CN216917537U

CN216917537U - Feeding platform suitable for multilayer hot press molding

Info

Publication number: CN216917537U
Application number: CN202123131797.3U
Authority: CN
Inventors: 敬萧; 蒋建军; 谢风浪
Original assignee: Guangxi Guigang Hele Door Industry Co Ltd
Current assignee: Guangxi Guigang Hele Door Industry Co Ltd
Priority date: 2021-12-14
Filing date: 2021-12-14
Publication date: 2022-07-08
Anticipated expiration: 2031-12-14

Abstract

The utility model discloses a feeding platform suitable for multilayer hot press molding, which comprises a mounting frame, wherein under the arrangement of a first lifting plate, a second lifting plate, a fourth servo motor, a screw rod slide block, a first optical axis and a second optical axis, the effect of feeding and discharging a door product after being coated at a low position and a high position can be achieved, while the operation at a comfortable height of a transfer worker is ensured, the conveying of the door product can be matched with post-process equipment with different heights, the automation of production is favorably realized, the production efficiency is improved, under the arrangement of an edge leaning mechanism, the edge leaning positioning of the door product can be realized, the accurate material receiving of the subsequent process is favorably realized, the product quality is ensured, under the arrangement of an auxiliary lifting mechanism, the door product is in contact with the surfaces of a driving roller and a driven roller for the point contact of the door product and a universal ball, and the wrinkling condition of the surface of the door product can be avoided, the product quality is ensured.

Description

Feeding platform suitable for multilayer hot press molding

Technical Field

The utility model relates to the field of door production equipment, in particular to a feeding platform suitable for multilayer hot press molding.

Background

The accurate transport between the material mouth can't be met with the hot press to current hot briquetting feed arrangement, and because door product surface before hot briquetting is with the membrane, if relative motion takes place with feeding platform for the surface coating and the surface coating is very easily harmd when area of contact is great in transportation process for the membrane produces pincher trees and then makes product quality unable assurance.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a feeding platform suitable for multi-layer hot press molding, so as to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme:

feeding platform suitable for multilayer hot briquetting, be applicable to the transport of the door product after the tectorial membrane, the installation rack comprises a mounting rack, be provided with the bearer frame of liftable on the installation rack, the bearer frame both ends are raw materials import and raw materials export respectively, be provided with on the bearer frame and be used for carrying the door product after the tectorial membrane to the conveying unit of raw materials export by the raw materials import, be provided with on the bearer frame and be used for leaning on the limit mechanism of limit location with the door product after the tectorial membrane, conveying unit and lean on limit mechanism not simultaneous work, it lifts the supplementary mechanism that breaks away from conveying unit after the lifting with the door product when leaning on the limit location to be provided with on the bearer frame after the tectorial membrane.

The conveying unit comprises a rotatable driving roller arranged on the bearing frame, a plurality of driven rollers arranged on the bearing frame and capable of rotating synchronously with the driving roller, and a third servo motor for driving the driving roller to rotate.

A second lifting plate is hinged in the mounting frame, the second lifting plate is hinged with a first lifting plate through a middle rotating shaft, a second optical axis is arranged on the bearing frame, one end of the second lifting plate is hinged with a second optical axis sliding block, and the second optical axis sliding block is connected with the second optical axis in a sliding manner;

the mounting bracket inboard is provided with rotatable lead screw and can follows lead screw reciprocating motion's lead screw slider, and the mounting bracket inboard is provided with and drives lead screw pivoted fourth servo motor, and first lifting plate one end articulates has the first optical axis slider with lead screw slider follow-up, is provided with first optical axis on the mounting bracket, first optical axis slider and first optical axis sliding connection, and the first lifting plate other end is articulated with the carriage.

The side-leaning mechanism comprises a rodless cylinder arranged on the bearing frame, and a sliding table of the rodless cylinder is provided with a rotatable side rolling sleeve.

The auxiliary lifting mechanism comprises a lower box body arranged on the bearing frame and an upper box body matched with the lower box body, a lifting cylinder is hinged to the lower box body and hinged to the upper box body, a side plate is arranged between the upper box body and the lower box body, two ends of the side plate are hinged to the upper box body and the lower box body respectively, a plurality of universal balls are arranged on the top surface of the upper box body, and the plurality of universal balls are arranged along the motion direction of the sliding table of the rodless cylinder.

The utility model has the beneficial effects that:

1. under the setting of first promotion board, second promotion board, fourth servo motor, lead screw slider, first optical axis and second optical axis, can play the effect that makes the door product behind the tectorial membrane at the high ejection of compact of low level material loading, when guaranteeing the operation of transportation personnel at comfortable high, can also make the back process equipment of the not co-altitude of transport adaptation of door product, be favorable to realizing the automation of production, improvement production efficiency.

