CN213786723U - Automatic artificial branch feeding device - Google Patents

Abstract

The invention relates to the field of simulated Christmas trees, in particular to an automatic simulated branch feeding device which comprises a rack, wherein feeding bearing seats are symmetrically fixed on the rack, a feeding rotating rod rotationally connected with the feeding bearing seats is fixed between the two feeding bearing seats, the feeding rotating rod is driven by a feeding overturning cylinder to rotate, a feeding mounting plate is fixed on the feeding rotating rod, a feeding rodless cylinder and a plurality of feeding sliding rails are respectively fixed on the feeding mounting plate, a feeding sliding plate in sliding connection with the feeding sliding rails is fixed on the feeding sliding rails, the feeding sliding plate is fixed with a piston sliding block of the feeding rodless cylinder, a plurality of mini clamps are uniformly fixed on the feeding sliding plate, and the branch feeding device further comprises a feeding bottom plate fixed on the rack. Through this device can be with waiting to glue the emulation branch of coloring and divide into single back transport assigned position and supply for next work station and use, realized automatic branch material and feed.

Description

Automatic artificial branch feeding device

[ technical field ] A method for producing a semiconductor device

The invention relates to the field of simulation Christmas trees, in particular to an automatic simulation branch feeding device.

[ background of the invention ]

The artificial Christmas tree is usually decorated when the artificial Christmas tree passes through the Christmas day, the existing artificial Christmas tree is formed by fixing the artificial Christmas branches of all levels on the backbone of the Christmas tree, in order to make the artificial Christmas tree branches consistent with the appearance structure of the Christmas tree branches, the artificial Christmas tree branches are usually glued and colored at the inner core positions of the trunk and the inner core positions of the branches of the artificial Christmas tree branches, so that the artificial branches are consistent with the appearance structure of the real branches, the existing artificial colored branches are manually fed, the feeding efficiency is low, and the productivity of the artificial branches is seriously influenced.

The invention is provided for overcoming the defects of the prior art.

[ summary of the invention ]

The invention aims to overcome the defects of the prior art and provides an automatic simulated branch feeding device which can realize automatic simulated branch feeding.

The invention can be realized by the following technical scheme:

the invention discloses an automatic simulated branch feeding device, which comprises a rack, wherein feeding bearing seats are symmetrically fixed on the rack, a feeding rotating rod rotationally connected with the feeding bearing seats is fixed between the two feeding bearing seats, the feeding rotating rod is driven to rotate by a feeding overturning cylinder, a feeding mounting plate is fixed on the feeding rotating rod, a feeding rodless cylinder and a plurality of feeding slide rails are respectively fixed on the feeding mounting plate, a feeding sliding plate in sliding connection with the feeding slide rails is fixed on the feeding slide rails, the feeding sliding plate is fixed with a piston sliding block of the feeding rodless cylinder, a plurality of mini clamps are uniformly fixed on the feeding sliding plate, the automatic branch feeding device also comprises a feeding bottom plate fixed on the rack, a plurality of feeding troughs penetrating through the feeding bottom plate are uniformly arranged on the feeding bottom plate, feeding vertical rods are fixed on the feeding bottom plates on two sides of the feeding troughs, and supporting cylinders are fixed on the feeding bottom plates on two sides of the feeding groove and fixedly connected with supporting rods through piston rods.

Preferably, a fixed block is fixed at the tail end of the feeding rotating rod, the bottom of the feeding overturning cylinder is fixed on the rack and is rotatably connected with the rack, an overturning installation block is further fixed on the feeding overturning cylinder through a piston rod, and the overturning installation block is rotatably connected with the fixed block.

Preferably, the feeding bottom plate is further fixed with a leaf trimming cylinder, and the leaf trimming cylinder is fixedly connected with the leaf trimming plate through a piston rod. The simulated branches are pushed to the same position through the flush leaf plates.

Preferably, lower pressing rods are symmetrically fixed on two sides of the feeding bottom plate, and a lower pressing plate connected with the lower pressing rods in a sliding mode is fixed between the two lower pressing rods. The simulated branches are pressed down through the lower pressing plate, and the simulated branches are guaranteed to slide down stably.

