CN212043505U - Steel plate processing apparatus for building - Google Patents

Abstract

The utility model relates to a steel sheet processing apparatus, more specifically the steel sheet processing apparatus for building that says so, including time delay trigger mechanism, the straight mechanism of cutting, activity seat mechanism, the steel sheet can be locked to the device, and the device can level and smooth the steel sheet, and the device can start the cutting and delay a period, and the device can cool down when leveling, and time delay trigger mechanism links to each other with the straight mechanism of cutting, and the straight mechanism of cutting links to each other with activity seat mechanism.

Description

Steel plate processing apparatus for building

Technical Field

The utility model relates to a steel sheet processing apparatus, more specifically the steel sheet processing apparatus for building that says so.

Background

In the construction, the steel sheet is the base material of often using, and the steel sheet can meet the situation of unevenness sometimes, and the steel sheet can generate heat when leveling, and traditional processing mode is natural cooling usually, perhaps handles through the fan, but the power can be wasted to the fan, and natural cooling speed is slow, so design a steel plate processing apparatus for building.

Disclosure of Invention

The utility model provides a steel sheet processing apparatus for building, beneficial effect are that the device can lock the steel sheet, and the device can level and smooth the steel sheet, and the device can start the cutting and delay a period, and the device can cool down when leveling.

In order to solve the technical problem, the utility model relates to a steel sheet processing apparatus, more specifically the steel sheet processing apparatus for building that says so, including time delay trigger mechanism, the straight mechanism of cutting, activity seat mechanism, the steel sheet can be locked to the device, and the device can level and smooth the steel sheet, and the device can start the cutting and delay a period, and the device can cool down in the leveling.

The time-delay trigger mechanism comprises a gear bearing seat, a gear, a rack frame, a groove, a cross brace, a stepped support, a stepped groove, a support with a friction block, a plug, a socket, a vertical support and a gear bar, wherein the gear bearing seat is connected with the gear in a bearing mode, the gear is meshed with the rack, the rack is connected with the rack frame, the rack frame is connected with the stepped support, the stepped support is connected with the stepped groove in a sliding mode, the stepped groove is formed in the cross brace, the groove is formed in the rack, the support with the friction block is connected with the groove in a sliding mode, the support with the friction block is connected with the plug, the socket is connected with the vertical support, the vertical support is connected with the cross brace, and the gear bar is connected with;

the cutting and straightening mechanism comprises a leg support, a cutter with a shaft, a coupler, a motor, a linkage mechanism, a sliding groove, a step groove I, a spring, a vertical step groove, a vertical through hole, a hydraulic rod, a hydraulic cylinder support, an upper machine body, an air cavity, an air inlet one-way valve, an air outlet pipe, an air outlet one-way valve, a joint disc mechanism and a sliding fit groove, wherein the leg support is connected with the cutter with the shaft in a bearing manner, the cutter with the shaft is connected with the motor through the coupler, the motor is connected with the leg support, the leg support is connected with the upper machine body, the upper machine body is connected with the vertical support, the upper machine body is connected with a gear bearing seat, the linkage mechanism is in sliding connection with the sliding groove, the sliding groove is arranged on the upper machine body, the step groove I is arranged on the upper machine body, the spring is sleeved on the linkage mechanism, the vertical step groove is arranged on, the hydraulic rod is connected with the vertical through hole in a sliding mode, the hydraulic rod is connected with the hydraulic cylinder, the hydraulic rod is connected with the linkage mechanism, the hydraulic cylinder is connected with the hydraulic cylinder support, the hydraulic cylinder support is connected with the upper machine body, the air cavity is arranged in the upper machine body, the air inlet one-way valve is connected with the upper machine body, the air outlet pipe is communicated with the air cavity, the air outlet pipe is connected with the upper machine body, the air outlet one-way valve is arranged in the air outlet pipe, the joint disc mechanism is connected with the linkage mechanism, and;

the linkage mechanism comprises a stepped hole, a compression spring, a stepped special-shaped seat, a transverse sliding rack, a hinge rod, a transmission stepped seat, a connecting strip, a connecting rod, a piston, a lower compression rod and a lower compression seat, wherein the stepped hole is formed in the stepped special-shaped seat;

the connecting disc mechanism comprises a connecting tooth holder and a step support, the connecting tooth holder is connected with the step support, the step support is connected with the step hole in a sliding mode, the step support is sleeved with a compression spring, and the compression spring abuts against the step support;

the movable seat mechanism comprises a lower seat body, a transverse sliding groove, a sliding tooth seat mechanism, a transmission gear, a gear shaft, a belt pulley, a belt, a pressing seat mechanism, a matched moving seat mechanism, a driven gear, a belt pulley A and a gear shaft A, wherein the lower seat body is connected with the leg support;

