CN111392104A - Single flower is with automatic packing bundle device - Google Patents

Abstract

The invention discloses an automatic packaging and bundling device for single fresh flowers; including tying a case, it ties a case right-hand member face fixedly connected with packing headstock to tie, it makes the die cavity to tie a incasement opening and the ascending V type of opening left and open, V type molding chamber right side intercommunication is equipped with the ascending chamber of tying of opening, it is equipped with the lift case chamber that is located packing headstock and opening left to tie a chamber right side intercommunication, it descends the cooperation V type to make the die cavity and ties the limiting displacement in bundle chamber and can accomplish the roughly moulding of outer wrapping paper through the lift case, guarantee that its outward appearance after the packing is accomplished is every, the rotation that the cooperation rotates the case of wrapping paper through the clamp plate presss from both sides tightly accomplishes the automatic rotation packing of flower, can inwards buckle the iron wire through buckling splint ration rotation, the cooperation is tied a rotation of dish and is tied the automatic bundle of accomplishing the iron wire of the inward movement of limiting plate, thereby the automatic packing of accomplishing the flower is tied a bundle operation.

Description

Single flower is with automatic packing bundle device

Technical Field

The invention relates to the technical field of packing machines, in particular to an automatic packing and bundling device for single fresh flowers.

Background

Flowers usually need sell after the packing, the flower of single sale type is because sales volume is great, can waste salesman's plenty of time generally and be used for the packing, and paper packing is because its packaging process is comparatively complicated, and is less to the relevant machine of flower packing on the market, the large-scale machine that mostly is the factory to use, the wrapping bag of some plastic film forms can reduce the packing time, but its packing effect and outward appearance aesthetic measure are not as good as traditional paper packing, and the flower of plastic film packing also needs manual bundle after the packing is accomplished simultaneously, and a large amount of bundles also can increase staff's the amount of labour.

Disclosure of Invention

Aiming at the technical defects, the invention provides an automatic packing and bundling device for single fresh flowers, which can overcome the defects.

The invention relates to an automatic packing and bundling device for single fresh flowers, which comprises a bundling box, wherein a packing power box is fixedly connected to the right end face of the bundling box, a V-shaped molding cavity with a leftward opening and an upward opening is arranged in the bundling box, a bundling cavity with an upward opening is communicated with the right side of the V-shaped molding cavity, a lifting box cavity with a leftward opening is communicated with the right side of the bundling cavity, and is positioned in the packing power box, a lifting box is connected with the lifting box cavity in a sliding fit manner, a lifting compression spring is fixedly connected between the lower end face of the lifting box and the lower end wall of the lifting box cavity, a rotating power cavity with a rightward opening is arranged in the lifting box, a rotating steering cavity is arranged at the lower side of the rotating power cavity, a rotating box cavity with a leftward opening is arranged at the left side of the rotating steering cavity, a rotating box is arranged in the rotating box cavity, and a rotating transmission cavity capable of corresponding to the rotating, a transmission steering cavity positioned on the lower side of the lifting box cavity is arranged on the lower side of the rotary transmission cavity, an engaging cavity is arranged on the rear side of the transmission steering cavity, a lifting wire wheel cavity is arranged at the rear side of the meshing cavity, a motor fixedly connected with the packaging power box is arranged at the rear side of the lifting wire wheel cavity, the front side of the bundling cavity is communicated with a bundling disc rotating cavity, the rear side of the bundling cavity is communicated with a bending cavity, the left side of the bending cavity is communicated with an iron wire cavity, the rear side of the bending cavity is vertically and symmetrically communicated with a bending splint cavity, a half gear cavity is arranged on the right side of the bending splint cavity, a bevel gear cavity is arranged on the right side of the half gear cavity, an upper transmission cavity and a lower transmission cavity are arranged at the rear side of the bevel gear cavity, a bent transmission belt cavity extending rightwards to the rear side of the meshing cavity is arranged at the rear side of the upper transmission cavity and the lower transmission cavity, and a bundling transmission belt cavity extending rightwards to the front side of the meshing cavity is arranged at the front side of the bundling plate rotating cavity.