The working principle is as follows: the lower pressing plate is taken down from the lower pressing rod, a piston rod on a supporting cylinder is in an extension state, a supporting rod reaches the upper part of each feeding groove, a large number of simulation branches are evenly placed above each feeding groove, the simulation branches are neatly placed between feeding vertical rods on two sides of each feeding groove, the simulation branches on the bottommost layer are blocked by the supporting rod, the lower pressing plate is fixed to the lower pressing rod, a feeding rodless cylinder is started, an upper sliding block of the feeding rodless cylinder moves to the bottom of a feeding mounting plate along with a piston of the feeding rodless cylinder, a feeding sliding plate moves to the bottom of the feeding mounting plate along with a sliding block, a piston rod on a feeding overturning cylinder extends, an overturning mounting block pushes a fixed block to rotate around a feeding rotating rod, and the feeding rotating rod rotates on a feeding bearing seat due to the fact that the fixed block and the feeding rotating rod are fixed, the feeding rotating rod rotates to a horizontal position along with the feeding rotating rod, a mini clamp fixed on the feeding sliding plate reaches the lower part of the corresponding feeding groove, the fingers on the mini clamp are in an open state, the supporting cylinder is started, the piston rod on the supporting cylinder is shortened, the supporting rod is separated from the simulation branches, the simulation branches slide to the mini clamp position due to gravity, the leaf-aligning cylinder is started, the piston rod on the leaf-aligning cylinder is extended, the leaf-aligning plate pushes the simulation branches on the mini clamp to the same position, the mini clamp is started, the mini clamp is provided with two fingers which are folded mutually, the simulation branches on the lowest layer are fixed on the mini clamp, the supporting cylinder is started, the piston rod on the supporting cylinder is extended, the supporting rod extends between the two layers of simulation branches on the lowest layer, the feeding overturning cylinder is started again, the piston rod on the feeding overturning cylinder is shortened, the feeding mounting plate returns to a vertical state, the feeding rodless cylinder is started, the feeding sliding plate slides to a specified position above the feeding mounting plate, and the simulation branches on the mini clamp reach the specified position and are supplied to a next work station for use.

Compared with the prior art, the invention has the following advantages:

through this device can be with waiting to glue the emulation branch of coloring and fall into single back and carry the assigned position to supply for next work station and use, realized automatic branch material and feed, very big improvement production efficiency and reduced the cost of labor.

[ description of the drawings ]

The following detailed description of embodiments of the invention is provided in conjunction with the appended drawings, in which:

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

FIG. 2 is another angular configuration of the present invention;

FIG. 3 is an exploded view of the present invention;

FIG. 4 is an enlarged view taken at A in FIG. 3;

in the figure: 1. a frame; 201. a feeding bearing seat; 202. a feeding rotating rod; 203. a fixed block; 204. a feeding overturning cylinder; 205. turning over the mounting block; 206. a feeding mounting plate; 207. a feeding slide rail; 208. a feeding rodless cylinder; 209. a feeding sliding plate; 210. a mini-clip; 211. a feeding bottom plate; 212. a feeding trough; 213. feeding and erecting a rod; 214. a support cylinder; 215. a support bar; 216. a leaf-trimming cylinder; 217. a leaf trimming plate; 218. a lower pressure lever; 219. a lower pressing plate;

[ detailed description ] embodiments

The embodiments of the present invention will be described in detail below with reference to the accompanying drawings:

as shown in fig. 1 to 4, the invention discloses an automatic artificial branch feeding device, which comprises a frame 1, wherein feeding bearing seats 201 are symmetrically fixed on the frame 1, a feeding rotating rod 202 rotatably connected with the feeding bearing seats 201 is fixed between the two feeding bearing seats 201, the feeding rotating rod 202 is driven to rotate by a feeding overturning cylinder 204, a feeding mounting plate 206 is fixed on the feeding rotating rod 202, a feeding rodless cylinder 208 and a plurality of feeding sliding rails 207 are respectively fixed on the feeding mounting plate 206, a feeding sliding plate 209 slidably connected with the feeding sliding rails 207 is fixed on the feeding sliding rails 207, the feeding sliding plate 209 is fixed with a piston sliding block of the feeding rodless cylinder 208, a plurality of mini clamps 210 are uniformly fixed on the feeding sliding plate 209, the automatic artificial branch feeding device further comprises a feeding bottom plate 211 fixed on the frame 1, a plurality of feeding troughs 212 penetrating through the feeding bottom plate 211 are uniformly arranged on the feeding bottom plate 211, the feeding bottom plates 211 on the two sides of the feeding groove 212 are both fixed with feeding vertical rods 213, the feeding bottom plates 211 on the two sides of the feeding groove 212 are both fixed with supporting cylinders 214, and the supporting cylinders 214 are fixedly connected with supporting rods 215 through piston rods.

Wherein, the end of material loading bull stick 202 is fixed with fixed block 203, and material loading upset cylinder 204 bottom is fixed on frame 1 and rotates with frame 1 to be connected, and material loading upset cylinder 204 still is fixed with upset installation piece 205 through the piston rod, and upset installation piece 205 rotates with fixed block 203 to be connected.

Wherein, the feeding bottom plate 211 is also fixed with a leaf-trimming cylinder 216, and the leaf-trimming cylinder 216 is fixedly connected with a leaf-trimming plate 217 through a piston rod.

Wherein, the two sides of the feeding bottom plate 211 are symmetrically fixed with a lower pressing rod 218, and a lower pressing plate 219 connected with the lower pressing rod 218 in a sliding manner is fixed between the two lower pressing rods 218.

