CN217349718U - Full-automatic hydraulic four-side rotating plate splicing machine - Google Patents

Abstract

The utility model relates to the technical field of woodworking machinery equipment, in particular to a full-automatic hydraulic four-side rotary board splicing machine, which comprises a lower frame rack, wherein a rotating shaft is arranged on the lower frame rack, a first speed reduction motor is arranged on one side of the rotating shaft, a rotating box is arranged on the rotating shaft, and an oil cylinder pressure head and a pressure frame are arranged around the outer surface of the rotating box to form a four-side rotary pressure head component; the device also comprises a feeding and discharging mechanism and a diagonal-pulling type lifting rope mechanism which are arranged on the workbench; the inclined-pulling type lifting rope mechanisms are arranged on two sides of the bottom end of the lower frame rack and connected with a first base plate and a second base plate which are hinged on an opening in the top surface of the workbench; the working table is adopted to install a feeding and discharging mechanism, a diagonal-pulling type lifting rope mechanism and a convenient sloping platform; the automatic feeding and discharging device can realize circular feeding by utilizing the feeding and discharging mechanism and the inclined-pulling type lifting rope mechanism and realize automatic discharging by utilizing the push plate mechanism and the ramp, is convenient to use, greatly improves the working efficiency and reduces the production cost.

Description

Full-automatic hydraulic four-side rotating plate splicing machine

Technical Field

The utility model relates to a wood working machinery equipment technical field, concretely relates to full-automatic hydraulic pressure four sides rotation makeup machine.

Background

In the current society, forestry resources are developed and used, and people utilize wood to realize the production of various wooden furniture. A large amount of small materials and leftover materials are left in the processing process. Therefore, the plate splicing machine is the first choice for the reutilization of the materials. The board splicing machine is a woodworking processing device and is mainly used for processing wood laminated wood. When the traditional plate splicing machine is used, the feeding and the discharging on the workbench of the traditional plate splicing machine are manually operated, so that the efficiency is low.

Disclosure of Invention

An object of the utility model is to prior art's defect with not enough, provide a full-automatic hydraulic pressure four sides rotation makeup machine.

The utility model discloses a full-automatic hydraulic four-side rotating plate splicing machine, which comprises a lower frame rack, wherein a rotating shaft is arranged on the lower frame rack, a first speed reducing motor is arranged on one side of the rotating shaft, a rotating box is arranged on the rotating shaft, and an oil cylinder pressure head and a pressure frame are arranged on the periphery of the outer surface of the rotating box to form a four-side rotating pressure head component;

the device also comprises a feeding and discharging mechanism and a diagonal-pulling type lifting rope mechanism which are arranged on the workbench; the inclined-pulling type lifting rope mechanisms are installed on two sides of the bottom end of the lower frame rack and connected with a first base plate and a second base plate which are hinged to the top surface opening of the workbench.

The workbench further comprises a box body, a cavity is formed in the box body, a rectangular opening is formed in the top surface of the box body, strip-shaped plates are correspondingly arranged on the left side and the right side of the rectangular opening, and strip grooves are formed in the strip-shaped plates; the rectangular opening is respectively hinged with a first substrate and a second substrate; a plurality of longitudinal bosses are arranged on the bottom surface in the box body; a rectangular feed inlet is formed in the lower part of the front face of the box body; vertical adjusting grooves are formed in the left side face and the right side face of the box body.

Furthermore, the feeding and discharging mechanism comprises cylinder support tables arranged on two sides of the box body, and first lifting cylinders are respectively arranged on the two cylinder support tables; an inverted L-shaped rod is arranged on the inner side of the shaft end of the first cylinder of the lifting cylinder, a position sensor probe is arranged on the inverted L-shaped rod, the inverted L-shaped rod is connected with a horizontal lifting plate, and the horizontal lifting plate is inserted into a vertical adjusting groove in the side face of the box body and is connected with a vertical lifting plate at the bottom in the box body.

Further, a sloping platform is arranged behind the box body; the slope platform comprises an inclined plane platform, a horizontal platform is arranged on the outer side of the inclined plane platform, a limiting baffle is arranged at the outer end of the top surface of the horizontal platform, a buffer plate is arranged on the inner side surface of the limiting baffle, and the buffer plate is connected with the limiting baffle through a plurality of springs.

