CN216763268U - Automatic storage device for inorganic pre-coated plate production line - Google Patents

Abstract

The utility model discloses an automatic storage device for an inorganic precoating plate production line, which comprises a supporting upper bottom plate, supporting columns, a supporting lower bottom plate, a storage rotating assembly and a storage lifting assembly, wherein the supporting columns are arranged on the upper wall of the supporting lower bottom plate in a pairwise symmetry manner, the supporting upper bottom plate is arranged at the upper end of the supporting columns, the storage rotating assembly is arranged on the supporting lower bottom plate, the storage rotating assembly is arranged between the supporting lower bottom plate and the supporting upper bottom plate, the storage lifting assembly is arranged on the upper wall of the supporting upper bottom plate, and the storage rotating assembly comprises an incomplete gear, a driving shaft, a main rotating motor, a sliding rack frame, an external transmission rack, an internal transmission rack, a driven rotating shaft I, a driven gear I, a driven rotating shaft II, a driven gear II, a transmission belt, a sleeve rotating gear and a supporting rotating sleeve. The utility model belongs to the technical field of decorative material processing, and particularly relates to an automatic storage device for an inorganic precoating plate production line, which is simple to operate, improves the production efficiency, saves manpower, and ensures that inorganic precoating plates are placed neatly without collision.

Description

Automatic storage device for inorganic pre-coated plate production line

Technical Field

The utility model belongs to the technical field of decorative material processing, and particularly relates to an automatic storage device for an inorganic pre-coated plate production line.

Background

At present, the inorganic precoating plate uses a 100% asbestos-free calcium silicate plate as a base material, and technically coats special polyester for surface treatment to ensure that the inorganic precoating plate has fire resistance, ageing resistance and water resistance.

Therefore, there is a need for an automatic storage device for an inorganic pre-coated sheet production line to solve the above problems.

SUMMERY OF THE UTILITY MODEL

Aiming at the situation and overcoming the defects of the prior art, the utility model provides an automatic storage device for an inorganic pre-coated plate production line, by means of the movement of a discharge roller, an inorganic pre-coated plate is safely conveyed to a pre-coated plate placing body through a cylindrical roller on the pre-coated plate placing body, then the pre-coated plate placing body is rotated outwards by utilizing a storage rotating assembly, the inorganic pre-coated plate can be placed orderly, then the pre-coated plate placing body is restored to the height same as the discharge roller, the inorganic pre-coated plate is arranged in order and stacked again, the efficiency is improved, the workload of workers is increased, and meanwhile, the inorganic pre-coated plate is prevented from colliding in the carrying process and the use of the inorganic pre-coated plate is prevented from being influenced.

The technical scheme adopted by the utility model is as follows: an automatic storage device for an inorganic pre-coated plate production line comprises a support upper base plate, support columns, a support lower base plate, a storage rotating assembly and a storage lifting assembly, wherein the support columns are arranged on the upper wall of the support lower base plate in a pairwise symmetry manner, the support upper base plate is arranged at the upper end of the support columns, the storage rotating assembly is arranged on the support lower base plate, the storage rotating assembly is arranged between the support lower base plate and the support upper base plate and is arranged on the upper wall of the support upper base plate, the storage rotating assembly comprises an incomplete gear, a driving shaft, a main rotating motor, a sliding rack frame, an outer transmission rack, an inner transmission rack, a driven rotating shaft I, a driven rotating shaft II, a driven gear II, a transmission belt, a sleeve rotating gear and a support rotating sleeve, the driving shaft penetrates through the support lower base plate, the main rotating motor is arranged on the lower wall of the support lower base plate, the driving shaft is connected with a main rotating motor, the incomplete gear is arranged on the driving shaft, the incomplete gear is arranged on the upper wall of a supporting lower base plate, the sliding rack is erected on the upper wall of the supporting lower base plate, the lower wall of the sliding rack is symmetrically provided with limiting strips, the lower wall of the supporting lower base plate is symmetrically provided with limiting sliding grooves, the limiting strips are arranged in the limiting sliding grooves, the outer transmission rack is symmetrically arranged on the outer side wall of the sliding rack, the inner transmission rack is symmetrically arranged on the inner side wall of the sliding rack, the supporting rotating sleeve is rotatably arranged on the upper wall of the supporting lower base plate, the supporting rotating sleeve penetrates through the supporting upper base plate, the sleeve rotating gear is arranged on the outer side wall of the supporting rotating sleeve, the sleeve rotating gear is arranged on the upper wall of the supporting lower base plate, the driven rotating shaft is symmetrically arranged on the upper wall of the supporting lower base plate, and the driven rotating shaft is symmetrically arranged on two sides of the sliding rack, the first driven gear is arranged on the first driven rotating shaft, the first driven gear is meshed with the outer transmission rack, the first driven rotating shaft penetrates through the first driven gear, the second driven rotating shaft is symmetrically arranged on the upper wall of the supporting lower bottom plate, the second driven gear is arranged on the second driven rotating shaft, the second driven rotating shaft penetrates through the second driven gear, and the transmission belt is arranged on the first driven rotating shaft and the second driven rotating shaft.

