CN212607665U - Finishing device is carried to rock wool strip - Google Patents

Abstract

The utility model relates to a finishing device is carried to rock wool strip belongs to building material production facility technical field. Including the buffer memory platform, the output of buffer memory platform is equipped with falls the belt feeder, the output that falls the belt feeder is equipped with the climbing belt feeder, climbing belt feeder top output is equipped with the belt feeder that is used for carrying the rock wool board, the output of belt feeder is equipped with conveying platform, conveying platform's output is equipped with translation push pedal mechanism, be equipped with lift push pedal mechanism between belt feeder and the conveying platform, the import department of belt feeder is equipped with the clamp plate cylinder that is used for pushing down the rock wool board, the output of translation push pedal mechanism is equipped with the downhill path belt feeder, the output of downhill path belt feeder is equipped with the laminator, above-mentioned each part all is controlled by. The utility model discloses can accomplish the automatic alignment of rock wool strip, paste tightly in rock wool strip transportation process, do not need the manual work to intervene the rock wool in carrying, improve productivity.

Description

Finishing device is carried to rock wool strip

Technical Field

The utility model relates to a finishing device is carried to rock wool strip belongs to building material production facility technical field.

Background

In the production process of rock wool color steel board, rock wool composite sheet, rock wool heat preservation and decoration integration board, rock wool rear-mounted heated board etc. relevant rock wool board products, at first need two people to sign indicating number rock wool strip into one row in time, then two other people are responsible for making the rock wool strip align each other with push pedal or manual mode arrangement, paste tightly, this process needs 4 individuals at least to accomplish, workman working strength is big, and rock wool has certain harm to the human body, be unfavorable for workman physical and mental health development, because the manual intervention procedure is more, so the production line speed is generally about 4m/s, production efficiency is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve the weak point that exists among the prior art, provide a rock wool strip and carry finishing device and method, the device can accomplish the automation of rock wool strip in rock wool strip transportation process and align, paste tightly, do not need the manual work to intervene the rock wool in carrying, and the production line speed can reach more than 6m/s, has improved productivity.

The utility model discloses a rock wool strip conveying and arranging device, which is characterized by comprising a buffer storage platform 1 for placing rock wool strips, wherein the output end of the buffer storage platform 1 is provided with a falling belt conveyor 2, the output end of the falling belt conveyor 2 is provided with a climbing belt conveyor 3 for driving rock wool boards to move upwards one by one, the output end of the top of the climbing belt conveyor 3 is provided with a conveying belt conveyor 4 for conveying rock wool boards, the output end of the conveying belt conveyor 4 is provided with a conveying platform 7, the output end of the conveying platform 7 is provided with a translation push plate mechanism 8, a lifting push plate mechanism 6 for pushing the rock wool boards on the conveying platform 7 to the translation push plate mechanism 8 is arranged between the conveying belt conveyor 4 and the conveying platform 7, the inlet of the conveying belt conveyor 4 is provided with a press plate cylinder 5 for pressing the rock wool boards, the output end of the translation push plate mechanism, all the components except the cache platform 1 are controlled by a PLC controller;

the cache platform 1 comprises a cache frame body 11 and a placing plane 12 installed on the cache frame body 11, and the rock wool board is placed on the placing plane 12;

the falling belt conveyor 2 comprises a falling belt conveyor support 13 and a falling belt conveyor 14 arranged on the falling belt conveyor support 13; (ii) a

The climbing belt conveyor 3 comprises a climbing belt conveyor support 15, a climbing belt conveyor 16 is mounted on the climbing belt conveyor support 15, one end, with the lower position, of the climbing belt conveyor 16 is close to the falling belt conveyor 2, and the other end, with the higher position, of the climbing belt conveyor is close to the conveying belt conveyor 4;

the conveying belt machine 4 and the conveying platform 7 are both arranged on the conveying frame body 17, a first photoelectric switch 26 is arranged on one side, close to the climbing belt machine 3, of the conveying belt machine 4, a second photoelectric switch 27 is arranged at the tail end of the conveying belt machine 4, a third photoelectric switch 28 is arranged on one inlet side of the conveying platform 7, and a fourth photoelectric switch 29 is arranged on one outlet side of the conveying platform 7;

the lifting push plate mechanism 6 comprises a mounting plate 18 mounted on the conveying frame body 17, a lifting cylinder 19 is mounted on the mounting plate 18, a push plate 20 is mounted at the movable end of the bottom of the lifting cylinder 19, a push cylinder 21 for pushing the push plate 20 to move back and forth is mounted on the push plate 20, and guide rods 22 are mounted on the mounting plate 18 and the push plate 20;

translation push pedal mechanism 8 includes translation support body 23, has seted up two translation grooves 24 that parallel on the translation support body 23, all is equipped with in two translation grooves 24 and pushes away the arm 25, pushes away the arm 25 by motor drive back-and-forth movement, and fifth photoelectric switch 30 is installed to translation push pedal mechanism 8's initial position department.