Furthermore, the cable-stayed lifting rope mechanism comprises four horizontal connecting rods arranged on two sides of the bottom end of the vertical rod of the lower frame rack; four horizontal connecting rods are respectively provided with four second speed reducing motors, and the four second speed reducing motors are respectively provided with steel wire pull ropes; two steel wire pull ropes on the two speed reducing motors on the same side are respectively connected with the first substrate and the second substrate.

Furthermore, a plurality of second air cylinders are arranged on the bottom surface of the second substrate; the bottom surface of the first substrate is provided with a plurality of clamping grooves.

Furthermore, a horizontal reinforcing rib rod is arranged between the second cylinders.

Furthermore, a push plate mechanism is arranged in the middle of the upper part of the front surface of the box body; the push plate mechanism comprises a third longitudinal cylinder, the third longitudinal cylinder is arranged on a supporting table, and the supporting table is arranged in the middle of the upper part of the front surface of the box body; the third longitudinal cylinder is connected with the push plate, and the bottom end of the push plate is slightly higher than the top surface of the box body; and a rubber plate is arranged on the inner side surface of the push plate.

The utility model discloses beneficial effect does: the utility model relates to a full-automatic hydraulic four-side rotary board splicing machine, which adopts a workbench to install a feeding and discharging mechanism, a diagonal lifting rope mechanism and a convenient slope platform; the automatic feeding and discharging device can realize circular feeding by utilizing the feeding and discharging mechanism and the inclined-pulling type lifting rope mechanism and realize automatic discharging by utilizing the push plate mechanism and the ramp, is convenient to use, greatly improves the working efficiency and reduces the production cost.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, do not constitute a limitation of the invention, and in which:

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

FIG. 2 is a schematic side view of the work bench and the ramp of the present invention;

fig. 3 is a schematic top view of the working table of the present invention;

FIG. 4 is an enlarged view of portion A of FIG. 1;

fig. 5 is a schematic side view of the lower frame of the present invention;

description of reference numerals:

a lower frame-1; a horizontal link-11; a rotating shaft-2; a four-side rotary pressure head component-3;

a cable-stayed lifting rope mechanism-4; a second speed reduction motor 41; a steel wire rope-42;

a workbench-5; a box body-51; strip-52; a position sensor receiver-53; rectangular opening-54; a groove-55; a second substrate 56; a second cylinder-57; horizontal stiffener bar-58; a card slot-59; a longitudinal boss-510; a rectangular feed port-511;

a feeding and discharging mechanism-6; a first lifting cylinder-61; an inverted L-shaped bar-62; position sensor probe-63; a horizontal lifting plate-64;

a push plate mechanism-7; a pallet-71; a longitudinal cylinder III-72; a push plate-73;

a ramp-8; an inclined platform-81; a horizontal table-82; a limit baffle-83; a buffer plate-84;

material to be processed-9; a control box-10.

Detailed Description

The invention will be described in detail with reference to the drawings and specific embodiments, wherein the exemplary embodiments and the description are only for the purpose of explanation, but not for the purpose of limitation.

As shown in fig. 1 to 5, the full-automatic hydraulic four-side rotary panel splicing machine according to the present embodiment includes a lower frame 1, a rotating shaft 2 is installed on the lower frame 1, a first reduction motor is installed on one side of the rotating shaft 2, a rotating box is installed on the rotating shaft 2, and an oil cylinder pressure head and a pressure frame are arranged around an outer surface of the rotating box to form a four-side rotary pressure head component 3;

the device also comprises a feeding and discharging mechanism 6 and a diagonal-pulling type lifting rope mechanism 4 which are arranged on the workbench 5; the inclined-pulling type lifting rope mechanisms 4 are arranged on two sides of the bottom end of the lower frame 1 and connected with a first base plate 54 and a second base plate 56 which are hinged on an opening in the top surface of the workbench 5.

