CN116513804B

CN116513804B - Channel steel conveying device

Info

Publication number: CN116513804B
Application number: CN202310797296.3A
Authority: CN
Inventors: 何鹏
Original assignee: Tangshan Fengrun District Guoxin Steel Co ltd
Current assignee: Tangshan Fengrun District Guoxin Steel Co ltd
Priority date: 2023-07-03
Filing date: 2023-07-03
Publication date: 2023-09-12
Anticipated expiration: 2043-07-03
Also published as: CN116513804A

Abstract

The application relates to a channel steel conveying device, which mainly relates to the technical field of conveying devices for section steel production, and comprises a feeding mechanism, a magnetic separation mechanism arranged at the discharge end of the feeding mechanism and a guide mechanism arranged at one side of the magnetic separation mechanism; the magnetic separation mechanism comprises a support frame fixedly arranged on the ground, a magnetic attraction assembly connected with the support frame in a sliding manner along the horizontal direction, and a turnover assembly connected with the support frame in a rotating manner; the turnover assembly is arranged close to the discharge end of the feeding mechanism, and one end of the guiding mechanism is arranged below the turnover assembly. The application has the advantages of high automation degree and capability of improving the production efficiency of the section steel.

Description

Channel steel conveying device

Technical Field

The application relates to the technical field of conveying devices for section steel production, in particular to a channel steel conveying device.

Background

The channel steel is a common steel section with complex section, and the section shape of the channel steel is groove-shaped. The channel steel is used as carbon structural steel and has wide application in various fields such as building structures, curtain wall engineering, mechanical equipment, vehicle manufacturing and the like.

Bolting is one of the common ways of attaching channel steel installations. In order to facilitate the subsequent installation, the production process of the channel steel comprises the step of punching a hole at a specific position to form a bolt connecting hole. In order to ensure the machining precision, before punching the channel steel, the piled channel steel needs to be manually arranged one by one, turned to the same orientation and placed in parallel to the transportation direction. The operation efficiency of the process is limited by the labor cost, and the overall processing efficiency of the channel steel is negatively affected.

Aiming at the related technology, the inventor considers that the existing channel steel production technology has the defects that the efficiency of the process of manually arranging the channel steel is low, and the integral processing efficiency is affected.

Disclosure of Invention

In order to reduce the manpower cost expenditure in the channel steel production process, improve the degree of automation of the channel steel production and processing process and improve the channel steel production efficiency, the application provides a channel steel conveying device.

The application provides a channel steel conveying device which adopts the following technical scheme:

the channel steel conveying device comprises a feeding mechanism, a magnetic separation mechanism arranged at the discharge end of the feeding mechanism and a guide mechanism arranged at one side of the magnetic separation mechanism; the magnetic separation mechanism comprises a support frame fixedly arranged on the ground, a magnetic attraction assembly connected with the support frame in a sliding manner along the horizontal direction, and a turnover assembly connected with the support frame in a rotating manner; the turnover assembly is arranged close to the discharge end of the feeding mechanism, and one end of the guiding mechanism is arranged below the turnover assembly.

Through adopting above-mentioned technical scheme, feed mechanism has played the effect of temporarily depositing to the channel-section steel of pile stack, and can lay flat the channel-section steel of piling up layer by layer, make it form the structure that the individual layer was discharged, and transport the channel-section steel structure of individual layer to magnetic separation mechanism, the magnetic subassembly in the magnetic separation mechanism can adsorb the decurrent channel-section steel of opening through the mode of electromagnetic force attraction and fix and transport to guiding mechanism in, the upset subassembly can adsorb fixed channel-section steel through electromagnetic force and overturn it to the decurrent position of opening, then place on guiding mechanism, guiding mechanism can be with the place position and the direction of motion parallel arrangement of channel-section steel, and transport the channel-section steel to the processing station that punches a hole, thereby realized reducing the human cost expenditure in the channel-section steel production process, improve the degree of automation of channel-section steel production, the application purpose of the efficiency of promoting channel-section steel production.

Optionally, the overturning assembly comprises a rotating shaft penetrating through the supporting frame, a turning plate fixedly sleeved on the rotating shaft and a driving motor arranged on the supporting frame; the driving motor is in transmission connection with the rotating shaft.

Through adopting above-mentioned technical scheme, the pivot of rotating with the support frame in the upset subassembly and being connected has played spacing and support's effect to the installation of turning over the board, and the pivot can take place to rotate under driving motor's effect, turns over the board and is hollow metal plate body, turns over the coil in the board and can produce magnetic force and adsorb the channel-section steel after the circular telegram, can adjust to the decurrent position of opening under the rotatory effect of turning over the board through absorptive channel-section steel.