Further, the storage lifting assembly comprises a lifting threaded rod, a lifting rotating motor, a lifting support plate, a lifting support sleeve, a rotating limit block, a lifting transmission plate and a pre-coated plate placing body, the lifting support plate is arranged at the upper end of the support rotating sleeve, the lifting threaded rod is arranged in the support rotating sleeve, the lower end of the lifting threaded rod is rotatably arranged on the upper wall of the support lower bottom plate, the upper end of the lifting threaded rod penetrates through the lower wall of the lifting support plate, the lifting rotating motor is arranged on the upper wall of the lifting support plate, the lifting rotating motor is connected with the lifting threaded rod, the lifting transmission plate is arranged in the support rotating sleeve, the lifting transmission plate is in threaded connection with the lifting threaded rod, the lifting support sleeve is arranged on the outer wall of the support rotating sleeve, the rotating limit block array is arranged on the inner side wall of the lifting support sleeve, the outer wall array of the support rotating sleeve is provided with a lifting limit groove, the lifting limiting groove runs through and supports the outer wall of the rotary sleeve, the limiting block runs through the lifting limiting groove, the outer side wall of the lifting transmission plate is arranged at the other end of the limiting block in a rotating mode, the precoating plate placing body is arranged at a right angle, the outer side wall of the lifting support sleeve is arranged at one end of the precoating plate, the requirements of production lines with different heights can be met, and meanwhile inorganic precoating plate stacking can be achieved.

Further, be equipped with the cylinder gyro wheel on the body is placed to the board of precoating, be convenient for inorganic precoating board slides on the body is placed to the board of precoating.

Furthermore, the supporting legs are symmetrically arranged on the lower portion of the lower supporting plate in pairs, so that the stability of the device is improved.

After adopting the structure, the utility model has the following beneficial effects: according to the automatic storage device for the inorganic pre-coated plate production line, by means of the movement of the discharge roller, the inorganic pre-coated plate is safely conveyed to the pre-coated plate placing body through the cylindrical roller on the pre-coated plate placing body, then the pre-coated plate placing body is rotated outwards by the storage rotating assembly, the inorganic pre-coated plate can be placed orderly, then the pre-coated plate placing body is restored to the height same as that of the discharge roller, the inorganic pre-coated plate is arranged in sequence and stacked again, the efficiency is improved, the workload of workers is increased, and the influence on the use of the inorganic pre-coated plate due to collision in the conveying process is prevented.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model.

FIG. 1 is a schematic perspective view of an automatic storage device for an inorganic pre-coated sheet production line according to the present invention;

FIG. 2 is a rear view of an automatic storage device of an inorganic pre-coated sheet production line according to the present invention;

fig. 3 is a schematic sectional view taken along line a-a in fig. 1.

