CN213171313U - Bearing and lifting mechanism of full-automatic hot-pressing production line - Google Patents

Abstract

The utility model provides a bearing lifting mechanism of a full-automatic hot-pressing production line, which comprises a shear type lifting device for bearing the lifting of multilayer slabs and a lifting driving device for driving the shear type lifting device to lift; the scissor type lifting device comprises an upper table top, a lower table top and a lifting part arranged between the upper table top and the lower table top. The multi-layer plate blank is placed on the shear type lifting device through the conveying device, the lifting driving device is driven, the shear type lifting device is lifted to a preset position, the multi-layer plate blank on the shear type lifting device is convenient to grab, when the multi-layer plate blank on the shear type lifting device is gradually reduced along with grabbing, the lifting part on the shear type lifting device is lifted upwards, the height of the multi-layer plate blank is increased to the preset position, the stroke of grabbing the multi-layer plate blank is reduced, the time is saved, and the working efficiency is improved.

Description

Bearing and lifting mechanism of full-automatic hot-pressing production line

Technical Field

The utility model relates to a plywood processing equipment technical field, concretely relates to full-automatic hot pressing production line's elevating system that bears.

Background

A scissor lift is special equipment for overhead operation with wide application. The shearing fork mechanical structure of the lifting platform has higher stability, a wide operation platform and higher bearing capacity, and enables the aerial work range to be larger and the lifting platform to be suitable for simultaneous operation of multiple persons. It makes work efficiency higher, and the safety is more ensured.

When the hot pressing production line begins to operate, the multilayer board which is not subjected to hot pressing needs to be conveyed to the lower part of the feeding mechanism and ascends to the position close to the feeding mechanism, so that feeding to a hot press is facilitated.

Accordingly, the present inventors have made extensive studies to solve the above problems and have made the present invention.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a full-automatic hot pressing production line bear elevating system to solve the problem of mentioning in the background art.

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

a bearing lifting mechanism of a full-automatic hot pressing production line comprises a shear type lifting device for bearing lifting of a multilayer plate blank and a lifting driving device for driving the shear type lifting device to lift; the scissor type lifting device comprises an upper table top, a lower table top and a lifting part arranged between the upper table top and the lower table top.

Further, the lifting part comprises a first scissor arm group, a second scissor arm group and an opening and closing driving device for driving the first scissor arm group and the second scissor arm group to open and close; the first scissor arm group and the second scissor arm group are hinged together through a rotating shaft.

Further, the first scissor arm group comprises a first scissor arm and a second scissor arm, and the second scissor arm group comprises a third scissor arm and a fourth scissor arm; the first scissor arm and the second scissor arm are hinged, the third scissor arm and the fourth scissor arm are hinged, supporting rods are arranged on the first scissor arm and the third scissor arm, and the opening and closing driving device is hinged with the supporting rods.

Further, the first scissor arm is provided with a first upper scissor arm section which is in sliding connection with the upper table top, the second scissor arm is provided with a first lower scissor arm section which is in sliding connection with the lower base, the third scissor arm is provided with a second upper scissor arm section which is in sliding connection with the upper table top, and the fourth scissor arm is provided with a second lower scissor arm section which is in sliding connection with the lower base.

Furthermore, the upper table top is provided with a supporting device which is convenient for placing the multilayer slab.

Further, the supporting device comprises a plurality of supporting rods for supporting the multilayer plate blank.

Furthermore, the plurality of support rods are arranged on the upper table top at equal intervals.

Further, the scissors type lifting device is also provided with a vertical guide device for vertically guiding the first scissors arm set and the second scissors arm set.

Further, the vertical guide device comprises a guide pillar and a guide sleeve; the guide pillar is arranged on the top end face of the lower base, the guide sleeve is arranged on the bottom end face of the upper table top, and the guide pillar is connected with the guide sleeve in a sliding mode.

