CN210411916U - Planetary rolling mill discharging system convenient to operate - Google Patents

Abstract

The utility model discloses a planetary rolling mill discharging system convenient to operate, which belongs to the technical field of nonferrous metal processing and manufacturing, reduces the labor intensity of workers and operators, improves the yield, ensures the safety of equipment and personnel, and improves the production efficiency, and comprises a rolling mill discharge hole water cooler, a shearing device, a bending device and a vertical rolling device, a first V-shaped guide chute for conducting copper pipes is arranged between the water cooler at the discharge port and the shearing device, a second V-shaped guide chute for conducting the copper pipe is arranged between the shearing device and the bending device, the bending device is positioned at the front side of the vertical rolling device, the vertical winding device is provided with a third V-shaped guide groove capable of automatically lifting, the copper pipe enters the bending device along the third V-shaped guide groove after passing through the second V-shaped guide groove, and the vertical winding device is provided with a feeding guide block for guiding the copper pipe to be wound.

Description

Planetary rolling mill discharging system convenient to operate

Technical Field

The utility model relates to a non ferrous metal manufacturing technical field especially relates to planet rolling mill discharge system of convenient operation.

Background

Planet rolling mill discharge system can cut off the copper pipe that the preparation was accomplished tip and afterbody back rolling, current bundle draws equipment to have many steps and needs 3 at least personnel's manual work operations, workman's intensity of labour is big, and equipment breaks down easily, owing to used a large amount of manpowers, personnel's safety problem can not obtain fine guarantee, and production efficiency is not high, copper pipe transmission process needs artifical guide, the tip and the afterbody of copper pipe cut off also need manual operation, also need the extension of artifical guide copper pipe during the rolling copper pipe.

Aiming at the problems, the existing discharging system of the rolling mill needs to be modified, the labor input is reduced, the labor intensity of workers is reduced, the yield is improved, the safety of equipment and personnel is guaranteed, and the production efficiency is improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome prior art not enough and provide the planet rolling mill discharging system of convenient operation, reduce artifical and operative employee's intensity of labour, improve the lumber recovery, guarantee equipment and personnel safety, improve production efficiency.

In order to solve the technical problem, the utility model adopts the following technical scheme:

planetary rolling mill discharging system of convenient operation, including rolling mill discharge gate water chiller, shearing mechanism, bending apparatus and vertical coiling mechanism, be equipped with the first V type baffle box of conduction copper pipe between discharge gate water chiller and the shearing mechanism, be equipped with the second V type baffle box of conduction copper pipe between shearing mechanism and the bending mechanism, the bending mechanism is located the front side of vertical coiling mechanism, be equipped with the third V type baffle box that can automatic rising on the vertical coiling mechanism, the copper pipe enters into the bending mechanism along third V type baffle box behind the second V type baffle box, be equipped with the material loading guide block of guide copper pipe rolling on the vertical coiling mechanism.

Furthermore, the end parts of the first V-shaped material guide groove, the second V-shaped material guide groove and the third V-shaped material guide groove are inclined downwards.

Furthermore, the first V-shaped guide chute, the second V-shaped guide chute and the third V-shaped guide chute are provided with guide wheels for assisting the movement of the copper tube, and at least one of the guide wheels on the first V-shaped guide chute and the second V-shaped guide chute is provided.

Furthermore, a supporting column is arranged at the bottom of the first V-shaped material guide groove, the supporting column close to the shearing device is matched with the ground in a rotating mode, and a roller is arranged at the bottom of the supporting column on the other side.

Furthermore, a lifting cylinder is arranged on the front end face of the vertical winding device, a retractable supporting block assembly is arranged on the front end face of the vertical winding device, and the third V-shaped guide chute is fixed with the piston push rod of the lifting cylinder and the end of the supporting block assembly.

Furthermore, a cutting mechanism for cutting the head and the tail is arranged on the shearing device, and a chain belt for driving the cutting mechanism to horizontally move is arranged on the side part of the shearing device.

