CN211806747U - Fiberboard is with supplementary drying device - Google Patents

Abstract

The utility model relates to a fiberboard is with supplementary drying device. Comprises a first feeding component, a transposition component is arranged in the middle of the first feeding component, a second feeding component is arranged outside the transposition component and below the first feeding component, the second feeding component is arranged in parallel with the first feeding component, a plate discharging component is arranged at the outlet end of the second feeding component, the plate discharging component and the second feeding component are mutually vertical, an airing frame is arranged at the inlet end of the plate discharging component, a steering component is arranged at the outlet end of the plate discharging component, the transposition component comprises a transposition support plate, a front baffle plate and a rear baffle plate are arranged on the transposition support plate, a plurality of second transmission rollers which are distributed at equal intervals are arranged between the front baffle plate and the rear baffle plate, a plurality of first driven wheels are arranged, the lower part of the rear baffle is hinged with the output end of the air cylinder, an inclined plate is arranged in a gap between the second transmission rollers and on the transposition support plate, a second driven wheel is fixedly connected to the inclined surface of the inclined plate, a first width limiting plate is fixedly connected to the upper end of the rear baffle, and the lower end of the rear baffle is hinged with the transposition support plate through a hinge shaft. The utility model discloses it is fast, production cycle is short to send the board.

Description

Fiberboard is with supplementary drying device

Technical Field

The utility model belongs to the supplementary processing field of fibreboard especially relates to a fibreboard is with supplementary drying device.

Background

The fiberboard is also named as a density board, which is an artificial board made of wood fiber or other plant cellulose fiber as a raw material and urea formaldehyde resin or other suitable adhesives. Adhesives and/or additives may be applied during the manufacturing process. The fiber board has the advantages of uniform material, small longitudinal and transverse strength difference, difficult cracking and the like, and has wide application.

During the processing of the fiberboard, the wood is sliced by a chipping machine, then the wood or plant fiber is mixed with adhesive, waterproofing agent and the like by means of mechanical separation and chemical treatment, and then the qualified artificial board is prepared by high-temperature and high-pressure forming, saw cutting and airing. The hot pressed fiberboard needs to be cut and then cut into a set size from the middle, and at this time, the cut fiberboard needs to be aired.

The drying rack that present drying device was used is delivered to the sunning to a linear transfer roller, and the speed phase-match of this kind of linear plate feeding mode for with the drying rack has reduced its plate feeding speed, and serious influence the follow-up work of fibreboard and gone on, greatly increased production cycle, how consequently can satisfy the sunning requirement again under the prerequisite that improves plate feeding speed, shorten production cycle and be the problem that technical staff in the field awaited the opportune moment to solve.

SUMMERY OF THE UTILITY MODEL

The utility model provides an auxiliary airing device for fiber board, which has the advantages of fast board feeding speed and short production period for solving the technical problems in the prior art.

The utility model discloses a solve the technical scheme that technical problem that exists among the well-known technique took and be: an auxiliary airing device for fiberboards comprises a first feeding assembly, wherein a transposition assembly is arranged in the middle of the first feeding assembly, a second feeding assembly is arranged outside the transposition assembly and below the first feeding assembly, the second feeding assembly is arranged in parallel with the first feeding assembly, a board discharging assembly is arranged at the outlet end of the second feeding assembly, the board discharging assembly and the second feeding assembly are perpendicular to each other, an airing frame is arranged at the inlet end of the board discharging assembly, a steering assembly is arranged at the outlet end of the board discharging assembly, the transposition assembly comprises a transposition support plate, a front baffle and a rear baffle are arranged on the transposition support plate, a plurality of second transmission rollers which are distributed at equal intervals are arranged between the front baffle and the rear baffle, a plurality of first driven wheels are arranged at the upper part of the front baffle, the lower parts of the front baffle are hinged with the output end of an air cylinder, an inclined plate is arranged in a gap between two adjacent second transmission rollers and on the transposition support, the upper end of the rear baffle is fixedly connected with a first width limiting plate, and the lower end of the rear baffle is hinged with the transposition support plate through a hinge shaft.

The utility model has the advantages that: the utility model provides a fiberboard is with supplementary drying device. The airing plates are transposed into the second feeding assembly through the transposition assembly in the first feeding assembly, the airing plates in the second feeding assembly and the airing plates on the first feeding assembly are respectively and sequentially conveyed into the airing frame on the plate discharging assembly through the corresponding conveying rollers, then the airing frames are conveyed into the airing frame through the turning assembly, the first feeding assembly can be used for feeding the plates without reducing the speed through the first feeding assembly, the transposition assembly and the second feeding assembly, then the airing plates are fed through the airing frame for a plurality of times, the airing plates are fed under the condition that the plate feeding speed is not reduced, and the working efficiency is improved.

