CN223185379U

CN223185379U - A strip steel plate conveying device for flange production

Info

Publication number: CN223185379U
Application number: CN202422373841.9U
Authority: CN
Inventors: 周莉莉; 周主涛
Original assignee: Jiangsu Jinyiyang Machinery Equipment Co ltd
Current assignee: Jiangsu Jinyiyang Machinery Equipment Co ltd
Priority date: 2024-09-29
Filing date: 2024-09-29
Publication date: 2025-08-05
Anticipated expiration: 2034-09-29

Abstract

The utility model discloses a bar-shaped steel plate conveying device for flange production, which comprises a control box, a supporting and guiding mechanism, a conveying and driving mechanism and a stamping and supporting mechanism, wherein the supporting and guiding mechanism is arranged on the feeding side of the conveying and driving mechanism and is used for guiding and conveying a bar-shaped steel plate into the conveying and driving mechanism, the conveying and driving mechanism drives the bar-shaped steel plate to transversely move to the discharging side, the stamping and supporting mechanism is arranged on the discharging side of the conveying and driving mechanism and is used for horizontally supporting the bar-shaped steel plate, and the conveying and driving mechanism is driven and controlled by the control box. The bar-shaped steel plate conveying device utilizes the cooperation of the supporting and guiding mechanism, the conveying and driving mechanism and the stamping and supporting mechanism, can realize the feeding and discharging support and automatic conveying of the bar-shaped steel plates, reduces the manual participation, and effectively improves the machining precision and the production efficiency of the flange plate.

Description

A bar steel sheet conveyor for ring flange production

Technical Field

The utility model relates to a strip steel plate conveying device, in particular to a strip steel plate conveying device for flange production.

Background

At present, when carrying out the ring flange production, the manual work is gradually from the coil of strip with the steel sheet of bar drag to the ring flange mould on the punching machine on carry out stamping forming, because manual operation needs at every turn to carry out manual positioning to the bar steel sheet position, and need great effort when dragging, not only production efficiency is low, also can influence the machining precision of ring flange. Therefore, it is necessary to design a strip steel plate conveying device for flange production, which can mechanically and horizontally convey the strip steel plates and effectively improve the processing precision and the production efficiency of the flange.

Disclosure of utility model

The utility model aims to provide a strip steel plate conveying device for flange production, which can mechanically and horizontally convey strip steel plates and effectively improve the processing precision and the production efficiency of flange plates.

The technical scheme is that the strip steel plate conveying device for producing the flange plate comprises a control box, a supporting and guiding mechanism, a conveying and driving mechanism and a stamping and supporting mechanism, wherein the supporting and guiding mechanism is arranged on the feeding side of the conveying and driving mechanism and used for guiding and conveying strip steel plates into the conveying and driving mechanism, the conveying and driving mechanism drives the strip steel plates to transversely move to the discharging side, the stamping and supporting mechanism is arranged on the discharging side of the conveying and driving mechanism and used for horizontally supporting the strip steel plates, and the conveying and driving mechanism is driven and controlled by the control box.

The supporting guide mechanism comprises a diagonal bracing adjusting unit, two side supporting rods and supporting adjusting units, wherein one ends of the two side supporting rods are hinged to the feeding side of the conveying driving mechanism in a swinging mode, the diagonal bracing adjusting unit is obliquely supported between the two side supporting rods and the conveying driving mechanism, the supporting length of the diagonal bracing adjusting unit is adjustable, the supporting adjusting units are arranged on the two side supporting rods and used for supporting the strip-shaped steel plates, and the supporting angle and the supporting height of the supporting adjusting units are adjustable.

The support adjusting unit comprises a support roller shaft, two strip-shaped support side plates and two position locking bolts, strip-shaped adjusting holes are formed in the strip-shaped support side plates along the length direction, the two strip-shaped support side plates are respectively installed at corresponding positions of the two side support rods through the two position locking bolts in a penetrating mode, and two ends of the support roller shaft are respectively installed on the upper ends of the two strip-shaped support side plates in a rotating mode and used for supporting the strip-shaped steel plates.

