CN211251449U - Integrative cutting baling press of ceramic fibre module - Google Patents

Abstract

The utility model discloses a ceramic fiber module integral cutting compression packing machine, a feeding roller mechanism is connected with the upper surface of a bracket, the feeding roller mechanism is arranged inside a processing bin, one end of the feeding roller mechanism is provided with a main driving motor, a cutting mechanism, a material pressing mechanism and a packing mechanism are respectively arranged in the processing bin, one end of the processing bin is provided with a guiding mechanism, the inner walls at two sides of the processing bin are provided with guiding belt mechanisms, the distance between the guiding belt mechanisms at two sides is matched with the width of the guiding mechanism, the outer walls at two sides of the processing bin are both provided with guiding belt driving motors, the guiding belt driving motors at two sides are connected with the guiding belt mechanisms through a driving belt, the utility model has reasonable structure, the guiding mechanism is arranged at the front end of the processing bin, the guiding mechanism enters in the forward direction when entering the processing bin, the guiding belt mechanisms at two sides enable the forward moving, and ensure that the outward tilting can not, the product quality is ensured, and the defective rate is reduced.

Description

Integrative cutting baling press of ceramic fibre module

Technical Field

The utility model relates to a ceramic fiber module cutting baling press technical field specifically is an integrative cutting baling press of ceramic fiber module.

Background

The ceramic fiber module is a novel refractory lining product which is pushed out for simplifying and accelerating kiln construction and improving lining integrity. The product has white color and regular size, can be directly fixed on the anchoring nails of the steel plate of the furnace shell of the industrial furnace, has good fire-resistant and heat-insulating effects, improves the integrity of the fire resistance and heat insulation of the furnace, and promotes the progress of the furnace masonry technology. The classification temperature 1050-.

Traditional integrative cutting baling press of ceramic fibre module is in the use, and the blowing must be put right, if crooked entering leads to the cutting easily to crooked to lead to the defective percentage to promote, consequently, this problem that exists among the prior art is solved to a modified technique that awaits urgent need.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an integrative cutting baling press of ceramic fibre module to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: an integrated cutting, compressing and packaging machine for ceramic fiber modules comprises a processing bin, a feeding roller mechanism, a bracket, a main driving motor, a guide mechanism, a material cutting mechanism, a material pressing mechanism, a packaging mechanism, a guide belt mechanism and a guide belt driving motor, the feeding roller mechanism is connected with the upper surface of the bracket and arranged in the processing bin, one end of the feeding roller mechanism is provided with a main driving motor, the processing bin is internally provided with a material cutting mechanism, a material pressing mechanism and a packing mechanism respectively, a guide mechanism is arranged at one end of the processing bin, guide belt mechanisms are arranged on the inner walls of the two sides of the processing bin, the distance between the guide belt mechanisms at the two sides is matched with the width of the guide mechanism, the outer walls of two sides of the processing bin are provided with guide belt driving motors, and the guide belt driving motors on two sides are connected with a guide belt mechanism through a driving belt.

Preferably, the processing bin is internally provided with two sets of infrared correlation sensors at the material cutting mechanism and the material pressing mechanism, and the infrared correlation sensors are arranged below and above the guide belt mechanism.

Preferably, the guide mechanism is composed of two guide plates, the distance between the two guide plates is gradually reduced, and the minimum distance between the two guide plates is consistent with the distance between the two guide belt mechanisms.

Preferably, the guiding belt mechanism includes upper end plate, lower end plate, mounting panel, vertical roller and conveyer belt, the upper end plate links to each other through the mounting panel with lower end plate one side, be provided with a plurality of vertical rollers between upper end plate and the lower end plate, the upper end plate is close to guiding mechanism one end and is opened there is the through-hole, is closest to guiding mechanism the through-hole that the roller axle of vertical roller passed the upper end plate tip links to each other with the drive belt, vertical roller outside links to each other with the conveyer belt.

Preferably, the distance between the cutting blades of the material cutting mechanism positioned at two sides in the processing bin is not greater than the distance between the guide belt mechanisms at two sides.

