CN114769357A

CN114769357A - Automatic control system and control method for spiral shell production

Info

Publication number: CN114769357A
Application number: CN202210379041.0A
Authority: CN
Inventors: 李宾; 李刚; 徐海滨; 张利华; 凌鑫
Original assignee: Zhejiang Wantai Special Steel Co ltd
Current assignee: Zhejiang Wantai Special Steel Co ltd
Priority date: 2022-04-12
Filing date: 2022-04-12
Publication date: 2022-07-22
Anticipated expiration: 2042-04-12
Also published as: CN114769357B

Abstract

The invention discloses an automatic control system and a control method for producing a spiral shell, and aims to provide the automatic control system and the control method for producing the spiral shell, which can cool the spiral shell during coil collection and improve the coil collection effect. The automatic winding device comprises a fixing frame, wherein a sliding rail capable of driving the fixing frame to slide left and right is connected below the fixing frame, the middle of the fixing frame is connected with a rotatable winding device and a slidable guide device, the guide device is arranged on the front side of the winding device and provided with a slidable guide block, the winding device is provided with a plurality of locking blocks, the guide block corresponds to the locking block, and the middle of the winding device is connected with a cooling pipe. The beneficial effects of the invention are: the position of the fixing frame is adjusted through the telescopic device, and the position of the disc spiral guided into the coil collecting device is adjusted through the guide block, so that the disc spiral can be tightly adjacent to each other when the disc spiral is wound, and the coil collecting effect is ensured; the cooling pipe and the air outlet hole are used for cooling the coiled snails, so that the coiled snails after being coiled in an integrated manner are reduced in deformation, and the coiled effect is guaranteed.

Description

Automatic control system and control method for spiral shell production

Technical Field

The invention relates to the technical field related to the production of spiral shell, in particular to an automatic control system and a control method for spiral shell production.

Background

The steel material of the spiral steel is roughly divided into plate, shape and line, the spiral is a wire material, the spiral steel is the screw steel which is coiled together like the wire material as the name implies, and the spiral steel is the same as the binding mode of the common wire material, but needs straightening when in use. The spiral steel is a building steel material, and in the construction of building engineering, because steel bars with the length of less than 10mm are easy to bend, in order to reduce the length before transportation, manufacturers roll very long steel bars into a circle of circular rings, namely spiral steel bars for short. After the spiral reinforcing steel bar enters a construction site, a reinforcing steel bar straightening machine is used for straightening. The spiral steel bars are rolled into a round shape when leaving the factory. But traditional spiral shell steel is coiling, and coiling device structure is complicated, and is bulky, and when the steel wire coiled, the steel wire trembled the phenomenon easily, caused easily that the effect of coiling is not good.

Chinese patent grant publication no: CN 210312892U, authorized announcement date: 2020.04.14 discloses a set spiral shell production is with album package device, including the work automobile body, there is the support column top both sides of work automobile body through bolted connection, and the outer wall top of support column has seted up circular mounting hole, and the inside of circular mounting hole is connected with the axis of rotation, two there is the actinobacillus plate one end of axis of rotation through bolted connection, and the outer wall of actinobacillus plate has seted up four equidistance and has distributed the mounting groove, the spacing groove has been seted up to the inside of mounting groove, there is the motor top one side of work automobile body through bolted connection, and the motor passes through chain drive with the axis of rotation and be connected, there is the controller top one side of support column through bolted connection, and there is speed sensor the one end of axis of rotation through gear connection, and speed sensor passes through the bolt stable connection with the support column. The proposal also has defects in solving the coil collecting effect, so the improvement of the coil collecting effect needs to be improved.

Therefore, an automatic control system and a control method for producing the spiral shell are needed to be designed to improve the coil collecting effect of the spiral shell.

Disclosure of Invention

The invention provides an automatic control system and a control method for producing a spiral shell, which can cool the spiral shell and improve the coil collecting effect during coil collecting, in order to overcome the defect of poor coil collecting effect in the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides an automated control system of spiral shell production usefulness, includes the mount, the mount below is connected with the slide rail that can drive the mount horizontal slip, the mount middle part is connected with rotatable album of package device and slidable guiding device, the guiding device arranges album of package device front side in, the guiding device is provided with the slidable guide block, album of package device is provided with a plurality of latch segments, the guide block is corresponding with the latch segment, album of package device middle part is connected with the cooling tube.