The inclined support adjusting unit comprises a U-shaped support, an inner threaded pipe, inclined support adjusting screws and inclined support rods, wherein two supporting arms of the U-shaped support are respectively and swingably hinged to corresponding positions of the two side support rods, the upper end of the inner threaded pipe is fixed on the U-shaped support, the upper end of the inclined support adjusting screws are screwed and installed in the lower end of the inner threaded pipe, a rotating seat is fixedly arranged at the lower end of the inclined support adjusting screws, an adjusting handle rod is arranged on the rotating seat, the rotating seat is rotatably installed at the upper end of the inclined support rods, and the lower end of the inclined support rods is swingably hinged to the conveying driving mechanism.

The conveying driving mechanism comprises a conveying channel, an elastic pressing unit, a rolling supporting unit and a conveying driving motor, wherein the elastic pressing unit is arranged on the inner top of the conveying channel, the rolling supporting unit is arranged on the lower portion of the conveying channel, the elastic pressing unit presses the strip-shaped steel plate on the rolling supporting unit and is used for rolling supporting and conveying the lower side face of the strip-shaped steel plate, the conveying driving motor is arranged outside the conveying channel and is used for driving the rolling supporting unit, supporting legs are arranged at the bottom of the conveying channel, and the conveying driving motor is controlled by a control box in a driving mode.

The elastic pressing unit comprises two side edge pressing rods and a plurality of pressing roller shafts, two longitudinal connecting rods are fixedly arranged between the two side edge pressing rods, pressing sleeves are vertically arranged in the middle of the two longitudinal connecting rods, telescopic guide posts are movably inserted into the upper ends of the pressing sleeves, pressing springs are elastically supported between the tops of the channels of the conveying channels and the longitudinal connecting rods, the pressing sleeves and the telescopic guide posts are positioned in the pressing springs, and each pressing roller shaft is longitudinally arranged on the two side edge pressing rods in a rotary mode.

The rolling support unit comprises a synchronous chain, two support driving shafts, two synchronous chain wheels, two anti-slip support sleeves and a conveying driving motor, wherein the two support driving shafts are longitudinally arranged at the lower part of a channel of the conveying channel in a rotary mode, the end parts of the two support driving shafts are respectively provided with a synchronous chain wheel, the two synchronous chain wheels are synchronously driven through the synchronous chain, the two support driving shafts are respectively sleeved with an anti-slip support sleeve, and the conveying driving motor is used for rotationally driving one support driving shaft.

The stamping supporting mechanism comprises a supporting platform plate, a photoelectric switch, overhanging brackets, two interval adjusting screws and four edge supporting units, wherein one end side edge of the supporting platform plate is fixedly connected to the discharging side of the conveying driving mechanism, two T-shaped adjusting sliding grooves are longitudinally formed in the upper side face of the supporting platform plate, two screw supports are arranged at two ends of each T-shaped adjusting sliding groove, two ends of each interval adjusting screw are rotatably arranged on the two screw supports, threads of the front section and the rear section of each interval adjusting screw are opposite in rotation direction, two T-shaped sliding seats are slidably arranged in each T-shaped adjusting sliding groove, the front section and the rear section of each interval adjusting screw are respectively installed on adjusting driving threaded holes of the two T-shaped sliding seats in a penetrating mode, rectangular windows for avoiding stamping dies are formed in the supporting platform plate, interval adjusting handles are arranged at the front end of each interval adjusting screw, the four edge supporting units are respectively fixedly arranged on the four T-shaped sliding seats and used for supporting the front side edge and the rear side edges of a strip steel plate, the switch is arranged on the side of the supporting platform plate, the overhanging brackets are used for detecting the positions of the strip steel plate, and the photoelectric switch is controlled by the photoelectric switch.

Compared with the prior art, the utility model has the beneficial effects that the feeding and discharging support and automatic conveying of the strip steel plate can be realized by utilizing the cooperation of the support guide mechanism, the conveying driving mechanism and the stamping support mechanism, the manual participation is reduced, and the processing precision and the production efficiency of the flange plate are effectively improved.

