CN220311901U - Full-automatic integrated steel production line - Google Patents
Full-automatic integrated steel production line Download PDFInfo
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- CN220311901U CN220311901U CN202321537956.6U CN202321537956U CN220311901U CN 220311901 U CN220311901 U CN 220311901U CN 202321537956 U CN202321537956 U CN 202321537956U CN 220311901 U CN220311901 U CN 220311901U
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- 229910000831 Steel Inorganic materials 0.000 title claims abstract description 100
- 239000010959 steel Substances 0.000 title claims abstract description 100
- 238000004519 manufacturing process Methods 0.000 title claims abstract description 31
- 238000005520 cutting process Methods 0.000 claims abstract description 13
- 230000007246 mechanism Effects 0.000 claims description 24
- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 claims description 16
- 229910052742 iron Inorganic materials 0.000 claims description 8
- 230000002265 prevention Effects 0.000 claims description 7
- 238000000034 method Methods 0.000 claims description 3
- 238000005096 rolling process Methods 0.000 claims description 2
- 239000000463 material Substances 0.000 description 17
- 239000000696 magnetic material Substances 0.000 description 2
- 230000005389 magnetism Effects 0.000 description 2
- 230000009471 action Effects 0.000 description 1
- 230000004075 alteration Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000004140 cleaning Methods 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 230000007423 decrease Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000005484 gravity Effects 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000008569 process Effects 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
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Abstract
The utility model relates to the technical field of steel production, in particular to a full-automatic integrated steel production line, which comprises a supporting frame; the fixing plates are provided with four fixing plates, the four fixing plates are fixedly arranged on the front surface of the supporting frame at equal intervals, the upper surface of each fixing plate is fixedly connected with a fixing seat, the front surface of each fixing seat is fixedly embedded with a first hydraulic rod, and one end, far away from the fixing seat, of each first hydraulic rod is fixedly connected with a clamping plate; the steel plate stacking device comprises three second hydraulic rods, wherein three second hydraulic rods are arranged on the upper surface of a supporting frame and are fixedly installed on the lower surface of the supporting frame at equal intervals, U-shaped plates are fixedly connected to the lower surface of the second hydraulic rods, four U-shaped plates are jointly and rotatably connected with a cylinder in the middle of the outer surface of each U-shaped plate, and four cutting blades are fixedly installed on the outer surface of each cylinder.
Description
Technical Field
The utility model relates to the technical field of steel production, in particular to a full-automatic integrated steel production line.
Background
The self-advantages of the steel product are recognized to a certain extent in the construction process, and the steel product has a wide application prospect, and in the steel plate production process, the steel plate is often required to be cut and segmented so as to be convenient for unifying the specifications of the steel plate.
The existing steel production device needs to stack the steel plates manually after cutting the steel plates, and has the problems of low production efficiency, high labor cost, discontinuous production and the like.
Therefore, a full-automatic integrated steel production line is provided.
Disclosure of Invention
The utility model aims to provide a full-automatic integrated steel production line so as to solve the problems in the background technology.
In order to achieve the above purpose, the present utility model provides the following technical solutions: a fully automatic integrated steel production line, comprising:
a support frame;
the fixing plates are provided with four fixing plates, the four fixing plates are fixedly arranged on the front surface of the supporting frame at equal intervals, the upper surface of each fixing plate is fixedly connected with a fixing seat, the front surface of each fixing seat is fixedly embedded with a first hydraulic rod, and one end, far away from the fixing seat, of each first hydraulic rod is fixedly connected with a clamping plate;
the second hydraulic rods are provided with three, the three second hydraulic rods are fixedly arranged on the upper surface of the supporting frame at equal intervals, the lower surfaces of the second hydraulic rods are fixedly connected with U-shaped plates, the middle positions of the outer surfaces of the four U-shaped plates are jointly connected with cylinders in a rotating mode, four cutting blades are fixedly arranged on the outer surfaces of the cylinders, the four cutting blades are respectively arranged inside the four U-shaped plates, a first motor is fixedly arranged on the outer surfaces of the U-shaped plates on the left side, and an output shaft of the first motor penetrates through the U-shaped plates and is fixedly connected with the cylinders;
a stacking mechanism;
the middle position of the front surface of the support frame is provided with a stacking mechanism capable of automatically stacking steel plates.
