (91) are located the inboard of dodging groove (101).
8. The elevator steel sill processing apparatus of claim 1 wherein: the stamping assembly (2) comprises a hydraulic cylinder (21), a guide rod (22) is vertically and slidably arranged at the upper end of the base (1), and the output end of the hydraulic cylinder (21) and the bottom end of the guide rod (22) are fixedly connected with the upper die (3).
9. The elevator steel sill processing apparatus of claim 1 wherein: the elevator steel sill processing equipment further comprises a conveying table (110), conveying rollers (111) are arranged on the conveying table (110), the conveying rollers (111) are used for conveying the elevator sill (200) to the machine base (1), a flat plate (112) is fixedly arranged above the conveying table (110), and the flat plate (112) is in contact with the upper surface of the elevator sill (200).
10. A method of processing using the elevator steel sill processing apparatus of any of claims 1 to 9, comprising the steps of:
step one: the elevator sill (200) is sleeved on the outer side of the lower die (4) in a sliding manner;
step two: the upper die (3) is driven to move downwards through the stamping assembly (2) to stamp the elevator sill (200), so that a drain hole (204) is stamped out, waste materials (300) are formed, and the waste materials (300) fall into the mounting groove (202);
step three: the driving assembly (7) drives the vertical pushing plate (5) to vertically move so as to push one end of the waste material (300) upwards, and the driving assembly (7) drives the transverse pushing plate (6) to transversely move so as to transversely push the other end of the waste material (300), so that the waste material (300) flushed by the upper die (3) inclines and falls from the bottom of the mounting groove (202).
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