On the basis of the technical scheme, the lifting wire wheel cavity comprises a driving shaft, the driving shaft is connected with the rear end wall of the lifting wire wheel cavity in a rotating fit manner, the driving shaft extends backwards to be fixedly connected with a motor and extends forwards to penetrate through the lifting wire wheel cavity to the meshing cavity, a lifting wire wheel connected with the driving shaft in a sliding fit manner is arranged in the lifting wire wheel cavity, a first driven shaft which extends backwards to the meshing cavity and extends forwards to the transmission steering cavity is connected to the front end wall of the meshing cavity in a rotating fit manner, a binding transmission shaft which extends forwards to the binding transmission belt cavity and extends backwards to the bending transmission belt cavity is connected to the rear end wall of the meshing cavity in a rotating fit manner, a spline shaft which is connected with the driving shaft in a spline fit manner is arranged in the meshing cavity, and the tail end of the front side of the spline shaft is connected with a magnet turntable, the lifting wire wheel is characterized in that electromagnets corresponding to the magnet rotary tables are fixedly connected into the front end walls of the meshing cavities, meshing extension springs are fixedly connected between the front end surfaces of the magnet rotary tables and the front end walls of the meshing cavities, and lifting pull ropes fixedly connected with the other ends of the lifting wire wheels and the lower end surface of the lifting box are fixedly connected.

On the basis of the technical scheme, the meshing cavity comprises a driving meshing gear, the driving meshing gear is fixedly connected with the spline shaft and is positioned at the rear side of the magnet turntable, a rotating meshing gear which is fixedly connected with the first driven shaft and can be meshed with the driving meshing gear is arranged in the meshing cavity, a bundling meshing gear which is fixedly connected with the bundling transmission shaft and is positioned at the rear side of the rotating meshing gear is arranged in the meshing cavity, the bundling meshing gear can be meshed with the driving meshing gear, a first bevel gear which is fixedly connected with the first driven shaft is arranged in the transmission steering cavity, a second driven shaft which rotates upwards and extends into the rotating transmission cavity and downwards extends into the transmission steering cavity is connected to the upper end wall of the transmission steering cavity in a matching manner, and a second bevel gear which is fixedly connected with the second driven shaft and is meshed with the first bevel gear is arranged in the transmission steering cavity, and a rotary transmission gear fixedly connected with the second driven shaft is arranged in the rotary transmission cavity.

On the basis of the technical scheme, the lifting box comprises a rotating transmission shaft, the rotating transmission shaft is in bilateral symmetry and is in rotating fit connection with the lower end wall of the rotating power cavity and extends upwards into the rotating power cavity, the rotating transmission shaft on the left side extends downwards into the rotating steering cavity, a rotary transmission gear which is fixedly connected with the rotary transmission shaft and is mutually meshed is arranged in the rotary power cavity, the rotating transmission gear can be meshed with the rotating transmission gear, the left end wall of the rotating steering cavity is connected with a rotating shaft which extends leftwards to be fixedly connected with the right end face of the rotating box and rightwards to extend into the rotating steering cavity in a rotating matching way, and a third bevel gear fixedly connected with the rotating shaft is arranged in the rotating steering cavity, and a fourth bevel gear fixedly connected with the rotating transmission shaft on the left side and meshed with the third bevel gear is also arranged in the rotating steering cavity.

On the basis of the technical scheme, the rotating box comprises a flower stalk fixing cavity, the flower stalk fixing cavity is positioned in the rotating box and has a leftward opening, the outer side of the flower holder fixing cavity is communicated with four fixing clamping block cavities which are arranged circumferentially, the fixing clamping block cavities are connected with fixing clamping blocks in a sliding fit manner, a clamping block compression spring is fixedly connected between the outer end face of the fixed clamping block and the outer end wall of the cavity of the fixed clamping block, a clamping plate cavity with a leftward opening is arranged at the left side of the fixed clamping block cavity, a clamping plate extending leftward is connected in the clamping plate cavity in a sliding fit manner, a clamping balancing weight cavity is arranged at the right side of the fixed clamping block cavity, a clamping balancing weight is connected in the clamping balancing weight cavity in a sliding fit manner, a clamping extension spring is fixedly connected between the inner end surface of the clamping balancing weight and the inner end wall of the cavity of the clamping balancing weight, and the inner end surface of the clamping balancing weight is fixedly connected with a clamping plate pull rope, and the other end of the clamping balancing weight is fixedly connected with the inner end surface of the clamping plate.