Preferably, the pile up neatly mechanism includes diaphragm, second motor, push pedal, ball seat, connecting plate, L template, guide arm, layer board, baffle, riser and swash plate, the front surface intermediate position fixed mounting of support frame has the diaphragm, one side that the support frame front surface direction was kept away from to the diaphragm from left to right fixedly connected with four swash plates that inclination increases gradually, and per two equal fixed mounting has the baffle between the swash plate, the last surface sliding mounting of baffle has ash control mechanism, the equal fixedly connected with layer board of front surface of swash plate, and two equal fixed mounting has the riser between the layer board, the bottom surface right side position department fixed mounting of support frame has the backup pad, the surface left side top rotation of backup pad is connected with the lead screw, the one end of lead screw runs through the backup pad and fixedly connected with second motor, the other end and the support frame rotation of lead screw, the surface rolling mounting has the ball seat, the surface of ball seat is close to one side fixedly connected with push pedal of direction, just the push pedal and the sliding fit of left side, the bottom fixedly connected with ash control mechanism of backup pad, and the equal fixed mounting has the guide arm, three side and three side fixed mounting of support frame and L template have the equal fixed surface of side of the support frame.
Preferably, the clamping plate and the outer surface of the fixing plate are fixedly connected with rubber pads.
During operation, when clamping plate and fixed plate carry out the centre gripping to the steel sheet material, form the scratch to the steel sheet material easily, through all fixedly connected with rubber pad at clamping plate and fixed plate surface, can avoid forming the scratch to the steel sheet material, cause the steel sheet material damage.
Preferably, the connecting plates have magnetism, and iron plates are fixedly embedded on the outer surfaces of the L-shaped plates.
During operation, when the connecting plate promotes L template to remove, L template can remove because the inertial effect can produce the distance with the connecting plate between, leads to stacking together steel sheet material to appear the phenomenon of dislocation, through setting up the connecting plate to have magnetic material to inlay the iron plate at L template surface, when the connecting plate removes L template position department, the connecting plate attracts the iron plate, can prevent that L template from removing, avoids stacking together steel sheet material to appear the phenomenon of dislocation.
Preferably, the upper surface of the supporting plate is inclined, and the angle of the inclined angle is 10 degrees to 15 degrees.
Preferably, grooves are formed in the outer surfaces of the vertical plates, and the L-shaped plates are movably mounted in the grooves respectively.
Preferably, the ash prevention mechanism comprises a first fixed ear, a third hydraulic rod, a second fixed ear, a movable plate and a sliding groove, wherein the first fixed ear is fixedly connected to the left side of the outer surface of the supporting frame, the third hydraulic rod is fixedly connected to the middle position of the outer surface of the first fixed ear, the second fixed ear is fixedly connected to one side, far away from the direction of the first fixed ear, of the third hydraulic rod, the movable plate is fixedly connected to the lower surface of the second fixed ear, four sliding grooves matched with the baffle are formed in the lower surface of the movable plate, and the top of the baffle is slidably mounted inside the sliding groove.
Preferably, the upper surface of the movable plate is inclined to one side of the transverse plate.
Preferably, the inside cavity form that is of diaphragm, just evenly distributed's through-hole has been seted up to the upper surface of diaphragm, the surface right side of diaphragm is fixed to be connected with the diaphragm pipe in a through manner, the diaphragm pipe runs through the support frame and fixedly connected with fan.
Preferably, the upper surface of the transverse plate is slidably provided with a movable plate, a fourth hydraulic rod is fixedly arranged at the middle position of the right side of the outer surface of the movable plate, and the fourth hydraulic rod is fixedly connected with the support frame.
Compared with the prior art, the utility model has the beneficial effects that:
the existing integrated steel production device needs to stack the steel plates manually after cutting the steel plates, and has the problems of low production efficiency, high labor cost, discontinuous production and the like.
