CN107136887B

CN107136887B - Artificial pine branch hanging equipment

Info

Publication number: CN107136887B
Application number: CN201710160150.2A
Authority: CN
Inventors: 余春晖
Original assignee: Shenzhen Polytechnic
Current assignee: Shenzhen Polytechnic
Priority date: 2017-03-17
Filing date: 2017-03-17
Publication date: 2022-02-15
Anticipated expiration: 2037-03-17
Also published as: CN107136887A

Abstract

The invention discloses artificial pine branch hanging equipment which comprises a rack, a clamping device, a first bending device, a second bending device and a third bending device, wherein the rack is provided with a clamping device; after the clamping device clamps the rod part of the artificial pine branch, the first bending device bends the tail part of the artificial pine branch extending out of the clamping device, and the artificial pine branch is bent into a shape of 7; the second bending device further bends the tail part of the artificial pine branch towards the rod part, so that an included angle between the tail part of the artificial pine branch and the rod part forms an acute angle; the third bending device attaches the bent tail part of the artificial pine branch to the rod part, so that the tail part of the artificial pine branch is clamped on an iron wire serving as the main rod. The invention can hang many artificial pine branches on the iron wire at one time, which consumes less labor and has high hanging efficiency.

Description

Artificial pine branch hanging equipment

[ technical field ]

The invention relates to an artificial Christmas tree, in particular to an artificial pine branch hanging device.

[ background art ]

Christmas trees are essential ornaments in the Christmas season of celebration western countries. The artificial Christmas tree is a Christmas tree which is manufactured in an artificial mode compared with a naturally cultivated Christmas tree. The making process includes winding the cut leaf material around iron wires to form artificial pine branch, assembling the artificial pine branch onto two wound iron wires, and final binding the iron wires with pine branch onto the main branch frame to form tree.

The main part of the artificial pine branch consists of PVC-coated iron wires, the branches and leaves are cut by PVC films, the outline of the leaves at the head of the pine branch is in a sharp arc shape, the leaves at the tail are cut off to form a section of stem without needles, the outer ends of the branches and leaves are inclined from the branches to the ends of the branches and leaves and are in a V shape, and the stems without needles are arranged at the rear part of the pine branch. During assembly, a 9-shaped buckle needs to be punched on a stem at the rear part of the pine branch and is hung on one of two parallel iron wires; then the two iron wires are hinged together, so that the pine branches hung on the iron wires face different angles. There is currently no suitable artificial pine branch hitch, which is inefficient if done manually.

[ summary of the invention ]

The invention aims to provide artificial pine branch hanging equipment which is high in hanging efficiency, low in labor consumption and capable of hanging a plurality of artificial pine branches on an iron wire.

In order to solve the technical problems, the invention adopts the technical scheme that the artificial pine branch hanging equipment comprises a rack, a clamping device, a first bending device, a second bending device and a third bending device; after the clamping device clamps the rod part of the artificial pine branch, the first bending device bends the tail part of the artificial pine branch extending out of the clamping device, and the artificial pine branch is bent into a shape of 7; the second bending device further bends the tail part of the artificial pine branch towards the rod part, so that an included angle between the tail part of the artificial pine branch and the rod part forms an acute angle; the third bending device attaches the bent tail part of the artificial pine branch to the rod part, so that the tail part of the artificial pine branch is clamped on an iron wire serving as the main rod.

The artificial pine branch hanging equipment comprises a plurality of feeding clamps, a rack comprises a base, a workbench and a cross beam, and the workbench is arranged below the cross beam; the long axes of the beam and the table are arranged in the Y-axis direction.

The cross beam of the artificial pine branch hanging equipment comprises a first cross beam and a second cross beam, and the second cross beam is arranged behind the first cross beam; the clamping device comprises a strip-shaped upper clamping plate, a strip-shaped lower clamping plate, a lifting beam, a plurality of upper clamping plate pressing cylinders and a plurality of upper clamping plate translation cylinders; the plurality of upper clamping plate pressing cylinders are vertically arranged on the second cross beam and are separately arranged along the long axis direction of the second cross beam, and the lifting beam is fixed at the lower end of a piston rod of each upper clamping plate pressing cylinder; the upper clamping plate translation cylinders are arranged on the lifting beam, piston rods face forwards and are separately arranged along the long axis direction of the lifting beam, the upper clamping plate is fixed at the front end of the piston rod of the upper clamping plate translation cylinder, and the lower clamping plate is fixed at the front end of the workbench; the feeding clamp is arranged on the workbench and positioned behind the lower clamping plate.

