CN216400694U - Full-automatic edge-covering splitting machine - Google Patents
Full-automatic edge-covering splitting machine Download PDFInfo
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- CN216400694U CN216400694U CN202122105404.5U CN202122105404U CN216400694U CN 216400694 U CN216400694 U CN 216400694U CN 202122105404 U CN202122105404 U CN 202122105404U CN 216400694 U CN216400694 U CN 216400694U
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- 239000000463 material Substances 0.000 claims abstract description 123
- 238000005520 cutting process Methods 0.000 claims abstract description 82
- 238000003825 pressing Methods 0.000 claims abstract description 22
- 238000007599 discharging Methods 0.000 claims abstract description 7
- 238000009434 installation Methods 0.000 claims description 3
- 230000000875 corresponding Effects 0.000 claims description 2
- 238000004519 manufacturing process Methods 0.000 abstract description 4
- 230000001939 inductive effect Effects 0.000 abstract description 3
- 239000000123 paper Substances 0.000 description 12
- 238000005253 cladding Methods 0.000 description 4
- 238000000034 method Methods 0.000 description 4
- 238000010586 diagram Methods 0.000 description 3
- 239000003292 glue Substances 0.000 description 3
- 238000009957 hemming Methods 0.000 description 2
- 238000004026 adhesive bonding Methods 0.000 description 1
- 230000000903 blocking Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000003028 elevating Effects 0.000 description 1
- 239000011087 paperboard Substances 0.000 description 1
- 230000001429 stepping Effects 0.000 description 1
- 230000001131 transforming Effects 0.000 description 1
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Abstract
The utility model relates to a full-automatic edge covering and splitting machine which comprises an incoming material conveying line, an incoming material positioning induction mechanism, a manipulator mechanism, a material positioning mechanism, a lifting mechanism, a pressing mechanism, an edge covering mechanism, a transverse cutting mechanism and a power roller vertical cutting mechanism, wherein the pressing mechanism, the material positioning mechanism, the edge covering mechanism and the transverse cutting mechanism are sequentially arranged from top to bottom, the edge covering mechanism covers two pairs of side edges of a material, two transverse cutters of the transverse cutting mechanism are pushed by a transverse cutting cylinder to transversely cut the covered material, the transverse cut is in a half-cut state, and the vertical cutting cutter of the power roller vertical cutting mechanism vertically cuts the transversely cut material to vertically cut the material into two halves. The automatic material feeding and discharging device has the advantages that the automation level is improved by adopting the mechanical arm for feeding and discharging, the material positioning mechanism is matched with the lifting mechanism for positioning once to realize edge covering and transverse cutting, the processing precision is improved, the vertical cutting divides the material into two parts, the edge covering of two three surrounding strips can be completed simultaneously, and the production efficiency is improved.
Description
Technical Field
The utility model relates to the technical field of paperboard edge covering equipment, in particular to a full-automatic edge covering and cutting machine.
Background
In the manufacturing process of drawer paper boxes (such as wine boxes and gift boxes) with covers, the box body and the box cover need to be assembled, three surrounding strips need to be arranged in a box opening of the box body in the assembling process, the three surrounding strips are cover blocking strips, and the three surrounding strips are of strip-shaped structures connected in three sections and used for limiting the positions of the box cover after being covered.
The surface cladding of three foxing usually has the good bordure paper of printing, through the good bordure paper completion of printing on hard board cladding bordure, at present to the process of borduring of three foxing mostly manual completion, need the operation workman to use the gluing machine earlier and scribble glue water on the paper of borduring, then will bordure the one side cladding that the paper scribbled glue on hard board, paste it on the side of the paper of borduring with the hand, divide the edge of following hard board and will bordure the paper and smooth, make the paper of borduring cladding on the edge of hard board. The manual edge covering has high labor intensity and low processing efficiency.