Drawings
FIG. 1 is a schematic view of the overall structure of the present utility model;
FIG. 2 is a schematic view of the palletizing mechanism according to the present utility model;
FIG. 3 is an enlarged view of the utility model at A in FIG. 1;
FIG. 4 is an enlarged view of the utility model at B in FIG. 2;
FIG. 5 is a structural view of the ash handling mechanism of the present utility model;
fig. 6 is a view showing the structure of the through hole, the cross tube, the fan, the moving plate and the fourth hydraulic rod according to the present utility model.
In the figure: 1. a support frame; 2. a fixing plate; 3. a fixing seat; 4. a first hydraulic lever; 5. a clamping plate; 6. a U-shaped plate; 7. a second hydraulic lever; 8. a cylinder; 9. a cutting blade; 10. a first motor; 11. a stacking mechanism; 111. a cross plate; 112. a second motor; 113. a push plate; 114. a ball seat; 115. a connecting plate; 116. an L-shaped plate; 117. a guide rod; 118. a supporting plate; 119. a baffle; 1110. a riser; 1111. a sloping plate; 1112. a support plate; 1113. a screw rod; 12. an iron plate; 13. a stop block; 14. an ash prevention mechanism; 141. a first fixed ear; 142. a third hydraulic lever; 143. a second fixed ear; 144. a movable plate; 145. a chute; 15. a through hole; 16. a transverse tube; 17. a blower; 18. a moving plate; 19. a fourth hydraulic lever; 20. a groove; 21. and a rubber pad.
Detailed Description
The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
Referring to fig. 1 to 6, the present utility model provides a technical solution:
a fully automatic integrated steel production line, as shown in fig. 1 to 3, comprising:
a support frame 1;
the fixing plate 2 is provided with four fixing plates 2, the four fixing plates 2 are fixedly arranged on the front surface of the support frame 1 at equal intervals, the upper surface of the fixing plate 2 is fixedly connected with a fixing seat 3, the front surface of the fixing seat 3 is fixedly embedded with a first hydraulic rod 4, and one end, far away from the fixing seat 3, of the first hydraulic rod 4 is fixedly connected with a clamping plate 5;
the second hydraulic rods 7 are arranged, three second hydraulic rods 7 are fixedly arranged on the upper surface of the support frame 1 at equal intervals, the lower surfaces of the second hydraulic rods 7 are fixedly connected with U-shaped plates 6, the middle positions of the outer surfaces of the four U-shaped plates 6 are jointly connected with cylinders 8 in a rotating mode, four cutting blades 9 are fixedly arranged on the outer surfaces of the cylinders 8, the four cutting blades 9 are respectively arranged inside the four U-shaped plates 6, a first motor 10 is fixedly arranged on the outer surfaces of the left U-shaped plates 6, and an output shaft of the first motor 10 penetrates through the U-shaped plates 6 and is fixedly connected with the cylinders 8;
a palletizing mechanism 11;
the middle position of the front surface of the support frame 1 is provided with a stacking mechanism 11 capable of automatically stacking steel plates.
When the steel plate stacking device works, after the existing steel production device is used for cutting steel plates, the steel plates need to be stacked manually, and the problems of low production efficiency, high labor cost, discontinuous production and the like exist.
As one embodiment of the utility model, as shown in FIG. 2, the stacking mechanism 11 comprises a transverse plate 111, a second motor 112, a push plate 113, ball seats 114, a connecting plate 115, L-shaped plates 116, guide rods 117, supporting plates 118, baffle plates 119, vertical plates 1110 and inclined plates 1111, wherein the transverse plate 111 is fixedly arranged in the middle of the front surface of the supporting frame 1, four inclined plates 1111 with gradually increased inclination angles are fixedly connected to one side of the transverse plate 111 far away from the front surface direction of the supporting frame 1 from left to right, each baffle plate 119 is fixedly arranged between every two inclined plates 1111, an ash prevention mechanism 14 is slidably arranged on the upper surface of each baffle plate 119, supporting plates 118 are fixedly connected to the front surface of each inclined plate 1111, vertical plates 1110 are fixedly arranged between two supporting plates 118, a lead screw 1113 is rotatably connected to the top of the outer surface left side of the supporting plate 1112, one end of the lead screw 1113 penetrates through the supporting plate 1112 and is fixedly connected with the second motor 112, the other end of the lead screw 1113 is rotatably connected with the supporting frame 1, guide rods 1113 are slidably connected to the guide rods 1113, ball seats 117 are fixedly connected to the outer surface of the three supporting plates 117 are fixedly arranged on the left side of the outer surface of the supporting frame 1, and the three supporting plates 117 are fixedly connected to the outer surfaces of the three supporting plates 117, and the three supporting plates 117 are fixedly arranged on the left side surfaces of the supporting plates 118, and the supporting plates are fixedly connected to the left side surfaces of the supporting plates 117, and the supporting plates are fixedly arranged on the left side surfaces of the supporting plates 117.