On the basis of the technical scheme, the bending splint cavity comprises a bending splint rotating shaft, the bending splint rotating shaft is connected with the right end wall of the bending splint cavity in a rotating fit manner, the bending splint rotating shaft extends leftwards into the bending splint cavity and rightwards into the half gear cavity, a bending splint fixedly connected with the bending splint rotating shaft is arranged in the bending splint cavity, an iron wire push plate is connected in the iron wire cavity in a sliding fit manner, a feeding compression spring is fixedly connected between the left end surface of the iron wire push plate and the left end wall of the iron wire cavity, a half gear fixedly connected with the bending splint rotating shaft is arranged in the bending transmission gear, a spiral spring is fixedly connected between the right end surface of the bending splint rotating shaft and the right end wall of the half gear cavity in a rotating manner, and a third driven shaft which extends leftwards into the half gear cavity and rightwards into the bevel gear cavity is connected in a matching manner on the, and a bent transmission gear which is fixedly connected with the third driven shaft and can be meshed with the half gear is arranged in the half gear cavity.

On the basis of the technical scheme, the bevel gear cavity comprises a fifth bevel gear, the fifth bevel gear is located in the bevel gear cavity and fixedly connected with a third driven shaft, the rear end wall of the bevel gear cavity is in internal rotation fit connection with a bending transmission shaft which extends forwards into the bevel gear cavity and extends backwards into the upper transmission cavity and the lower transmission cavity, the bending transmission shaft extends backwards into the bending transmission belt cavity at the upper side, the bevel gear cavity is internally provided with a sixth bevel gear which is fixedly connected with the bending transmission shaft and meshed with the fifth bevel gear, an upper transmission belt and a lower transmission belt which are located in the upper transmission cavity and the lower transmission cavity are in power fit connection between the bending transmission shafts, and the bending transmission shaft and the bundling transmission shaft at the upper side are in power fit connection with the bending transmission belt which is located.

On the basis of the technical scheme, it rotates the chamber including pricking a set pivot to prick a set, prick a set pivot with prick a set and rotate the chamber front end wall normal running fit and connect, prick a set pivot forward extend to prick bundle drive belt intracavity and backward extend to prick a set and rotate the intracavity, prick a set pivot with prick power fit between the bundle transmission shaft and be connected with and be located prick bundle drive belt of bundle drive belt intracavity, prick bundle set rotate the intracavity be equipped with prick a set pivot fixed connection prick a bundle board slip chamber, be equipped with in pricking a set with prick a set pivot and be the bundle board slip chamber that central symmetry set up, initial state lower left side prick bundle board slip chamber opening and right side prick bundle board slip chamber opening downwards, prick in the set with it is provided with for central symmetry to prick a set pivot and prick a set balancing weight chamber, initial state lower left side bundle chamber is located the left side prick a set sliding chamber downside and right side of bundle board slip chamber downside and right side The bundling plate comprises a bundling plate sliding cavity, a bundling limiting plate is connected in a sliding fit mode in the bundling plate sliding cavity, a bundling balancing weight is connected in a sliding fit mode in the bundling balancing weight cavity, a bundling tension spring is fixedly connected between the inner end face of the bundling balancing weight and the inner end wall of the bundling balancing weight cavity, and the other end of the inner end face of the bundling balancing weight is fixedly connected with a bundling plate pull rope fixedly connected with the inner end face of the bundling limiting plate.

The invention has the beneficial effects that: the lifting box descends to be matched with the V-shaped die forming cavity and the limiting effect of the bundling cavity to roughly shape the outer packaging paper, the appearance of the box after packaging is guaranteed to be per, the packaging paper is clamped through the clamping plate to be matched with the rotating box to rotate to complete automatic rotating packaging of flowers, the iron wire can be bent inwards through quantitative rotation of the bending clamping plate, the rotation of the bundling plate and the automatic bundling of the iron wire through inward movement of the bundling limiting plate are matched to complete automatic packaging and bundling operation of the flowers.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural view of an automatic packing and bundling device for single fresh flower according to the present invention;

FIG. 2 is a schematic sectional view taken along the line A-A in FIG. 1;

FIG. 3 is a schematic sectional view taken along line B-B in FIG. 1;

FIG. 4 is a schematic cross-sectional view taken along the direction C-C in FIG. 3;

FIG. 5 is a schematic sectional view taken along the direction D-D in FIG. 3;

fig. 6 is an enlarged schematic view of the structure at E in fig. 1.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-6, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