Drawings

FIG. 1 is a schematic diagram of a front view of the present utility model;

FIG. 2 is a schematic cross-sectional view of a conveyor drive mechanism of the present utility model;

FIG. 3 is a schematic top view of the press support mechanism of the present utility model;

FIG. 4 is a schematic illustration of the cantilever support structure of the present utility model;

FIG. 5 is a schematic view of an edge support unit according to the present utility model;

Fig. 6 is a schematic circuit structure of the present utility model.

Detailed Description

The technical scheme of the present utility model will be described in detail with reference to the accompanying drawings, but the scope of the present utility model is not limited to the embodiments.

Example 1:

As shown in fig. 1-6, the strip steel plate conveying device for flange production disclosed by the utility model comprises a control box 1, a supporting and guiding mechanism, a conveying and driving mechanism and a stamping and supporting mechanism, wherein the supporting and guiding mechanism is arranged on the feeding side of the conveying and driving mechanism and is used for guiding and conveying strip steel plates 100 into the conveying and driving mechanism, the conveying and driving mechanism drives the strip steel plates 100 to transversely move to the discharging side, the stamping and supporting mechanism is arranged on the discharging side of the conveying and driving mechanism and is used for horizontally supporting the strip steel plates 100, and the conveying and driving mechanism is driven and controlled by the control box 1.

By utilizing the cooperation of the supporting and guiding mechanism, the conveying and driving mechanism and the stamping and supporting mechanism, the feeding and discharging support and automatic conveying of the strip-shaped steel plate 100 can be realized, the manual participation is reduced, and the processing precision and the production efficiency of the flange plate are effectively improved.

Further, the support guiding mechanism comprises inclined support adjusting units, two side support rods 11 and each support adjusting unit, one ends of the two side support rods 11 are all hinged to the feeding side of the conveying driving mechanism in a swinging mode, the inclined support adjusting units are obliquely supported between the two side support rods 11 and the conveying driving mechanism, the support length of the inclined support adjusting units is adjustable, each support adjusting unit is mounted on the two side support rods 11 and used for supporting the strip-shaped steel plate 100, and the support angle and the height of each support adjusting unit are adjustable. The supporting angles of the two side supporting rods 11 can be adjusted by using the diagonal bracing adjusting units, and the bar-shaped steel plates 100 can be supported at different angles and different heights by using the supporting adjusting units, so that the bar-shaped steel plates 100 smoothly enter the conveying driving mechanism after unreeling.

Further, the supporting and adjusting unit comprises a supporting roller shaft 15, two strip-shaped supporting side plates 13 and two position locking bolts 12, strip-shaped adjusting holes 14 are formed in the strip-shaped supporting side plates 13 along the length direction, the two strip-shaped supporting side plates 13 are respectively installed at corresponding positions of the two side supporting rods 11 through the strip-shaped adjusting holes 14 by the two position locking bolts 12, and two ends of the supporting roller shaft 15 are respectively rotatably installed on the upper ends of the two strip-shaped supporting side plates 13 and used for supporting the strip-shaped steel plates 100. The angle and the height of the bar-shaped supporting side plates 13 can be adjusted and fixed by the position locking bolts 12, and the lower side surfaces of the bar-shaped steel plates 100 can be rollably supported by the supporting roller shafts 15, so that the conveying resistance is reduced.

Further, the diagonal bracing adjusting unit comprises a U-shaped bracket 10, an inner threaded pipe 9, a diagonal bracing adjusting screw 8 and two supporting arms of the diagonal bracing supporting rod 5;U, wherein the two supporting arms of the U-shaped bracket 10 are respectively and pivotally installed at corresponding positions of the two side supporting rods 11 in a swinging mode, the upper end of the inner threaded pipe 9 is fixed on the U-shaped bracket 10, the upper end of the diagonal bracing adjusting screw 8 is screwed in the lower end of the inner threaded pipe 9, a rotating seat 6 is fixedly arranged at the lower end of the diagonal bracing adjusting screw 8, an adjusting handle rod 7 is arranged on the rotating seat 6, the rotating seat 6 is rotatably installed at the upper end of the diagonal bracing supporting rod 5, and the lower end of the diagonal bracing supporting rod 5 is pivotally installed on the conveying driving mechanism in a swinging mode. The rotary seat 6 is utilized to rotate and adjust the inclined strut adjusting screw rod 8, so that the supporting length of the inclined strut adjusting unit is changed, the inclination adjustment of the two side support rods 11 is realized, and the rotary seat 6 can be conveniently and manually adjusted by utilizing the adjusting handle rod 7.