the sliding tooth holder mechanism comprises a rack I, a sliding strip, a step support A and a lower engaging tooth holder, wherein the rack I is connected with the sliding strip, the sliding strip is connected with the transverse sliding groove in a sliding manner, the rack I is connected with the step support A, the step support A is connected with the lower engaging tooth holder, and the lower engaging tooth holder is meshed with the engaging tooth holder;

the pressing seat mechanism comprises a limiting sliding rod, a threaded rod with a boss, a pressing seat with a bearing seat and a screwing head, the limiting sliding rod is connected with the pressing seat with the bearing seat, the pressing seat with the bearing seat is connected with the threaded rod with the boss in a bearing connection mode, and the threaded rod with the boss is connected with the screwing head;

the matching moving seat mechanism comprises a driven rack, a driven sliding strip, a seat body, a limiting sliding hole and a threaded hole, the driven rack is connected with the driven sliding strip, the driven sliding strip is connected with the transverse sliding groove in a sliding mode, the driven rack is connected with the seat body, the limiting sliding hole is formed in the seat body, the limiting sliding hole is connected with the limiting sliding rod in a sliding mode, the threaded rod with the boss is connected with the threaded hole in a threaded mode, and the threaded hole is tapped on the seat body;

the time delay trigger mechanism is connected with the cutting straight mechanism, and the cutting straight mechanism is connected with the movable seat mechanism.

As the further optimization of this technical scheme, the utility model relates to a steel plate processing apparatus for building ladder dysmorphism seat when moving extreme position in ladder groove I, takes the clutch blocks to support and can move grooved left side extreme position.

As the further optimization of this technical scheme, the utility model relates to a steel plate processing apparatus for building when plug, socket switch-on, the power switch-on of motor.

The utility model relates to a steel plate processing apparatus for building's beneficial effect does:

the utility model relates to a steel sheet processing apparatus for building, device can lock the steel sheet, and the steel sheet can be leveled to the device, and the device can start the cutting and delay a period, and the device can cool down when leveling.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is the utility model relates to a steel plate for building processing apparatus's overall structure sketch map.

Fig. 2 is the utility model relates to a time delay trigger mechanism 1 schematic structure of steel plate processing apparatus for building.

Fig. 3 is the utility model relates to a straight mechanism 2 schematic structure of cutting of steel sheet processing apparatus for building.

Fig. 4 is the structural schematic diagram of the linkage mechanism 2-5 of the steel plate processing device for building of the utility model.

Fig. 5 is a schematic structural view of the joint disk mechanism 2-19 of the steel plate processing device for construction of the present invention.

Fig. 6 is the utility model relates to a3 schematic structural diagrams of sliding seat mechanism of steel sheet processing apparatus for building.

Fig. 7 is the structural schematic view of the sliding tooth seat mechanism 3-3 of the steel plate processing device for building of the utility model.

Fig. 8 is the utility model discloses a steel sheet processing apparatus for building compresses tightly seat mechanism 3-8 schematic structure.

Fig. 9 is a schematic structural view of the matching movable seat mechanism 3-9 of the steel plate processing device for construction of the present invention.

In the figure: a delay trigger mechanism 1; a gear bearing seat 1-1; gear 1-2; 1-3 of a rack; rack 1-4; 1-5 of slotting; 1-6 of a cross brace; 1-7 of a ladder support; 1-8 of a stepped groove; 1-9 with friction block support; 1-10 of a plug; sockets 1-11; 1-12 of vertical support; gear steps 1-13; a cutting straightening mechanism 2; a leg frame 2-1; a cutter with a shaft 2-2; 2-3 of a coupler; 2-4 of a motor; 2-5 of a linkage mechanism; 2-5-1 of a stepped hole; 2-5-2 of a compression spring; 2-5-3 of a step special-shaped seat; 2-5-4 of a transverse sliding rack; hinge rods 2-5-5; 2-5-6 of a transmission step seat; 2-5-7 of a connecting strip; 2-5-8 parts of a connecting rod; 2-5-9 parts of a piston; 2-5-10 parts of a lower pressure rod; 2-5-11 parts of a pressing seat; 2-6 of a sliding groove; a stepped groove I2-7; 2-8 parts of a spring; 2-9 parts of vertical stepped grooves; 2-10 parts of vertical through holes; 2-11 parts of a hydraulic rod; 2-12 parts of a hydraulic cylinder; the hydraulic cylinder supports 2-13; an upper body 2-14; 2-15 of an air cavity; 2-16 of an air inlet check valve; 2-17 parts of an air outlet pipe; 2-18 parts of an air outlet one-way valve; a splice tray mechanism 2-19; engaging the toothholder 2-19-1; 2-19-2 of a ladder support; 2-20 of sliding fit groove; a movable seat mechanism 3; 3-1 of a lower seat body; 3-2 of a horizontal chute; a sliding tooth holder mechanism 3-3; the rack I3-3-1; 3-3-2 of a sliding strip; the ladder support A3-3-3; a lower engagement toothholder 3-3-4; transmission gears 3-4; gear shafts 3-5; 3-6 of belt pulleys; 3-7 parts of a belt; 3-8 parts of a pressing seat mechanism; 3-8-1 of a limiting sliding rod; 3-8-2 parts of a threaded rod with a boss; 3-8-3 of a compression seat with a bearing seat; screwing the head 3-8-4; matching with the movable seat mechanism 3-9; a driven rack 3-9-1; 3-9-2 of a driven sliding strip; 3-9-3 parts of a seat body; 3-9-4 of a limiting slide hole; 3-9-5 parts of a threaded hole; 3-10 parts of driven gear; pulley A3-11; gear shaft a 3-12.