A rock wool strip conveying and finishing method is characterized by comprising the following steps:

1. setting the running speed of the falling belt conveyor 2 to be 1m/min and the running speed of the climbing belt conveyor 3 to be 6m/min, vertically placing the rock wool strips 31 on the falling belt conveyor 2, and enabling the rock wool strips 31 to fall on the climbing belt conveyor 3 one by one through the running of the falling belt conveyor;

2. the rock wool strips 31 on the climbing belt conveyor 3 are conveyed to the second photoelectric switch 27 after passing through the first photoelectric switch 26 by one rock wool strip 31 through the matching of the belt conveyor 4, and when the first photoelectric switch 26 and the second photoelectric switch 27 have signals of more than 3S at the same time, the rock wool strips 31 at the belt conveyor 4 are full and gaps are eliminated;

3. the falling belt conveyor 2, the climbing belt conveyor 3 and the conveying belt conveyor 4 stop running, and meanwhile, the pressing plate cylinder 5 descends, and the lifting cylinder 19 of the lifting push plate mechanism 6 descends to push the rock wool to approach the translation push plate mechanism 8;

4. when the third photoelectric switch 28 is applied to the lifting push plate mechanism 6, the falling belt conveyor 2, the climbing belt conveyor 3 and the conveying belt conveyor 4 are started again; meanwhile, the pressing plate cylinder 5 ascends to convey the rock wool strips 31 to the platform of the belt conveyor 4 again, and after the rock wool strips 31 are fully extruded, the belt conveyor 2, the climbing belt conveyor 3, the belt conveyor 4 and the pressing plate cylinder 5 stop falling; meanwhile, the lifting push plate mechanism 6 does not stop, and continues to move to the position of the fourth photoelectric switch 29, and when the fourth photoelectric switch 29 has a signal, the pushing cylinder 21 on the lifting push plate mechanism 6 completely pushes the rock wool into the translation push plate mechanism 8;

5. the lifting cylinder 19 of the lifting push plate mechanism 6 rises, the pushing cylinder 21 returns to the original position, and simultaneously, the returning starts, and the position returns to the first photoelectric switch 26 or the second photoelectric switch 27 to stop; when the lifting push plate mechanism 6 returns, the translation push plate mechanism 8 is started to push the rock wool to the downhill belt conveyor 9;

6. and (4) returning to the original position, descending the lifting cylinder 19 of the lifting push plate mechanism 6 again, conveying the rock wool which is cached to the translation push plate mechanism 8 again, and circulating the rock wool at the moment, wherein the step (4) and the step (5) are carried out.

The beneficial effects of the utility model reside in that the device can accomplish the automatic alignment of rock wool strip, paste tightly in rock wool strip transportation process, does not need the manual work to intervene the rock wool in carrying, has alleviateed workman intensity of labour, has satisfied the production requirement, has improved efficiency.

Drawings

Fig. 1 is a schematic structural view of a rock wool strip conveying and arranging device of the present invention 1;

fig. 2 is a schematic structural view of a rock wool strip conveying and arranging device of the present invention 2;

fig. 3 is a schematic mechanism diagram 3 of a rock wool strip conveying and arranging device of the present invention;

fig. 4 is a schematic structural diagram of the lifting push plate mechanism.

In the figure: 1. A caching platform; 2. Dropping the belt conveyor; 3. A climbing belt conveyor; 4. A belt conveyor; 5. a platen cylinder; 6. a lifting push plate mechanism; 7. a conveying platform; 8. a translational push plate mechanism; 9. a downhill belt conveyor; 10. laminating machine; 11. a cache holder; 12. placing a plane; 13. dropping the belt conveyor bracket; 14. dropping the conveyor belt; 15. a climbing belt conveyor bracket; 16. a climbing conveyor belt; 17. a conveyor body; 18. mounting a plate; 19. a lifting cylinder; 20. pushing the plate; 21. a push cylinder; 22. a guide bar; 23. a translational frame body; 24. a translation slot; 25. a push arm; 26. a first photoelectric switch; 27. a second photoelectric switch; 28. a third photoelectric switch; 29. a fourth photoelectric switch; 30. a fifth photoelectric switch; 31. rock wool strip.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