Preferably, the length of the pressing roller of the pressing mechanism in the processing bin is not greater than the distance between the guide belt mechanisms on the two sides.

Compared with the prior art, the beneficial effects of the utility model are that:

the front end of the processing bin is provided with a guide mechanism, so that the cutting fluid enters the processing bin in a forward direction, and then moves forward through the guide belt mechanisms on two sides, so that the cutting fluid cannot incline outwards after being cut, the product quality is guaranteed, and the defective rate is reduced.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic top view of the guiding mechanism and the interior of the processing chamber.

Fig. 3 is a schematic top view of the guide belt mechanism.

Fig. 4 is a schematic sectional structure diagram of the guide belt mechanism.

In the figure: the device comprises a processing bin 1, a feeding roller mechanism 2, a support 3, a main driving motor 4, a guide mechanism 5, a cutting mechanism 6, a pressing mechanism 7, a packing mechanism 8, a guide belt mechanism 9, a guide belt driving motor 10, an infrared correlation sensor 11, a cutting blade 12, a pressing roller 13, an upper end plate 91, a lower end plate 92, a mounting plate 93, a longitudinal roller 94 and a conveying belt 95.

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.

Referring to fig. 1, the present invention provides a technical solution: a ceramic fiber module integrated cutting, compressing and packaging machine comprises a processing bin 1, a feeding roller mechanism 2, a support 3, a main driving motor 4, a guiding mechanism 5, a cutting mechanism 6, a pressing mechanism 7, a packaging mechanism 8, a guiding belt mechanism 9 and a guiding belt driving motor 10, wherein the feeding roller mechanism 2 is connected with the upper surface of the support 3, the feeding roller mechanism 2 is arranged inside the processing bin 1, the main driving motor 4 is arranged at one end of the feeding roller mechanism 2, the cutting mechanism 6, the pressing mechanism 7 and the packaging mechanism 8 are respectively arranged in the processing bin 1, the guiding mechanism 5 is arranged at one end of the processing bin 1, the guiding belt mechanisms 9 are arranged on the inner walls at two sides of the processing bin 1, the distance between the guiding belt mechanisms 9 at two sides is matched with the width of the guiding mechanism 5, the guiding belt driving motors 10 are arranged on the outer walls at two sides of the processing bin 1, the guiding belt driving motors 10 at two sides are connected with the guiding belt mechanisms, processing 1 inside blank mechanism 6, the swager constructs 7 department and all is provided with two sets of infrared correlation sensors 11 that is located of storehouse, and infrared correlation sensors 11 is installed in the below and the top of guidance tape mechanism 9, and the distance that blank mechanism 6 is located between the cutting blade 12 of the inside both sides in processing storehouse 1 is not more than the distance between both sides guidance tape mechanism 9, and the length that swager constructs 7 is located 1 inside compression roller 13 in processing storehouse is not more than the distance between both sides guidance tape mechanism 9.

As shown in fig. 2, the guide mechanism 5 is composed of two guide plates, the distance between the two guide plates is gradually reduced, and the minimum distance between the two guide plates is the same as the distance between the two guide belt mechanisms 9.

As shown in fig. 3-4, the guiding belt mechanism 9 includes an upper end plate 91, a lower end plate 92, a mounting plate 93, longitudinal rollers 94 and a conveying belt 95, the upper end plate 91 is connected to one side of the lower end plate 92 through the mounting plate 93, a plurality of longitudinal rollers 94 are disposed between the upper end plate 91 and the lower end plate 92, a through hole is formed at one end of the upper end plate 91 close to the guiding mechanism 5, a roller shaft of the longitudinal roller 94 closest to the guiding mechanism 5 passes through the through hole at the end of the upper end plate 91 to be connected to the conveying belt, and the outer portion of the longitudinal roller 94 is connected.