Detailed Description

The first embodiment is as follows:

this embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, the utility model relates to a steel sheet processing apparatus, more specifically the steel sheet processing apparatus for building that says so, including time delay trigger mechanism 1, the straight mechanism 2 of cutting, sliding seat mechanism 3, the steel sheet can be locked to the device, and the device can level the steel sheet, and the device can start the cutting and delay a period, and the device can cool down in the leveling.

The delay triggering mechanism 1 comprises a gear bearing seat 1-1, a gear 1-2, a rack 1-3, a rack frame 1-4, a slot 1-5, a cross brace 1-6, a step support 1-7, a step slot 1-8, a support with a friction block 1-9, a plug 1-10, a socket 1-11, a vertical support 1-12 and a gear bar 1-13, wherein the gear bearing seat 1-1 is connected with the gear 1-2 through a bearing, the gear 1-2 is meshed with the rack 1-3, the rack 1-3 is connected with the rack frame 1-4, the rack frame 1-4 is connected with the step support 1-7, the step support 1-7 is connected with the step slot 1-8 in a sliding manner, the step slot 1-8 is opened on the cross brace 1-6, the gear rack comprises a rack 1-3, a slot 1-5, a support 1-9 with a friction block, a plug 1-10, a socket 1-11, a cross brace 1-6, a gear rack 1-13, a horizontal brace 1-6, a plug 1-10, a socket 1-11, a vertical brace 1-12, a gear rack 1-3, a gear rack support 1-5, a plug support 1-9, a plug support 1-10, a socket support 1-11, a gear rack support 1-1, a gear rack support;

the cutting straightening mechanism 2 comprises a leg support 2-1, a cutter with a shaft 2-2, a coupler 2-3, a motor 2-4, a linkage mechanism 2-5, a sliding groove 2-6, a step groove I2-7, a spring 2-8, a vertical step groove 2-9, a vertical through hole 2-10, a hydraulic rod 2-11, a hydraulic cylinder 2-12, a hydraulic cylinder support 2-13, an upper machine body 2-14, an air cavity 2-15, an air inlet one-way valve 2-16, an air outlet pipe 2-17, an air outlet one-way valve 2-18, a joint disc mechanism 2-19 and a sliding fit groove 2-20, the connection mode of the leg support 2-1 and the cutter with the shaft 2-2 is a bearing connection, the cutter with the shaft 2-2 and the motor 2-4 are connected through the coupler 2-3, the motor 2-4 is connected with the supporting leg frame 2-1, the supporting leg frame 2-1 is connected with the upper machine body 2-14, the upper machine body 2-14 is connected with the vertical support 1-12, the upper machine body 2-14 is connected with the gear bearing seat 1-1, the linkage mechanism 2-5 is connected with the sliding groove 2-6 in a sliding manner, the sliding groove 2-6 is arranged on the upper machine body 2-14, the step groove I2-7 is arranged on the upper machine body 2-14, the spring 2-8 is sleeved on the linkage mechanism 2-5, the vertical step groove 2-9 is arranged on the upper machine body 2-14, the linkage mechanism 2-5 is connected with the vertical step groove 2-9 in a sliding manner, the vertical through hole 2-10 is arranged on the upper machine body 2-14, the hydraulic rod 2-11 is connected with the vertical through hole 2-10 in a sliding manner, the hydraulic rod 2-11 is connected with the hydraulic, the hydraulic rod 2-11 is connected with the linkage mechanism 2-5, the hydraulic cylinder 2-12 is connected with the hydraulic cylinder support 2-13, the hydraulic cylinder support 2-13 is connected with the upper machine body 2-14, the air cavity 2-15 is arranged in the upper machine body 2-14, the air inlet one-way valve 2-16 is connected with the upper machine body 2-14, the air outlet pipe 2-17 is communicated with the air cavity 2-15, the air outlet pipe 2-17 is connected with the upper machine body 2-14, the air outlet one-way valve 2-18 is arranged in the air outlet pipe 2-17, the joint disc mechanism 2-19 is connected with the linkage mechanism 2-5, and the sliding fit groove 2-20 is opened on the upper machine body 2-14;