As shown in fig. 1-6, the automatic flower packing and bundling device of the present invention comprises a bundling box 10, a packing power box 18 is fixedly connected to the right end face of the bundling box 10, a V-shaped cavity 20 with a left opening and an upward opening is arranged in the bundling box 10, a bundling cavity 19 with an upward opening is communicated with the right side of the V-shaped cavity 20, a lifting box cavity 17 with a left opening is communicated with the right side of the bundling cavity 19, a lifting box cavity 17 with a right opening is positioned in the packing power box 18, a lifting box 71 is slidably connected in the lifting box cavity 17, a lifting compression spring 15 is fixedly connected between the lower end face of the lifting box 71 and the lower end wall of the lifting box cavity 17, a rotating power cavity 72 with a right opening is arranged in the lifting box 71, a rotating steering cavity 76 is arranged on the lower side of the rotating power cavity 72, a rotating box cavity 79 with a left opening is arranged on the left side of the rotating steering cavity 76, the rotary box cavity 79 is internally provided with a rotary box 67, the right side of the lifting box cavity 17 is communicated with a rotary transmission cavity 14 which can correspond to the rotary power cavity 72, the lower side of the rotary transmission cavity 14 is provided with a transmission steering cavity 30 which is positioned at the lower side of the lifting box cavity 17, the rear side of the transmission steering cavity 30 is provided with a meshing cavity 38, the rear side of the meshing cavity 38 is provided with a lifting wire wheel cavity 23, the rear side of the lifting wire wheel cavity 23 is provided with a motor 22 which is fixedly connected with the packaging power box 18, the front side of the bundling cavity 19 is communicated with a bundling disc rotating cavity 41, the rear side of the bundling cavity 19 is communicated with a bending cavity 57, the left side of the bending cavity 57 is communicated with an iron wire cavity 58, the rear side of the bending cavity 57 is communicated with bending clamp plate cavities 46 in an up-and-down symmetrical manner, the right side of the bending clamp plate cavity 46 is provided with a half gear cavity 86, the right side of the half gear cavity 86 is provided with a bevel gear cavity, the rear side of the upper and lower transmission cavity 50 at the upper side is provided with a bending transmission belt cavity 40 extending rightwards to the rear side of the meshing cavity 38, and the front side of the bundling disk rotating cavity 41 is provided with a bundling transmission belt cavity 32 extending rightwards to the front side of the meshing cavity 38.

In addition, in one embodiment, the lifting pulley cavity 23 includes a driving shaft 25, the driving shaft 25 is connected with the rear end wall of the lifting pulley cavity 23 in a rotationally matched manner, the driving shaft 25 extends backward to be fixedly connected with the motor 22 and extends forward to penetrate through the lifting pulley cavity 23 into the meshing cavity 38, a lifting pulley 24 connected with the driving shaft 25 in a sliding matched manner is arranged in the lifting pulley cavity 23, a first driven shaft 33 extending backward into the meshing cavity 38 and extending forward into the transmission steering cavity 30 is connected in a rotationally matched manner in the front end wall of the meshing cavity 38, a bundling transmission shaft 39 extending forward to penetrate through the meshing cavity 38 into the bundling transmission belt cavity 32 and extending backward into the bending transmission belt cavity 40 is connected in a rotationally matched manner in the rear end wall of the meshing cavity 38, a spline shaft 26 connected with the driving shaft 25 in a spline fit manner is arranged in the meshing cavity 38, the tail end of the front side of the spline shaft 26 is connected with a magnet rotating disc 35 in a rotating fit mode, the inner portion of the front end wall of the meshing cavity 38 is fixedly connected with an electromagnet 34 corresponding to the magnet rotating disc 35, the front end face of the magnet rotating disc 35 is fixedly connected with a meshing extension spring 28 between the front end walls of the meshing cavity 38, and the other end of the upper fixedly connected with the lifting pull rope 16 fixedly connected with the lower end face of the lifting box 71 is fixedly connected onto the lifting wire wheel 24.

In addition, in one embodiment, the engagement cavity 38 includes a driving engagement gear 36, the driving engagement gear 36 is fixedly connected to the spline shaft 26 and located at the rear side of the magnet rotary table 35, a rotation engagement gear 27 that is fixedly connected to the first driven shaft 33 and can be engaged with the driving engagement gear 36 is disposed in the engagement cavity 38, a bundling engagement gear 37 that is fixedly connected to the bundling transmission shaft 39 and located at the rear side of the rotation engagement gear 27 is disposed in the engagement cavity 38, the bundling engagement gear 37 can be engaged with the driving engagement gear 36, a first bevel gear 29 that is fixedly connected to the first driven shaft 33 is disposed in the transmission steering cavity 30, a second driven shaft 12 that extends upward into the rotation transmission cavity 14 and downward into the transmission steering cavity 30 is cooperatively connected to an upper end wall of the transmission steering cavity 30, a second bevel gear 11 fixedly connected with the second driven shaft 12 and meshed with the first bevel gear 29 is arranged in the transmission steering cavity 30, and a rotary transmission gear 13 fixedly connected with the second driven shaft 12 is arranged in the rotary transmission cavity 14.