Optionally, the magnetic component comprises a mounting plate, a plurality of hydraulic cylinders and a magnetic plate, wherein the mounting plate is connected with the support frame in a sliding mode along the horizontal direction, the hydraulic cylinders are vertically arranged on the mounting plate, and the magnetic plate is fixedly arranged at the telescopic ends of the hydraulic cylinders.

Through the technical scheme, the mounting plate in the magnetic assembly provides the mounting position for the hydraulic cylinder, the hydraulic cylinder can control the magnetic plate to lift, the magnetic plate is prevented from colliding with other parts of structures in the moving process, magnetic force is generated after the magnetic plate is electrified, attractive force is generated on channel steel with downward openings, and the magnetic plate can move towards the direction of the guide mechanism under the driving of the mounting plate due to the structural design that the mounting plate is in sliding connection with the support frame along the horizontal direction, so that the function of respectively processing the channel steel with different opening directions is realized.

Optionally, the magnetic component further comprises a limiting plate, wherein the limiting plate is perpendicularly arranged at one side edge of the mounting plate and is abutted with the edge of the overturning component.

Through adopting above-mentioned technical scheme, limiting plate structure in the magnetic subassembly can the butt in one side of upset subassembly, and feed mechanism can make the channel-section steel on the tilting mechanism move to the direction of limiting plate and finally laminate each other through the mode of last material loading to reached the effect of adjustment channel-section steel and tilting mechanism relative position, and can avoid the channel-section steel to drop from tilting mechanism.

Optionally, the guiding mechanism comprises a lifting conveyor belt, guiding plates symmetrically arranged on two sides of the lifting conveyor belt and a plurality of guiding wheels arranged on the guiding plates; the lifting conveyor belt comprises a carrying section, a lifting section and a conveying section, wherein the carrying section is arranged below the overturning assembly, the conveying section and the magnetic attraction assembly are arranged at the same height, and two ends of the lifting section are respectively connected with the conveying section and the carrying section.

Through adopting above-mentioned technical scheme, the lifting conveyor in the guiding mechanism can transport the channel-section steel that is from the subassembly of overturning and magnetism inhale the subassembly respectively to the station of punching a hole processing, installs the deflector on the lifting conveyor and has played the guide effect to the channel-section steel, makes the channel-section steel can rotate to the position that length direction and lifting conveyor length direction are parallel to each other.

Optionally, the guide plate is slidingly connected with the lifting conveyor along the extending direction of the guide plate.

By adopting the technical scheme, the guide plates and the lifting conveyor belt are in sliding connection along the extending direction of the guide plates, so that the distance between the two guide plates can be adaptively adjusted according to the size of the transported channel steel, errors are reduced, and the application range of the application is improved.

Optionally, the guide mechanism further includes a connection board, where the connection board is clamped with the guide board along a direction parallel to the upper surface of the lifting conveyor belt and is vertically connected with the lifting conveyor belt.

Through adopting above-mentioned technical scheme, the connecting plate structure can be used for fixed two deflector's relative position, improves the bearing capacity of connection structure between deflector and the promotion conveyer belt, has played auxiliary stay's effect to the deflector simultaneously.

Optionally, the feeding mechanism comprises a bin fixedly arranged on the ground, a chain plate conveying belt arranged at a feed opening of the bin and a baffle arranged at one side of the bin; the baffle plate is in sliding connection with the bin along the direction vertical to the ground.

Through the adoption of the technical scheme, the bin plays a temporary storage role on the channel steel, the chain plate conveyor belt can convey the channel steel to the magnetic separation mechanism, the baffle plate arranged on one side of the bin plays a blocking role on the channel steel, the channel steel can be stacked, and the space between the baffle plate and the chain plate conveyor belt can be adaptively adjusted according to the size of the channel steel due to the structural design that the baffle plate and the channel steel are connected in a sliding mode along the vertical direction.

Optionally, a protrusion is provided at a midpoint of an upper surface of the link plate conveyor in a direction parallel to the edge.

Through adopting above-mentioned technical scheme, the protruding structure that the mid point position set up in chain plate conveyer belt upper surface can increase the rigidity and the bearing capacity of chain plate conveyer belt, makes difficult emergence slip between channel-section steel and the chain plate conveyer belt simultaneously, has improved conveying efficiency.

Optionally, an opening is formed in the top of the bin, and the size of the opening of the bin gradually increases along a direction away from the link plate conveyor belt.