Furthermore, a photoelectric switch for sensing the copper pipe is arranged at the end part of the shearing device.

Furthermore, an arc-shaped feeding guide groove is formed in the end portion of the feeding guide block.

Furthermore, a material guide plate for guiding the material head to move is arranged on the end face of the front side of the vertical winding device.

The utility model has the advantages that:

the utility model relates to a planet rolling mill discharging system of convenient operation improves on original planet rolling mill discharging system, has increased three V type baffle boxes, and first V type baffle box can transmit the copper pipe that the rolling mill discharge gate water chiller spreads to shearing mechanism, need not the manual work and guide the copper pipe and get into shearing mechanism, can reduce operator's operating procedure;

the photoelectric switch can sense the transmitted copper pipe so as to drive the cutting mechanism to cut off the head of the copper pipe, the tail of the copper pipe can be sensed by the photoelectric switch when moving, and the chain belt can drive the cutting mechanism to move along with the movement of the copper pipe when cutting off, so that the cut at the cut part of the copper pipe is smooth and attractive, the quality of the copper pipe is not influenced, the influence of the copper pipe on the cutting mechanism is reduced, automatic cutting off is realized, manual operation is not needed, and the operation of an operator can be reduced;

the end parts of the first V-shaped guide chute, the second V-shaped guide chute and the third V-shaped guide chute are designed in an inclined downward mode, so that a copper pipe can conveniently enter the trough, the collision between the copper pipe and the end part of the trough is prevented, water flowing out of the copper pipe can be conveniently discharged after being discharged into the trough, a guide wheel arranged on the trough can assist the movement of the copper pipe, the friction between the copper pipe and the trough is reduced, more than one guide wheel is arranged on the second V-shaped guide chute and the third V-shaped guide chute, the friction between the copper pipe and the trough can be further reduced, after the copper pipe is rolled, the third V-shaped guide chute descends, the copper pipe is conveniently taken down from the bending device, the residual water in the copper pipe is discharged, and the operation difficulty of an operator is reduced;

the support column can drive the first V-shaped guide chute to rotate, so that the first V-shaped guide chute can be manually transferred to the side surface when equipment is maintained, and the maintenance of the equipment is not influenced;

the copper pipe is upwards rolled through the feeding guide chute, the stub bar is forwards inclined in contact with the guide plate when descending, the stub bar does not need to be manually guided, the operation of operators is reduced, and the manpower is saved.

These features and advantages of the present invention will be disclosed in more detail in the following detailed description and the accompanying drawings.

Drawings

The invention will be further explained with reference to the drawings:

FIG. 1 is an overall structure diagram of a planetary rolling mill discharging system convenient for operation;

fig. 2 is a schematic structural view of a first V-shaped material guiding chute according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a second V-shaped material guiding chute according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a third V-shaped material guiding chute according to an embodiment of the present invention;

fig. 5 is a schematic structural view of a bending device and a vertical winding device in an embodiment of the present invention;

fig. 6 is a schematic side view of the bending apparatus and the vertical winding apparatus according to the embodiment of the present invention.

Reference numerals:

a first V-shaped guide chute 10, a photoelectric switch 11, a cutting mechanism 12, an auxiliary wheel 13, a second V-shaped guide chute 14 and a third V-shaped guide chute 15;

the device comprises a material guide plate 20, a material guide wheel 21, a transfer wheel 22, a bending wheel 23, a material loading guide block 24 and a material loading guide chute 25;

the device comprises a support column 31, a roller 32, a guide wheel 33, a lifting cylinder 34, a slide rail 35, a supporting block 36 and a material receiving roller 38;

the device comprises a water cooler 100 at the discharge port of the rolling mill, a shearing device 200, a bending device 300 and a vertical rolling device 400.