In addition, in one embodiment, the lifting box 71 includes a rotation transmission shaft 74, the rotation transmission shaft 74 is connected with the lower end wall of the rotation power cavity 72 in a left-right symmetrical manner and extends upwards into the rotation power cavity 72, the rotation transmission shaft 74 on the left side extends downwards into the rotation steering cavity 76, a rotation transmission gear 73 fixedly connected with the rotation transmission shaft 74 and engaged with each other is arranged in the rotation power cavity 72, the rotation transmission gear 73 can be engaged with the rotation transmission gear 13, a rotation shaft 78 fixedly connected with the right end surface of the rotation box 67 and extending rightwards into the rotation steering cavity 76 is connected with the left end wall of the rotation steering cavity 76 in a rotating and matching manner, a third bevel gear 77 fixedly connected with the rotation shaft 78 is arranged in the rotation steering cavity 76, and a third bevel gear 77 fixedly connected with the left rotation transmission shaft 74 and engaged with the third bevel gear 77 is further arranged in the rotation steering cavity 76 A four bevel gear 75.

In addition, in one embodiment, the rotating box 67 includes a flower handle fixing cavity 87, the flower handle fixing cavity 87 is located in the rotating box 67 and has a leftward opening, four circumferentially arranged fixing clamping block cavities 80 are communicated with the outer side of the flower handle fixing cavity 87, a fixing clamping block 85 is connected in the fixing clamping block cavity 80 in a sliding fit manner, a clamping block compression spring 81 is fixedly connected between the outer end face of the fixing clamping block 85 and the outer end wall of the fixing clamping block cavity 80, a clamping plate cavity 84 with a leftward opening is arranged on the left side of the fixing clamping block cavity 80, a clamping plate 83 extending leftward is connected in the clamping plate cavity 84 in a sliding fit manner, a clamping counterweight block cavity 69 is arranged on the right side of the fixing clamping block cavity 80, a clamping counterweight block 68 is connected in the clamping counterweight block cavity 69 in a sliding fit manner, a clamping extension spring 70 is fixedly connected between the inner end face of the clamping counterweight block 68 and the inner end wall, the inner end surface of the clamping counterweight block 68 is fixedly connected with a clamping plate pull rope 82, and the other end of the clamping plate pull rope is fixedly connected with the inner end surface of the clamping plate 83.

In addition, in an embodiment, the bending splint chamber 46 includes the bending splint pivot 44, the bending splint pivot 44 with the bending splint chamber 46 right end wall normal running fit is connected, the bending splint pivot 44 extends to left in the bending splint chamber 46 and extends to right in the half gear chamber 86, be equipped with in the bending splint chamber 46 with the bending splint 43 of bending splint pivot 44 fixed connection, sliding fit is connected with iron wire push pedal 59 in the iron wire chamber 58, iron wire push pedal 59 left end face with fixedly connected with feeding compression spring 45 between the iron wire chamber 58 left end wall, be equipped with in the transmission gear 47 with the half gear 56 of bending splint pivot 44 fixed connection, bending splint pivot 44 right end face with fixedly connected with coil spring 55 between the half gear chamber 86 right end wall, half gear chamber 86 right end wall internal running fit is connected with extend to left in the half gear chamber 86 and extend to right And a third driven shaft 52 is arranged in the bevel gear cavity 53, and a bent transmission gear 47 which is fixedly connected with the third driven shaft 52 and can be meshed with the half gear 56 is arranged in the half gear cavity 86.

In addition, in one embodiment, the bevel gear chamber 53 includes a fifth bevel gear 54, the fifth bevel gear 54 is located in the bevel gear chamber 53 and is fixedly connected with the third driven shaft 52, the rear end wall of the bevel gear cavity 53 is connected with a bending transmission shaft 49 which extends forwards into the bevel gear cavity 53 and backwards into the upper and lower transmission cavities 50 in a rotating fit manner, the upper side bending transmission shaft 49 extends backwards into the bending transmission belt cavity 40, a sixth bevel gear 51 which is fixedly connected with the bending transmission shaft 49 and is meshed with the fifth bevel gear 54 is arranged in the bevel gear cavity 53, an upper transmission belt 48 and a lower transmission belt 48 which are positioned in the upper transmission cavity 50 and the lower transmission cavity 50 are connected between the bending transmission shafts 49 in a power matching manner, and a bending transmission belt 21 which is positioned in the bending transmission belt cavity 40 is connected between the bending transmission shaft 49 at the upper side and the bundling transmission shaft 39 in a power matching manner.