The artificial pine branch hanging equipment comprises a first bending device, a second bending device and a third bending device, wherein the first bending device comprises a plurality of jacking cylinders and strip-shaped push plates, and the push plates are arranged below the front surface of the lower clamping plate; the jacking cylinders are arranged on the base and are separately arranged along the Y-axis direction; the push plate is fixed at the upper end of the piston rod of the jacking cylinder.

The second bending device comprises a strip-shaped top plate and a plurality of top bending cylinders, the top bending cylinders are mounted on the base through supports, piston rods face backwards and are separately arranged along the Y-axis direction, and the top plate is fixed at the front ends of the piston rods of the top bending cylinders; the lower end of the front part of the upper splint comprises a wedge-shaped ridge, and the top of the ridge comprises an inclined plane; the lower end of the rear part of the top plate comprises a chamfer, and the inclination angle of the chamfer of the top plate is the same as that of the inclined plane of the ridge.

The third bending device comprises a strip-shaped front pressing plate, a strip-shaped rear pressing plate, a plurality of front pressing plate cylinders and a plurality of rear pressing plate cylinders; the front pressing plate is arranged in front of the rear pressing plate, a plurality of front pressing plate cylinders are vertically arranged on the first cross beam and are separately arranged along the first cross beam, and the front pressing plate is fixed at the lower end of a piston rod of the front pressing plate cylinder; the plurality of back pressure plate cylinders are vertically arranged on the first cross beam and are separately arranged along the first cross beam, and the back pressure plates are fixed at the lower ends of piston rods of the back pressure plate cylinders.

In the artificial pine branch hanging device, the front pressing plate and the rear pressing plate are L-shaped and respectively comprise the vertical plate and the transverse plate; a transverse plate of the front pressing plate is fixed at the lower end of a piston rod of a cylinder of the front pressing plate, and a vertical plate of the front pressing plate faces downwards; a transverse plate of the rear pressing plate is fixed at the lower end of a piston rod of a cylinder of the rear pressing plate, and a vertical plate of the rear pressing plate faces downwards; the vertical plate of the front pressing plate is close to the vertical plate of the rear pressing plate.

The artificial pine branch hanging device comprises a front pressing plate and a rear pressing plate, wherein the front pressing plate is provided with a plurality of guide vertical grooves.

The artificial pine branch hooking equipment comprises hooks for hanging iron wires at two ends of a rack.

The artificial pine branch hanging equipment comprises the following working processes:

1001) arranging a plurality of feeding clamps with paved artificial pine branches on a workbench in an initial state of the device, wherein the tail parts of the artificial pine branches in the feeding clamps face to the front;

1002) starting an upper clamping plate translation cylinder of the clamping device to drive the upper clamping plate to move forwards to the position above a lower clamping plate; starting an upper clamping plate pressing cylinder of the clamping device to drive the upper clamping plate to move downwards to clamp the artificial pine branches;

1003) placing an iron wire above the tail of the artificial pine branch;

1004) starting a jacking cylinder of the first bending device, pushing a push plate to move upwards, bending the tail of the artificial pine branch upwards to enable the iron wire to be positioned in a hook at the tail of the artificial pine branch, and driving the push plate to move downwards to return;

1005) starting a second bending device to bend the air cylinder to drive the top plate to move backwards, and enabling the top plate and the upper clamping plate to be matched to further bend the tail part of the artificial pine branch towards the rod part;

1006) the upper clamping plate pressing cylinder drives the upper clamping plate to move upwards, and the upper clamping plate translation cylinder drives the upper clamping plate to move backwards and return to the initial position;

1007) starting a front pressing plate cylinder of the third bending device to drive a front pressing plate to move downwards, wherein the front pressing plate clamps the tail part and the rod part of the artificial pine branch close to the iron wire;

1008) starting a rear pressing plate cylinder of the third bending device to drive a rear pressing plate to move downwards, and clamping the tail end of the artificial pine branch and the rod part by the rear pressing plate;

1009) the front pressing plate cylinder drives the front pressing plate to move upwards to an initial position, and the rear pressing plate cylinder drives the rear pressing plate to move upwards to the initial position;

10010) The iron wires are picked off from the hooks at the two ends of the frame, and the iron wires and the artificial pine branches clamped on the iron wires are moved away; the empty loading clamp is then removed and awaits the next work cycle.