SUMMERY OF THE UTILITY MODEL
The utility model aims to overcome the defects and provides a full-automatic edge covering and splitting machine, which adopts mechanical arm feeding and discharging to improve the automation level, a material positioning mechanism is matched with a lifting mechanism to realize edge covering and transverse cutting at one time, the processing precision is improved, the material is divided into two parts by vertical cutting, the edge covering of two three surrounding strips can be simultaneously finished, and the production efficiency is improved.
The purpose of the utility model is realized as follows:
a full-automatic edge covering and splitting machine comprises incoming material conveying lines, incoming material positioning sensing mechanisms, two manipulator mechanisms, a material positioning mechanism, a lifting mechanism, a pressing mechanism, an edge covering mechanism, a transverse cutting mechanism and a power roller vertical cutting mechanism, wherein the incoming material positioning sensing mechanisms are positioned at the tail ends of the incoming material conveying lines, one manipulator mechanism is used for grabbing and placing materials on the incoming material conveying lines on the lifting mechanism, the other manipulator mechanism is used for grabbing and placing the materials on the lifting mechanism on the power roller vertical cutting mechanism, the pressing mechanism, the material positioning mechanisms, the edge covering mechanism and the transverse cutting mechanism are sequentially arranged from top to bottom, a pushing and positioning cylinder of the material positioning mechanism simultaneously pushes out and positions the materials, the pressing mechanism presses the materials on a top plate of the lifting mechanism, the top plate of the lifting mechanism drives the materials on the lifting mechanism to lift, and the edge covering mechanism is provided with four mechanisms, the four edge covering mechanisms are divided into two groups, one group of edge covering mechanism is used for covering one pair of side edges of the material, the other group of edge covering mechanism is used for covering the other pair of side edges of the material, two transverse cutters of the transverse cutting mechanism are pushed by a transverse cutting cylinder to transversely cut the covered material, a transverse cut is in a half-cut state, and a vertical cutting cutter of the power roller vertical cutting mechanism is used for vertically cutting the transversely cut material into two halves.
Preferably, supplied materials location response mechanism includes support frame, location cylinder, fixed plate and sensor, the support frame is fixed on the mounting bracket, the fixed plate is connected to the telescopic link of location cylinder, the sensor passes through the sensor mounting panel to be fixed on the fixed plate, and the material is sensed to the sensor, and the location cylinder drives the fixed plate and removes, fixes a position the material.
Preferably, manipulator mechanism includes manipulator support frame, step-by-step slip table, mount pad, snatchs cylinder and manipulator, the manipulator support frame is fixed in the mounting bracket, and the mount pad removes along with step-by-step slip table, and the mount pad installation snatchs the cylinder, snatchs the telescopic link connection manipulator of cylinder, the manipulator is equipped with vacuum chuck.
Preferably, the lifting mechanism comprises a bottom plate, a first supporting plate, a servo motor, a screw rod and a screw rod sleeve, the servo motor is connected with the screw rod through a reduction box, the screw rod is arranged between the first supporting plate and the bottom plate, the screw rod rotates to drive the screw rod sleeve to move up and down, the screw rod sleeve is connected with a first jacking plate, the first jacking plate is connected with a second jacking plate through a first guide rod, and the second jacking plate is connected with a top plate through a supporting column.
Preferably, the pushing mechanism comprises a first supporting plate, a pushing cylinder is arranged on the first supporting plate, a telescopic rod of the pushing cylinder is connected with a first pushing jig, third guide rods are arranged on two sides of the pushing cylinder and connected with the first supporting plate through second linear bearings, and the lower end of each third guide rod is connected with a second pushing jig.
Preferably, material positioning mechanism includes the supporting seat, and the supporting seat center is equipped with the lift mouth, and the supporting seat corresponds the material and is equipped with propelling movement location cylinder all around, the push pedal is connected to the telescopic link of propelling movement location cylinder.
Preferably, the mechanism of borduring includes bordure cylinder and bordure board, bordure the telescopic link of cylinder and connect the bordure board, the bordure board passes through direction spout, direction slide rail connection supporting seat.