Preferably: the first feeding assembly comprises two first supports, the two first supports are symmetrically arranged relative to the geometric center of the transposition support plate, a plurality of first driving rollers are arranged on the first supports, and the first driving rollers are connected with a first motor through chains.

Preferably: the second feeding assembly comprises a second support, a plurality of third driving rollers are arranged on the second support and connected with a second motor through chains, and second limiting plates are arranged on the second support and outside the transposition assembly.

Preferably: the plate discharging assembly comprises a third support, a plurality of fourth driving rollers are arranged on the third support, and the fourth driving rollers are connected with a third motor through chains.

Preferably: the steering assembly comprises a steering support plate arranged at the outlet end of the third support and positioned below the fourth driving roller, a plurality of steering rollers are arranged in a gap between the steering support plate and the fourth driving roller, the steering rollers on the same side are connected through a conveyor belt, and the steering rollers are driven by a fourth motor.

Preferably: the airing frame comprises an airing frame body, wherein a first storage chamber and a second storage chamber below the first storage chamber are formed in the airing frame body.

Drawings

Fig. 1 is a schematic top view of the present invention;

FIG. 2 is a schematic view of the front view of the transposition assembly of the present invention;

fig. 3 is a schematic top view of the transposition assembly of the present invention;

fig. 4 is a left side view structure diagram of the airing frame of the utility model.

In the figure:

1. a first feeding assembly; 1-1, a first bracket; 1-2, a first drive roller; 1-3, a first motor; 2. a transposition assembly; 2-1, a transposition support plate; 2-2, a front baffle; 2-3, a second driving roller; 2-4, a first driven wheel; 2-5, a second driven wheel; 2-6, a first width limiting plate; 2-7, an inclined plate; 2-8, a rear baffle; 2-9, a hinged shaft; 2-10, air cylinder; 3. a second feeding assembly; 3-1, a second bracket; 3-2, a third driving roller; 3-3, a second motor; 3-4, a second limiting plate; 4. discharging the plate assembly; 4-1, a third bracket; 4-2, a fourth driving roller; 4-3, a third motor; 5. a steering assembly; 5-1, a steering support plate; 5-2, a turning roll; 5-3, a conveyor belt; 6. drying the plate; 7. airing the frame; 7-1, airing the frame body; 7-2, a first storage chamber; 7-3 and a second storage chamber.

Detailed Description

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

In order to further understand the contents, features and effects of the present invention, the following embodiments are described in detail:

please refer to fig. 1-4, as shown in the figures, the utility model discloses an auxiliary drying device for fiberboard includes first pay-off subassembly 1, first pay-off subassembly 1 middle part is equipped with transposition subassembly 2, the transposition subassembly 2 outside, the below of first pay-off subassembly 1 is equipped with second pay-off subassembly 3, second pay-off subassembly 3 and first pay-off subassembly 1 parallel arrangement and its exit end are equipped with out board subassembly 4, go out board subassembly 4 and second pay-off subassembly 3 mutually perpendicular, the entry end that goes out board subassembly 4 is equipped with sunning frame 7, the exit end is equipped with turns to the subassembly 5.

Referring to fig. 1, as shown in the figure, the drying frame 7 includes a drying frame body 7-1, a first storage chamber 7-2 and a second storage chamber 7-3 below the first storage chamber 7-2 are opened in the drying frame body 7-1. The first storage chamber 7-2 and the second storage chamber 7-3 have the same structure, and the inner size of the first storage chamber is slightly larger than that of the sun-drying plate 6.

Further, the drying plates 6 are normally conveyed through the first feeding assembly 1, then the previous drying plates 6 are conveyed into the second feeding assembly 3 through the transposition assembly 2, then the new drying plates 6 are conveyed out from the outlet end of the first feeding assembly 1 through the transposition assembly 2, at the moment, the previous drying plates 6 in the second feeding assembly 3 move to the output end from the input end along with the second feeding assembly 3, then the drying frames 7 are received on the plate discharging assembly 4, then the previous drying plates 6 on the second feeding assembly 3 are firstly received according to the set advancing speed, then the previous drying plates 6 move forwards to receive the next drying plates 6, then the drying plates are conveyed into the turning assembly 5 through the conveying rollers, the drying frames 7 are conveyed out, and the process is repeated to finish the non-deceleration drying.