After the structure of the oil adding device is adopted, the utility model relates to a full-automatic hot pressing production line's elevating system that bears, it has following beneficial effect at least:

the multi-layer plate blank is placed on the shear type lifting device through the conveying device, the lifting driving device is driven, the shear type lifting device is lifted to a preset position, the multi-layer plate blank on the shear type lifting device is convenient to grab, when the multi-layer plate blank on the shear type lifting device is gradually reduced along with grabbing, the lifting part on the shear type lifting device is lifted upwards, the height of the multi-layer plate blank is increased to the preset position, the stroke of grabbing the multi-layer plate blank is reduced, the time is saved, and the working efficiency is improved.

Drawings

Fig. 1 is the utility model relates to a bearing lifting mechanism structure sketch map of a bearing lifting mechanism of a full-automatic hot-pressing production line.

In the figure: 1-bearing lifting mechanism, 11-upper table top, 12-lower table top, 13-lifting part, 131-first scissor arm group, 132-opening and closing driving device, 133-rotating shaft, 1311-first scissor arm, 1312-second scissor arm, 1313-first upper scissor arm section, 1314-first lower scissor arm section, 111-bearing rod, 14-guiding device, 141-guide column and 142-guide sleeve.

Detailed Description

In order to further explain the technical solution of the present invention, the following is a detailed explanation through specific examples.

As shown in fig. 1, the carrying lifting mechanism 1 of the full-automatic hot-pressing production line of the present invention includes a scissor type lifting device for carrying multi-layer slab to lift, and a lifting driving device for driving the scissor type lifting device to lift; the scissor lift device includes an upper table 11, a lower table 12, and a lift portion 13 provided between the upper table 11 and the lower table 12.

The multi-layer plate blank is placed on the shear type lifting device through the conveying device, the lifting driving device is driven, the shear type lifting device is lifted to a preset position, the multi-layer plate blank on the shear type lifting device is convenient to grab, when the multi-layer plate blank on the shear type lifting device is gradually reduced along with grabbing, the lifting part 13 on the shear type lifting device is lifted upwards, the height of the multi-layer plate blank is increased to the preset position, the stroke of grabbing the multi-layer plate blank is reduced, the time is saved, and the working efficiency is improved.

Preferably, the lifting part 13 includes a first scissor arm set 131 and a second scissor arm set 132, and an opening and closing driving device for driving the first scissor arm set 131 and the second scissor arm set 132 to open and close; the first scissor arm set 131 and the second scissor arm set 132 are hinged together through a rotating shaft 133. The opening and closing driving device 132 drives the first scissor arm set 131 and the second scissor arm set to open and close, so that the lifting part 13 is lifted.

Preferably, first scissor-arm set 131 includes first scissor arm 1311 and second scissor arm 1312, and second scissor-arm set 132 includes third scissor arm and fourth scissor arm; the first scissor arm 1311 is hinged to the second scissor arm 1312, the third scissor arm is hinged to the fourth scissor arm, support rods are arranged on the first scissor arm 1311 and the third scissor arm, and the opening and closing driving device is hinged to the support rods. The opening and closing driving device 132 drives the supporting rod to realize the opening and closing of the first scissor arm set 131 and the second scissor arm set.

Preferably, the first scissor arm 1311 has a first upper scissor arm segment 1313 slidably coupled to the upper deck 11, the second scissor arm 1312 has a first lower scissor arm segment 1314 slidably coupled to the lower base, the third scissor arm has a second upper scissor arm segment slidably coupled to the upper deck 11, and the fourth scissor arm has a second lower scissor arm segment slidably coupled to the lower base. When the opening and closing driving device 132 transmits power to the supporting rod, the first upper scissors arm segment 1313, the first lower scissors arm segment 1314, the second upper scissors arm segment and the second lower scissors arm segment horizontally slide towards the axial direction of the rotating shaft 133 at the same time, so as to achieve the purpose of lifting the upper table 11.

Preferably, the upper table 11 has support means to facilitate the placement of the multi-layered mat. The fork truck is convenient to use and the material loading is unloaded, practices thrift the labour.