the linkage mechanism 2-5 comprises a stepped hole 2-5-1, a pressing spring 2-5-2, a stepped special-shaped seat 2-5-3, a transverse sliding rack 2-5-4, a hinge rod 2-5-5, a transmission stepped seat 2-5-6, a connecting bar 2-5-7, a connecting rod 2-5-8, a piston 2-5-9, a lower pressing rod 2-5-10 and a lower pressing seat 2-5-11, wherein the stepped hole 2-5-1 is arranged on the stepped special-shaped seat 2-5-3, the pressing spring 2-5-2 is arranged in the stepped hole 2-5-1, the stepped special-shaped seat 2-5-3 is connected with the transverse sliding rack 2-5-4, the transverse sliding rack 2-5-4 is connected with a sliding groove 2-6 in a sliding manner, the spring 2-8 is sleeved on the transverse sliding rack 2-5-4, the hinged rod 2-5-5 is hinged with the step special-shaped seat 2-5-3, the hinged rod 2-5-5 is hinged with the transmission step seat 2-5-6, the transmission step seat 2-5-6 is connected with the connecting rod 2-5-7, the transmission step seat 2-5-6 is connected with the vertical step groove 2-9 in a sliding way, the connecting rod 2-5-7 is connected with the connecting rod 2-5-8, the connecting rod 2-5-8 is connected with the piston 2-5-9, the lower pressing rod 2-5-10 is connected with the transmission step seat 2-5-6, the lower pressing rod 2-5-10 is connected with the lower pressing seat 2-5-11, the vertical through hole 2-10 is connected with the lower pressing rod 2-5-10 in a sliding manner, the piston 2-5-9 is connected with the air cavity 2-15 in a sliding manner, the step special-shaped seat 2-5-3 can drive the transverse sliding rack 2-5-4 to move leftwards when moving leftwards, the transverse sliding rack 2-5-4 can drive the gear 1-2 to rotate clockwise, the gear 1-2 can drive the rack 1-3 to move rightwards, the rack 1-3 can drive the friction block support 1-9 to move rightwards, the friction block support 1-9 can drive the plug 1-10 to move rightwards, the plug 1-10 can be communicated with the socket 1-11, the socket 1-11 can support the plug 1-10 at the moment, and the friction block support 1-9 and the slot 1-5 can slide relatively, the rack 1-3 continues moving rightwards, so that the operation of the motor 2-4 is ensured, the motor 2-4 drives the cutter 2-2 with a shaft to rotate, cutting can be carried out, when the step special-shaped seat 2-5-3 is reset rightwards, the friction force provided by the open slot 1-5 drives the plug 1-10 to be disconnected with the socket 1-11, so that the motor 2-4 stops rotating, electric energy can be saved, the support 1-9 with a friction block is blocked by the gear strip 1-13 when touching the gear strip 1-13, then the rack 1-3 continues moving leftwards, so that next time delay cutting is facilitated, when the transmission step seat 2-5-6 moves downwards, the piston 2-5-9 is driven to move downwards through the connecting strip 2-5-7 and the connecting rod 2-5-8, the piston 2-5-9 moves downwards to compress the gas in the gas cavity 2-15, the pressure in the gas cavity 2-15 is increased to open the gas outlet one-way valve 2-18, the gas cools the steel plate and the lower pressure seat 2-5-11, and when the transmission stepped seat 2-5-6 is reset upwards, the external gas is supplemented into the gas cavity 2-15 from the gas inlet one-way valve 2-16;

the joint disk mechanism 2-19 comprises a joint tooth holder 2-19-1 and a step support 2-19-2, the joint tooth holder 2-19-1 is connected with the step support 2-19-2, the step support 2-19-2 is in sliding connection with a step hole 2-5-1, a compression spring 2-5-2 is sleeved on the step support 2-19-2, and the compression spring 2-5-2 is abutted against the step support 2-19-2;