Detailed Description

The technical solutions of the embodiments of the present invention are explained and explained below with reference to the drawings of the embodiments of the present invention, but the embodiments described below are only preferred embodiments of the present invention, and not all embodiments. Based on the embodiments in the embodiment, other embodiments obtained by those skilled in the art without any creative work belong to the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1, the planetary rolling mill discharging system convenient to operate comprises a rolling mill discharging port water cooler 100, a shearing device 200, a bending device 300 and a vertical rolling device 400, and is characterized in that: a first V-shaped guide chute 10 for conducting copper pipes is arranged between the water cooler at the discharge port and the shearing device 200, a second V-shaped guide chute 14 for conducting copper pipes is arranged between the shearing device 200 and the bending device 300, the bending device 300 is positioned at the front side of the vertical rolling device 400, a third V-shaped guide chute 15 capable of automatically lifting is arranged on the vertical rolling device 400, the copper pipes pass through the second V-shaped guide chute 14 and then enter the bending device 300 along the third V-shaped guide chute 15, and a feeding guide block 24 for guiding the copper pipes to be rolled is arranged on the vertical rolling device 400.

The utility model discloses reform transform on original planetary rolling mill discharge system's basis, reduce artifical and operative employee's intensity of labour, improve the lumber recovery, guarantee equipment and personnel safety, improve production efficiency, V type baffle box transmission copper pipe has been used, well controlled first V type baffle box 10, the high position of second V type baffle box 14 and third V type baffle box 15, and the contained angle of three silos, just can be fine control copper pipe level transmission, reduce the friction of copper pipe and silo wall, there is the guide of V type silo, can reduce the consumption of manpower, need not the manual guide copper pipe of operative employee, safety more.

Referring to fig. 2 to 4, the first, second and third V- shaped guide chutes 10, 14 and 15 are inclined downward at their ends. When the copper pipe transmits in first V type baffle box 10 after rolling mill discharge gate water cooler 100 cools off, transmit second V type baffle box 14 from shearing mechanism 200 when the copper pipe, when the copper pipe transmits in third V type baffle box 15 from second V type baffle box 14, the port of downward sloping can prevent that the copper pipe from colliding with the silo tip at the in-process that removes, at the in-process of copper pipe production, water can enter into in the body, copper pipe after shearing mechanism 200 cuts, the water in the body can flow out, the tip of downward sloping can be better with water discharge.

Preferably, the first V-shaped material guiding chute 10, the second V-shaped material guiding chute 14 and the third V-shaped material guiding chute 15 are provided with guide wheels 33 for assisting the movement of the copper tube, and at least one of the guide wheels 33 on the first V-shaped material guiding chute 10 and the second V-shaped material guiding chute 14. When the copper pipe moves in the baffle box, can take place the friction with the cell wall of baffle box, can influence the quality of copper pipe, leading wheel 33 can rotate for the baffle box, the essence that the copper pipe removed in the baffle box is in the transmission of the top of leading wheel 33, the copper pipe takes leading wheel 33 synchronous revolution in the driven while, further reduce the friction of copper pipe and leading wheel 33, there is leading wheel 33 that is no less than one on first V type baffle box 10 and the second V type baffle box 14, the copper pipe is located the leading wheel 33 top when the transmission in first V type baffle box 10 and the second V type baffle box 14, can avoid the contact of copper pipe and silo cell wall as far as.

Referring to fig. 1, a support column 31 is provided at the bottom of the first V-shaped material guiding chute 10, the support column 31 near the shearing device 200 is rotatably engaged with the ground, and a roller 32 is provided at the bottom of the support column 31 at the other side. The ground is provided with a guide rail, the roller 32 can slide on the guide rail and drives the support column 31 and the first V-shaped material guide groove 10 to rotate, the roller 32 is provided with a self-locking mechanism, so that the roller 32 is locked by the self-locking mechanism to ensure that the first V-shaped material guide groove 10 cannot rotate when in normal use, and the first V-shaped material guide groove 10 can be manually transferred to the side surface when in equipment maintenance without influencing the equipment maintenance.