The artificial pine branch hanging equipment can hang a plurality of artificial pine branches on the iron wire at one time, and has the advantages of less labor consumption and high hanging efficiency.

[ description of the drawings ]

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a front view of an artificial pine branch hitch apparatus according to an embodiment of the present invention.

Fig. 2 is a top view of an artificial pine branch hitch apparatus according to an embodiment of the present invention.

Fig. 3 is a right side view of an artificial pine branch hitch apparatus of an embodiment of the present invention.

Fig. 4 is a left side view of an artificial pine branch hitch apparatus of an embodiment of the present invention.

Fig. 5 is a rear view of an artificial pine branch hitch apparatus according to an embodiment of the present invention.

Fig. 6 is a perspective view of an artificial pine branch hitch apparatus according to an embodiment of the present invention.

Fig. 7 is a sectional view taken along line a in fig. 1.

Fig. 8 is a partially enlarged view of the portion i in fig. 7.

FIG. 9 is a perspective view of a front platen in accordance with an embodiment of the present invention.

Fig. 10 is a partial enlarged view of the portion ii in fig. 9.

FIG. 11 is a schematic diagram of step 2 according to an embodiment of the present invention.

FIG. 12 is a schematic diagram of step 4 according to an embodiment of the present invention.

FIG. 13 is a schematic diagram of step 5 in an embodiment of the present invention.

FIG. 14 is a schematic diagram of step 7 of an embodiment of the present invention.

FIG. 15 is a schematic diagram of step 8 of an embodiment of the present invention.

[ detailed description of the invention ]

The structure of the artificial pine branch hanging equipment of the embodiment of the invention is shown in fig. 1 to 10, and comprises a frame, a clamping device, a first bending device, a second bending device, a third bending device and 5 feeding clamps 50.

The structure of the feeding clamp 50 is described in detail in the invention "an automatic feeder for artificial pine branches" of patent application No. CN 201510185333.0.

After the clamping device clamps the rod part of the artificial pine branch, the first bending device bends the tail part of the artificial pine branch 100 extending out of the clamping device, and the artificial pine branch 100 is bent into a 7 shape. The second bending means further bends the tail portion of the artificial pine branch 100 toward the rod portion so that an included angle between the tail portion and the rod portion of the artificial pine branch 100 becomes an acute angle. The third bending means attaches the bent tail portion of the artificial pine branch 100 to the rod portion so that the tail portion of the artificial pine branch 100 is clamped to the iron wire 51 as the main rod.

The frame comprises a base 53, a table 54 and a cross beam, the table 54 being arranged below the cross beam. The two ends of the frame are respectively provided with a hook (not shown in the figure) for hanging the iron wire 51.

The cross members include a first cross member 55 and a second cross member 56, and the second cross member 56 is arranged rearward of the first cross member 55. The long axis directions of the first beam 55, the second beam 56, and the table 54 are all arranged along the Y-axis direction of the apparatus.

The clamping device comprises a strip-shaped upper clamping plate 11, a strip-shaped lower clamping plate 12, a

lifting beam

13, 3 upper clamping plate pressing air cylinders 14 and a plurality of 6 upper clamping plate translation air cylinders 15. 3 upper clamping plate pressing cylinders 14 are vertically arranged on the second cross beam 56 and are separately arranged along the long axis direction of the second cross beam 56, a lifting beam 13 is fixed at the lower end of a piston rod of the upper clamping