Further, the conveying driving mechanism comprises a conveying channel 2, an elastic pressing unit, a rolling supporting unit and a conveying driving motor 3, wherein the elastic pressing unit is arranged on the inner top of the channel of the conveying channel 2, the rolling supporting unit is arranged on the lower portion of the channel of the conveying channel 2, the elastic pressing unit is used for pressing the strip steel plate 100 on the rolling supporting unit and used for rolling supporting and conveying the lower side face of the strip steel plate 100, the conveying driving motor 3 is arranged outside the conveying channel 2 and used for driving the rolling supporting unit, supporting legs 4 are arranged at the bottom of the conveying channel 2, and the conveying driving motor 3 is driven and controlled by the control box 1. The elastic pressing unit can press the strip steel plate 100 on the rolling support unit, so that the rolling support unit carries out rolling support on the lower side surface of the strip steel plate 100, and slip during conveying is reduced.

Further, the elastic pressing unit comprises two side pressing rods 17 and a plurality of pressing roller shafts 21, two longitudinal connecting rods are fixedly arranged between the two side pressing rods 17, pressing sleeves 19 are vertically arranged in the middle of the two longitudinal connecting rods, telescopic guide posts 18 are movably inserted into the upper ends of the pressing sleeves 19, pressing springs 20 are elastically supported between the tops of the conveying channels 2 and the longitudinal connecting rods, the pressing sleeves 19 and the telescopic guide posts 18 are located in the pressing springs 20, and each pressing roller shaft 21 is longitudinally arranged on the two side pressing rods 17 in a rotary mode. The pressing sleeve 19 and the telescopic guide column 18 are engaged with each other to restrict the vertical movement and the elastic pressing by the pressing spring 20.

Further, the rolling support unit comprises a synchronous chain 25 and two support driving shafts 22, the two support driving shafts 22 are longitudinally arranged at the lower part of the conveying channel 2 in a rotary mode, a synchronous chain wheel 24 is arranged at the end parts of the two support driving shafts 22, the two synchronous chain wheels 24 are synchronously driven through the synchronous chain 25, anti-slip support sleeves 23 are sleeved on the two support driving shafts 22, and the conveying driving motor 3 is used for rotationally driving one support driving shaft 22. The anti-slip support sleeve 23 can enhance friction force during rolling transportation, and the transportation efficiency of the strip steel plate 100 is ensured.

Further, the stamping supporting mechanism comprises a supporting platform plate 26, a photoelectric switch 48, overhanging brackets, two interval adjusting screws 30 and four edge supporting units, one end side edge of the supporting platform plate 26 is fixedly connected to the discharging side of the conveying driving mechanism, two T-shaped adjusting sliding grooves 28 are longitudinally arranged on the upper side face of the supporting platform plate 26, two screw supports 29 are respectively arranged at two ends of the T-shaped adjusting sliding grooves 28, two ends of the interval adjusting screws 30 are rotatably arranged on the two screw supports 29, threads of front and rear sections of the interval adjusting screws 30 are opposite in rotation direction, two T-shaped sliding seats 31 are slidably arranged in the T-shaped adjusting sliding grooves 28, the front and rear sections of the interval adjusting screws 30 are respectively and rotatably arranged on the adjusting driving threaded holes 33 of the two T-shaped sliding seats 31, rectangular windows 27 for avoiding stamping dies are arranged on the supporting platform plate 26, interval adjusting handles 51 are respectively and fixedly arranged on the four edge supporting units, the four T-shaped sliding seats 31 are respectively and used for controlling the positions of the front and rear supporting side edges of the steel plate 100 through the overhanging brackets 48, and the position of the steel plate is controlled by the photoelectric switch 48, and the position of the strip-shaped sliding seats is controlled by the electric switch 1. The photoelectric switch 48 is used for detecting the movement position of the excess material of the strip steel plate 100 after stamping, so that the controller is used for controlling the transverse movement conveying distance of the strip steel plate 100 each time in the conveying driving mechanism, the four edge supporting units are used for supporting the edges of the strip steel plate 100 in a lifting mode, so that the strip steel plate 100 can conveniently and stably transversely penetrate through the stamping die, the two interval adjusting screws 30 are used for carrying out interval adjustment on the four T-shaped sliding seats 31, the four edge supporting units are used for carrying out interval adjustment on the four edge supporting units, and the supporting requirements of the strip steel plates 100 with different widths are met.