The fixing frame is provided with a sliding rail below, the sliding rail can drive the fixing frame to slide, the middle part of the fixing frame is provided with a coil collecting device and a guiding device, the coil collecting device is rotatable, and the guiding device is slidable. The guiding device is arranged on the front side of the coil collecting device, the guiding block arranged on the guiding device corresponds to the locking block arranged on the coil collecting device, the disc snail can be guided by the guiding block to the locking block to be locked, the coil collecting device rotates, and along with the winding of the disc snail on the coil collecting device, the guiding block moves, so that the disc snails are closely adjacent to each other when being wound, the winding effect during coil collection is ensured, and the coil collecting operation of the coil collecting device is completed. The middle part of the coil collecting device is connected with a cooling pipe which can cool the coiled coil.

Preferably, the collection rolling device comprises a connecting plate and a plurality of collection rolling rods, the collection rolling rods are connected with the connecting plate, the outer side wall of the connecting plate is provided with a connecting groove, a connecting block is detachably connected in the connecting groove in a sliding mode, the outer side wall of the fixing frame is connected with a first rotating motor, and the rotating shaft end of the first rotating motor is connected with the connecting block. The first rotating motor drives the connecting block to rotate, and the connecting block is connected with the connecting plate, so that the connecting plate and the winding rod rotate to realize winding operation, and the winding device is detachable from the fixing frame and convenient to transfer subsequently.

Preferably, the side wall of the connecting plate is connected with a hoisting buckle, a locking screw is connected below the hoisting buckle, and the locking screw is connected with the connecting block. The hoisting buckle is used for hoisting the coil collecting device for completing coil collection of the coiled snails, so that the coil collecting device is convenient to assemble, disassemble and transfer; the connecting plate lateral wall is provided with the locking screw hole, and locking screw passes the locking screw hole and contacts with the connecting block, and locking screw screws and can fix the connecting block for stable the fixing on the connecting block of connecting plate guarantees connection stability.

Preferably, one end of the winding rod is provided with a sliding groove, the locking block is connected with the sliding groove in a sliding mode, a clamping block is arranged at the end portion of the locking block and connected with the locking block in a sliding mode, and the side wall of the clamping block is connected with a locking screw. The spout is the arc wall around album coil pole, and the fixture block is through the slip regulation dish spiral shell's with the latch segment chucking degree, and locking screw is used for locking the fixture block, ensures that the dish spiral shell is locked, guarantees that the dish spiral shell is closely adjacent when album is rolled up, guarantees the collection and rolls up the effect.

Preferably, the side wall of the cooling pipe is provided with a plurality of exhaust holes, and the exhaust holes are externally connected with an air supply pump. The exhaust hole is used for discharging compressed cold air, cooling of the coiled snails is achieved, deformation of the coiled snails during collection and coiling is reduced, and collection and coiling effects are prevented from being influenced.

Preferably, the guiding device comprises a guiding block, a guiding screw rod and a guiding rod, the guiding screw rod is connected with the fixing frame, the guiding block is provided with a threaded hole and a guiding hole, the threaded hole is in sliding sleeve connection with the guiding screw rod, the guiding hole is in sleeve connection with the guiding rod, the guiding screw rod is connected with a second rotating motor, and the second rotating motor is connected with the fixing frame. The second rotating motor can drive the guide screw rod to rotate, so that the guide block slides on the guide screw rod, the coiled snails are tightly adjacent when being wound by the winding and collecting device in the winding and collecting process, and the winding and collecting effect is ensured.

Preferably, a guide hole is formed below the guide block, the guide hole corresponds to the locking block, a plurality of ball grooves are formed in the inner wall of the guide hole, and balls are connected in the ball grooves. The guide hole is used for guiding the coil screws to enter the coil collecting device, so that the coil collecting effect is ensured; the arrangement of the ball bearings facilitates the disc screws to enter the coil collecting device, and the friction between the disc screws and the guide holes is reduced.

Preferably, a guide inclined plane is arranged on one side, facing the locking block, of the guide hole, a plurality of air outlet holes are formed in one side, facing the locking block, of the guide hole, and the air outlet holes are connected with air outlet pipes which are connected with the air supply pump. The guide inclined plane plays a role in facilitating the passage of the disc screw through the guide hole and simultaneously playing a role in abdication; the air outlet can discharge cold compressed air to cool the spiral shell, so that the coil collecting effect is ensured.