Further, the workbench 5 comprises a box body 51, a cavity is formed in the box body 51, a rectangular opening 54 is formed in the top surface of the box body 51, strip-shaped plates 52 are correspondingly arranged on the left side and the right side of the rectangular opening 54, and strip grooves 55 are formed in the strip-shaped plates 52; a first substrate 54 and a second substrate 56 are respectively hinged on the rectangular opening 54; the inner bottom surface of the box body is provided with a plurality of longitudinal bosses 510; the lower part of the front of the box body 51 is provided with a rectangular feed inlet 511; vertical adjusting grooves are formed in the left side face and the right side face of the box body 51. In this design, a position sensor receiver 53 is provided in the middle of the top ends of the left and right sides of the case 51.

Further, the feeding and discharging mechanism 6 comprises cylinder support tables arranged on two sides of the box body 51, and first lifting cylinders 61 are respectively arranged on the two cylinder support tables; an inverted L-shaped rod 62 is arranged on the inner side of the shaft end of the first lifting cylinder 61, a position sensor probe 63 is arranged on the inverted L-shaped rod 62, the inverted L-shaped rod 62 is connected with a horizontal lifting plate 64, and the horizontal lifting plate 64 penetrates through a vertical adjusting groove in the side face of the box body 51 and is connected with a longitudinal lifting plate 65 at the bottom in the box body 51.

Further, a sloping platform 8 is arranged behind the box body 51; the ramp comprises an inclined plane table 81, a horizontal table 82 is arranged on the outer side of the inclined plane table 81, a limit baffle 83 is arranged at the outer end of the top surface of the horizontal table 82, a buffer plate 84 is arranged on the inner side surface of the limit baffle 83, and the buffer plate 84 is connected with the limit baffle 83 through a plurality of springs.

Further, the cable-stayed lifting rope mechanism 4 comprises four horizontal connecting rods 11 arranged at two sides of the bottom end of the vertical rod of the lower frame rack 1; four horizontal connecting rods 11 are respectively provided with four second speed reducing motors 41, and the four second speed reducing motors 41 are respectively provided with a steel wire pull rope 42; two steel wire pull ropes 42 on the two speed reducing motor II 41 on the same side are respectively connected with the base plate I54 and the base plate II 56. In the design, four steel wire pull ropes 42 respectively penetrate through the grooves 55 on the strip-shaped plates 52 on the two sides of the box body and are respectively connected with the first base plate 54 and the second base plate 56.

Further, a plurality of second air cylinders 57 are arranged on the bottom surface of the second substrate 56; the bottom surface of the first base plate 54 is provided with a plurality of clamping grooves 59.

Further, horizontal reinforcing bar rods 58 are arranged between the second plurality of air cylinders 57.

Furthermore, a push plate mechanism 7 is arranged in the middle of the upper part of the front surface of the box body 51; the push plate mechanism 7 comprises a third longitudinal cylinder 72, the third longitudinal cylinder 72 is arranged on a support table 71, and the support table 71 is arranged in the middle of the upper part of the front surface of the box body 51; the third longitudinal cylinder 72 is connected with a push plate 73, and the bottom end of the push plate 73 is slightly higher than the top surface of the box body 51; the inner side surface of the push plate 73 is provided with a rubber plate.

The working principle of the utility model is as follows:

in this design, install rotation axis 2 on the lower frame 1, gear motor is installed to 2 one sides of rotation axis, installs the rotatory case on the rotation axis 2, and the surface on the rotatory case is provided with the hydro-cylinder pressure head all around and presses the frame, forms the rotatory pressure head component 3 in four sides. Control box 10 is installed to lower frame 1 one side, and the PLC controller is installed to control box 10, and the PLC controller links to each other with the remote controller, realizes utilizing the remote controller to realize the control operation to the PLC controller to utilize the PLC controller to control gear motor and cylinder.

In the design, the workbench 5 comprises a box body 51, a cavity is formed in the box body 51, a rectangular opening 54 is formed in the top surface of the box body 51, strip-shaped plates 52 are correspondingly arranged on the left side and the right side of the rectangular opening 54, and strip grooves 55 are formed in the strip-shaped plates 52; a first substrate 54 and a second substrate 56 are respectively hinged on the rectangular opening 54; the inner bottom surface of the box body is provided with a plurality of longitudinal bosses 510; the lower part of the front of the box body 51 is provided with a rectangular feed inlet 511, and the left and right side surfaces of the box body 51 are provided with vertical adjusting grooves.