Preferably, the power roller vertical cutting mechanism comprises a power roller conveying line and a vertical cutting mechanism, the power roller conveying line comprises a plurality of movable rollers, and the width of each movable roller is adjusted through a width adjusting baffle; the power roller conveying line conveys the transversely cut materials to the vertical cutting mechanism, and the vertical cutting cutter of the vertical cutting mechanism cuts the materials into two parts.
The utility model has the beneficial effects that:
the automatic material feeding and discharging device has the advantages that the automation level is improved by adopting the mechanical arm for feeding and discharging, the material positioning mechanism is matched with the lifting mechanism for positioning once to realize edge covering and transverse cutting, the processing precision is improved, the vertical cutting divides the material into two parts, the edge covering of two three surrounding strips can be completed simultaneously, and the production efficiency is improved.
Drawings
FIG. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a partially enlarged view of fig. 1.
Fig. 3 is a schematic structural view of the incoming material positioning sensing mechanism.
Fig. 4 is a schematic structural view of the robot mechanism.
Fig. 5 is a schematic structural diagram of the material positioning mechanism.
Fig. 6 is a schematic structural diagram of the lifting mechanism.
Fig. 7 is a schematic structural view of the pressing mechanism.
Fig. 8 is a schematic structural view of the hemming mechanism.
Fig. 9 is a schematic structural view of the transverse cutting mechanism.
Fig. 10 is a schematic structural view of the power roller vertical cutting mechanism.
Wherein:
an incoming material conveying line 1;
an incoming material positioning induction mechanism 2; a support frame 2.1; positioning the cylinder 2.2; a fixed plate 2.3; a sensor 2.4; a sensor mounting plate 2.5;
a manipulator mechanism 3; a manipulator support frame 3.1; a stepping sliding table 3.2; a mounting base 3.3; a grabbing cylinder 3.4; 3.5 of a mechanical arm; 3.5.1 of a vacuum chuck;
a material positioning mechanism 4; a support seat 4.1; a transverse positioning support plate 4.1.1; longitudinally positioning the support plate 4.1.2; a pushing positioning cylinder 4.2; 4.3, a push plate;
a lifting mechanism 5; a bottom plate 5.1; a first support plate 5.2; a servo motor 5.3; 5.4 of a screw rod; 5.5 of a screw sleeve; a reduction gearbox 5.6; a first lifting plate 5.7; a first guide rod 5.8; a second lifting plate 5.9; 5.10 of a support column; a top plate 5.11; a second guide bar 5.12; a rod seat 5.13; a first linear bearing 5.14;
a pressing mechanism 6; a first support plate 6.1; a pressing cylinder 6.2; a first downward pressing fixture 6.3; a third guide bar 6.4; a second linear bearing 6.5; a second pressing jig 6.6;
a binding mechanism 7; a wrapping cylinder 7.1; a hemming plate 7.2; a guide chute 7.3; a guide slide rail 7.4; a connecting plate 7.5;
a transverse cutting mechanism 8; a transverse cutting cylinder 8.1; a transverse cutting tool rest 8.2; a slide bar 8.3; a transverse cutter mounting plate 8.4; 8.5 of a transverse cutter;
a power roller vertical cutting mechanism 9; a power roller conveying line 9.1; roller frame 9.1.1; a movable roller 9.1.2; a width adjusting baffle 9.1.3; a vertical cutting mechanism 9.2; a vertical cutting knife 9.2.1; a feed roll 9.2.2; a discharge roller 9.2.3;
10, preparing a material; and a mounting frame 11.