Further, a blanking support roller 50 for rolling-supporting the strip steel plate 100 at the blanking side is rotatably installed at the blanking side of the support platform plate 26 through a side support.

Further, the cantilever bracket comprises a T-shaped mounting seat 42, a vertical rod 44, a lower clamping bolt 43, a sleeve seat 45, an upper clamping bolt 46 and an L-shaped cantilever rod 47, wherein a position adjusting T-shaped groove 49 is transversely formed in the side edge of the upper side face of the supporting platform plate 26, the T-shaped mounting seat 42 is slidably arranged in the position adjusting T-shaped groove 49, the lower clamping bolt 43 is rotatably arranged on the T-shaped mounting seat 42 in a penetrating threaded manner, the end part of the lower clamping bolt 43 is pressed at the bottom of the adjusting T-shaped groove 49, the vertical rod 44 is vertically fixed on the T-shaped mounting seat 42, the sleeve seat 45 is fixed on the upper end of the vertical rod 44, one end of the L-shaped cantilever rod 47 is rotatably inserted in the sleeve seat 45, the upper clamping bolt 46 is rotatably arranged on the sleeve seat 45 in a penetrating threaded manner, the end part of the upper clamping bolt 46 is pressed on the L-shaped cantilever rod 47, and the photoelectric switch 48 is arranged on the other end of the L-shaped cantilever rod 47. The position of the vertical rod 44 can be adjusted by the cooperation of the position adjusting T-shaped groove 49 and the T-shaped mounting seat 42, and the position of the vertical rod is locked by the lower side pressing bolt 43, and the photoelectric switch 48 can be further adjusted by the cooperation of the sleeve seat 45 and the L-shaped cantilever rod 47, and the position of the photoelectric switch is locked by the upper side pressing bolt 46.

Further, the edge support unit comprises an edge support column 32, a lower support ring 34, a support sleeve 36, an adjusting nut 39 and a tightening nut 40, wherein the edge support column 32 is vertically fixed on the T-shaped sliding seat 31, an adjusting external thread 41 is arranged at the upper end of the edge support column 32, the lower support ring 34 is rotatably arranged in the middle of the edge support column 32, the adjusting nut 39 is rotatably arranged on the adjusting external thread 41, the support sleeve 36 is fixed on the adjusting nut 39, an upper support ring 37 is rotatably arranged at the lower end of the support sleeve 36, the upper support ring 37 is positioned above the lower support ring 34, the tightening nut 40 is rotatably arranged on the adjusting external thread 41, the tightening nut 40 and the adjusting nut 39 are mutually pressed, a lower slope 35 is arranged at the upper side edge of the lower support ring 34, an upper slope 38 is arranged at the lower side edge of the upper support ring 37, and the upper support ring 37 is used for supporting and limiting the edge of the strip steel plate 100. The height of the upper support ring 37 can be adjusted by matching the adjusting nut 39 with the adjusting external thread 41, so that the edge of the strip steel plate 100 with different thickness can be supported and limited, the edge of the strip steel plate 100 can be rotatably supported by the upper support ring 37 and the lower support ring 34 which are rotatably installed, and the resistance of translational conveying is reduced.