Referring to fig. 1, as shown in the figure, the first feeding assembly 1 includes two first brackets 1-1, the two first brackets 1-1 are symmetrically arranged about a geometric center of the transposition support plate 2-1, a plurality of first driving rollers 1-2 are arranged on the first brackets 1-1, and the first driving rollers 1-2 are connected with first motors 1-3 through chains. The first support 1-1 on the first feeding component 1 is made of steel, and the first motors 1-3 on the two sides of the transposition support plate 2-1 are all variable frequency motors which can accelerate, decelerate and even reversely rotate according to actual conditions. The first motor 1-3 drives the first transmission roller 1-2 to rotate together, and then the corresponding drying plate 6 is sent to a designated position.

Referring to fig. 1, 2 and 3, as shown in the figure, the transposition assembly 2 comprises a transposition support plate 2-1, a front baffle 2-2 and a rear baffle 2-8 are arranged on the transposition support plate 2-1, a plurality of second transmission rollers 2-3 distributed at equal intervals are arranged between the front baffle 2-2 and the rear baffle 2-8, a plurality of first driven wheels 2-4 are arranged at the upper part of the front baffle 2-2, the lower part of the front baffle is hinged with the output end of the cylinder 2-10, in a gap between two adjacent second transmission rollers 2-3, an inclined plate 2-7 is arranged on the transposition support plate 2-1, a second driven wheel 2-5 is fixedly connected to the inclined surface of the inclined plate 2-7, a first width limiting plate 2-6 is fixedly connected to the upper end of the rear baffle 2-8, and the lower end of the rear baffle is hinged to the transposition support plate 2-1 through a hinge shaft 2-9.

Further, the cylinder 2-10 swings to drive the front baffle 2-2, the rear baffle 2-8 and the second driving roller 2-3 between the front baffle and the rear baffle to wholly incline, so that the drying plate 6 is just conveyed from the first feeding component 1 to the second feeding component 3, and the operation is repeated. The inclination angle of the inclined plate 2-7 is gradually decreased from the back barrier 2-8 to the front barrier 2-2. The first width limiting plate 2-6 on the rear baffle plate 2-8 is used for limiting the width direction of the airing plate 6.

Referring to fig. 1, as shown in the figure, the second feeding assembly 3 includes a second support 3-1, a plurality of third driving rollers 3-2 are disposed on the second support 3-1, the third driving rollers 3-2 are connected to a second motor 3-3 through chains, and a second limiting plate 3-4 is disposed on the second support 3-1 and outside the transposition assembly 2. The second feeding assembly 3 is used for receiving the airing plate 6 in the first feeding assembly 1 by the transposition assembly 2, the airing plate 6 is regulated by the second limiting plate 3-4, and the airing plate advances along the third transmission roller 3-2 to the outlet of the second support 3-1 and is conveyed into the airing frame 7.

Referring to fig. 1, as shown in the figure, the plate discharging assembly 4 includes a third bracket 4-1, a plurality of fourth driving rollers 4-2 are disposed on the third bracket 4-1, and the fourth driving rollers 4-2 are connected to a third motor 4-3 through a chain. The width of the roller way of the plate discharging assembly 4 is larger than that of the first feeding assembly 1 and the second feeding assembly 3, the input end of the plate discharging assembly 4 is used for receiving an external drying frame 7, firstly, the drying frame 7 is transmitted along the conveying direction through the fourth transmission roller 4-2, when passing through the output end of the second feeding assembly 3, the plate 6 on the second feeding assembly 3 is waited to enter the first storage chamber 7-2, then the plate 1 continues to move forwards to wait for the plate 6 on the first feeding assembly 1 to enter the second storage chamber 7-3, and then the plate is sent to the output end steering assembly 5 of the plate discharging assembly 4 to be turned to be sent to the drying rack.

Referring to fig. 1, as shown in the figure, the steering assembly 5 includes a steering support plate 5-1 disposed at the outlet end of the third bracket 4-1 and located below the fourth driving roller 4-2, a plurality of steering rollers 5-2 are disposed in a gap between the steering support plate 5-1 and the fourth driving roller 4-2, the steering rollers 5-2 on the same side are connected by a conveyor belt 5-3, and the steering rollers 5-2 are driven by a fourth motor. The turning assembly 5 further comprises a lifting unit, when the airing frame 7 is conveyed to the tail end of the publishing assembly 4 during turning, the turning assembly 5 is lifted up along with the lifting unit, then the conveying belt 5-3 is driven to rotate through rotation of the fourth motor to turn and move away, and then the lifting unit descends to restore the original appearance to wait for turning of the next airing frame 7.