Preferably, the supporting means comprise a plurality of supporting bars 111 for supporting the multi-layered slabs. When the multilayer plate blanks are placed on the supporting rods 111, a forklift insertion space is formed between the upper table top 11 and the multilayer plate blanks, so that loading is facilitated, and labor force is saved.

Preferably, a plurality of support rods 111 are disposed on the upper stage 11 at equal intervals. When the multilayer plate blanks are placed on the supporting rods 111, a forklift insertion space is formed between the upper table top 11 and the multilayer plate blanks, so that loading is facilitated, and labor force is saved.

Preferably, the scissor lift is also provided with a vertical guide 14 for vertically guiding the first scissor-arm set 131 and the second scissor-arm set 132. So as to ensure the stability and accuracy of the scissor type lifting device during lifting.

Preferably, the vertical guide 14 comprises a guide post 141 and a guide sleeve 142; the guide post 141 is installed on the top end face of the lower base, the guide sleeve 142 is installed on the bottom end face of the upper table 11, and the guide post 141 and the guide sleeve 142 are connected in a sliding manner. Through the arrangement of the guide post 141 and the guide sleeve 142, the stability and the accuracy of the scissor type lifting device during lifting are ensured.

The product form of the present invention is not limited to the drawings and embodiments of the present application, and any person can properly change or modify the product form of the present invention without departing from the scope of the present invention.

Claims (9)

1. The utility model provides a full-automatic hot pressing production line's elevating system that bears which characterized in that: the bearing lifting mechanism comprises a shear type lifting device for bearing the lifting of the multilayer plate blank and a lifting driving device for driving the shear type lifting device to lift; the scissor type lifting device comprises an upper table top, a lower table top and a lifting part arranged between the upper table top and the lower table top.

2. The bearing lifting mechanism of the full-automatic hot-pressing production line according to claim 1, characterized in that: the lifting part comprises a first scissor arm group, a second scissor arm group and an opening and closing driving device for driving the first scissor arm group and the second scissor arm group to open and close; the first scissor arm group and the second scissor arm group are hinged together through a rotating shaft.

3. The bearing lifting mechanism of the full-automatic hot-pressing production line according to claim 2, characterized in that: the first shearing fork arm group comprises a first shearing fork arm and a second shearing fork arm, and the second shearing fork arm group comprises a third shearing fork arm and a fourth shearing fork arm; the first scissor arm and the second scissor arm are hinged, the third scissor arm and the fourth scissor arm are hinged, supporting rods are arranged on the first scissor arm and the third scissor arm, and the opening and closing driving device is hinged with the supporting rods.

4. The bearing lifting mechanism of the full-automatic hot-pressing production line according to claim 3, characterized in that: the first scissor arm is provided with a first upper scissor arm section which is in sliding connection with the upper table top, the second scissor arm is provided with a first lower scissor arm section which is in sliding connection with the lower base, the third scissor arm is provided with a second upper scissor arm section which is in sliding connection with the upper table top, and the fourth scissor arm is provided with a second lower scissor arm section which is in sliding connection with the lower base.

5. The bearing lifting mechanism of the full-automatic hot-pressing production line according to claim 4, characterized in that: the upper table top is provided with a supporting device which is convenient for placing multilayer slabs.

6. The bearing lifting mechanism of the full-automatic hot-pressing production line according to claim 5, characterized in that: the supporting device comprises a plurality of supporting rods for supporting the multilayer plate blank.

7. The bearing lifting mechanism of the full-automatic hot-pressing production line according to claim 6, characterized in that: the plurality of supporting rods are arranged on the upper table top at equal intervals.

8. The bearing lifting mechanism of the full-automatic hot-pressing production line according to claim 7, characterized in that: the scissors type lifting device is also provided with a vertical guide device for vertically guiding the first scissors arm set and the second scissors arm set.

9. The bearing lifting mechanism of the full-automatic hot-pressing production line according to claim 8, characterized in that: the vertical guide device comprises a guide pillar and a guide sleeve; the guide pillar is arranged on the top end face of the lower base, the guide sleeve is arranged on the bottom end face of the upper table top, and the guide pillar is connected with the guide sleeve in a sliding mode.

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