Through adopting above-mentioned technical scheme, feed bin open-ended shape design can be convenient for the material loading, makes things convenient for the channel-section steel to automatic unloading to link joint conveyer belt under the effect of gravity simultaneously, has improved feed mechanism's overall efficiency.

In summary, the present application includes at least one of the following beneficial technical effects:

the feeding mechanism plays a role in temporarily storing piled channel steel, can flatten the piled channel steel layer by layer to form a single-layer discharging structure, conveys the single-layer discharging channel steel structure to the magnetic separation mechanism, and the magnetic attraction assembly in the magnetic separation mechanism can adsorb and fix the channel steel with a downward opening into the guide mechanism in an electromagnetic force attraction mode;

the mounting plate in the magnetic assembly provides a mounting position for the hydraulic cylinder, the hydraulic cylinder can control the magnetic plate to lift, the magnetic plate is prevented from colliding with other parts of structures in the moving process, magnetic force is generated after the magnetic plate is electrified, so that attraction force is generated on channel steel with downward openings, the mounting plate and the support frame are in sliding connection along the horizontal direction, and the magnetic plate can move towards the direction of the mechanism under the driving of the mounting plate due to the structural design of the mounting plate, so that the function of respectively processing the channel steel with different opening orientations is realized;

according to the application, the bin plays a temporary storage role on the channel steel, the chain plate conveyor belt can convey the channel steel to the magnetic separation mechanism, the baffle plate arranged on one side of the bin plays a blocking role on the channel steel, the channel steel can be stacked, and the space between the baffle plate and the chain plate conveyor belt can be adaptively adjusted according to the size of the channel steel due to the structural design that the baffle plate and the channel steel are connected in a sliding manner along the vertical direction, so that the application range of the application is improved.

Drawings

Fig. 1 is a schematic structural diagram of a channel steel conveying device according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a feeding mechanism in an embodiment of the present application.

FIG. 3 is a schematic diagram of a magnetic separation mechanism in an embodiment of the application.

Fig. 4 is a schematic view showing the structure of the guide mechanism in the embodiment of the present application.

Reference numerals illustrate: 1. a feeding mechanism; 11. a storage bin; 12. a link plate conveyor belt; 13. a baffle; 121. a protrusion; 2. a magnetic separation mechanism; 21. a support frame; 22. a magnetic attraction component; 23. a flip assembly; 221. a mounting plate; 222. a hydraulic cylinder; 223. a magnetic suction plate; 224. a limiting plate; 231. a rotating shaft; 232. turning plate; 233. a driving motor; 3. a guide mechanism; 31. lifting the conveyor belt; 32. a guide plate; 33. a guide wheel; 34. a connecting plate; 311. a receiving section; 312. a lifting section; 313. and (5) conveying the segments.

Detailed Description

The present application will be described in further detail with reference to fig. 1 to 4.

The channel steel is a common steel section with complex section, and the section shape of the channel steel is groove-shaped. The channel steel is used as carbon structural steel and has wide application in various fields such as building structures, curtain wall engineering, mechanical equipment, vehicle manufacturing and the like. Bolting is one of the common ways of attaching channel steel installations. In order to facilitate the subsequent installation, the production process of the channel steel comprises the step of punching a hole at a specific position to form a bolt connecting hole. In order to ensure the machining precision, before punching the channel steel, the piled channel steel needs to be manually arranged one by one, turned to the same orientation and placed in parallel to the transportation direction. The operation efficiency of the process is limited by the labor cost, and the overall processing efficiency of the channel steel is negatively affected. In order to reduce the manpower cost expenditure in the channel steel production process, improve the degree of automation of the channel steel production and processing process and improve the channel steel production efficiency, the application provides a channel steel conveying device.

The embodiment of the application discloses a channel steel conveying device. Referring to fig. 1, the channel steel conveying device includes a feeding mechanism 1, a magnetic separation mechanism 2, and a guide mechanism 3. Wherein, feed mechanism 1 perpendicular fixed mounting is subaerial, and magnetic separation mechanism 2 is installed at feed mechanism 1's discharge end, and guide mechanism 3's one end is located magnetic separation mechanism 2's below. The feeding mechanism 1 can spread out unordered channel steel piles stacked to a single layer and convey the channel steel piles to the magnetic separation mechanism 2, the magnetic separation mechanism 2 can convey channel steels with different opening orientations to different positions on the guide mechanism 3 under the action of magnetic force, and the guide mechanism 3 can adjust the channel steels with identical openings to orient and convey the channel steels to a punching station.