A rock wool strip conveying and arranging device of this embodiment is seen in attached figures 1-4. The rock wool plate storage device comprises a cache platform 1 for placing rock wool strips, wherein a falling belt conveyor 2 is arranged at the output end of the cache platform 1, a climbing belt conveyor 3 for driving rock wool plates to move upwards one by one is arranged at the output end of the falling belt conveyor 2, a belt conveyor 4 for conveying the rock wool plates is arranged at the output end of the top of the climbing belt conveyor 3, a conveying platform 7 is arranged at the output end of the belt conveyor 4, a translation push plate mechanism 8 is arranged at the output end of the conveying platform 7, a lifting push plate mechanism 6 for pushing the rock wool plates on the conveying platform 7 to the translation push plate mechanism 8 is arranged between the belt conveyor 4 and the conveying platform 7, a press plate cylinder 5 for pressing the rock wool plates is arranged at the inlet of the belt conveyor 4, a downhill belt conveyor 9 is arranged at the output end of the translation push plate mechanism 8, a laminator 10 is;

the structure of the cache platform is as follows: the cache platform 1 comprises a cache frame body 11 and a placing plane 12 installed on the cache frame body 11, and the rock wool board is placed on the placing plane 12;

the structure of the falling belt conveyor: the falling belt conveyor 2 comprises a falling belt conveyor support 13 and a falling belt conveyor 14 arranged on the falling belt conveyor support 13; (ii) a

The structure of the climbing belt conveyor: the climbing belt conveyor 3 comprises a climbing belt conveyor support 15, a climbing belt conveyor 16 is mounted on the climbing belt conveyor support 15, one end, with a low position, of the climbing belt conveyor 16 is close to the falling belt conveyor 2, and the other end, with a high position, of the climbing belt conveyor is close to the conveying belt conveyor 4;

structure of belt conveyor and conveying platform: the belt conveyor 4 and the conveying platform 7 are both arranged on the conveyor frame body 17, a first photoelectric switch 26 is arranged on one side of the belt conveyor 4 close to the climbing belt conveyor 3, a second photoelectric switch 27 is arranged at the tail end of the belt conveyor 4, a third photoelectric switch 28 is arranged on one inlet side of the conveying platform 7, and a fourth photoelectric switch 29 is arranged on one outlet side of the conveying platform 7;

the structure of the lifting push plate mechanism is as follows: the lifting push plate mechanism 6 comprises a mounting plate 18 arranged on the conveying frame body 17, a lifting cylinder 19 is arranged on the mounting plate 18, a push plate 20 is arranged at the movable end of the bottom of the lifting cylinder 19, a push cylinder 21 for pushing the push plate 20 to move back and forth is arranged on the push plate 20, and guide rods 22 are arranged on the mounting plate 18 and the push plate 20;

the structure of the translational push plate mechanism is as follows: translation push pedal mechanism 8 includes translation support body 23, has seted up two translation grooves 24 that parallel on the translation support body 23, all is equipped with in two translation grooves 24 and pushes away the arm 25, pushes away the arm 25 by motor drive back-and-forth movement, and fifth photoelectric switch 30 is installed to translation push pedal mechanism 8's initial position department.

The working principle is as follows:

1. setting the running speed of the falling belt conveyor 2 to be 1m/min and the running speed of the climbing belt conveyor 3 to be 6m/min, vertically placing the rock wool strips 31 on the falling belt conveyor 2, and enabling the rock wool strips 31 to fall onto the climbing belt conveyor 3 one by one through the running of the falling belt conveyor, referring to the attached figure 1;

2. after that, the rock wool strips 31 on the climbing belt conveyor 3 are matched with the belt conveyor 4, one rock wool strip 31 passes through the first photoelectric switch 26 and is conveyed to the second photoelectric switch 27, and when the first photoelectric switch 26 and the second photoelectric switch 27 have signals of more than 3S at the same time, the rock wool strips 31 at the belt conveyor 4 are full and gaps are eliminated;

3. at the moment, the falling belt conveyor 2, the climbing belt conveyor 3 and the conveying belt conveyor 4 stop running, and meanwhile, the pressing plate cylinder 5 descends, and the lifting cylinder 19 of the lifting push plate mechanism 6 descends to push the rock wool to approach the translation push plate mechanism 8;

4. when the third photoelectric switch 28 is applied to the lifting push plate mechanism 6, the falling belt conveyor 2, the climbing belt conveyor 3 and the conveying belt conveyor 4 are started again; meanwhile, the pressing plate cylinder 5 ascends to convey the rock wool strips 31 to the platform of the belt conveyor 4 again, and after the rock wool strips 31 are fully extruded, the falling belt conveyor 2, the climbing belt conveyor 3, the belt conveyor 4 and the pressing plate cylinder 5 stop descending (the belt conveyor 2, the climbing belt conveyor 3, the belt conveyor 4 and the pressing plate cylinder 5 work in a circulating mode); meanwhile, the lifting push plate mechanism 6 does not stop, and continues to move to the position of the fourth photoelectric switch 29, and when the fourth photoelectric switch 29 has a signal, the pushing cylinder 21 on the lifting push plate mechanism 6 completely pushes the rock wool into the translation push plate mechanism 8;