2. Under the setting of the side abutting mechanism, the side abutting positioning of a door product can be realized, the accurate material receiving of subsequent processes is facilitated, and the product quality is ensured.

3. Under the setting of supplementary lifting mechanism, the door product is connected the thixotropy for the point contact of door product and universal ball by the face with drive roll and driven voller surface, sets up like this and can avoid the tectorial membrane on door product surface to appear the condition of wrinkling, guarantees product quality.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the inner side of the mounting bracket of the present invention;

fig. 3 is a schematic structural diagram of the auxiliary lifting mechanism of the present invention.

In the figure, 1, a mounting rack; 2. a bearing frame; 3. a drive roll; 4. a driven roller; 5. a third servo motor; 6. a first lifting plate; 7. a second lifting plate; 8. a middle rotating shaft; 9. a fourth servo motor; 10. a screw rod; 11. a screw rod slide block; 12. a first optical axis; 13. a first optical axis slider; 14. a second optical axis; 15. a second optical axis slider; 16. a rodless cylinder; 17. side rolling sleeves; 18. an auxiliary lifting mechanism;

181. a lower box body; 182. a lifting cylinder; 183. a side plate; 184. an upper box body; 185. a universal ball.

Detailed Description

The technical solutions of the present invention are further described in detail below with reference to the accompanying drawings, but the scope of the present invention is not limited to the following.

Referring to fig. 1 to 3, an embodiment of the present invention provides a feeding platform suitable for multilayer hot press molding, which is suitable for conveying a door product after film coating, and includes an installation frame 1, a liftable bearing frame 2 is disposed on the installation frame 1, a raw material inlet and a raw material outlet are disposed at two ends of the bearing frame 2, a conveying unit for conveying the door product after film coating from the raw material inlet to the raw material outlet is disposed on the bearing frame 2, an edge leaning mechanism for positioning the door product after film coating along an edge is disposed on the bearing frame 2, the conveying unit and the edge leaning mechanism do not work at the same time, and an auxiliary lifting mechanism 18 for lifting the door product and separating from the conveying unit after lifting the door product after film coating when the door product is positioned along the edge is disposed on the bearing frame 2.

The conveying unit comprises a rotatable driving roller 3 arranged on the bearing frame 2, a plurality of driven rollers 4 arranged on the bearing frame 2 and capable of rotating synchronously with the driving roller 3 and a third servo motor 5 for driving the driving roller 3 to rotate, the driving roller 3 and the driven rollers 4 are connected through chains or belt transmission, the third servo motor 5 is started to realize synchronous rotation of the driving roller 3 and the driven rollers 4, and further conveying of door products after film covering from a raw material inlet to a raw material outlet can be realized.

A second lifting plate 7 is hinged in the mounting frame 1, the second lifting plate 7 is hinged with a first lifting plate 6 through a middle rotating shaft 8, a second optical axis 14 is arranged on the bearing frame 2, one end of the second lifting plate 7 is hinged with a second optical axis slider 15, and the second optical axis slider 15 is in sliding connection with the second optical axis 14;

the inner side of the mounting frame 1 is provided with a rotatable screw rod 10 and a screw rod slider 11 capable of reciprocating along the screw rod 10, the inner side of the mounting frame 1 is provided with a fourth servo motor 9 capable of driving the screw rod 10 to rotate, one end of the first lifting plate 6 is hinged with a first optical axis slider 13 capable of following the screw rod slider 11, the mounting frame 1 is provided with a first optical axis 12, the first optical axis slider 13 is connected with the first optical axis 12 in a sliding mode, and the other end of the first lifting plate 6 is hinged with the bearing frame 2.

Start fourth servo motor 9, can drive lead screw 10 through chain or belt and rotate, and then drive 11 reciprocating motion of lead screw slider, 11 reciprocating motion of lead screw slider and then drive first optical axis slider 13 reciprocating motion, and then the upper end that drives first lifting plate 6 and second lifting plate 7 risees or descends, and then realize bearing frame 2's lift, can play the effect of the door product after making the tectorial membrane at the high ejection of compact of low level material loading, when guaranteeing that the transfer personnel is at comfortable high operation, can also make the back process equipment of the not co-altitude of transport adaptation of door product, be favorable to realizing the automation of production, and the production efficiency is improved.

In order to ensure the stability of the feeding platform, the number of the first lifting plate 6, the second lifting plate 7, the first optical axis 12, the second optical axis 14, etc. may be set to two, and the arrangement thereof is described with reference to fig. 2.

The side abutting mechanism comprises a rodless cylinder 16 arranged on the bearing frame 2, and a sliding table of the rodless cylinder 16 is provided with a rotatable side rolling sleeve 17.