Further, the control box 1 is fixed on the top of the conveying channel 2, a control key 16 is arranged on the top of the control box 1, a controller and a conveying driving circuit are arranged in the control box 1, the controller is respectively and electrically connected with the control key 16, the photoelectric switch 48 and the conveying driving circuit, the controller adopts an existing singlechip control module, the photoelectric switch 48 adopts an existing photoelectric switch for detecting a target position, the control key 16 comprises a start key and a stop key for realizing start and stop control of the device, and the conveying driving circuit adopts an existing stepping motor driving circuit for driving and controlling the conveying driving motor 3.

When the strip steel plate conveying device for producing the flange plates is used, firstly, a supporting platform plate 26 is arranged on a table top of a press, a stamping die is placed in a rectangular window 27, then, a worker pulls the end part of a strip steel plate 100 to penetrate through a conveying channel 2, the lower side surface of the strip steel plate 100 at the feeding side is supported on each supporting roller shaft 15, the strip steel plate 100 in the conveying channel 2 is clamped between a pressing roller shaft 21 and an anti-skid supporting sleeve 23, the edge of the strip steel plate 100 at the discharging side is clamped and limited between a lower supporting ring 34 and an upper supporting ring 37, and the strip steel plate 100 transversely penetrates through the stamping die;

The start button is pressed by a worker, the controller drives and controls the conveying driving motor 3 to enable the strip steel plate 100 to transversely move, when the photoelectric switch 48 detects that the surplus materials of the strip steel plate 100 transversely move for an interval, the controller stops driving of the conveying driving motor 3, at the moment, the next flange stamping position is located at the stamping die, and after the press finishes flange stamping, the process is repeated to finish stamping forming of the next flange.

As described above, although the present utility model has been shown and described with reference to certain preferred embodiments, it is not to be construed as limiting the utility model itself. Various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims

1. A strip steel plate conveying device for flange production is characterized by comprising a control box (1), a supporting and guiding mechanism, a conveying and driving mechanism and a punching and supporting mechanism, wherein the supporting and guiding mechanism is arranged on the feeding side of the conveying and driving mechanism and is used for guiding and conveying strip steel plates (100) into the conveying and driving mechanism, the conveying and driving mechanism drives the strip steel plates (100) to transversely move to the discharging side, the punching and supporting mechanism is arranged on the discharging side of the conveying and driving mechanism and is used for horizontally supporting the strip steel plates (100), and the conveying and driving mechanism is controlled by driving of the control box (1).

2. The strip steel plate conveying device for flange production according to claim 1, wherein the support guide mechanism comprises diagonal support adjusting units, two side support rods (11) and each support adjusting unit, one ends of the two side support rods (11) are all hinged on the feeding side of the conveying driving mechanism in a swinging mode, the diagonal support adjusting units are obliquely supported between the two side support rods (11) and the conveying driving mechanism, the support length of the diagonal support adjusting units is adjustable, each support adjusting unit is mounted on the two side support rods (11) and used for supporting the strip steel plate (100), and the support angle and the support height of each support adjusting unit are adjustable.

3. The bar-shaped steel plate conveying device for flange production according to claim 2, wherein the support adjusting unit comprises a support roller shaft (15), two bar-shaped support side plates (13) and two position locking bolts (12), bar-shaped adjusting holes (14) are formed in the bar-shaped support side plates (13) in the length direction, the two bar-shaped support side plates (13) are respectively installed at corresponding positions of the two side support rods (11) through the two position locking bolts (12) penetrating through the bar-shaped adjusting holes (14), and two ends of the support roller shaft (15) are respectively rotatably installed on the upper ends of the two bar-shaped support side plates (13) and used for supporting the bar-shaped steel plates (100).