Preferably, the fixing frame is provided with a mounting frame below, the mounting frame is connected with a telescopic device, the slide rail comprises a slide block and a guide rail, the slide block is in sliding sleeve joint with the guide rail, the guide rail is fixedly connected with the mounting frame, and the slide block is connected with the telescopic device. The slider slides on the guide rail, drives the mount and removes on the mounting bracket, guarantees the coiled spiral shell perpendicular to collection package device all the time when rolling up, and the coiled spiral shell of being convenient for is rolled up on collection package device, guarantees to collect and rolls up the effect.

An automatic control method for producing a spiral shell comprises the following steps:

s1, mounting a coil collecting device on a fixed frame;

s2, adjusting the position of the guide block to be aligned with the locking block;

s3, enabling a disc screw to penetrate through the guide hole and be locked on the locking block;

s4, starting the telescopic device, the first rotating motor and the second rotating motor to collect rolls;

and S5, after the coil collection is finished, shearing, detaching the coil collection device, and transferring and storing.

The coil collecting device is installed on the fixing frame, the position of the guide block is adjusted to one side to align the locking block, the disc screw penetrates through the guide hole to be locked on the locking block, and the coil collecting device rotates to wind the disc screw on the coil collecting device. At the coiling in-process, the telescoping device drives the mount and slides, guarantees the spiral shell and collects the package all the time and put perpendicularly when convoluteing, and the guide slides along the guide bar, and the spiral shell connection degree when the spiral shell is convoluteed in the adjustment is guaranteed the spiral shell and is convoluteed closely adjacent, guarantees spiral shell and convolutes the effect. And after the coil collection is finished, shearing the disc spiral through a shearing machine, disassembling the coil collection device, and transferring and storing.

The invention has the beneficial effects that: the position of the fixing frame is adjusted through the telescopic device, and the position of the spiral shell guided into the coil collecting device is adjusted through the guide block, so that the spiral shells can be tightly adjacent to each other when being wound, and the coil collecting effect is ensured; the cooling pipe and the air outlet hole are used for cooling the coiled snails, so that the coiled snails after being coiled in an integrated manner are reduced in deformation, and the coiled effect is guaranteed.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a partial perspective view of the present invention;

FIG. 4 is a perspective view of the guide device of the present invention;

FIG. 5 is a perspective view of the wind-collecting device of the present invention;

fig. 6 is a perspective view of the guide block of the present invention.

In the drawings, there is shown in the drawings,

1. the device comprises a fixed frame, 2 sliding rails, 3 coil collecting devices, 4 guiding devices, 5 cooling pipes, 6 mounting frames, 7 telescopic devices, 20 sliding blocks, 21 guide rails, 30 locking blocks, 31 connecting plates, 32 coil collecting rods, 33 connecting grooves, 34 connecting blocks, 35 rotating motors I, 36 hoisting buttons, 37 locking screws, 40 guiding blocks, 41 guiding screw rods, 42 guiding rods, 43 rotating motors II, 44 guiding holes, 45 ball grooves, 46 balls, 47 guiding inclined planes, 48 air outlet holes, 49 air outlet pipes, 50 exhaust holes, 300 clamping blocks, 301 locking screws, 320 sliding grooves, 400 threaded holes and 401 guiding holes.

Detailed Description

The invention is further described with reference to the following figures and detailed description.

Embodiment 1, as shown in fig. 1 to 6, an automatic control system for spiral shell production includes a fixed frame 1, and a slide rail 2 capable of driving the fixed frame 1 to slide left and right is connected below the fixed frame 1. The middle part of the fixed frame 1 is connected with a rotatable coil collecting device 3 and a slidable guiding device 4. The guide device 4 is arranged in front of the collector 3. The guide means 4 is provided with a slidable guide block 40. The coil collecting device 3 is provided with a plurality of locking blocks 30. The guide block 40 corresponds to the locking block 30. The middle part of the coil collecting device 3 is connected with a cooling pipe 5.

The reform means 3 includes a connection plate 31 and a plurality of reform bars 32. The winding rod 32 is connected with the connecting plate 31. The connection plate 31 is provided at an outer side wall thereof with a connection groove 33. A connecting block 34 is detachably and slidably connected in the connecting groove 33. The outer side wall of the fixed frame 1 is connected with a first rotating motor 35. The rotating shaft end of the first rotating motor 35 is connected with the connecting block 34. The side wall of the connecting plate 31 is connected with a lifting buckle 36. A locking screw 37 is connected below the lifting buckle 36. The locking screw 37 is connected to the connecting block 34. The winding rod 32 is provided with a chute 320 at one end. The locking block 30 is slidably connected to the slide groove 320. The end of the locking block 30 is provided with a latch 300. The latch 300 is slidably coupled to the locking block 30. The side wall of the clamping block 300 is connected with a locking screw 301.