The auxiliary lifting mechanism 18 comprises a lower box body 181 arranged on the bearing frame 2 and an upper box body 184 matched with the lower box body 181, a lifting cylinder 182 is hinged on the lower box body 181, the lifting cylinder 182 is hinged with the upper box body 184, a side plate 183 is arranged between the upper box body 184 and the lower box body 181, two ends of the side plate 183 are respectively hinged with the upper box body 184 and the lower box body 181, the top surface of the upper box body 184 is provided with a plurality of universal balls 185, and the universal balls 185 are arranged along the moving direction of the sliding table of the rodless cylinder 16.

When the door product needs to be positioned close to the edge, the conveying of the conveying unit is stopped, the lifting cylinder 182 is started, the upper box body 184 is lifted, the door product after being coated with the film is separated from the driving roller 3 and the driven roller 4, then the rodless cylinder 16 is started, the edge of the door product can be pushed by the side roller sleeve 17, in the transmission process of the edge, the surface contact of the door product with the surfaces of the driving roller 3 and the driven roller 4 is changed into the point contact of the door product and the universal ball 185, and the situation that the coating film on the surface of the door product wrinkles can be avoided due to the arrangement, and the product quality is ensured.

The foregoing is illustrative of the preferred embodiments of this invention, and it is to be understood that the utility model is not limited to the precise form disclosed herein and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the concept as disclosed herein, either as described above or as apparent to those skilled in the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims

1. Feeding platform suitable for multilayer hot briquetting, be applicable to the transport of the door product after the tectorial membrane, including mounting bracket (1), a serial communication port, be provided with bearer frame (2) of liftable on mounting bracket (1), bearer frame (2) both ends are raw materials import and raw materials export respectively, be provided with on bearer frame (2) and be used for carrying the door product after the tectorial membrane to the conveying unit of raw materials export by raw materials import, be provided with on bearer frame (2) and be used for leaning on the limit mechanism that leans on the limit location with the door product after the tectorial membrane, conveying unit and lean on limit mechanism not simultaneous working, be provided with on bearer frame (2) and lift supplementary lifting mechanism (18) that break away from conveying unit after lifting the door product after the tectorial membrane when leaning on the limit location.

2. The feeding platform suitable for multi-layer hot press forming according to claim 1, wherein the conveying unit comprises a rotatable driving roller (3) arranged on the bearing frame (2), a plurality of driven rollers (4) arranged on the bearing frame (2) and capable of rotating synchronously with the driving roller (3), and a third servo motor (5) for driving the driving roller (3) to rotate.

3. The feeding platform suitable for multi-layer hot press forming of claim 1, wherein a second lifting plate (7) is hinged in the mounting frame (1), the second lifting plate (7) is hinged to the first lifting plate (6) through a middle rotating shaft (8), a second optical axis (14) is arranged on the bearing frame (2), one end of the second lifting plate (7) is hinged to a second optical axis slider (15), and the second optical axis slider (15) is connected with the second optical axis (14) in a sliding manner.

4. The feeding platform suitable for multi-layer hot press forming according to claim 1, wherein a rotatable screw rod (10) and a screw rod slider (11) capable of reciprocating along the screw rod (10) are arranged inside the mounting frame (1), a fourth servo motor (9) capable of driving the screw rod (10) to rotate is arranged inside the mounting frame (1), a first optical axis slider (13) following the screw rod slider (11) is hinged to one end of the first lifting plate (6), a first optical axis (12) is arranged on the mounting frame (1), the first optical axis slider (13) is connected with the first optical axis (12) in a sliding manner, and the other end of the first lifting plate (6) is hinged to the bearing frame (2).

5. The feeding platform suitable for multilayer hot press forming according to claim 1, wherein the edge leaning mechanism comprises a rodless cylinder (16) arranged on the bearing frame (2), and a sliding table of the rodless cylinder (16) is provided with a rotatable side rolling sleeve (17).

6. The feeding platform suitable for multi-layer hot press forming of claim 5, wherein the auxiliary lifting mechanism (18) comprises a lower box body (181) arranged on the bearing frame (2) and an upper box body (184) matched with the lower box body (181), a lifting cylinder (182) is hinged on the lower box body (181), the lifting cylinder (182) is hinged with the upper box body (184), a side plate (183) is arranged between the upper box body (184) and the lower box body (181), two ends of the side plate (183) are respectively hinged with the upper box body (184) and the lower box body (181), a plurality of universal balls (185) are arranged on the top surface of the upper box body (184), and the plurality of universal balls (185) are arranged along the moving direction of the sliding table of the rodless cylinder (16).