Referring to fig. 1 and 2, the loading mechanism 1 includes a bin 11, a link plate conveyor 12, and a baffle 13. The bin 11 may be a hollow metal shell with openings at both upper and lower ends. The stock bin 11 is vertically fixed on the ground through a rectangular metal supporting rod. The opening in the upper portion of the bin 11 increases in size gradually in a direction away from the upper surface of the link plate conveyor 12. The side wall of the storage bin 11 is provided with an inclined section, so that channel steel raw materials can be smoothly discharged. The link plate conveyor belt 12 is provided at an opening at the lower part of the bin 11. The middle point of the plate body of the link plate conveyor belt 12 is provided with a protrusion 121, and the protrusion 121 is provided along a length direction parallel to the link plate. A baffle 13 is mounted on one side of the silo 11. The baffle 13 is slidably connected to the sidewall of the silo 11 in a direction perpendicular to the ground and fixed in relative position by bolts. The gap between the baffle 13 and the link plate conveyor belt 12 is not smaller than the sum of the edge height and the edge thickness of the channel steel and not larger than twice the edge height of the channel steel.

Referring to fig. 1 and 3, magnetic separation mechanism 2 includes a support frame 21, a magnetic attraction assembly 22, and a flipping assembly 23. Wherein, support frame 21 perpendicular to ground fixed mounting feed mechanism 1's discharge end. The magnetic attraction assembly 22 and the turnover assembly 23 are both mounted on the support frame 21. The magnetic assembly 22 includes a mounting plate 221, a hydraulic cylinder 222, a magnetic plate 223, and a limiting plate 224. The top of the mounting plate 221 is provided with a sliding block, the supporting frame 21 is provided with a sliding rail, and the sliding blocks at two sides of the mounting plate 221 are clamped in the sliding rail on the supporting frame 21 to form sliding connection. Four hydraulic cylinders 222 are mounted on the mounting plate 221 perpendicularly to the ground. The telescopic end of the hydraulic cylinder 222 is fixedly connected with the magnetic attraction plate 223. The magnetic attraction plate 223 can be lifted and lowered in a direction perpendicular to the ground by the hydraulic cylinder 222. The magnetic plate 223 can generate magnetic force to adsorb and fix the channel steel after being electrified. A limiting plate 224 is vertically arranged on one side of the magnetic attraction plate 223 away from the feeding mechanism 1. The flipping assembly 23 includes a rotating shaft 231, a flipping plate 232, and a driving motor 233. The rotating shaft 231 is arranged on the supporting frame 21 in a penetrating way and is rotationally connected with the supporting frame 21, and a power output shaft of the driving motor 233 is connected with the rotating shaft 231 through a coupler. The driving motor 233 can drive the rotation shaft 231 to rotate after being electrified. The turning plate 232 is sleeved on the rotating shaft 231 and can rotate around the axis direction under the drive of the rotating shaft 231. After the turning plate 232 is electrified, a magnetic force can be generated to adsorb and fix the channel steel. The limiting plate 224 is abutted and attached to the edge of one side, far away from the feeding mechanism 1, of the turning plate 232.

Referring to fig. 1 and 4, the guide mechanism 3 includes a lifting conveyor 31, a guide plate 32, guide wheels 33, and a connection plate 34. The lifting conveyor 31 may be a belt conveyor including a receiving section 311, a lifting section 312, and a conveying section 313. The receiving section 311 is disposed below the inverting assembly 23, and the conveying section 313 is disposed at the same height as the inverting assembly 23. The lifting section 312 is connected obliquely between the receiving section 311 and the conveying section 313. The guide plates 32 are provided in two. The guide plates 32 are symmetrically disposed on both sides of the conveying section 313 of the lifting conveyor 31 with respect to the lifting conveyor section. The guide plate 32 is slidably connected to the lifting conveyor 31 along the extending direction of the guide plate 32. The guide wheels 33 are mounted on the guide plates 32, and three sets of guide wheels 33 may be provided on one guide plate 32. The guide wheel 33 is rotatably connected with the guide plate 32. A connecting plate 34 is clamped between the two guide plates 32. Both ends of the connection plate 34 are vertically and fixedly connected with the conveying sections 313 of the lifting conveyor belt 31, respectively.