4. The strip steel plate conveying device for producing the flange plates according to claim 2, wherein the diagonal bracing adjusting unit comprises a U-shaped support (10), an inner threaded pipe (9), a diagonal bracing adjusting screw (8) and a diagonal bracing supporting rod (5), two supporting arms of the U-shaped support (10) are respectively hinged at corresponding positions of two side supporting rods (11) in a swinging mode, the upper end of the inner threaded pipe (9) is fixed on the U-shaped support (10), the upper end of the diagonal bracing adjusting screw (8) is screwed into the lower end of the inner threaded pipe (9), a rotating seat (6) is fixedly arranged at the lower end of the diagonal bracing adjusting screw (8), an adjusting handle rod (7) is arranged on the rotating seat (6), the rotating seat (6) is rotatably arranged at the upper end of the diagonal bracing supporting rod (5), and the lower end of the diagonal bracing supporting rod (5) is hinged on a conveying driving mechanism in a swinging mode.

5. The strip steel plate conveying device for flange production according to claim 1 is characterized in that the conveying driving mechanism comprises a conveying channel (2), an elastic pressing unit, a rolling supporting unit and a conveying driving motor (3), wherein the elastic pressing unit is arranged on the inner top of the conveying channel (2), the rolling supporting unit is arranged on the lower portion of the conveying channel (2), the strip steel plate (100) is pressed on the rolling supporting unit through the elastic pressing unit and used for carrying out rolling supporting conveying on the lower side face of the strip steel plate (100), the conveying driving motor (3) is arranged outside the conveying channel (2) and used for driving the rolling supporting unit, supporting legs (4) are arranged at the bottom of the conveying channel (2), and the conveying driving motor (3) is controlled by driving of the control box (1).

6. The strip steel plate conveying device for producing the flange plates according to claim 1 is characterized in that the elastic pressing unit comprises two side edge pressing rods (17) and a plurality of pressing roller shafts (21), two longitudinal connecting rods are fixedly arranged between the two side edge pressing rods (17), pressing sleeves (19) are vertically arranged in the middle of the two longitudinal connecting rods, telescopic guide posts (18) are movably inserted into the upper ends of the pressing sleeves (19), pressing springs (20) are elastically supported between the tops of the conveying channels (2) and the longitudinal connecting rods, the pressing sleeves (19) and the telescopic guide posts (18) are located in the pressing springs (20), and each pressing roller shaft (21) is longitudinally arranged on the two side edge pressing rods (17) in a rotary mode.

7. The strip steel plate conveying device for flange production according to claim 1, characterized in that the rolling support unit comprises a synchronous chain (25) and two support driving shafts (22), the two support driving shafts (22) are longitudinally arranged at the lower part of a conveying passage (2) in a rotating mode, one synchronous sprocket (24) is arranged at the end parts of the two support driving shafts (22), the two synchronous sprockets (24) are synchronously driven through the synchronous chain (25), anti-slip support sleeves (23) are sleeved on the two support driving shafts (22), and the conveying driving motor (3) is used for rotationally driving one support driving shaft (22).

8. The strip steel plate conveying device for flange production according to claim 1, wherein the stamping supporting mechanism comprises a supporting platform plate (26), a photoelectric switch (48), a cantilever bracket, two interval adjusting screws (30) and four edge supporting units, one end side edge of the supporting platform plate (26) is fixedly connected to the blanking side of the conveying driving mechanism, two T-shaped adjusting sliding grooves (28) are longitudinally arranged on the upper side surface of the supporting platform plate (26), two screw supporting seats (29) are respectively arranged at two ends of the T-shaped adjusting sliding grooves (28), two ends of the interval adjusting screws (30) are rotatably arranged on the two screw supporting seats (29), threads of front and rear sections of the interval adjusting screws (30) are opposite in rotation direction, two T-shaped sliding seats (31) are slidably arranged in the T-shaped adjusting sliding grooves (28), the front and rear sections of the interval adjusting screws (30) are respectively arranged on adjusting driving threaded holes (33) of the two T-shaped sliding seats (31) in a penetrating mode, rectangular avoidance type is arranged on the supporting platform plate (26), the interval adjusting screws (30) are fixedly arranged on four edge supporting units (51) respectively, the photoelectric switch (48) is arranged on the side edge of the supporting platform plate (26) through a cantilever bracket and used for detecting the moving position of the strip steel plate (100), and the photoelectric switch (48) is controlled by the control box (1).