the movable seat mechanism 3 comprises a lower seat body 3-1, a transverse sliding groove 3-2, a sliding tooth seat mechanism 3-3, a transmission gear 3-4, a gear shaft 3-5, a belt pulley 3-6, a belt 3-7, a pressing seat mechanism 3-8, a matching movable seat mechanism 3-9, a driven gear 3-10, a belt pulley A3-11 and a gear shaft A3-12, wherein the lower seat body 3-1 is connected with a leg support 2-1, the transverse sliding groove 3-2 is arranged on the lower seat body 3-1, the sliding tooth seat mechanism 3-3 is in sliding connection with the transverse sliding groove 3-2, the sliding tooth seat mechanism 3-3 is meshed with the transmission gear 3-4, the transmission gear 3-4 is connected with the gear shaft 3-5, the gear shaft 3-5 is connected with the belt pulley 3-6, the gear shaft 3-5 is connected with the lower seat body 3-1 by a bearing, the belt pulley 3-6 is flexibly connected with the belt 3-7, the belt 3-7 is flexibly connected with the belt pulley A3-11, the belt pulley A3-11 is connected with the gear shaft A3-12, the gear shaft A3-12 is connected with the driven gear 3-10, the driven gear 3-10 is meshed with the matching movable seat mechanism 3-9, the matching movable seat mechanism 3-9 is connected with the transverse sliding groove 3-2 in a sliding way, the matching movable seat mechanism 3-9 is connected with the pressing seat mechanism 3-8, hydraulic oil is injected into the hydraulic cylinder 2-12 in the positive direction, the hydraulic rod 2-11 moves downwards under the driving of the oil pressure, the hydraulic rod 2-11 moves downwards to drive the transmission step seat 2-5-6 to move downwards, the downward movement of the transmission stepped seat 2-5-6 can drive the downward movement of the lower pressure rod 2-5-10, the downward movement of the lower pressure rod 2-5-10 can drive the downward movement of the lower pressure seat 2-5-11, meanwhile, the downward movement of the transmission stepped seat 2-5-6 can drive the downward movement of the stepped special-shaped seat 2-5-3 through the hinged rod 2-5-5, the leftward movement of the stepped special-shaped seat 2-5-3 can drive the joint disk mechanism 2-19 to move leftward, the leftward movement of the joint disk mechanism 2-19 can drive the downward joint toothed seat 3-3-4 to move leftward, the downward joint toothed seat 3-3-4 can drive the rack I3-3-1 to move leftward, the leftward movement of the rack I3-3-1 can drive the transmission gear 3-4 to rotate counterclockwise, and the transmission gear 3-4 can drive the downward stepped special-shaped seat 2, The belt 3-7, the belt pulley A3-11 and the gear shaft A3-12 drive the driven gear 3-10 to rotate anticlockwise, the driven gear 3-10 can drive the matching moving seat mechanism 3-9 to move leftwards, so that the clamped steel plate is conveyed to the lower part of the lower pressing seat 2-5-11, the steel plate is leveled by the lower pressing seat 2-5-11 moving downwards, then hydraulic oil is reversely injected into the hydraulic cylinder 2-12, and all moving parts are reset;

the sliding tooth holder mechanism 3-3 comprises a rack I3-3-1, a sliding strip 3-3-2, a step support A3-3-3 and a lower engaging tooth holder 3-3-4, the rack I3-3-1 is connected with the sliding strip 3-3-2, the sliding strip 3-3-2 is connected with a transverse sliding groove 3-2 in a sliding manner, the rack I3-3-1 is connected with the step support A3-3-3, the step support A3-3-3 is connected with the lower engaging tooth holder 3-3-4, and the lower engaging tooth holder 3-3-4 is meshed with the engaging tooth holder 2-19-1;

the pressing seat mechanism 3-8 comprises a limiting sliding rod 3-8-1, a threaded rod with a boss 3-8-2, a pressing seat with a bearing seat 3-8-3 and a twisting head 3-8-4, the limiting sliding rod 3-8-1 is connected with the pressing seat with the bearing seat 3-8-3, the pressing seat with the bearing seat 3-8-3 is connected with the threaded rod with the boss 3-8-2 by a bearing, the threaded rod with the boss 3-8-2 is connected with the twisting head 3-8-4, a steel plate to be flattened is placed on the seat body 3-9-3, then the twisting head 3-8-4 is twisted, and the twisting head 3-8-4 can drive the threaded rod with the boss 3-8-2 to rotate, the threaded rod 3-8-2 with the boss drives the pressing seat 3-8-3 with the bearing seat to move downwards through matching with the threaded hole 3-9-5, the pressing seat 3-8-3 with the bearing seat can press the steel bar, and the screwing head 3-8-4 can be rotated reversely after the steel plate is processed, so that the pressing seat 3-8-3 with the bearing seat can be driven to be far away from the steel plate, and the steel plate can be taken down;

the matching movable seat mechanism 3-9 comprises a driven rack 3-9-1, a driven sliding strip 3-9-2, a seat body 3-9-3, a limiting sliding hole 3-9-4 and a threaded hole 3-9-5, the driven rack 3-9-1 is connected with the driven sliding strip 3-9-2, the driven sliding strip 3-9-2 is connected with a transverse sliding groove 3-2 in a sliding manner, the driven rack 3-9-1 is connected with the seat body 3-9-3, the limiting sliding hole 3-9-4 is arranged on the seat body 3-9-3, the limiting sliding hole 3-9-4 is connected with the limiting sliding rod 3-8-1 in a sliding manner, a threaded rod 3-8-2 with a boss is connected with the threaded hole 3-9-5 in a threaded manner, the threaded hole 3-9-5 is tapped on the seat body 3-9-3;

the time delay trigger mechanism 1 is connected with the cutting straight mechanism 2, and the cutting straight mechanism 2 is connected with the movable seat mechanism 3.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8 and 9, and the embodiment is further described, in which when the step-shaped seat 2-5-3 moves to the limit position in the step groove I2-7, the belt friction block support 1-9 moves to the left limit position of the groove 1-5.