The use method and the principle are as follows: the ceramic fiber module is placed on the conveying roller mechanism, the feeding roller mechanism 2 is driven by the main driving motor 4, when the ceramic fiber module enters the processing bin 1, the ceramic fiber module is guided by the guiding mechanism 5 to ensure that the ceramic fiber module completely enters the processing bin 1 in a forward direction, the guiding belt driving motors 10 on both sides transmit the guiding belt mechanisms 9, when the ceramic fiber module enters the processing bin 1, the ceramic fiber module moves in the forward direction through the conveying roller mechanism and the guiding belt mechanisms 9 on both sides, when the ceramic fiber module reaches the infrared correlation sensor 11 at the material cutting mechanism 6, the main driving motor 4 and the guiding belt driving motors 10 stop working, the air cylinder of the material cutting mechanism 6 is pressed downwards to cut both sides, after the cutting blade 12 returns to the position, the ceramic fiber module passes through the compression roller 13 of the material pressing mechanism 7 and is finally packaged through the packaging mechanism 8, the utility model has reasonable structure, the guiding mechanism 5 is arranged at the front end of the processing bin 1, the cutting machine can enter the processing bin 1 in a forward direction, and then move forward through the guide belt mechanisms 9 on the two sides, so that the cutting machine is prevented from inclining outwards after cutting, the product quality is guaranteed, and the defective rate is reduced.

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 (6)

1. The utility model provides an integrative cutting baling press of ceramic fibre module which characterized in that: comprises a processing bin (1), a feed roller mechanism (2), a support (3), a main driving motor (4), a guide mechanism (5), a cutting mechanism (6), a material pressing mechanism (7), a packing mechanism (8), a guide belt mechanism (9) and a guide belt driving motor (10), wherein the feed roller mechanism (2) is connected with the upper surface of the support (3), the feed roller mechanism (2) is arranged in the processing bin (1), one end of the feed roller mechanism (2) is provided with the main driving motor (4), the processing bin (1) is internally provided with the cutting mechanism (6), the material pressing mechanism (7) and the packing mechanism (8), one end of the processing bin (1) is provided with the guide mechanism (5), the inner walls at two sides of the processing bin (1) are provided with the guide belt mechanisms (9), the distance between the guide belt mechanisms (9) at two sides is matched with the width of the guide mechanism (5), the outer walls of two sides of the processing bin (1) are respectively provided with a guide belt driving motor (10), and the guide belt driving motors (10) on two sides are connected with a guide belt mechanism (9) through a transmission belt.

2. The ceramic fiber module integrated cutting and baling press as recited in claim 1, wherein: the processing bin (1) is internally provided with two sets of infrared correlation sensors (11) at the material cutting mechanism (6) and the material pressing mechanism (7), and the infrared correlation sensors (11) are arranged below and above the guide belt mechanism (9).

3. The ceramic fiber module integrated cutting and baling press as recited in claim 1, wherein: the guide mechanism (5) is composed of two guide plates, the distance between the two guide plates is gradually reduced, and the minimum distance between the two guide plates is consistent with the distance between the two guide belt mechanisms (9).

4. The ceramic fiber module integrated cutting and baling press as recited in claim 1, wherein: the guiding belt mechanism (9) comprises an upper end plate (91), a lower end plate (92), a mounting plate (93), a longitudinal roller (94) and a conveying belt (95), the upper end plate (91) is connected with one side of the lower end plate (92) through the mounting plate (93), a plurality of longitudinal rollers (94) are arranged between the upper end plate (91) and the lower end plate (92), a through hole is formed in one end of the upper end plate (91) close to a guide mechanism (5), the roller shaft of the longitudinal roller (94) is closest to the guide mechanism (5) and penetrates through the through hole in the end part of the upper end plate (91) to be connected with the conveying belt, and the outer part of the longitudinal roller (94) is connected with the conveying belt (95).

5. The ceramic fiber module integrated cutting and baling press as recited in claim 1, wherein: the distance between the cutting blades (12) on two sides in the processing bin (1) of the cutting mechanism (6) is not greater than the distance between the guide belt mechanisms (9) on two sides.

6. The ceramic fiber module integrated cutting and baling press as recited in claim 1, wherein: the length of the pressing mechanism (7) located on the compression roller (13) inside the processing bin (1) is not greater than the distance between the guide belt mechanisms (9) on the two sides.

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