In order to improve the automation degree of steel plate production and avoid manual stacking, when the steel plate stacking device is used, after steel plate cutting is completed, the first hydraulic rod 4 is driven to move, the cut steel plate is placed on the surface of the inclined plate 1111, the steel plate slides down to the upper surface of the supporting plate 118 along the inclined plane, the inclination angle of the inclined plate 1111 sequentially increases from left to right, the height of the supporting plate 118 at the bottom of the inclined plate 1111 sequentially decreases from left to right, then the second motor 112 is connected with an external power supply and drives the second motor 112 to rotate, the screw rod 1113 fixedly connected with the second motor 112 rotates, the ball seat 114 arranged on the outer surface of the screw rod 1113 can move along the screw rod 1113, the push plate 113 fixedly connected with the ball seat 114 and the connecting plate 115 move along with the screw rod 1113, the push plate 113 moves to push the steel plate 118 with the upper surface of the highest, the pushed steel plate can move to the upper surface of the adjacent steel plate 116, the connecting plate 115 can push the L-shaped plate 116 to move, the pushed steel plate 116 can completely move to the adjacent steel plate upper surface, the two steel plates can be stacked together, and the cost of the steel plate stacking device can be reduced, the cost of the manual stacking device can be improved, and the cost of the steel plate stacking device can be increased, and the cost of the manual stacking device can be increased, and the cost of the steel plate stacking can be automatically stacked together 11 can be stacked together by the steel plate can be stacked together and the surface and the steel plate can be stacked together and the surface can be stacked.
As an embodiment of the present utility model, as shown in fig. 3, the outer surfaces of the clamping plate 5 and the fixing plate 2 are fixedly connected with rubber pads 21.
During operation, when clamping plate 5 and fixed plate 2 carry out the centre gripping to the steel sheet material, form the scratch to the steel sheet material easily, through at clamping plate 5 and the equal fixedly connected with rubber pad 21 of fixed plate 2 surface, can avoid forming the scratch to the steel sheet material, cause the steel sheet material damage.
As an embodiment of the present utility model, as shown in fig. 2, the connection plate 115 has magnetism, and the outer surfaces of the L-shaped plates 116 are fixedly fitted with the iron plates 12.
When the work, when the connecting plate 115 promotes L-shaped plate 116 to remove, L-shaped plate 116 can move because of the inertial action and produce the distance between connecting plate 115, leads to the phenomenon that the steel sheet that stacks together appears misplacement, through setting up connecting plate 115 to have magnetic material to inlay at L-shaped plate 116 surface and put iron plate 12, when connecting plate 115 moved to L-shaped plate 116 position department, connecting plate 115 attracted iron plate 12, can prevent that L-shaped plate 116 from removing, avoid the phenomenon that the steel sheet that stacks together appears misplacement.
As an embodiment of the present utility model, as shown in fig. 2, the upper surface of the supporting plate 118 is inclined, and the angle of the inclined angle is 10 ° -15 °.