The working process is as follows:

the airing plates 6 are conveyed by the first feeding assembly 1, the previous airing plate 6 is conveyed into the second feeding assembly 3 by the transposition assembly 2, the new airing plate 6 is sent out from the outlet end of the first feeding assembly 1 by the transposition assembly 2, the previous airing plate 6 in the second feeding assembly 3 moves to the output end from the input end along with the second feeding assembly 3 at the moment, the airing frame 7 is received on the plate discharging assembly 4 and moves forwards at a set speed, the previous airing plate 6 on the second feeding assembly 3 is received, the previous airing plate 6 moves forwards to receive the next airing plate 6, and the next airing frame 7 is sent out by the conveying roller into the steering assembly 5; the above process is repeated to finish the plate conveying of the high-efficiency drying plate 6.

Claims (6)

1. The utility model provides a fiberboard is with supplementary drying device which characterized by: the automatic plate discharging device comprises a first feeding component (1), a transposition component (2) is arranged in the middle of the first feeding component (1), a second feeding component (3) is arranged on the outer side of the transposition component (2) and below the first feeding component (1), the second feeding component (3) is arranged in parallel with the first feeding component (1), a plate discharging component (4) is arranged at the outlet end of the second feeding component, the plate discharging component (4) is perpendicular to the second feeding component (3), an airing frame (7) is arranged at the inlet end of the plate discharging component (4), and a steering component (5) is arranged at the outlet end of the plate discharging component,

the transposition assembly (2) comprises a transposition support plate (2-1), a front baffle (2-2) and a rear baffle (2-8) are arranged on the transposition support plate (2-1), a plurality of second transmission rollers (2-3) distributed at equal intervals are arranged between the front baffle (2-2) and the rear baffle (2-8), a plurality of first driven wheels (2-4) are arranged at the upper part of the front baffle (2-2), the lower part of the front baffle is hinged with the output end of an air cylinder (2-10), inclined plates (2-7) are arranged in gaps between two adjacent second transmission rollers (2-3) and on the transposition support plate (2-1), the inclined planes of the inclined plates (2-7) are fixedly connected with second driven wheels (2-5), and first width limiting plates (2-6) and second width limiting plates (2-6) are fixedly connected at the upper end of the rear baffle (2-8), The lower end is hinged with the transposition support plate (2-1) through a hinged shaft (2-9).

2. The auxiliary airing device for fiberboard of claim 1, which is characterized in that: the first feeding assembly (1) comprises two first supports (1-1), the two first supports (1-1) are symmetrically arranged relative to the geometric center of the transposition support plate (2-1), a plurality of first driving rollers (1-2) are arranged on the first supports (1-1), and the first driving rollers (1-2) are connected with first motors (1-3) through chains.

3. The auxiliary airing device for fiberboard of claim 1, which is characterized in that: the second feeding component (3) comprises a second support (3-1), a plurality of third transmission rollers (3-2) are arranged on the second support (3-1), the third transmission rollers (3-2) are connected with a second motor (3-3) through chains, and second limiting plates (3-4) are arranged on the second support (3-1) and outside the transposition component (2).

4. The auxiliary airing device for fiberboard of claim 1, which is characterized in that: go out board subassembly (4) and include third support (4-1), be equipped with a plurality of fourth driving roller (4-2) on third support (4-1), fourth driving roller (4-2) are connected with third motor (4-3) through the chain.

5. The auxiliary airing device for fiberboard of claim 1, which is characterized in that: the steering assembly (5) comprises a steering support plate (5-1) arranged at the outlet end of the third support (4-1) and positioned below the fourth transmission roller (4-2), a plurality of steering rollers (5-2) are arranged on the steering support plate (5-1) and in the gap of the fourth transmission roller (4-2), the steering rollers (5-2) on the same side are connected through a conveyor belt (5-3), and the steering rollers (5-2) are driven through a fourth motor.

6. The auxiliary airing device for fiberboard of claim 1, which is characterized in that: the drying frame (7) comprises a drying frame body (7-1), wherein a first storage chamber (7-2) and a second storage chamber (7-3) below the first storage chamber (7-2) are formed in the drying frame body (7-1).

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