In the drawings: 1. support the upper plate, 2, the support column, 3, support the lower plate, 4, deposit rotating assembly, 5, deposit lifting assembly, 6, incomplete gear, 7, the driving shaft, 8, initiative rotating electrical machines, 9, the slip rack, 10, outer transmission rack, 11, interior transmission rack, 12, spacing strip, 13, driven rotation axis one, 14, driven gear one, 15, driven rotation axis two, 16, driven gear two, 17, driving belt, 18, sleeve rotating gear, 19, support rotatory sleeve, 20, the supporting legs, 21, spacing spout, 22, the lift threaded rod, 23, the lifting rotating electrical machines, 24, the lift backup pad, 25, the lift support cover, 26, rotate the stopper, 27, the lift driving plate, 28, the body is placed to the board of precoating, 29, the spacing groove that goes up and down, 30, the cylinder gyro wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

As shown in fig. 1-3, an automatic storage device for an inorganic pre-coated plate production line comprises a support upper base plate 1, support columns 2, a support lower base plate 3, a storage rotating assembly 4 and a storage lifting assembly 5, wherein the support columns 2 are arranged on the upper wall of the support lower base plate 3 in a pairwise symmetry manner, the support upper base plate 1 is arranged at the upper end of the support columns 2, the storage rotating assembly 4 is arranged on the support lower base plate 3, the storage rotating assembly 4 is arranged between the support lower base plate 3 and the support upper base plate 1, the storage lifting assembly 5 is arranged on the upper wall of the support upper base plate 1, the storage rotating assembly 4 comprises an incomplete gear 6, a driving shaft 7, a driving rotating motor 8, a sliding rack frame 9, an outer driving rack 10, an inner driving rack 11, a driven rotating shaft 13, a driven gear 14, a driven rotating shaft 15, a driven gear 16, a transmission belt 17, a sleeve rotating gear 18 and a support rotating sleeve 19, the driving shaft 7 is arranged on the supporting lower bottom plate 3 in a penetrating manner, the main rotating motor is arranged on the lower wall of the supporting lower bottom plate 3, the driving shaft 7 is connected with the main rotating motor, the incomplete gear 6 is arranged on the driving shaft 7, the incomplete gear 6 is arranged on the upper wall of the supporting lower bottom plate 3, the sliding rack frame 9 is arranged on the upper wall of the supporting lower bottom plate 3, the lower wall of the sliding rack frame 9 is symmetrically provided with limiting strips 12, the lower wall of the supporting lower bottom plate 3 is symmetrically provided with limiting sliding chutes 21, the limiting strips 12 are arranged in the limiting sliding chutes 21, the outer transmission racks 10 are symmetrically arranged on the outer side wall of the sliding rack frame 9, the inner transmission racks 11 are symmetrically arranged on the inner side wall of the sliding rack frame 9, the supporting rotating sleeve 19 is arranged on the upper wall of the supporting lower bottom plate 3 in a rotating manner, the supporting rotating sleeve 19 penetrates through the supporting upper bottom plate 1, and the sleeve rotating gear 18 is arranged on the outer side wall of the supporting rotating sleeve 19, the sleeve rotating gear 18 is arranged on the upper wall of the supporting lower bottom plate 3, the first 13 symmetrical driven rotating shafts are arranged on two sides of the sliding rack frame 9, the first 14 driven rotating shafts are arranged on the first 13 driven rotating shafts, the first 14 driven gears are meshed with the outer transmission rack 10, the first 13 driven rotating shafts penetrate through the first 14 driven gears, the second 15 symmetrical driven rotating shafts are arranged on the upper wall of the supporting lower bottom plate 3, the second 16 driven gears are arranged on the upper wall of the supporting lower bottom plate 3, the second 16 driven rotating shafts are arranged on the second 15 driven rotating shafts, the second 15 driven rotating shafts penetrate through the second 16 driven gears, and the transmission belt 17 is arranged on the first 13 driven rotating shafts and the second 15 driven rotating shafts.