The third concrete implementation mode:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, and 9, and the present embodiment further describes the first embodiment, in which when the plug 1-10 and the socket 1-11 are connected, the power of the motor 2-4 is connected.

The utility model discloses a theory of operation is: the device can lock a steel plate, the steel plate to be leveled is placed on the seat body 3-9-3, then the screwing head 3-8-4 is screwed, the screwing head 3-8-4 can drive the threaded rod 3-8-2 with the boss to rotate, the threaded rod 3-8-2 with the boss drives the pressing seat 3-8-3 with the bearing seat to move downwards through matching with the threaded hole 3-9-5, the pressing seat 3-8-3 with the bearing seat can press the steel bar, and the screwing head 3-8-4 can be rotated reversely after the steel plate is processed, so that the pressing seat 3-8-3 with the bearing seat can be driven to be far away from the steel plate, and the steel plate can be taken down; the device can flatten a steel plate, hydraulic oil is injected into a hydraulic cylinder 2-12 in the forward direction, the hydraulic rod 2-11 moves downwards under the drive of the oil pressure, the hydraulic rod 2-11 moves downwards to drive a transmission stepped seat 2-5-6 to move downwards, the transmission stepped seat 2-5-6 moves downwards to drive a lower pressure rod 2-5-10 to move downwards, the lower pressure rod 2-5-10 moves downwards to drive a lower pressure seat 2-5-11 to move downwards, meanwhile, the transmission stepped seat 2-5-6 pushes a stepped special-shaped seat 2-5-3 through a hinge rod 2-5-5, the stepped special-shaped seat 2-5-3 drives a joint disc mechanism 2-19 to move leftwards, the joint disc mechanism 2-19 moves leftwards to drive a lower joint tooth seat 3-3-4 to move leftwards, the lower joint tooth holder 3-3-4 can drive the rack I3-3-1 to move leftwards, the rack I3-3-1 to move leftwards can drive the transmission gear 3-4 to rotate anticlockwise, the transmission gear 3-4 can drive the driven gear 3-10 to rotate anticlockwise through the belt pulley 3-6, the belt 3-7, the belt pulley A3-11 and the gear shaft A3-12, the driven gear 3-10 can drive the matched moving seat mechanism 3-9 to move leftwards, so that the clamped steel plate can be conveyed to the lower part of the lower pressing seat 2-5-11 and is flattened by the lower pressing seat 2-5-11 moving downwards, then hydraulic oil is reversely injected into the hydraulic cylinder 2-12 to reset all the moving parts, if the parts are in overload and are blocked, the compression spring 2-5-2) has a certain compression amount, so that the engaging toothholder 2-19-1) can be separated from the lower engaging toothholder 3-3-4), and the rack I3-3-1) and the like can be prevented from being cracked; the device can start cutting and delay a period of time, when moving leftwards, the step special-shaped seat 2-5-3 can drive the transverse sliding rack 2-5-4 to move leftwards, the transverse sliding rack 2-5-4 can drive the gear 1-2 to rotate clockwise, the gear 1-2 can drive the rack 1-3 to move rightwards, the rack 1-3 moves rightwards, the friction block support 1-9 can be driven by the rack 1-3 to move rightwards, the plug 1-10 can be driven by the friction block support 1-9 to move rightwards, the plug 1-10 can be communicated with the socket 1-11, the socket 1-11 can support the plug 1-10, the friction block support 1-9 can slide relative to the slot 1-5, the rack 1-3 can continue moving rightwards, and the running of the motor 2-4 can be ensured, the motor 2-4 can drive the cutter 2-2 with the shaft to rotate and can cut, when the step special-shaped seat 2-5-3 is reset rightwards, the friction force provided by the open slot 1-5 drives the plug 1-10 to be disconnected with the socket 1-11, so that the motor 2-4 stops rotating and can save electric energy, the support 1-9 with the friction block is blocked by the gear strips 1-13 when touching the gear strips 1-13, and then the rack 1-3 continues to move leftwards, so that the next time delay cutting is facilitated; the device can be leveled and cooled at the same time, when the transmission step seat 2-5-6 moves downwards, the piston 2-5-9 is driven to move downwards through the connecting strip 2-5-7 and the connecting rod 2-5-8, the piston 2-5-9 moves downwards to compress the gas in the gas cavity 2-15, the pressure in the gas cavity 2-15 is increased to open the gas outlet one-way valve 2-18, the gas can cool the steel plate and the lower pressure seat 2-5-11, when the transmission step seat 2-5-6 resets upwards, the external gas can be supplemented into the gas cavity 2-15 from the gas inlet one-way valve 2-16, the device is driven by one hydraulic cylinder, multiple functions are achieved, power is saved, and the effect is good.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and the changes, modifications, additions or replacements made by those skilled in the art within the scope of the present invention also belong to the protection scope of the present invention.