plate pressing cylinder

14, and 6 sets of guide sleeve and guide rod combinations 16 are arranged between the lifting beam 13 and the second cross beam 56 for guiding. The 6 upper clamping plate translation cylinders 15 are installed on the lifting beam 13 along the X-axis direction of the equipment, and piston rods of the upper clamping plate translation cylinders face forwards and are separately arranged along the long axis direction of the lifting beam 13. The upper clamping plate 11 is fixed at the front end of a piston rod of the upper clamping

plate translation cylinder

15, and 6 sets of guide sleeve and guide rod combinations 17 are arranged between the upper clamping plate 11 and the lifting beam 13 for guiding. The lower jaw 12 is fixed to the front end of the table 54. The loading clamp 50 is disposed on a table 54 behind the lower clamp plate 12.

The lower end of the front part of the upper clamping plate 11 is provided with a wedge-shaped protruding edge 1101, and the top of the protruding edge 1101 is a slope forming an angle of 30 degrees with the horizontal plane.

The first bending means comprises 6 jacking cylinders 21 and a strip-shaped push plate 22, and the push plate 22 is arranged below the front face of the lower clamping plate 12. The 6 jacking cylinders 21 are installed on the base 53 and are arranged separately in the Y-axis direction. The push plate 22 is fixed on the upper end of the piston rod of the jacking

cylinder

21, and 6 sets of guide sleeve and guide rod combinations 23 are arranged between the push plate 22 and the base 53 for guiding.

The second bending device comprises a strip-shaped

top plate

31 and 6 top bending air cylinders 32, wherein the 6 top bending air cylinders 32 are arranged on the base 53 through a support 57, and the piston rods face backwards. The 6 top bending air cylinders 32 are separately arranged along the Y-axis direction, and the top plate 31 is fixed at the front end of a piston rod of the top bending air cylinder 32; between the top plate 31 and the

bracket

57, 6 sets of guide sleeve and guide rod combination 33 are used for guiding. The lower end of the rear portion of the top plate 31 includes a large chamfer 3101. the angle of the top plate chamfer 3101 is the same as the angle of inclination of the inclined surface of the ridge 1101 and is also 30 °.

The third bending device includes a strip-shaped front press plate 41, a strip-shaped rear press plate 42, 9 front press plate cylinders 43, and 9 rear press plate cylinders 44. The front pressing plate 41 is arranged in front of the rear pressing plate 42, 9 front pressing plate cylinders 43 are vertically arranged on the first cross beam 55 and are separately arranged along the first cross beam 55, the front pressing plate 41 is fixed at the lower end of a piston rod of the front pressing plate cylinder 43, and the front pressing plate 41 and the first cross beam 5 are guided by 6 sets of guide sleeve guide rod combinations 45. The 9 rear pressing plate cylinders 44 are vertically arranged on the first cross beam 55 and are separately arranged along the first cross beam 55, the rear pressing plate 42 is fixed at the lower end of the piston rod of the rear pressing plate cylinder 44, and the rear pressing plate 42 and the second cross beam 56 are guided by the guide rod combination 46 with the guide sleeve.

The front pressing plate 41 and the rear pressing plate 42 are both L-shaped and respectively include a vertical plate and a horizontal plate. The horizontal plate of the front pressure plate 41 is fixed at the lower end of the piston rod of the front pressure plate cylinder 43, and the vertical plate of the front pressure plate 41 faces downwards. The horizontal plate of the rear pressing plate 42 is fixed at the lower end of the piston rod of the rear pressing plate cylinder 44, and the vertical plate of the rear pressing plate 42 faces downwards. The vertical plate of the front pressure plate 41 is close to the vertical plate of the rear pressure plate 42.

As shown in fig. 9 and 10, the lower portion of the rear plane of the front press plate 41 includes a plurality of guide vertical grooves 4101, and when the front press plate 41 is pressed down, the tail of the artificial pine branch can be prevented from being pressed.