Referring to fig. 4, preferably, a lifting cylinder 34 is provided on the front end surface of the vertical winding device 400, an extendable supporting block 36 assembly is provided on the front end surface of the vertical winding device 400, and the third V-shaped material guiding chute 15 is fixed to the end of the piston rod of the lifting cylinder 34 and the supporting block 36 assembly. The supporting block 36 assembly comprises a supporting block 36 and a slide rail 35, the slide rail 35 is located on the front end surface of the vertical winding device 400, the supporting block 36 is slidably mounted on the slide rail 35, and the third V-shaped material guiding groove 15 is mounted at the supporting block 36 and the end of the piston push rod of the lifting cylinder 34. The third V-shaped material guide groove 15 is lifted by the lifting cylinder 34 during normal production, after the copper pipe is transmitted to the tail end, the third V-shaped material guide groove 15 is lowered to the bottom by the lifting cylinder 34, an operator can conveniently take the copper pipe down from the bending device 300, and water in the copper pipe can be completely poured out.

Referring to fig. 5, the bending apparatus 300 is provided with a plurality of sets of vertically symmetrical transfer wheels 22 and two bending wheels 23. When the copper pipe needs to be bent, the upper and lower transfer wheels 22 and the bending wheel 23 start to perform relative displacement, after the copper pipe passes through, the upper and lower transfer wheels 22 and the bending wheel 23 reset, the copper pipe is clamped and transferred by the upper and lower transfer wheels 22, the copper pipe is bent by the bending wheel 23, when the copper pipe needs to be taken down, the upper and lower transfer wheels 22 and the bending wheel 23 are separated, an operator breaks the copper pipe outwards, the copper pipe can be taken down, and water in the copper pipe can be poured out.

Example two:

referring to fig. 1 and 3, the present embodiment optimizes the function of the shearing apparatus 200 based on the first embodiment, specifically: the shearing device 200 is provided with a cutting mechanism 12 for cutting head and tail, and a chain belt for driving the cutting mechanism 12 to move horizontally is arranged on the side part of the shearing device 200. The end and the tail of the copper pipe are parts needing to be cut off, after the copper pipe enters the cutting mechanism 12 on the cutting device 200 in a transmission mode, the chain belt is started to drive the cutting mechanism 12 to move synchronously with the copper pipe, the copper pipe is clamped by the cutting mechanism 12 to start cutting while moving, so that the cut at the cut part of the copper pipe is smooth and attractive, the quality of the copper pipe is not affected, and the influence of the copper pipe on the cutting mechanism 12 is reduced.

Referring to fig. 1, shearing mechanism 200 tip is equipped with photoelectric switch 11 that is used for responding to the copper pipe, shearing mechanism 200's other end tip is equipped with auxiliary wheel 13, when the copper pipe gets into shearing mechanism 200 for the first time, photoelectric switch 11 senses the copper pipe that stretches into, begin the cutting for the first time, when the transmission along with the copper pipe, the afterbody of copper pipe passes through photoelectric switch 11, photoelectric switch 11 senses no copper pipe and stretches into the back, begin the cutting for the second time, the copper pipe that the cutting was accomplished shifts out shearing mechanism 200, the copper pipe stretches out under auxiliary wheel 13's guide. The extension of the copper pipe can be guided by the auxiliary wheel 13, the collision friction between the copper pipe and the device is reduced, automatic cutting is realized, manual operation is not needed, and the operation of an operator can be reduced.