In addition, in one embodiment, the bundling plate rotating cavity 41 includes a bundling plate rotating shaft 42, the bundling plate rotating shaft 42 is connected to the front end wall of the bundling plate rotating cavity 41 in a rotating fit manner, the bundling plate rotating shaft 42 extends forward into the bundling belt cavity 32 and extends backward into the bundling plate rotating cavity 41, a bundling belt 31 located in the bundling belt cavity 32 is connected between the bundling plate rotating shaft 42 and the bundling transmission shaft 39 in a power fit manner, a bundling plate sliding cavity 60 fixedly connected to the bundling plate rotating shaft 42 is arranged in the bundling plate rotating cavity 41, bundling plate sliding cavities 60 symmetrically arranged with the bundling plate rotating shaft 42 as a center are arranged in the bundling plate 66, the left bundling plate sliding cavity 60 is opened and the right bundling plate sliding cavity 60 is opened downward in an initial state, bundling plate balancing weight cavities 63 are symmetrically arranged in the bundling plate 66 with the bundling plate rotating shaft 42 as a center, bundle balancing weight chamber 63 is located the left side under the initial condition bundle balancing weight chamber 60 downside and the right side bundle balancing weight chamber 63 is located the right side bundle board slip chamber 60 upside, it is connected with bundle limiting plate 61 to bundle sliding fit in the board slip chamber 60, it is connected with bundle balancing weight 64 to bundle sliding fit in the balancing weight chamber 63, bundle balancing weight 64 interior terminal surface with bundle fixedly connected with bundle extension spring 65 between the terminal wall in balancing weight chamber 63, bundle balancing weight 64 interior terminal surface fixedly connected with other end with bundle board stay cord 62 of terminal surface fixed connection in limiting plate 61.

The applicant will now specifically describe an automatic flower packing and bundling device according to the present application with reference to the accompanying drawings, in which fig. 1-6 and the above description are shown:

when the flower packing machine starts working, flowers to be packed are inserted between the fixed clamping blocks 85, packing paper is placed on the upper end face of the bundling box 10, and the tail end of the right side of the packing paper is located between a flower stalk and the bottom end clamping plate 83; starting the motor 22, the motor 22 drives the driving shaft 25 to rotate, because the friction force exists between the driving shaft 25 and the lifting pulley 24, the driving shaft 25 rotates to drive the lifting pulley 24 to rotate and simultaneously drive the spline shaft 26 to rotate, the lifting pulley 24 rotates to drive the lifting box 71 to move downwards by overcoming the thrust of the lifting compression spring 15 through the lifting pull rope 16, thereby driving flowers to move downwards, and leading the wrapping paper on the lower side of the flowers to be extruded by the flower stalks and to be attached to the side walls of the V-shaped shaping cavity 20 and the bundling cavity 19, the spline shaft 26 rotates to drive the rotating meshing gear 27 to rotate through the driving meshing gear 36, thereby driving the first bevel gear 29 to rotate through the first driven shaft 33, the first bevel gear 29 rotates to drive the second driven shaft 12 to rotate through the second bevel gear 11, thereby driving the rotating transmission gear 13 to rotate, when the lifting box 71 moves downwards until the rotating, the rotation transmission gear 13 rotates to drive the rotation transmission shaft 74 to rotate through the rotation transmission gear 73, so as to drive the fourth bevel gear 75 to rotate, the fourth bevel gear 75 rotates to drive the rotation shaft 78 to rotate through the third bevel gear 77, so as to drive the rotation box 67 to rotate, the rotation box 67 rotates to enable the clamping balancing weight 68 to overcome the tension of the clamping extension spring 70 to move outwards under the action of centrifugal force, so that the clamping plate 83 is driven to move inwards through the clamping plate pull rope 82, so that the packing paper is clamped through the clamping plate 83 at the lowest end, and the rotation packing of the packing paper outside the flower stalk is completed by matching with the rotation of the rotation box; after the wrapping paper is completely rolled outside the flowers, the electromagnet 34 is started, the magnet rotating disc 35 overcomes the pulling force of the engaging extension spring 28 to move backwards under the action of the repulsive force between the magnet rotating disc 35 and the electromagnet 34, so as to drive the spline shaft 26 and the driving engaging gear 36 to move backwards until the driving engaging gear 36 is engaged with the bundling engaging gear 37, at this time, the rotating box 67 stops rotating, the driving engaging gear 36 rotates to drive the bundling engaging gear 37 to rotate, the bundling engaging gear 37 rotates to drive the bundling transmission shaft 39 to rotate, the bundling transmission shaft 39 rotates to drive the upper bending transmission shaft 49 to rotate through the bending transmission belt 21 and simultaneously drive the bundling disc rotating shaft 42 to rotate through the bundling transmission belt 31, the upper bending transmission shaft 49 rotates to drive the lower bending transmission shaft 49 to rotate through the upper and lower transmission belts 48, the bending transmission shaft 49 rotates to drive the fifth bevel gear 54 to rotate through the sixth, thereby driving the bending transmission gear 47 to rotate through the third driven shaft 52, the bending transmission gear 47 rotates to drive the half gear 56 and the bending splint rotating shaft 44 to rotate against the elasticity of the spiral spring 55, when the iron wire in the bending cavity 57 is thus bent around the wrapped flower stalk by the rotation of the bending splint 43 and the end of the iron wire is located in the bundling plate rotating cavity 41, when the bending clamping plate 43 rotates ninety degrees, the rear half gear 56 is just disengaged from the bending transmission gear 47, the bundling plate rotating shaft 42 rotates to drive the bundling plate 66 to rotate, so that the bundling counter weight block 64 overcomes the pulling force of the bundling extension spring 65 to move outwards under the action of centrifugal force, the bundling plate pulling rope 62 drives the bundling limiting plate 61 to move inwards, so that the bundling limiting plate 61 is matched with the bundling limiting plate 61 to move inwards to drive the tail ends of the two sides of the iron wire to rotate around the bundling plate rotating shaft 42, and bundling of the packaged flower stalks is completed; after bundling is finished, the electromagnet 34 is turned off, the motor 22 is turned off, the bent clamping plate rotating shaft 44 rotates reversely under the elastic force of the spiral spring 55, so that the bent clamping plate 43 is driven to reset, the lifting box 71 loses the pulling force of the lifting pull rope 16 and then moves upwards to the top end of the lifting box cavity 17 under the pushing force of the lifting compression spring 15, and the flower stalk is taken out from the position between the fixed clamping blocks 85, so that the automatic packaging and bundling process is completed.

The invention has the beneficial effects that: the lifting box descends to be matched with the V-shaped die forming cavity and the limiting effect of the bundling cavity to roughly shape the outer packaging paper, the appearance of the box after packaging is guaranteed to be per, the packaging paper is clamped through the clamping plate to be matched with the rotating box to rotate to complete automatic rotating packaging of flowers, the iron wire can be bent inwards through quantitative rotation of the bending clamping plate, the rotation of the bundling plate and the automatic bundling of the iron wire through inward movement of the bundling limiting plate are matched to complete automatic packaging and bundling operation of the flowers.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims (8)

1. The utility model provides a single flower is with automatic packing bundle device, is including bundling a case, its characterized in that: the right end face of the bundling box is fixedly connected with a packaging power box, a V-shaped molding cavity with a left opening and an upward opening is arranged in the bundling box, a bundling cavity with an upward opening is communicated with the right side of the V-shaped molding cavity, a lifting box cavity with a left opening is arranged in the packaging power box and communicated with the right side of the bundling cavity, a lifting box is connected in the lifting box cavity in a sliding fit manner, a lifting compression spring is fixedly connected between the lower end face of the lifting box and the lower end wall of the lifting box cavity, a rotating power cavity with a right opening is arranged in the lifting box, a rotating steering cavity is arranged at the lower side of the rotating power cavity, a rotating box cavity with a left opening is arranged at the left side of the rotating steering cavity, a rotating box is arranged in the rotating box cavity, a rotating transmission cavity capable of corresponding to the rotating power cavity is arranged in the right side of the lifting box cavity, and a transmission steering cavity positioned at the lower, the transmission turns to the chamber rear side and is equipped with the meshing chamber, the meshing chamber rear side is equipped with the lift line wheel chamber, lift line wheel chamber rear side be equipped with packing headstock fixed connection's motor, it is equipped with and pricks bundle dish rotation chamber to prick bundle chamber front side intercommunication, it is equipped with the chamber of buckling to prick bundle chamber rear side intercommunication, it is equipped with the iron silk chamber to buckle chamber left side intercommunication, it is equipped with the bending splint chamber to buckle chamber rear side longitudinal symmetry intercommunication, bending splint chamber right side is equipped with half gear chamber, half gear chamber right side is equipped with the bevel gear chamber, bevel gear chamber rear side is equipped with the upper and lower transmission chamber, the upside the upper and lower transmission chamber rear side be equipped with extend right to the transmission belt chamber of buckling of meshing chamber rear side, it is equipped with the bundle transmission belt chamber that extends right to prick the dish rotation chamber front side engage the chamber front side.