The working process of the artificial pine branch hanging equipment in the embodiment of the invention is as follows:

1) in the initial state of the apparatus, 5 feeding jigs 50 on which the artificial pine branches 100 are laid are arranged on the table 54 with the tail portions of the artificial pine branches 100 in the feeding jigs 50 directed forward;

2) starting 6 upper clamping plate translation cylinders 15 of the clamping device to drive the upper clamping plate 11 to move forwards to the position above the lower clamping plate 12; starting 3 upper clamping plate pressing cylinders 14 of the clamping device to drive the upper clamping plates 11 to move downwards to clamp the artificial pine branches 100;

3) placing an iron wire 51 above the tail part of the artificial pine branch 100, and hanging earrings at two ends of the iron wire 51 on hooks at two ends of the rack;

4) starting 6 jacking cylinders 21 of the first bending device, pushing a push plate 22 to move upwards, bending the tail of the artificial pine branch 100 upwards, and positioning an iron wire 51 in a hook at the tail of the artificial pine branch 100; then 6 jacking cylinders 21 drive the push plate 22 to move downwards to return;

5) starting 6 top bending cylinders 32 of the second bending device to drive the top plate 31 to move backwards, and further bending the tail part of the artificial pine branch 100 towards the rod part by the chamfer of the top plate 31 and the inclined surface of the wedge-shaped convex edge 1101 of the upper clamping plate 11;

6)3 upper clamping plate pressing cylinders 14 drive the upper clamping plate 11 to move upwards, and 6 upper clamping plate translation cylinders 15 drive the upper clamping plate 11 to move backwards to return to the initial position;

7) starting 9 front pressing plate cylinders 43 of the third bending device to drive the front pressing plate 41 to move downwards, and clamping the tail part of the artificial pine branch 100 close to the iron wire 51 with the rod part by the front pressing plate 41; when the front pressing plate 41 moves downwards, the guide vertical groove 4101 of the rear plane guides the tail of the artificial pine branch 100 to prevent the tail of the artificial pine branch from being pressed askew;

8) starting 9 rear pressing plate cylinders 44 of the third bending device to drive the rear pressing plate 42 to move downwards, and clamping the tail end of the artificial pine branch 100 with the rod part by the rear pressing plate 42;

9) the 9 front pressure plate cylinders 43 drive the front pressure plate 41 to move upwards to the initial position, and the 9 rear pressure plate cylinders 44 drive the rear pressure plate 42 to move upwards to the initial position;

10) the iron wire 51 is picked off from the hooks at the two ends of the frame, and the iron wire 51 and the artificial pine branch 100 clamped on the iron wire 51 are removed; the 5 empty loading clamps 50 are then removed and await the next work cycle.

Claims

1. An artificial pine branch hanging device comprises a frame and is characterized by comprising a clamping device, a first bending device, a second bending device, a third bending device and a plurality of feeding clamps; after the clamping device clamps the rod part of the artificial pine branch, the first bending device bends the tail part of the artificial pine branch extending out of the clamping device, and the artificial pine branch is bent into a shape of 7; the second bending device further bends the tail part of the artificial pine branch towards the rod part, so that an included angle between the tail part of the artificial pine branch and the rod part forms an acute angle; the third bending device attaches the bent tail part of the artificial pine branch to the rod part, so that the tail part of the artificial pine branch is clamped on an iron wire serving as a main rod; the frame comprises a base, a workbench and a cross beam, and the workbench is arranged below the cross beam; the long axes of the beam and the workbench are arranged along the Y-axis direction; the cross beam comprises a first cross beam and a second cross beam, and the second cross beam is arranged behind the first cross beam; the clamping device comprises a strip-shaped upper clamping plate, a strip-shaped lower clamping plate, a lifting beam, a plurality of upper clamping plate pressing cylinders and a plurality of upper clamping plate translation cylinders; the plurality of upper clamping plate pressing cylinders are vertically arranged on the second cross beam and are separately arranged along the long axis direction of the second cross beam, and the lifting beam is fixed at the lower end of a piston rod of each upper clamping plate pressing cylinder; the upper clamping plate translation cylinders are arranged on the lifting beam, piston rods face forwards and are separately arranged along the long axis direction of the lifting beam, the upper clamping plate is fixed at the front end of the piston rod of the upper clamping plate translation cylinder, and the lower clamping plate is fixed at the front end of the workbench; the feeding clamp is arranged on the workbench and positioned behind the lower clamping plate; the first bending device comprises a plurality of jacking cylinders and a strip-shaped push plate, and the push plate is arranged below the front surface of the lower clamping plate; the jacking cylinders are arranged on the base and are separately arranged along the Y-axis direction; the push plate is fixed at the upper end of the piston rod of the jacking cylinder; the second bending device comprises a strip-shaped top plate and a plurality of top bending air cylinders, the top bending air cylinders are arranged on the base through a support, piston rods face backwards and are separately arranged along the Y-axis direction, and the top plate is fixed at the front ends of the piston rods of the top bending air cylinders; the lower end of the front part of the upper splint comprises a wedge-shaped ridge, and the top of the ridge comprises an inclined plane; the lower end of the rear part of the top plate comprises a chamfer, and the inclination angle of the chamfer of the top plate is the same as that of the inclined plane of the ridge; the third bending device comprises a strip-shaped front pressing plate, a strip-shaped rear pressing plate, a plurality of front pressing plate cylinders and a plurality of rear pressing plate cylinders; the front pressing plate is arranged in front of the rear pressing plate, a plurality of front pressing plate cylinders are vertically arranged on the first cross beam and are separately arranged along the first cross beam, and the front pressing plate is fixed at the lower end of a piston rod of the front pressing plate cylinder; the plurality of rear pressure plate cylinders are vertically arranged on the first cross beam and are separately arranged along the first cross beam, and the rear pressure plates are fixed at the lower ends of piston rods of the rear pressure plate cylinders;