During operation, when the steel sheet slides to the upper surface of the supporting plate 118 along the inclined plate 1111, the steel sheet is likely to be askew, the stacking is not facilitated, the upper surface of the supporting plate 118 is inclined, the angle of the inclined angle is 10-15 degrees, the angle is smaller, the sliding speed of the steel sheet is facilitated to be slowed down, the sliding speed of the steel sheet cannot be slowed down due to overlarge angle setting, the steel sheet is unfavorable for staying on the upper surface of the supporting plate 118, after the steel sheet slides to the upper surface of the supporting plate 118, the steel sheet is inclined on the upper surface of the supporting plate 118 due to the gravity of the supporting plate 118, and the steel sheet can be moved to be closely attached to the stop 13, so that the steel sheet is flush with the stop 13, the steel sheet is prevented from being askew, and the stacking of the steel sheet is facilitated.
As an embodiment of the present utility model, as shown in fig. 4, the outer surfaces of the risers 1110 are each provided with a groove 20, and the L-shaped boards 116 are movably installed in the grooves 20, respectively.
During operation, because L template 116 is at layer board 118 upper surface, can hinder the steel sheet material to pass through swash plate 1111 landing to layer board 118 upper surface, through setting up recess 20, L template 116 is accomodate in recess 20, can prevent that L template 116 from causing the hindrance to layer board 118, guarantees that the steel sheet material passes through swash plate 1111 landing to layer board 118 upper surface.
As an embodiment of the present utility model, as shown in fig. 5, the ash prevention mechanism 14 includes a first fixing lug 141, a third hydraulic rod 142, a second fixing lug 143, a movable plate 144, and a chute 145, the left side of the outer surface of the support frame 1 is fixedly connected with the first fixing lug 141, the middle position of the outer surface of the first fixing lug 141 is fixedly connected with the third hydraulic rod 142, and one side of the third hydraulic rod 142 far away from the direction of the first fixing lug 141 is fixedly connected with the second fixing lug 143, the lower surface of the second fixing lug 143 is fixedly connected with the movable plate 144, the lower surface of the movable plate 144 is provided with four chutes 145 adapted to the baffle 119, and the top of the baffle 119 is slidably mounted inside the chute 145.
During operation, can produce the piece when cutting steel sheet material, piece can drop on swash plate 1111 surface, when steel sheet material slides at swash plate 1111 surface, piece can take place relative movement to steel sheet material and swash plate 1111, lead to steel sheet material and swash plate 1111 surface to appear the mar, through setting up ash prevention mechanism 14, drive third hydraulic stem 142 and remove, thereby can drive the fixed ear 143 of second and remove, and in the same way, the fly leaf 144 of fixed ear 143 fixed connection with the second can remove, so that fly leaf 144 can cover in swash plate 1111 top, avoid piece to fall on swash plate 1111 upper surface, cause swash plate 1111 and steel sheet material to appear the mar.
As an embodiment of the present utility model, as shown in fig. 1, the upper surface of the movable plate 144 is inclined toward the side of the transverse plate 111.
In operation, by providing the upper surface of the movable plate 144 as an inclined surface inclined to the side of the traverse plate 111, it is possible to ensure that the chips dropped on the movable plate 144 slide along the inclined surface to the upper surface of the traverse plate 111.
As an embodiment of the present utility model, as shown in fig. 6, the inside of the cross plate 111 is hollow, through holes 15 are uniformly distributed on the upper surface of the cross plate 111, a cross pipe 16 is fixedly connected to the right side of the outer surface of the cross plate 111, and the cross pipe 16 penetrates through the support frame 1 and is fixedly connected to a fan 17.
During operation, the scraps falling on the upper surface of the transverse plate 111 need to be cleaned, manual cleaning is troublesome and is labor-consuming, the blower 17 can suck air above the transverse plate 111 into the transverse plate 111 through the through holes 15 and then discharge the air from the transverse tube 16 through the through holes 15, and the scraps on the upper surface of the transverse plate 111 are discharged from the transverse tube 16 through air flow, so that the scraps on the upper surface of the transverse plate 111 are cleaned.
As an embodiment of the present utility model, as shown in fig. 6, a moving plate 18 is slidably mounted on the upper surface of the transverse plate 111, and a fourth hydraulic rod 19 is fixedly mounted at a middle position on the right side of the outer surface of the moving plate 18, and the fourth hydraulic rod 19 is fixedly connected with the support frame 1.