The implementation principle of the channel steel conveying device provided by the embodiment of the application is as follows: first, the channel steel raw materials stacked in random order are added to the stock bin 11. Channel steel raw materials in the storage bin 11 fall onto the chain plate conveying belt 12 under the action of gravity, and the chain plate conveying belt 12 is matched with the baffle 13 to flatten channel steel raw materials with different opening orientations to a single layer, and then the channel steel raw materials are conveyed into the magnetic separation mechanism 2. The magnetic attraction assembly 22 in the magnetic separation mechanism 2 adsorbs and fixes channel steel raw materials with downward openings to the conveying section 313 of the lifting conveyor 31. The turnover assembly 23 adsorbs and fixes the channel steel raw material with the upward opening and turns over the receiving section 311 of the lifting conveyor 31. The operation of the lifting conveyor belt 31 conveys the channel steel with the consistent opening direction adjustment to the direction of the conveying section 313, and the placement position of the channel steel is adjusted under the combined action of the guide plate 32 and the guide wheel 33, so that the length direction of the channel steel is parallel to the conveying direction, and the channel steel is finally conveyed to the punching processing station, and the position and the opening direction adjustment of channel steel conveying are realized.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims

1. A channel steel conveying device is characterized in that: comprises a feeding mechanism (1), a magnetic separation mechanism (2) arranged at the discharge end of the feeding mechanism (1) and a guide mechanism (3) arranged at one side of the magnetic separation mechanism (2); the magnetic separation mechanism (2) comprises a support frame (21) fixedly arranged on the ground, a magnetic attraction assembly (22) which is connected with the support frame (21) in a sliding manner along the horizontal direction, and a turnover assembly (23) which is connected with the support frame (21) in a rotating manner; the overturning assembly (23) is arranged close to the discharge end of the feeding mechanism (1), and one end of the guiding mechanism (3) is arranged below the overturning assembly (23); the guide mechanism (3) comprises a lifting conveyor belt (31), guide plates (32) symmetrically arranged on two sides of the lifting conveyor belt (31) and a plurality of guide wheels (33) arranged on the guide plates (32); the lifting conveyor belt (31) comprises a carrying section (311), a lifting section (312) and a conveying section (313), the carrying section (311) is arranged below the overturning assembly (23), the conveying section (313) and the magnetic attraction assembly (22) are arranged at the same height, and two ends of the lifting section (312) are respectively connected with the conveying section (313) and the carrying section (311); the magnetic separation mechanism is characterized in that the magnetic attraction assembly (22) in the magnetic separation mechanism (2) adsorbs and fixes channel steel raw materials with downward openings to the conveying section (313) of the lifting conveyor belt (31), the overturning assembly (23) adsorbs and fixes channel steel raw materials with upward openings and overturns and places the channel steel raw materials on the receiving section (311) of the lifting conveyor belt (31), and the lifting conveyor belt (31) operates to convey channel steel with consistent opening direction adjustment to the conveying section (313).

2. A channel steel delivery device as claimed in claim 1 wherein: the overturning assembly (23) comprises a rotating shaft (231) penetrating through the supporting frame (21), a turning plate (232) fixedly sleeved on the rotating shaft (231) and a driving motor (233) arranged on the supporting frame (21); the driving motor (233) is in transmission connection with the rotating shaft (231).

3. A channel steel delivery device as claimed in claim 1 wherein: the magnetic assembly (22) comprises a mounting plate (221) which is connected with the supporting frame (21) in a sliding manner along the horizontal direction, a plurality of hydraulic cylinders (222) which are vertically arranged on the mounting plate (221), and a magnetic plate (223) which is fixedly arranged at the telescopic ends of the hydraulic cylinders (222).

4. A channel steel delivery device according to claim 3, wherein: the magnetic assembly (22) further comprises a limiting plate (224), and the limiting plate (224) is vertically arranged at one side edge of the mounting plate (221) and is abutted with the edge of the overturning assembly (23).

5. A channel steel delivery device as claimed in claim 1 wherein: the guide plate (32) is slidably connected to the lifting conveyor belt (31) along the extending direction of the guide plate (32).

6. A channel steel delivery device as claimed in claim 1 wherein: the guide mechanism (3) further comprises a connecting plate (34), and the connecting plate (34) is clamped with the guide plate (32) along the direction parallel to the upper surface of the lifting conveyor belt (31) and is vertically connected with the lifting conveyor belt (31).

7. A channel steel delivery device as claimed in claim 1 wherein: the feeding mechanism (1) comprises a bin (11) fixedly arranged on the ground, a chain plate conveying belt (12) arranged at a discharging opening of the bin (11) and a baffle plate (13) arranged at one side of the bin (11); the baffle (13) is connected with the bin (11) in a sliding manner along the direction vertical to the ground.

8. A channel steel delivery device as claimed in claim 7 wherein: the middle point of the upper surface of the chain plate conveying belt (12) is provided with a bulge (121) along the direction parallel to the edge.

9. A channel steel delivery device as claimed in claim 7 wherein: the top of feed bin (11) is provided with the opening, the opening size of feed bin (11) is along keeping away from link joint conveyer belt (12) direction increase gradually.