Claims (3)

1. The utility model provides a steel plate processing apparatus for building, includes time delay trigger mechanism (1), the straight mechanism of cutting (2), sliding seat mechanism (3), its characterized in that: the time delay trigger mechanism (1) comprises a gear bearing seat (1-1), a gear (1-2), a rack (1-3), a rack frame (1-4), a slot (1-5), a cross brace (1-6), a ladder support (1-7), a ladder slot (1-8), a support with a friction block (1-9), a plug (1-10), a socket (1-11), a vertical support (1-12) and a gear bar (1-13), wherein the gear bearing seat (1-1) is connected with the gear (1-2) in a bearing manner, the gear (1-2) is meshed with the rack (1-3), the rack (1-3) is connected with the rack frame (1-4), the rack frame (1-4) is connected with the ladder support (1-7), the stepped supports (1-7) are connected with stepped grooves (1-8) in a sliding mode, the stepped grooves (1-8) are formed in cross braces (1-6), slots (1-5) are formed in racks (1-3), supports (1-9) with friction blocks are connected with the slots (1-5) in a sliding mode, the supports (1-9) with friction blocks are connected with plugs (1-10), sockets (1-11) are connected with vertical supports (1-12), the vertical supports (1-12) are connected with the cross braces (1-6), and gear bars (1-13) are connected with gear bearing seats (1-1);

the cutting straightening mechanism (2) comprises a supporting leg frame (2-1), a cutter (2-2) with a shaft, a coupler (2-3), a motor (2-4), a linkage mechanism (2-5), a sliding groove (2-6), a step groove I (2-7), a spring (2-8), a vertical step groove (2-9), a vertical through hole (2-10), a hydraulic rod (2-11), a hydraulic cylinder (2-12), a hydraulic cylinder support (2-13), an upper machine body (2-14), an air cavity (2-15), an air inlet one-way valve (2-16), an air outlet pipe (2-17), an air outlet one-way valve (2-18), a jointing disc mechanism (2-19) and a sliding matching groove (2-20), wherein the supporting leg frame (2-1) is connected with the cutter (2-2) with the shaft through a bearing, the cutting knife with the shaft (2-2) is connected with a motor (2-4) through a coupler (2-3), the motor (2-4) is connected with a supporting leg frame (2-1), the supporting leg frame (2-1) is connected with an upper machine body (2-14), the upper machine body (2-14) is connected with a vertical support (1-12), the upper machine body (2-14) is connected with a gear bearing seat (1-1), a linkage mechanism (2-5) is in sliding connection with a sliding groove (2-6), the sliding groove (2-6) is opened on the upper machine body (2-14), a step groove I (2-7) is opened on the upper machine body (2-14), a spring (2-8) is sleeved on the linkage mechanism (2-5), a vertical step groove (2-9) is opened on the upper machine body (2-14), the linkage mechanism (2-5) is connected with the vertical stepped groove (2-9) in a sliding manner, the vertical through hole (2-10) is formed in the upper machine body (2-14), the hydraulic rod (2-11) is connected with the vertical through hole (2-10) in a sliding manner, the hydraulic rod (2-11) is connected with the hydraulic cylinder (2-12), the hydraulic rod (2-11) is connected with the linkage mechanism (2-5), the hydraulic cylinder (2-12) is connected with the hydraulic cylinder support (2-13), the hydraulic cylinder support (2-13) is connected with the upper machine body (2-14), the air cavity (2-15) is arranged in the upper machine body (2-14), the air inlet one-way valve (2-16) is connected with the upper machine body (2-14), the air outlet pipe (2-17) is communicated with the air cavity (2-15), the air outlet pipe (2-17) is connected with the upper machine body (2-14), the air outlet one-way valve (2-18) is arranged in the air outlet pipe (2-17), the jointing disc mechanism (2-19) is connected with the linkage mechanism (2-5), and the sliding matching groove (2-20) is arranged on the upper machine body (2-14);

the linkage mechanism (2-5) comprises a stepped hole (2-5-1), a compression spring (2-5-2), a stepped special-shaped seat (2-5-3), a transverse sliding rack (2-5-4), a hinge rod (2-5-5), a transmission stepped seat (2-5-6), a connecting strip (2-5-7), a connecting rod (2-5-8), a piston (2-5-9), a lower pressing rod (2-5-10) and a lower pressing seat (2-5-11), the stepped hole (2-5-1) is formed in the stepped special-shaped seat (2-5-3), the compression spring (2-5-2) is arranged in the stepped hole (2-5-1), the stepped special-shaped seat (2-5-3) is connected with the transverse sliding rack (2-5-4), a transverse sliding rack (2-5-4) is connected with a sliding groove (2-6) in a sliding way, a spring (2-8) is sleeved on the transverse sliding rack (2-5-4), a hinged rod (2-5-5) is hinged with a step special-shaped seat (2-5-3), the hinged rod (2-5-5) is hinged with a transmission step seat (2-5-6), the transmission step seat (2-5-6) is connected with a connecting bar (2-5-7), the transmission step seat (2-5-6) is connected with a vertical step groove (2-9) in a sliding way, the connecting bar (2-5-7) is connected with a connecting bar (2-5-8), the connecting bar (2-5-8) is connected with a piston (2-5-9), the lower pressure rod (2-5-10) is connected with the transmission stepped seat (2-5-6), the lower pressure rod (2-5-10) is connected with the lower pressure seat (2-5-11), the vertical through hole (2-10) is in sliding connection with the lower pressure rod (2-5-10), and the piston (2-5-9) is in sliding connection with the air cavity (2-15);