When the box body 51 is used, the remote controller controls the four second speed reducing motors 41 to control the steel wire pull rope 42, so that the first base plate 54 and the second base plate 56 connected with the steel wire pull rope 42 are controlled to turn downwards, and the rectangular opening 54 on the top surface of the box body 51 is opened. And synchronously, the material 9 to be processed is placed on the processing pallet, and then the processing pallet and the material 9 to be processed on the processing pallet are placed on the longitudinal boss 510 through the rectangular feed inlet 511 at the lower part of the front of the box body 51.

Through the work of PLC controller control material loading shedding mechanism 6, control lifts the work of cylinder 61, drive the action of falling L shape pole 62, thereby drive its and the horizontal lifting plate 64 that links to each other at vertical adjustment tank action, drive horizontal lifting plate 64 upwards moves, drive the processing pallet and rise to the rectangle opening 54 department of box 51 top surface in step, control four gear motor two 41 works again, control four steel wire stay cords 42 and carry in step, thereby control base plate one 54 and base plate two 56 and turn over to the bottom surface department of processing pallet, form and lift. The first substrate 54 and the second substrate 56 form a processing table. In order to further improve the firmness. The bottom surface of the second substrate 56 is provided with a plurality of second air cylinders 57; the bottom surface of the first substrate 54 is provided with a plurality of clamping grooves 59, the second air cylinder 57 is controlled to act through a PLC (programmable logic controller), and the cylinder shaft of the second air cylinder 57 extends into the clamping grooves 59, so that the first substrate 54 and the second substrate 56 form a whole, and the firmness of the first substrate 54 and the second substrate 56 can be greatly improved. Horizontal reinforcing rib rods 58 are arranged between the second cylinders 57, and further, the pressure resistance of the horizontal reinforcing rib rods is improved.

When the first substrate 54 and the second substrate 56 are in the same horizontal plane, a gap is left between the first substrate 54 and the second substrate 56, and the width of the gap is slightly larger than that of the longitudinal lifting plate 65. Thereby facilitating the first 54 and second 56 substrates to be flipped back to the bottom surface of the processing platen. At the moment, the PLC controller controls the first lifting cylinder 61 to retract to the original position; then, the PLC is used for controlling the four-side rotary pressure head component 3, and the oil cylinder pressure heads and the pressure frames on the four sides of the rotary box are used for processing the material 9 to be processed on the processing pallet. After the processing is finished, the work of the push plate mechanism 7 is controlled through the PLC, the push plate mechanism 7 drives the push plate 73 to move by controlling the third longitudinal cylinder 72, the push plate 73 pushes the processing pallet and the finished plate erected on the processing pallet to the inclined plane table 81 of the slope table 8 and then to the horizontal table 82, the limit baffle 83 is arranged at the outer end of the top surface of the horizontal table 82, the buffer plate 84 is arranged on the inner side surface of the limit baffle 83, and the buffer plate 84 is connected with the limit baffle 83 through a plurality of springs. The buffer plate 84 plays a role in buffering and protecting the processed plate. The limit stopper 83 functions as a limit.

While processing, the operators synchronize, and then use another processing platform to place another piece of material 9 to be processed on the longitudinal lifting plate 65. The steps are repeated, so that uninterrupted loading, processing and unloading actions are formed, and the working efficiency is greatly improved.

In the design, a position sensor probe 63 is arranged on an inverted L-shaped rod 62 of the feeding and discharging mechanism 6, and the position sensor probe 63 and the bottom surface of the processing pallet are positioned on the same horizontal plane. In addition, a position sensor receiver 53 is provided in the middle of the top ends of the left and right sides of the case 51. Therefore, when the position sensor probe 63 and the position sensor receiver 53 on the feeding and discharging mechanism 6 are on the same horizontal line, the position sensor probe 63 detects the side to the position sensor receiver 53, a signal is sent to the PLC controller, and the PLC controller controls the first lifting cylinder 61, so that the processing pallet and the material 9 to be processed thereon can be ensured to be arranged on the top surface of the box body 51, and the positioning can be realized.

In the design, the inner side surface of the push plate 73 is provided with a rubber plate, so that the function of protecting the processed plate is achieved.