The side wall of the cooling pipe 5 is provided with a plurality of exhaust holes 50. The exhaust hole 50 is externally connected with an air supply pump.

The guide device 4 includes a guide block 40, a guide screw 41, and a guide rod 42. The guide screw 41 is connected to the holder 1. The guide block 40 is provided with a screw hole 400 and a guide hole 401. The threaded hole 400 is slidably engaged with the guide screw 41. The guide hole 401 is fitted with the guide rod 42. The second rotating motor 43 is connected to the guide screw rod 41. The second rotating motor 43 is connected with the fixed frame 1.

A guide hole 44 is provided below the guide block 40. The guide hole 44 corresponds to the locking block 30. The inner wall of the guide hole 44 is provided with a plurality of ball grooves 45. Balls 46 are connected in the ball grooves 45.

The guide hole 44 is provided with a guide slope 47 at a side thereof facing the locking block 30. The guide hole 44 is provided with a plurality of air outlet holes 48 toward one side of the locking block 30. The air outlet hole 48 is connected with an air outlet pipe 49. The outlet pipe 49 is connected to an air supply pump.

The mounting frame 6 is arranged below the fixing frame 1. The mounting frame 6 is connected with a telescopic device 7. The slide rail 2 includes a slider 20 and a guide rail 21. The slider 20 is slidably engaged with the guide rail 21. The guide rail 21 is fixedly connected with the mounting frame 6. The slide 20 is connected to the telescopic device 7.

s1, mounting a coil collecting device 3 on a fixed frame 1;

s2, adjusting the position of the guide block 40 to be aligned with the locking block 30;

s3, enabling the disc screw to penetrate through the guide hole 44 and be locked on the locking block 30;

s4, starting the telescopic device 7, the first rotating motor 35 and the second rotating motor 43 to collect rolls;

and S5, after the coil collection is finished, shearing, disassembling the coil collection device 3, and transferring and storing.

The working principle of the invention is as follows: as shown in fig. 1-6, a slider 20 is connected to the bottom of the fixing frame 1, a guide rail 21 is connected to the top surface of the mounting frame 6, the slider 20 can slide along the guide rail 21, a telescopic device 7 is provided on the mounting frame 6, and the telescopic device 7 can be a telescopic cylinder or a telescopic rod or other mechanisms capable of providing telescopic action. The sliding of the fixing frame 1 can ensure that the entering direction of the spiral shell is always vertical to the coil collecting device 3, thereby ensuring the coil collecting effect. The fixing frame 1 is connected with a connecting plate 31, the connecting plate 31 is connected with a coil collecting rod 32, and the coiled spiral can be wound on the coil collecting rod 32. One end of the coil collecting rod 32 is provided with a sliding groove 320, the sliding groove 320 is an arc-shaped groove, the sliding groove 320 is connected with a locking block 30 in a sliding manner, and when the locking block 30 moves to one side of the sliding groove 320, the locking block contacts with the side surface of the sliding groove 320 to limit the locking block 30. The terminal surface of latch segment 30 is provided with the arcwall face, guarantees that the dish spiral shell can with latch segment 30 in close contact with when the locking, guarantees the locking effect. The two side surfaces of the locking block 30 are connected with the fixture blocks 300, the fixture blocks 300 can slide with the locking block 30 in the horizontal direction, the locking distance is adjusted, and the locking effect is ensured to be tight and stable. The guide rods 42 are connected between the fixing frames 1. The guide screw rod 41 and the guide rod 42 are positioned on the same vertical surface, the guide block 40 is sleeved on the guide screw rod 41, the guide block 40 can horizontally move under the rotating action of the guide screw rod 41, so that the guide block 40 adjusts the direction of the guide angle of the disc snail to the coil collecting device 3, the angle of the disc snail entering the coil collecting device 3 is ensured, the disc snails are ensured to be closely adjacent when being wound on the coil collecting rod 32, and the coil collecting effect is ensured.

Be connected with cooling tube 5 at the middle part of connecting plate 31, be provided with venthole 48 on guide block 40, venthole 48 and the external intercommunication of cooling tube 5 have an air feed pump, and accessible venthole 48 and the 5 exhaust cold air of cooling tube cool off the spiral shell of twining for the spiral shell of twining can not lead to taking place deformation because of the reason of temperature after the collection is rolled up, influences the spiral shell collection and rolls up, guarantees the collection and rolls up the effect.