When the width of the steel plate is wider during operation, most of the steel plate possibly stays on the upper surface of the transverse plate 111 and cannot slide along the inclined plate 1111, and by arranging the fourth hydraulic rod 19, only the fourth hydraulic rod 19 is required to be driven, so that the moving plate 18 fixedly connected with the fourth hydraulic rod 19 can be driven to move, and the moving plate 18 can push the steel plate to slide along the inclined plate 1111.
The using method comprises the following steps: when the steel plate stacking mechanism is used, after the steel plate is cut, the first hydraulic rod 4 is driven to move, the cut steel plate is placed on the surface of the inclined plate 1111, the steel plate slides down to the upper surface of the supporting plate 118 along the inclined plane, the inclined angle of the inclined plate 1111 sequentially increases from left to right, the height of the supporting plate 118 at the bottom of the inclined plate 1111 is sequentially reduced from left to right, then the second motor 112 is connected with an external power supply and drives the second motor 112 to rotate, the screw rod 1113 fixedly connected with the second motor 112 rotates, the ball seat 114 arranged on the outer surface of the screw rod 1113 can move along the screw rod 1113, the push plate 113 fixedly connected with the ball seat 114 and the connecting plate 115 move along with the screw rod 1113, the push plate 113 can push the steel plate on the upper surface of the highest supporting plate 118 to move, the pushed steel plate can move to the upper surface of the adjacent steel plate, the connecting plate 115 can push the L-shaped plate 116 to move, at the moment, the pushed steel plate 116 can completely move to the upper surface of the adjacent steel plate, the L-shaped plate 116 can move to push two steel plates together with the push plate 113 to be stacked together, and the two steel plates can be stacked together, the cost of the steel plates can be automatically reduced, and the stacking mechanism can be stacked by the manual cost is avoided, and the stacking mechanism 11 is realized.
Although embodiments of the present utility model 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 utility model, the scope of which is defined in the appended claims and their equivalents.
Claims (10)
1. A fully automatic integrated steel production line, comprising:
a support (1);
the fixing device comprises fixing plates (2), wherein the fixing plates (2) are provided with four fixing plates, the four fixing plates (2) are fixedly arranged on the front surface of a supporting frame (1) at equal intervals, the upper surface of each fixing plate (2) is fixedly connected with a fixing seat (3), the front surface of each fixing seat (3) is fixedly embedded with a first hydraulic rod (4), and one end, far away from the fixing seat (3), of each first hydraulic rod (4) is fixedly connected with a clamping plate (5);
the second hydraulic rods (7), the second hydraulic rods (7) are provided with three, the three second hydraulic rods (7) are fixedly arranged on the upper surface of the support frame (1) at equal intervals, the lower surfaces of the second hydraulic rods (7) are fixedly connected with U-shaped plates (6), the middle positions of the outer surfaces of the four U-shaped plates (6) are jointly and rotatably connected with cylinders (8), the outer surfaces of the cylinders (8) are fixedly provided with four cutting blades (9), the four cutting blades (9) are respectively arranged inside the four U-shaped plates (6), the outer surfaces of the U-shaped plates (6) positioned on the left side are fixedly provided with first motors (10), and output shafts of the first motors (10) penetrate through the U-shaped plates (6) and are fixedly connected with the cylinders (8);
a palletizing mechanism (11);
the method is characterized in that: the middle position of the front surface of the supporting frame (1) is provided with a stacking mechanism (11) capable of automatically stacking steel plates.