Detailed Description
Referring to fig. 1-10, the utility model relates to a full-automatic edge-covering splitting machine, which comprises an incoming material conveying line 1, an incoming material positioning sensing mechanism 2, a manipulator mechanism 3, a material positioning mechanism 4, a lifting mechanism 5, a pressing mechanism 6, an edge-covering mechanism 7, a transverse cutting mechanism 8 and a power roller vertical cutting mechanism 9, wherein the incoming material conveying line 1 is used for conveying a material 10, the material is composed of edge-covering paper and hard board, the hard board is arranged on the upper surface of the edge-covering paper coated with glue, and the edge-covering paper has four side edges with the size slightly larger than that of the hard board. The incoming material positioning sensing mechanism 2 is positioned at the tail end of the incoming material conveying line 1, the manipulator mechanisms 3 are provided with two, one is used for grabbing and placing materials on the incoming material conveying line 1 on the lifting mechanism 5, the other is used for grabbing and placing the materials on the lifting mechanism 5 on the power roller vertical cutting mechanism 9, the pressing mechanism 6, the material positioning mechanism 4, the edge covering mechanism 7 and the transverse cutting mechanism 8 are sequentially arranged from top to bottom, the pushing positioning cylinder of the material positioning mechanism 4 simultaneously pushes out and positions the materials, the pressing mechanism 6 presses the materials 10 on the top plate of the lifting mechanism 5 downwards, the top plate of the lifting mechanism 5 drives the materials 10 on the lifting mechanism to ascend and descend, the edge covering mechanisms 7 are provided with four edge covering mechanisms 7, the four edge covering mechanisms 7 are divided into two groups, one group of two edge covering mechanisms and the other group of two edge covering mechanisms are arranged upwards and downwards, one group of edge covering mechanisms 7 covers a pair of side edges of the materials, the other group of edge covering mechanisms 7 are used for covering the other pair of edges of the material, four edges of the covered paper are attached to the upper surface of a hard board through the covered edges, two transverse cutters of the transverse cutting mechanism 8 are pushed by a transverse cutting cylinder to transversely cut the covered material 10, the transverse cuts are in a half-cut state, the material is bent into a three-section type along the transverse cuts, a vertical cutting cutter of the power roller vertical cutting mechanism 9 is used for vertically cutting the transversely cut material into two halves, and the covered edges of the two three surrounding strips are completed through one operation.
Material positioning mechanism 4, elevating system 5, push down mechanism 6, bordure mechanism 7 and transversely cut mechanism 8 and set up in mounting bracket 11, supplied materials transfer chain 1 sets up in the front side of mounting bracket 11, and power cylinder vertical cut mechanism 9 sets up the rear side at mounting bracket 11, supplied materials location response mechanism 2 sets up in 1 terminal tops of supplied materials transfer chain.
Supplied materials location induction mechanism 2 includes support frame 2.1, location cylinder 2.2, fixed plate 2.3 and sensor 2.4, support frame 2.1 is fixed on mounting bracket 11, fixed plate 2.3 is connected to location cylinder 2.2's telescopic link, sensor 2.4 passes through sensor mounting panel 2.5 to be fixed on fixed plate 2.3, and sensor 2.4 senses the material, and location cylinder 2.2 drives fixed plate 2.3 and removes, fixes a position the material.
Manipulator mechanism 3 includes manipulator support frame 3.1, step-by-step slip table 3.2, mount pad 3.3, snatchs cylinder 3.4 and manipulator 3.5, manipulator support frame 3.4 is fixed in mounting bracket 11, and mount pad 3.3 removes along with step-by-step slip table 3.2, and the cylinder 3.4 is snatched in the installation of mount pad 3.3, snatchs cylinder 3.4's telescopic link and connects manipulator 3.5, manipulator 3.5 is equipped with vacuum chuck 3.5.1.
The lifting mechanism 5 comprises a bottom plate 5.1, a first supporting plate 5.2, a servo motor 5.3, a screw rod 5.4 and a screw rod sleeve 5.5, wherein the servo motor 5.3 is connected with the screw rod 5.4 through a reduction gearbox 5.6, the screw rod 5.4 is arranged between the first supporting plate 5.2 and the bottom plate 5.1, the screw rod 5.4 rotates to drive the screw rod sleeve 5.5 to move up and down, the screw rod sleeve 5.5 is connected with a first jacking plate 5.7, the first jacking plate 5.7 is connected with a second jacking plate 5.9 through a first guide rod 5.8, and the second jacking plate 5.9 is connected with a top plate 5.11 through a supporting column 5.10.