5. at this time, the lifting cylinder 19 of the lifting push plate mechanism 6 rises, the pushing cylinder 21 returns to the original position, and simultaneously, the returning starts, and the position returns to the first photoelectric switch 26 or the second photoelectric switch 27 to stop; when the lifting push plate mechanism 6 returns, the translation push plate mechanism 8 is started to push the rock wool to the downhill belt conveyor 9;

6. returning to the original position of the lifting cylinder 19 of the lifting push plate mechanism 6, descending again, conveying the rock wool which is cached to the translation push plate mechanism 8 again, and then entering circulation, step 4 and step 5;

in addition, because the rock wool speed that translation push pedal mechanism 8 department pushed is fast relatively the rock wool that downhill path belt feeder 9 consumed, so through the rock wool of translation push pedal mechanism 8 propelling movement, several duty cycle back just can hit the rock wool tail on the downhill path belt feeder 9 with the rock wool head, the pusher of translation push pedal mechanism 8 can "skid" this moment and stop the translation propelling movement, treat that the rock wool of downhill path belt feeder 9 is consumed the back, translation push pedal mechanism slowly pushes away the rock wool and supplements.

During this period, if the rock wool on the plate pushing mechanism 8 is translated and the product is not completely pushed onto the belt 9 on the downhill, the rock wool pushed by the plate lifting mechanism 6 will always stop at the position of the third photoelectric switch 28; when the rock wool on the translational push plate mechanism 8 is completely pushed onto the downhill belt conveyor 9 and the fifth photoelectric switch 30 senses the push plate of the translational push plate mechanism 8, the lifting push plate mechanism 6 is restarted.

The utility model discloses a finishing device is carried to rock wool strip can accomplish the automatic alignment of rock wool strip in rock wool strip transportation process, paste tightly, does not need the manual work to intervene the rock wool in carrying, and the production line speed can reach more than 6 ms, has improved productivity.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a finishing device is carried to rock wool strip, its characterized in that is including the buffer memory platform that is used for placing the rock wool strip, the output of buffer memory platform is equipped with and falls the belt feeder, the output that falls the belt feeder is equipped with the climbing belt feeder that is used for driving the rock wool board and shifts up one by one, climbing belt feeder top output is equipped with the belt feeder that is used for carrying the rock wool board, the output of belt feeder is equipped with conveying platform, conveying platform's output is equipped with translation push pedal mechanism, be equipped with between belt feeder and the conveying platform and be used for propelling movement the rock wool board on the conveying platform to the lift push pedal mechanism in translation push pedal mechanism, the import department of belt feeder is equipped with the clamp plate cylinder that is used for pushing down the rock wool board, the output of translation push pedal mechanism is equipped with.

2. The rock wool strip conveying and arranging device according to claim 1, wherein the buffer storage platform comprises a buffer storage frame body and a placing plane arranged on the buffer storage frame, and the rock wool boards are placed on the placing plane.

3. The rock wool strip conveying and arranging device as claimed in claim 1, wherein the falling belt conveyor comprises a falling belt conveyor support and a falling belt conveyor mounted on the falling belt conveyor support.

4. The rock wool strip conveying and arranging device as claimed in claim 1, wherein the climbing belt conveyor comprises a climbing belt conveyor support, a climbing belt conveyor is mounted on the climbing belt conveyor support, one end of the climbing belt conveyor with a low position is close to the falling belt conveyor, and one end of the climbing belt conveyor with a high position is close to the belt conveyor.

5. The rock wool strip conveying and arranging device as claimed in claim 1, wherein the belt conveyor and the conveying platform are both mounted on the conveyor frame body, a first photoelectric switch is mounted on one side of the belt conveyor close to the climbing belt conveyor, a second photoelectric switch is mounted at the tail end of the belt conveyor, a third photoelectric switch is mounted on one side of an inlet of the conveying platform, and a fourth photoelectric switch is mounted on one side of an outlet of the conveying platform.

6. The rock wool strip conveying and arranging device as claimed in claim 5, wherein the lifting push plate mechanism comprises a mounting plate mounted on the conveying frame body, a lifting cylinder is mounted on the mounting plate, a push plate is mounted at a movable end of the bottom of the lifting cylinder, a pushing cylinder for pushing the push plate to move back and forth is mounted on the push plate, and guide rods are mounted on the mounting plate and the push plate.

7. The rock wool strip conveying and arranging device as claimed in claim 1, wherein the translation push plate mechanism comprises a translation frame body, two parallel translation grooves are formed in the translation frame body, push arms are arranged in the two translation grooves, the push arms are driven by a motor to move back and forth, and a fifth photoelectric switch is installed at the initial position of the translation push plate mechanism.

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