2. A fully automatic integrated steel production line according to claim 1, characterized in that: the stacking mechanism (11) comprises a transverse plate (111), a second motor (112), a push plate (113), a ball seat (114), a connecting plate (115), an L-shaped plate (116), a guide rod (117), a supporting plate (118), a baffle (119), a vertical plate (1110) and an inclined plate (1111), wherein the transverse plate (111) is fixedly arranged in the middle of the front surface of the supporting frame (1), one side, far away from the front surface direction of the supporting frame (1), of the transverse plate (111) is fixedly connected with four inclined plates (1111) with gradually increased inclination angles from left to right, each two inclined plates (1111) are fixedly provided with baffle plates (119), the upper surface of the baffle plates (119) is slidably provided with an ash prevention mechanism (14), the front surface of each inclined plate (1111) is fixedly connected with the supporting plate (118), the vertical plate (1110) is fixedly arranged between the two supporting plates (118), the supporting plate (1112) is fixedly arranged at the right side position of the bottom surface of the supporting frame (1), the left top of the outer surface of the supporting plate (1112) is rotationally connected with a screw rod (1113), one end of the screw rod (1113) is fixedly connected with the second supporting plate (1113) through the supporting plate (1113), the ball seat (114) is installed in the rolling of lead screw (1113) surface, one side that the surface of ball seat (114) is close to swash plate (1111) direction fixedly connected with push pedal (113), just push pedal (113) and left layer board (118) sliding fit, the bottom fixedly connected with guide arm (117) of backup pad (1112), just the other end and support frame (1) fixed connection of guide arm (117), the surface slidable mounting of guide arm (117) has three L template (116), and three L template (116) respectively with three layer boards (118) sliding fit on right side, equal fixed mounting in layer board (118) upper surface left side dog (13).
3. A fully automatic integrated steel production line according to claim 1, characterized in that: the outer surfaces of the clamping plate (5) and the fixing plate (2) are fixedly connected with rubber pads (21).
4. A fully automatic integrated steel production line according to claim 2, characterized in that: the connecting plates (115) are magnetic, and iron plates (12) are fixedly embedded on the outer surfaces of the L-shaped plates (116).
5. A fully automatic integrated steel production line according to claim 2, characterized in that: the upper surface of the supporting plate (118) is inclined, and the angle of the inclined angle is 10-15 degrees.
6. A fully automatic integrated steel production line according to claim 2, characterized in that: the outer surfaces of the vertical plates (1110) are provided with grooves (20), and the L-shaped plates (116) are movably arranged in the grooves (20) respectively.
7. A fully automatic integrated steel production line according to claim 2, characterized in that: the ash prevention mechanism (14) comprises a first fixed lug (141), a third hydraulic rod (142), a second fixed lug (143), a movable plate (144) and a sliding groove (145), the left side of the outer surface of the support frame (1) is fixedly connected with the first fixed lug (141), the middle position of the outer surface of the first fixed lug (141) is fixedly connected with the third hydraulic rod (142), one side, far away from the direction of the first fixed lug (141), of the third hydraulic rod (142) is fixedly connected with the second fixed lug (143), the lower surface of the second fixed lug (143) is fixedly connected with the movable plate (144), four sliding grooves (145) matched with the baffle plate (119) are formed in the lower surface of the movable plate (144), and the top of the baffle plate (119) is slidably mounted inside the sliding groove (145).
8. A fully automatic integrated steel production line according to claim 7, characterized in that: the upper surface of the movable plate (144) is inclined to the side of the transverse plate (111).
9. A fully automatic integrated steel production line according to claim 7, characterized in that: the inside of diaphragm (111) is hollow, just evenly distributed's through-hole (15) have been seted up to the upper surface of diaphragm (111), the fixed through-connection in surface right side of diaphragm (111) has diaphragm (16), diaphragm (16) run through support frame (1) and fixedly connected with fan (17).
10. A fully automatic integrated steel production line according to claim 9, characterized in that: the movable plate (18) is slidably mounted on the upper surface of the transverse plate (111), a fourth hydraulic rod (19) is fixedly mounted at the middle position of the right side of the outer surface of the movable plate (18), and the fourth hydraulic rod (19) is fixedly connected with the support frame (1).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202321537956.6U CN220311901U (en) | 2023-06-15 | 2023-06-15 | Full-automatic integrated steel production line |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202321537956.6U CN220311901U (en) | 2023-06-15 | 2023-06-15 | Full-automatic integrated steel production line |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN220311901U true CN220311901U (en) | 2024-01-09 |
Family
ID=89419273
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202321537956.6U Active CN220311901U (en) | 2023-06-15 | 2023-06-15 | Full-automatic integrated steel production line |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN220311901U (en) |
-
2023
- 2023-06-15 CN CN202321537956.6U patent/CN220311901U/en active Active
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