A second guide rod 5.12 is further arranged between the first support plate 5.2 and the bottom plate 5.1, one end of the second guide rod 5.12 is connected with the bottom plate 5.1 through a rod seat 5.13, the other end of the second guide rod is connected with the support plate 5.2, and the middle part of the second guide rod 5.12 is connected with a first jacking plate 5.7 through a first linear bearing 5.14.
The pushing mechanism 6 comprises a first supporting plate 6.1, a pushing cylinder 6.2 is arranged on the first supporting plate 6.1, a telescopic rod of the pushing cylinder 6.2 is connected with a first pushing jig 6.3, third guide rods 6.4 are arranged on two sides of the pushing cylinder 6.2, the third guide rods 6.4 are connected with the first supporting plate 6.1 through second linear bearings 6.5, and the lower ends of the third guide rods 6.4 are connected with a second pushing jig 6.6.
Material positioning mechanism 4 includes supporting seat 4.1, and supporting seat 4.1 center is equipped with the lift mouth, and the lift mouth is convenient for roof 5.11, first tool 6.3, the second of pushing down to push down tool 6.6 and passes, is equipped with propelling movement location cylinder 4.2 around supporting seat 4.1, push pedal 4.3 is connected to propelling movement location cylinder 4.2's telescopic link. The supporting seat 4.1 is composed of two transverse positioning supporting plates 4.1.1 and two longitudinal positioning supporting plates 4.1.2, and the transverse positioning supporting plates 4.1 and the longitudinal positioning supporting plates 4.2 are arranged up and down.
Bordure 7 mechanism is including borduring cylinder 7.1 and bordure board 7.2, bordure 7.1's telescopic link connection bordure board 7.2, bordure board 7.2 connects corresponding location backup pad through direction spout 7.3, direction slide rail 7.4 is fixed in the location backup pad that corresponds, and direction spout 7.3 is fixed on bordure board 7.2, but direction slide rail 7.4 and direction spout 7.3 relative slip, and bordure cylinder 7.1 fixes on mount 11 through connecting plate 7.5.
The crosscut mechanism 8 comprises a crosscut cylinder 8.1, a crosscut tool rest 8.2 is connected to the telescopic rod of the crosscut cylinder 8.1, the crosscut tool rest 8.2 is connected with a crosscut mounting plate 8.4 through a slide bar 8.3, the crosscut mounting plate 8.4 is connected with a crosscut knife 8.5, the crosscut mounting plate 8.4 is provided with two, the distance between the two crosscut mounting plates 8.4 is adjustable, and the crosscut mounting plate 8.4 is fixed with the slide bar 8.3 through a set screw.
The vertical cutting mechanism 9 of power cylinder includes power cylinder transfer chain 9.1 and vertical cutting mechanism 9.2, and the end of power cylinder transfer chain 9.1 is equipped with vertical cutting mechanism 9.2, vertical cutting mechanism 9.2 includes feed roller group, play material roller group and vertical cutting cutter 9.2.1, and vertical cutting cutter 9.2.1 is located between feed roller group and the play material roller group, feed roller group sets up about two feed rollers 9.2.2, the play material roller group is including two ejection of compact rollers 9.2.3, sets up from top to bottom two ejection of compact rollers 9.2.3.
The power roller conveying line 9.1 comprises a roller frame 9.1.1, a plurality of movable rollers 9.1.2 are arranged on the roller frame 9.1.1, the width of each movable roller 9.1.2 is adjustable, the width of each movable roller is adjusted through a width adjusting baffle 9.1.3, the width of each movable roller meets the width size of a material by adjusting the width of a conveying roller, and vertical cutting is facilitated.