Wherein, the storage lifting component 5 comprises a lifting threaded rod 22, a lifting rotating motor 23, a lifting support plate 24, a lifting support sleeve 25, a rotation limit block 26, a lifting transmission plate 27 and a pre-coated plate placing body 28, the lifting support plate 24 is arranged at the upper end of the support rotating sleeve 19, the lifting threaded rod 22 is arranged in the support rotating sleeve 19, the lower end of the lifting threaded rod 22 is rotatably arranged on the upper wall of the support lower bottom plate 3, the upper end of the lifting threaded rod 22 penetrates through the lower wall of the lifting support plate 24, the lifting rotating motor 23 is arranged on the upper wall of the lifting support plate 24, the lifting rotating motor 23 is connected with the lifting threaded rod 22, the lifting transmission plate 27 is arranged in the support rotating sleeve 19, the lifting transmission plate 27 is in threaded connection with the lifting threaded rod 22, the lifting support sleeve 25 is arranged on the outer wall of the support rotating sleeve 19, the rotation limit block 26 is arranged on the inner side wall of the lifting support sleeve 25 in an array manner, support 19 outer wall arrays of rotating sleeve and be equipped with lift spacing groove 29, lift spacing groove 29 runs through and supports 19 outer walls of rotating sleeve, it runs through lift spacing groove 29 to rotate stopper 26, rotate the stopper 26 other end and locate lift driving plate 27 lateral wall, the body 28 is placed to the board of precoating is the right angle setting, lift support cover 25 lateral walls are located to the board one end of precoating, can satisfy the needs of the production line of co-altitude not, can realize inorganic the pile up of precoating the board simultaneously, precoating and being equipped with cylindrical roller 30 on the board of placing the body 28, be convenient for inorganic precoating the board slide to precoating on the board of placing the body 28, support 3 lower parts bisymmetry of lower plate and be equipped with supporting legs 20, increased the stability of device.

When the device is used, the device is placed at the position of a discharging roller at the tail end of a production line for discharging, then the lifting rotating motor 23 is turned on, the lifting rotating motor 23 rotates, the lifting rotating motor 23 drives the lifting threaded rod 22 to rotate, the lifting threaded rod 22 drives the lifting transmission plate 27 to move up and down, the lifting transmission plate 27 drives the pre-coating plate placing body 28 to move up and down through the rotation limiting block 26, the pre-coating plate placing body 28 is aligned with the discharging roller through adjustment, an inorganic pre-coating plate slides onto the pre-coating plate placing body 28 through the cylindrical roller 30 under the driving of the discharging roller, then the main rotating motor is turned on and rotates, the main rotating motor drives the driving shaft 7 to rotate, the driving shaft 7 drives the incomplete gear 6 to rotate, when the incomplete gear 6 is meshed with the inner transmission rack 11 on one side, the incomplete gear 6 drives the sliding rack frame 9 to move along the limiting sliding chute 21, and at the moment, the outer transmission rack 10 drives the driven gear I14 to rotate, the first driven gear 14 drives the transmission of the driving belt 17, the driving belt 17 drives the second driven rotating shaft 15 to rotate, the second driven rotating shaft 15 drives the second driven gear 16 to rotate, the second driven gear 16 is meshed with the sleeve rotating gear 18, the sleeve rotating gear 18 drives the supporting rotating sleeve 19 to rotate, the supporting rotating sleeve 19 drives the lifting supporting sleeve 25 to rotate, the lifting supporting sleeve 25 drives the precoating plate placing body 28 to rotate outwards, at the moment, the inorganic precoating plate is placed on the supporting upper base plate 1, the lifting rotating motor 23 is opened reversely, the precoating plate placing body 28 returns to be level with the discharging roller, the main rotating motor is opened reversely, the precoating plate placing body 28 returns to be parallel to the two precoating plate placing bodies 28, the operation is repeated again, and the automatic tidy storage of the inorganic precoating plate is realized.