the joint disc mechanism (2-19) comprises a joint tooth holder (2-19-1) and a step support (2-19-2), the joint tooth holder (2-19-1) is connected with the step support (2-19-2), the step support (2-19-2) is in sliding connection with a step hole (2-5-1), a compression spring (2-5-2) is sleeved on the step support (2-19-2), and the compression spring (2-5-2) is abutted against the step support (2-19-2);

the movable seat mechanism (3) comprises a lower seat body (3-1), a transverse sliding groove (3-2), a sliding tooth seat mechanism (3-3), a transmission gear (3-4), a gear shaft (3-5), a belt pulley (3-6), a belt (3-7), a pressing seat mechanism (3-8), a matching moving seat mechanism (3-9), a driven gear (3-10), a belt pulley A (3-11) and a gear shaft A (3-12), wherein the lower seat body (3-1) is connected with the leg support frame (2-1), the transverse sliding groove (3-2) is arranged on the lower seat body (3-1), the sliding tooth seat mechanism (3-3) is connected with the transverse sliding groove (3-2) in a sliding manner, the sliding tooth seat mechanism (3-3) is meshed with the transmission gear (3-4), the transmission gear (3-4) is connected with a gear shaft (3-5), the gear shaft (3-5) is connected with a belt pulley (3-6), the gear shaft (3-5) is connected with the lower base body (3-1) in a bearing mode, the belt pulley (3-6) is flexibly connected with a belt (3-7), the belt (3-7) is flexibly connected with a belt pulley A (3-11), the belt pulley A (3-11) is connected with a gear shaft A (3-12), the gear shaft A (3-12) is connected with a driven gear (3-10), the driven gear (3-10) is meshed with a matching moving base mechanism (3-9), the matching moving base mechanism (3-9) is in sliding connection with a transverse sliding chute (3-2), and the matching moving base mechanism (3-9) is connected with a pressing base mechanism (3-8);

the sliding tooth holder mechanism (3-3) comprises a rack I (3-3-1), a sliding strip (3-3-2), a step support A (3-3-3) and a lower engaging tooth holder (3-3-4), the rack I (3-3-1) is connected with the sliding strip (3-3-2), the sliding strip (3-3-2) is connected with the transverse chute (3-2) in a sliding manner, the rack I (3-3-1) is connected with the step support A (3-3-3), the step support A (3-3-3) is connected with the lower engaging tooth holder (3-3-4), and the lower engaging tooth holder (3-3-4) is meshed with the engaging tooth holder (2-19-1);

the pressing seat mechanism (3-8) comprises a limiting sliding rod (3-8-1), a threaded rod (3-8-2) with a boss, a pressing seat (3-8-3) with a bearing seat and a twisting head (3-8-4), the limiting sliding rod (3-8-1) is connected with the pressing seat (3-8-3) with the bearing seat, the pressing seat (3-8-3) with the bearing seat is connected with the threaded rod (3-8-2) with the boss in a bearing mode, and the threaded rod (3-8-2) with the boss is connected with the twisting head (3-8-4);

the matching movable seat mechanism (3-9) comprises a driven rack (3-9-1), a driven sliding strip (3-9-2), a seat body (3-9-3), a limiting sliding hole (3-9-4) and a threaded hole (3-9-5), the driven rack (3-9-1) is connected with the driven sliding strip (3-9-2), the driven sliding strip (3-9-2) is connected with the transverse sliding groove (3-2) in a sliding manner, the driven rack (3-9-1) is connected with the seat body (3-9-3), the limiting sliding hole (3-9-4) is opened on the seat body (3-9-3), the limiting sliding hole (3-9-4) is connected with the limiting sliding rod (3-8-1) in a sliding manner, the threaded rod (3-8-2) with the boss is in threaded connection with the threaded hole (3-9-5), and the threaded hole (3-9-5) is tapped on the seat body (3-9-3);

the time delay trigger mechanism (1) is connected with the cutting straight mechanism (2), and the cutting straight mechanism (2) is connected with the movable seat mechanism (3).

2. The steel plate processing apparatus for construction as set forth in claim 1, wherein: when the step special-shaped seat (2-5-3) moves to the limit position in the step groove I (2-7), the support (1-9) with the friction block moves to the left limit position of the groove (1-5).

3. The steel plate processing apparatus for construction as set forth in claim 1, wherein: when the plug (1-10) and the socket (1-11) are connected, the power supply of the motor (2-4) is connected.

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