the working process of the device is as follows:

101) arranging a plurality of feeding clamps with paved artificial pine branches on a workbench in an initial state of the device, wherein the tail parts of the artificial pine branches in the feeding clamps face to the front;

102) starting an upper clamping plate translation cylinder of the clamping device to drive the upper clamping plate to move forwards to the position above a lower clamping plate; starting an upper clamping plate pressing cylinder of the clamping device to drive the upper clamping plate to move downwards to clamp the artificial pine branches;

103) placing an iron wire above the tail of the artificial pine branch;

104) starting a jacking cylinder of the first bending device, pushing a push plate to move upwards, bending the tail of the artificial pine branch upwards to enable the iron wire to be positioned in a hook at the tail of the artificial pine branch, and driving the push plate to move downwards to return;

105) starting a second bending device to bend the air cylinder to drive the top plate to move backwards, and enabling the top plate and the upper clamping plate to be matched to further bend the tail part of the artificial pine branch towards the rod part;

106) the upper clamping plate pressing cylinder drives the upper clamping plate to move upwards, and the upper clamping plate translation cylinder drives the upper clamping plate to move backwards and return to the initial position;

107) starting a front pressing plate cylinder of the third bending device to drive a front pressing plate to move downwards, wherein the front pressing plate clamps the tail part and the rod part of the artificial pine branch close to the iron wire;

108) starting a rear pressing plate cylinder of the third bending device to drive a rear pressing plate to move downwards, and clamping the tail end of the artificial pine branch and the rod part by the rear pressing plate;

109) the front pressing plate cylinder drives the front pressing plate to move upwards to an initial position, and the rear pressing plate cylinder drives the rear pressing plate to move upwards to the initial position;

1010) the iron wires are picked off from hooks at two ends of the rack, and the iron wires and the artificial pine branches clamped on the iron wires are moved away; and moving the empty feeding clamp away to wait for the next working cycle.

2. The artificial pine branch hitch apparatus of claim 1, wherein the front and rear pressure plates are L-shaped, each comprising a vertical plate and a transverse plate; a transverse plate of the front pressing plate is fixed at the lower end of a piston rod of a cylinder of the front pressing plate, and a vertical plate of the front pressing plate faces downwards; a transverse plate of the rear pressing plate is fixed at the lower end of a piston rod of a cylinder of the rear pressing plate, and a vertical plate of the rear pressing plate faces downwards; the vertical plate of the front pressing plate is close to the vertical plate of the rear pressing plate.

3. The artificial pine branch hitch apparatus of claim 1, wherein the lower portion of the rear planar surface of the forward pressure plate includes a plurality of guide vertical slots.

4. The artificial pine branch hitch apparatus of claim 1, wherein each end of the frame includes a hook for hanging the wire.