The working principle is as follows:
the material is conveyed from the incoming material conveying line 1 to the incoming material positioning sensing mechanism 2, after the incoming material positioning sensing mechanism 2 senses and positions the incoming material, the manipulator mechanism 3 grabs the material, the manipulator mechanism 3 places the material on a top plate 5.11 of the lifting mechanism 4, four pushing and positioning cylinders 4.3 in the material positioning mechanism 4 are arranged around the top plate 5.11, the four pushing and positioning cylinders 4.3 simultaneously push out and position the material, the pressing mechanism 6 presses the material on the top plate 5.11 of the lifting mechanism 5 downwards, the lifting mechanism 5 descends for a certain distance, the pressing mechanism 6 keeps pressing the material in the descending process, the edge wrapping cylinders 7.1 in the two edge wrapping mechanisms 7 push out, so that the edge wrapping plate 7.2 pushes out the edge wrapping of the opposite side of the material 1, the lifting mechanism 5 descends for a certain distance again, the pressing mechanism 6 keeps pressing the material in the descending process, the other two edge wrapping cylinders 7.1 in the edge wrapping mechanisms 7 push out, and the edge wrapping plate 7.2 pushes out the edge wrapping of the other 1 of the material, the lifting mechanism 5 descends a certain distance again, the transverse cutting cylinder 8.1 in the transverse cutting mechanism 8 is pushed out, so that two transverse cutters 8.5 complete two transverse cutting of the material, the transverse cuts are not completely cut off and are in a half-cut-off state, the transverse cutting cylinder 8.1 in the transverse cutting mechanism 8 returns, the lifting mechanism 5 rises to an initial state (a state when a manipulator puts the material), the pressing mechanism 6 retracts, the other manipulator mechanism 3 grabs the material and puts the material into the power roller vertical cutting mechanism 9, the movable roller 9.1.2 sends the material to the feeding roller 9.2.2, the material is vertically cut into two halves through the vertical cutting cutter 9.2.1, and finally the material is discharged from the discharging roller 9.2.3.
In addition to the above embodiments, the present invention also includes other embodiments, and any technical solutions formed by equivalent transformation or equivalent replacement should fall within the scope of the claims of the present invention.
Claims (8)
1. The utility model provides a full-automatic cutting machine of borduring which characterized in that: the automatic feeding and discharging device comprises a feeding conveying line (1), a feeding positioning sensing mechanism (2), a manipulator mechanism (3), a material positioning mechanism (4), a lifting mechanism (5), a pressing mechanism (6), a covering mechanism (7), a transverse cutting mechanism (8) and a power roller vertical cutting mechanism (9), wherein the feeding positioning sensing mechanism (2) is positioned at the tail end of the feeding conveying line (1), the manipulator mechanism (3) is provided with two mechanisms, one mechanism is used for grabbing materials on the feeding conveying line (1) and placing the materials on the lifting mechanism (5), the other mechanism is used for grabbing materials on the lifting mechanism (5) and placing the materials on the power roller vertical cutting mechanism (9), the pressing mechanism (6), the material positioning mechanism (4), the covering mechanism (7) and the transverse cutting mechanism (8) are sequentially arranged from top to bottom, and a pushing positioning cylinder of the material positioning mechanism (4) simultaneously pushes out a positioning material position, the material cutting device is characterized in that the pressing mechanism (6) presses materials (10) downwards on a top plate of the lifting mechanism (5), the top plate of the lifting mechanism (5) drives the materials (10) on the lifting mechanism to lift, four edge covering mechanisms are arranged, the four edge covering mechanisms are divided into two groups, one group of edge covering mechanism covers one pair of side edges of the materials, the other group of edge covering mechanism covers the other pair of side edges of the materials, two transverse cutters (8.5) of the transverse cutting mechanism (8) are pushed by a transverse cutting cylinder (8.1) to transversely cut the covered materials (10), the transverse cuts are in a half-cutting state, and a vertical cutting cutter (9.2.1) of the power roller vertical cutting mechanism (9) vertically cuts the transversely cut materials into two halves.
2. A full-automatic cutting machine that bordures of claim 1 characterized in that: supplied materials location response mechanism (2) are including support frame (2.1), location cylinder (2.2), fixed plate (2.3) and sensor (2.4), support frame (2.1) is fixed on mounting bracket (11), fixed plate (2.3) are connected to the telescopic link of location cylinder (2.2), sensor (2.4) are fixed on fixed plate (2.3) through sensor mounting panel (2.5), and sensor (2.4) sense the material, and location cylinder (2.2) drive fixed plate (2.3) and remove, fix a position the material.