In the design, the PLC controller controls the air cylinder and the speed reducing motor to work, and a related control circuit is the prior art, so the design is not elaborated in detail.

The above is only the preferred embodiment of the present invention, so all the equivalent changes or modifications made by the features and principles of the present invention are included in the claims of the present invention.

Claims (8)

1. A full-automatic hydraulic four-side rotating plate splicing machine comprises a lower frame rack, wherein a rotating shaft is mounted on the lower frame rack, a first speed reduction motor is mounted on one side of the rotating shaft, a rotating box is mounted on the rotating shaft, and an oil cylinder pressure head and a pressure frame are arranged on the periphery of the outer surface of the rotating box to form a four-side rotating pressure head component;

the method is characterized in that: the device also comprises a feeding and discharging mechanism and a diagonal-pulling type lifting rope mechanism which are arranged on the workbench; the inclined-pulling type lifting rope mechanisms are installed on two sides of the bottom end of the lower frame rack and connected with a first base plate and a second base plate which are hinged to the top surface opening of the workbench.

2. The full-automatic hydraulic four-side rotary panel splicing machine according to claim 1, characterized in that: the workbench comprises a box body, a cavity is formed in the box body, a rectangular opening is formed in the top surface of the box body, strip-shaped plates are correspondingly arranged on the left side and the right side of the rectangular opening, and strip grooves are formed in the strip-shaped plates; the rectangular opening is respectively hinged with a first substrate and a second substrate; a plurality of longitudinal bosses are arranged on the inner bottom surface of the box body; a rectangular feed inlet is formed in the lower part of the front face of the box body; vertical adjusting grooves are formed in the left side face and the right side face of the box body.

3. The full-automatic hydraulic four-side rotary panel splicing machine according to claim 1, characterized in that: the feeding and discharging mechanism comprises cylinder support tables arranged on two sides of the box body, and first lifting cylinders are respectively arranged on the two cylinder support tables; an inverted L-shaped rod is arranged on the inner side of the shaft end of the first cylinder of the lifting cylinder, a position sensor probe is arranged on the inverted L-shaped rod, the inverted L-shaped rod is connected with a horizontal lifting plate, and the horizontal lifting plate is inserted into a vertical adjusting groove in the side face of the box body and is connected with a vertical lifting plate at the bottom in the box body.

4. The full-automatic hydraulic four-side rotary panel splicing machine according to claim 2, wherein: a sloping platform is arranged behind the box body; the slope platform comprises an inclined plane platform, a horizontal platform is arranged on the outer side of the inclined plane platform, a limiting baffle is arranged at the outer end of the top surface of the horizontal platform, a buffer plate is arranged on the inner side surface of the limiting baffle, and the buffer plate is connected with the limiting baffle through a plurality of springs.

5. The full-automatic hydraulic four-side rotary panel splicing machine according to claim 1, characterized in that: the cable-stayed lifting rope mechanism comprises four horizontal connecting rods arranged on two sides of the bottom end of a vertical rod of the lower frame rack; four horizontal connecting rods are respectively provided with four second speed reducing motors, and the four second speed reducing motors are respectively provided with steel wire pull ropes; two steel wire pull ropes on the two speed reducing motors on the same side are respectively connected with the first substrate and the second substrate.

6. The full-automatic hydraulic four-side rotary panel splicing machine according to claim 5, wherein: the bottom surface of the second substrate is provided with a plurality of second air cylinders; the bottom surface of the first substrate is provided with a plurality of clamping grooves.

7. The full-automatic hydraulic four-side rotary panel splicing machine according to claim 6, wherein: and a horizontal reinforcing rib rod is arranged between the second cylinders.

8. The full-automatic hydraulic four-side rotary panel splicing machine according to claim 2, wherein: a push plate mechanism is arranged in the middle of the upper part of the front surface of the box body; the push plate mechanism comprises a third longitudinal cylinder, the third longitudinal cylinder is arranged on a supporting table, and the supporting table is arranged in the middle of the upper part of the front surface of the box body; the third longitudinal cylinder is connected with the push plate, and the bottom end of the push plate is slightly higher than the top surface of the box body; and a rubber plate is arranged on the inner side surface of the push plate.

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