The working principle is as follows: the lower pressing plate 219 is taken down from the lower pressing rod 218, the piston rod on the supporting cylinder 214 is in an extension state, the supporting rod 215 reaches above the feeding trough 212, a large number of simulated branches are uniformly placed above each feeding trough 212, the simulated branches are neatly placed between the feeding vertical rods 213 on the two sides of the feeding trough 212, the simulated branches on the bottommost layer are blocked by the supporting rod 215, the lower pressing plate 219 is fixed to the lower pressing rod 218, the feeding rodless cylinder 208 is started, the upper sliding block on the feeding rodless cylinder 208 moves to the bottom of the feeding mounting plate 206 along with the piston of the feeding rodless cylinder 208, the feeding sliding plate 209 moves to the bottom of the feeding mounting plate 206 along with the sliding block, the piston rod on the feeding overturning cylinder 204 extends, the overturning mounting block 205 pushes the fixed block 203 to rotate around the feeding rotating rod 202, and the feeding rotating rod 202 rotates on the feeding bearing seat 201 due to the fixed block 203 being fixed with the feeding rotating rod 202, the feeding mounting plate 206 rotates to the horizontal position around the feeding rotating rod 202, the mini clamp 210 fixed on the feeding sliding plate 209 reaches the lower part of the corresponding feeding trough 212, the fingers on the mini clamp 210 are in an open state, the supporting cylinder 214 is started, the piston rod on the supporting cylinder 214 is shortened, the supporting rod 215 is separated from the simulated tree branches, the simulated tree branches slide to the position of the mini clamp 210 due to gravity, the leaf-shaped cylinder 216 is started, the piston rod on the leaf-shaped cylinder 216 is extended, the leaf-shaped plate 217 pushes the simulated tree branches on the mini clamp 210 to the same position, the mini clamp 210 is started, the two fingers on the mini clamp 210 are folded, the simulated tree branches on the lowest layer are fixed on the mini clamp 210, the supporting cylinder 214 is started, the piston rod on the supporting cylinder 214 is extended, the supporting rod 215 extends into the position between the two layers of the simulated tree branches on the lowest layer, the feeding overturning cylinder 204 is started again, the piston rod on the feeding overturning cylinder 204 is shortened, the feeding mounting plate 206 returns to a vertical state, the feeding rodless cylinder 208 is started, the feeding sliding plate 209 slides to a designated position above the feeding mounting plate 206, and the simulated branches on the mini-clamp 210 reach the designated position and are supplied to the next work station for use.

The above description is only a preferred embodiment of the present invention, and it should be noted that a person skilled in the art can make various changes, modifications, substitutions and alterations to the embodiments without departing from the technical principles of the present invention, and such changes, modifications, substitutions and alterations should also be regarded as the protection scope of the present invention.

Claims (4)

1. The utility model provides an emulation branch automatic feeding device, includes the frame, its characterized in that: the automatic branch feeding device comprises a rack, a plurality of feeding bearing seats, a plurality of feeding sliding rails, a feeding sliding plate, a plurality of mini clamps, a feeding base plate, a plurality of feeding grooves, a plurality of feeding upright rods, a plurality of supporting cylinders, a plurality of feeding grooves and a plurality of supporting cylinders, wherein the feeding bearing seats are symmetrically fixed on the rack, the feeding rotating rods are rotatably connected with the feeding bearing seats and driven by a feeding overturning cylinder, the feeding rotating rods are fixedly arranged between the two feeding bearing seats, the feeding sliding plate is fixedly provided with a feeding mounting plate, the feeding sliding plate is fixedly provided with a feeding rodless cylinder and a plurality of feeding sliding rails, the feeding sliding rails are slidably connected with the feeding sliding rails, the feeding sliding plate is fixedly connected with a piston sliding block of the feeding rodless cylinder, the feeding sliding plate is uniformly provided with a plurality of mini clamps, the automatic branch feeding device further comprises a feeding base plate fixed on the rack, the feeding base plate is uniformly provided with a plurality of feeding grooves penetrating through the feeding base plate, the feeding upright rods are respectively fixed on the feeding base plates at two sides of the feeding grooves, the supporting cylinders are respectively fixed on the feeding base plate, the supporting cylinder is fixedly connected with a supporting rod through a piston rod.

2. The simulated branch automatic feeding device according to claim 1, wherein: the feeding turnover cylinder is characterized in that a fixed block is fixed at the tail end of the feeding rotating rod, the bottom of the feeding turnover cylinder is fixed on the rack and is rotationally connected with the rack, and a turnover mounting block is fixed on the feeding turnover cylinder through a piston rod and is rotationally connected with the fixed block.

3. The simulated branch automatic feeding device according to claim 1, wherein: the feeding bottom plate is also fixedly provided with a leaf trimming cylinder, and the leaf trimming cylinder is fixedly connected with a leaf trimming plate through a piston rod.

4. The simulated branch automatic feeding device according to claim 1, wherein: lower pressing rods are symmetrically fixed on two sides of the feeding bottom plate, and a lower pressing plate connected with the lower pressing rods in a sliding mode is fixed between the two lower pressing rods.

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