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 utility model, the scope of which is defined in the appended claims and their equivalents. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (4)

1. The utility model provides an inorganic board production line automatic strorage device of precoating which characterized in that: comprises a supporting upper base plate, supporting columns, a supporting lower base plate, a rotating assembly and a lifting assembly, wherein the supporting columns are arranged on the upper wall of the supporting lower base plate in a pairwise symmetry manner, the supporting upper base plate is arranged at the upper end of the supporting columns, the rotating assembly is arranged on the supporting lower base plate, the rotating assembly is arranged between the supporting lower base plate and the supporting upper base plate, the lifting assembly is arranged on the upper wall of the supporting upper base plate, the rotating assembly comprises an incomplete gear, a driving shaft, a main rotating motor, a sliding rack frame, an outer transmission rack, an inner transmission rack, a first driven rotating shaft, a first driven gear, a second driven rotating shaft, a second driven gear, a transmission belt, a sleeve rotating gear and a supporting rotating sleeve, the driving shaft is arranged on the supporting lower base plate in a penetrating manner, the main rotating motor is arranged on the lower wall of the supporting lower base plate, and the driving shaft is connected with the main rotating motor, the incomplete gear is arranged on the driving shaft, the incomplete gear is arranged on the upper wall of the supporting lower base plate, the sliding rack is arranged on the upper wall of the supporting lower base plate, the lower wall of the sliding rack is symmetrically provided with limiting sliding grooves, the limiting sliding grooves are symmetrically arranged on the lower wall of the supporting lower base plate, the limiting sliding grooves are arranged in the limiting sliding grooves, the outer transmission racks are symmetrically arranged on the outer side wall of the sliding rack, the inner transmission racks are symmetrically arranged on the inner side wall of the sliding rack, the supporting rotary sleeve is rotatably arranged on the upper wall of the supporting lower base plate, the supporting rotary sleeve penetrates through the supporting upper base plate, the sleeve rotary gear is arranged on the outer side wall of the supporting rotary sleeve, the sleeve rotary gear is arranged on the upper wall of the supporting lower base plate, the driven rotary shaft is symmetrically arranged on two sides of the sliding rack, and the driven gear is arranged on the first driven rotary shaft, the first driven gear is meshed with the outer transmission rack, the first driven rotating shaft penetrates through the first driven gear, the second driven rotating shaft is symmetrically arranged on the upper wall of the supporting lower bottom plate, the second driven gear is arranged on the second driven rotating shaft, the second driven rotating shaft penetrates through the second driven gear, and the transmission belt is arranged on the first driven rotating shaft and the second driven rotating shaft.

2. The automatic storing device of an inorganic pre-coating plate production line according to claim 1, characterized in that: the storage lifting assembly comprises a lifting threaded rod, a lifting rotating motor, a lifting support plate, a lifting support sleeve, a rotating limiting block, a lifting transmission plate and a pre-coated plate placing body, the lifting support plate is arranged at the upper end of the support rotating sleeve, the lifting threaded rod is arranged in the support rotating sleeve, the lower end of the lifting threaded rod is rotatably arranged on the upper wall of the support lower base plate, the upper end of the lifting threaded rod penetrates through the lower wall of the lifting support plate, the lifting rotating motor is arranged on the upper wall of the lifting support plate, the lifting rotating motor is connected with the lifting threaded rod, the lifting transmission plate is arranged in the support rotating sleeve, the lifting transmission plate is in threaded connection with the lifting threaded rod, the lifting support sleeve is arranged on the outer wall of the support rotating sleeve, the rotating limiting block array is arranged on the inner side wall of the lifting support sleeve, the outer wall array of the support rotating sleeve is provided with a lifting limiting groove, the lifting limiting groove runs through and supports the outer wall of the rotary sleeve, the limiting block runs through the lifting limiting groove, the other end of the limiting block is rotated to locate the outer side wall of the lifting transmission plate, the precoating plate placing body is arranged at a right angle, and the outer side wall of the lifting support sleeve is arranged at one end of the precoating plate.

3. The automatic storing device of an inorganic pre-coating plate production line according to claim 2, characterized in that: the pre-coated plate placing body is provided with a cylindrical roller.

4. The automatic storing device of an inorganic pre-coating plate production line according to claim 1, characterized in that: the lower part of the lower supporting bottom plate is provided with supporting legs in pairwise symmetry.

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