Example three:

referring to fig. 5 and 6, the present embodiment further enhances the winding function of the vertical winding device 400 on the basis of the above embodiments, specifically: an arc-shaped feeding guide groove 25 is arranged at the end part of the feeding guide block 24, a guide plate 20 for guiding the stub bar to move is arranged on the front end face of the vertical winding device 400, a guide wheel 21 is arranged below the guide plate 20 on the front end face of the vertical winding device 400, and a material receiving roller 38 is further arranged at the upper end of the center on the front end face of the vertical winding device 400. The copper pipe bent by the bending device 300 has a certain radian, but the bent copper pipe still needs to be manually driven to be coiled, compared with the previous operation, the stub bar of the copper pipe is only required to be guided into the material guide groove 25, the copper pipe extends upwards along the arc-shaped groove wall, then the copper pipe bypasses the material receiving roller 38 on the vertical type winding device 400 and then extends downwards to contact with the material guide plate 20, the material receiving roller 38 is provided with a spiral groove, under the guide of the inclined end surface of the material guide plate 20, the bent copper pipe can better rotate along the spiral groove and extends forwards, the copper pipe moves forwards, the material guide wheel 21 is driven to rotate after contacting the material guide wheel 21, the copper pipe can be further guided to be wound, an operator can tie the stub bar and the copper pipe together after the copper pipe stub bar continues to move, and then the material loading block 24 is pushed to move from the position A to the position B under the action of the winding on the vertical type winding device, the copper pipe is prevented from being wound, the operation of operators is reduced, and the manpower is saved.

The embodiment of the utility model provides a can be applied to products such as rolling mill.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and those skilled in the art should understand that the present invention includes but is not limited to the contents described in the drawings and the above specific embodiments. Any modification which does not depart from the functional and structural principles of the present invention is intended to be included within the scope of the claims.

Claims (9)

1. Planetary rolling mill discharge system of convenient operation, including rolling mill discharge gate water cooler, shearing mechanism, bending apparatus and vertical coiling mechanism, its characterized in that: the copper pipe coiling device is characterized in that a first V-shaped guide groove for conducting a copper pipe is arranged between the discharge port water cooler and the shearing device, a second V-shaped guide groove for conducting the copper pipe is arranged between the shearing device and the bending device, the bending device is located on the front side of the vertical coiling device, a third V-shaped guide groove capable of automatically ascending and descending is arranged on the vertical coiling device, the copper pipe enters the bending device along the third V-shaped guide groove after passing through the second V-shaped guide groove, and a feeding guide block for guiding the copper pipe to be coiled is arranged on the vertical coiling device.

2. The planetary mill discharge system of claim 1, wherein: the end parts of the first V-shaped material guide groove, the second V-shaped material guide groove and the third V-shaped material guide groove are inclined downwards.

3. The planetary mill discharge system of claim 2, wherein: guide wheels for assisting the movement of the copper pipe are arranged on the first V-shaped guide groove, the second V-shaped guide groove and the third V-shaped guide groove, and at least one guide wheel is arranged on the first V-shaped guide groove and the second V-shaped guide groove.

4. The planetary mill discharge system of claim 3, wherein: the bottom of the first V-shaped material guide groove is provided with a support column, the support column close to the shearing device is in running fit with the ground, and the bottom of the support column on the other side is provided with a roller.

5. The planetary mill discharge system of claim 3, wherein: the end surface is equipped with the lift cylinder before the vertical coiling mechanism, the end surface is equipped with the supporting shoe subassembly that can stretch out and draw back before the vertical coiling mechanism, the third V type baffle box is fixed with the end of the piston push rod of lift cylinder and supporting shoe subassembly.

6. The planetary mill discharge system of claim 1, wherein: the shearing device is provided with a cutting mechanism for cutting the head and the tail, and the side part of the shearing device is provided with a chain belt for driving the cutting mechanism to move horizontally.

7. The planetary mill discharge system of claim 6, wherein: and a photoelectric switch for sensing the copper pipe is arranged at the end part of the shearing device.

8. The planetary mill discharge system of claim 1, wherein: and an arc-shaped feeding guide groove is formed in the end part of the feeding guide block.

9. The planetary mill discharge system of claim 8, wherein: and a material guide plate for guiding the material head to move is arranged on the end face of the front side of the vertical winding device.

Images