The invention realizes the adjustment of the coiling angle of the spiral shell by controlling the movement of the fixing frame 1, and simultaneously ensures that the spiral shells are closely adjacent when being coiled by fine adjustment of the position of the guide block 40, thereby ensuring the coiling effect.

Claims

1. The utility model provides an automated control system of spiral shell production usefulness, includes mount (1), characterized by, mount (1) below is connected with can drive slide rail (2) of mount (1) horizontal slip, mount (1) middle part is connected with rotatable album of package device (3) and slidable guiding device (4), album of package device (3) front side is arranged in to guiding device (4), guiding device (4) are provided with slidable guide block (40), album of package device (3) is provided with a plurality of latch segments (30), guide block (40) are corresponding with latch segment (30), collection package device (3) middle part is connected with cooling tube (5).

2. The automatic control system for producing the spiral shell, as set forth in claim 1, characterized in that the coil collecting device (3) comprises a connecting plate (31) and a plurality of coil collecting rods (32), the coil collecting rods (32) are connected with the connecting plate (31), the outer side wall of the connecting plate (31) is provided with a connecting groove (33), a connecting block (34) is detachably and slidably connected in the connecting groove (33), the outer side wall of the fixing frame (1) is connected with a first rotating motor (35), and the rotating shaft end of the first rotating motor (35) is connected with the connecting block (34).

3. The automatic control system for producing the spiral shell as claimed in claim 2, wherein a hoisting buckle (36) is connected to the side wall of the connecting plate (31), a locking screw rod (37) is connected to the lower portion of the hoisting buckle (36), and the locking screw rod (37) is connected with the connecting block (34).

4. The automatic control system for the production of the disc snail as claimed in claim 2, wherein one end of the coil collecting rod (32) is provided with a sliding groove (320), the locking block (30) is slidably connected with the sliding groove (320), the end part of the locking block (30) is provided with a clamping block (300), the clamping block (300) is slidably connected with the locking block (30), and the side wall of the clamping block (300) is connected with a locking screw (301).

5. An automatic control system for producing spiral shell, as claimed in claim 1, wherein said cooling tube (5) has a plurality of exhaust holes (50) on its side wall, and said exhaust holes (50) are externally connected with an air supply pump.

6. The automatic control system for the production of the spiral shell, according to claim 1, is characterized in that the guide device (4) comprises a guide block (40), a guide screw rod (41) and a guide rod (42), the guide screw rod (41) is connected with the fixing frame (1), the guide block (40) is provided with a threaded hole (400) and a guide hole (401), the threaded hole (400) is slidably sleeved with the guide screw rod (41), the guide hole (401) is sleeved with the guide rod (42), the guide screw rod (41) is connected with a second rotating motor (43), and the second rotating motor (43) is connected with the fixing frame (1).

7. The automatic control system for producing the disc snails according to claim 6, wherein a guide hole (44) is arranged below the guide block (40), the guide hole (44) corresponds to the locking block (30), a plurality of ball grooves (45) are arranged on the inner wall of the guide hole (44), and balls (46) are connected in the ball grooves (45).

8. The automatic control system for producing the disc screws as claimed in claim 7, wherein a guide inclined plane (47) is arranged on one side of the guide hole (44) facing the locking block (30), a plurality of air outlet holes (48) are arranged on one side of the guide hole (44) facing the locking block (30), an air outlet pipe (49) is connected to the air outlet holes (48), and the air outlet pipe (49) is connected with an air supply pump.

9. The automatic control system for producing the disc snail as claimed in claim 1, wherein a mounting frame (6) is arranged below the fixing frame (1), a telescopic device (7) is connected to the mounting frame (6), the slide rail (2) comprises a slide block (20) and a guide rail (21), the slide block (20) is slidably sleeved with the guide rail (21), the guide rail (21) is fixedly connected with the mounting frame (6), and the slide block (20) is connected with the telescopic device (7).

10. An automated control method for spiral shell production according to any one of claims 1 to 9, characterized by the steps of:

s1, mounting a coil collecting device (3) on a fixed frame (1);

s2, adjusting the position of the guide block (40) to be aligned with the locking block (30);

s3, enabling the disc screw to penetrate through the guide hole (44) and be locked on the locking block (30);

s4, starting the telescopic device (7), the first rotating motor (35) and the second rotating motor (43) to collect rolls;

and S5, after the coil collection is finished, shearing, removing the coil collection device (3), and transferring and storing.