3. A full-automatic cutting machine that bordures of claim 1 characterized in that: manipulator mechanism (3) include manipulator support frame (3.1), step-by-step slip table (3.2), mount pad (3.3), snatch cylinder (3.4) and manipulator (3.5), manipulator support frame (3.4) are fixed in mounting bracket (11), and mount pad (3.3) remove along with step-by-step slip table (3.2), and mount pad (3.3) installation snatchs cylinder (3.4), snatchs the telescopic link of cylinder (3.4) and connects manipulator (3.5), manipulator (3.5) are equipped with vacuum chuck (3.5.1).
4. A full-automatic cutting machine that bordures of claim 1 characterized in that: the lifting mechanism (5) comprises a bottom plate (5.1), a first supporting plate (5.2), a servo motor (5.3), a screw rod (5.4) and a screw rod sleeve (5.5), wherein the servo motor (5.3) is connected with the screw rod (5.4) through a reduction box (5.6), the screw rod (5.4) is arranged between the first supporting plate (5.2) and the bottom plate (5.1), the screw rod (5.4) rotates to drive the screw rod sleeve (5.5) to move up and down, the screw rod sleeve (5.5) is connected with a first jacking plate (5.7), the first jacking plate (5.7) is connected with a second jacking plate (5.9) through a first guide rod (5.8), and the second jacking plate (5.9) is connected with a top plate (5.11) through a supporting column (5.10).
5. A full-automatic cutting machine that bordures of claim 1 characterized in that: push down mechanism (6) and include first backup pad (6.1), be equipped with down air cylinder (6.2) on first backup pad (6.1), push down the telescopic link of air cylinder (6.2) and connect first tool (6.3) of pushing down, it is equipped with third guide arm (6.4) to push down air cylinder (6.2) both sides, first backup pad (6.1) is connected through second linear bearing (6.5) in third guide arm (6.4), second tool (6.6) of pushing down is connected to the lower extreme of third guide arm (6.4).
6. A full-automatic cutting machine that bordures of claim 1 characterized in that: the material positioning mechanism (4) comprises a supporting seat (4.1), a lifting opening is formed in the center of the supporting seat (4.1), a pushing and positioning cylinder (4.2) is arranged around the supporting seat (4.1) corresponding to the material, and a telescopic rod of the pushing and positioning cylinder (4.2) is connected with a push plate (4.3).
7. A full-automatic cutting machine that bordures of claim 1 characterized in that: bordure mechanism (7) including bordure cylinder (7.1) and bordure board (7.2), bordure board (7.2) is connected to the telescopic link of bordure cylinder (7.1), bordure board (7.2) are through supporting seat (4.1) of guide chute (7.3), direction slide rail (7.4) connection material positioning mechanism (4).
8. A full-automatic cutting machine that bordures of claim 1 characterized in that: the power roller vertical cutting mechanism (9) comprises a power roller conveying line (9.1) and a vertical cutting mechanism (9.2), the power roller conveying line (9.1) comprises a plurality of movable rollers (9.1.2), and the width of each movable roller (9.1.2) is adjusted through a width adjusting baffle (9.1.3); the transversely cut material is conveyed to the vertical cutting mechanism (9.2) by the power roller conveying line (9.1), and the material is cut into two parts by the vertical cutting cutter (9.2.1) of the vertical cutting mechanism (9.2).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202122105404.5U CN216400694U (en) | 2021-09-02 | 2021-09-02 | Full-automatic edge-covering splitting machine |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202122105404.5U CN216400694U (en) | 2021-09-02 | 2021-09-02 | Full-automatic edge-covering splitting machine |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN216400694U true CN216400694U (en) | 2022-04-29 |
Family
ID=81293285
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202122105404.5U Active CN216400694U (en) | 2021-09-02 | 2021-09-02 | Full-automatic edge-covering splitting machine |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN216400694U (en) |
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2021
- 2021-09-02 CN CN202122105404.5U patent/CN216400694U/en active Active
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