2. The automatic packing and bundling device for single fresh flower according to claim 1, wherein: the lifting wire wheel cavity comprises a driving shaft, the driving shaft is connected with the rear end wall of the lifting wire wheel cavity in a rotating fit manner, the driving shaft extends backwards to be fixedly connected with the motor and extends forwards to penetrate through the lifting wire wheel cavity into the meshing cavity, a lifting wire wheel connected with the driving shaft in a sliding fit manner is arranged in the lifting wire wheel cavity, a first driven shaft which extends backwards into the meshing cavity and extends forwards into the transmission steering cavity is connected with the front end wall of the meshing cavity in a rotating fit manner, a bundling transmission shaft which extends forwards to penetrate through the meshing cavity into the bundling transmission belt cavity and extends backwards into the bending transmission belt cavity is connected with the rear end wall of the meshing cavity in a rotating fit manner, a spline shaft which is in spline fit connection with the driving shaft is arranged in the meshing cavity, and a magnet turntable is connected with the tail end of the front side of, the lifting wire wheel is characterized in that electromagnets corresponding to the magnet rotary tables are fixedly connected into the front end walls of the meshing cavities, meshing extension springs are fixedly connected between the front end surfaces of the magnet rotary tables and the front end walls of the meshing cavities, and lifting pull ropes fixedly connected with the other ends of the lifting wire wheels and the lower end surface of the lifting box are fixedly connected.

3. The automatic packing and bundling device for single fresh flower according to claim 1, wherein: the engaging cavity comprises an active engaging gear, the active engaging gear is fixedly connected with the spline shaft and is positioned at the rear side of the magnet turntable, a rotating engaging gear which is fixedly connected with the first driven shaft and can be engaged with the active engaging gear is arranged in the engaging cavity, a bundling engaging gear which is fixedly connected with the bundling transmission shaft and is positioned at the rear side of the rotating engaging gear is arranged in the engaging cavity, the bundling engaging gear can be engaged with the active engaging gear, a first bevel gear which is fixedly connected with the first driven shaft is arranged in the transmission steering cavity, a second driven shaft which extends upwards into the rotating transmission cavity and downwards into the transmission steering cavity is connected in a rotating fit manner in the upper end wall of the transmission steering cavity, and a second bevel gear which is fixedly connected with the second driven shaft and is engaged with the first bevel gear is arranged in the transmission steering cavity, and a rotary transmission gear fixedly connected with the second driven shaft is arranged in the rotary transmission cavity.

4. The automatic packing and bundling device for single fresh flower according to claim 1, wherein: the lifting box comprises a rotating transmission shaft, the rotating transmission shaft is in bilateral symmetry and is connected with the lower end wall of the rotating power cavity in a rotating matching way and extends upwards into the rotating power cavity, the rotating transmission shaft on the left side extends downwards into the rotating steering cavity, a rotary transmission gear which is fixedly connected with the rotary transmission shaft and is mutually meshed is arranged in the rotary power cavity, the rotating transmission gear can be meshed with the rotating transmission gear, the left end wall of the rotating steering cavity is connected with a rotating shaft which extends leftwards to be fixedly connected with the right end face of the rotating box and rightwards to extend into the rotating steering cavity in a rotating matching way, and a third bevel gear fixedly connected with the rotating shaft is arranged in the rotating steering cavity, and a fourth bevel gear fixedly connected with the rotating transmission shaft on the left side and meshed with the third bevel gear is also arranged in the rotating steering cavity.

5. The automatic packing and bundling device for single fresh flower according to claim 1, wherein: the rotating box comprises a flower stalk fixing cavity, the flower stalk fixing cavity is positioned in the rotating box and has a left opening, the outer side of the flower holder fixing cavity is communicated with four fixing clamping block cavities which are arranged circumferentially, the fixing clamping block cavities are connected with fixing clamping blocks in a sliding fit manner, a clamping block compression spring is fixedly connected between the outer end face of the fixed clamping block and the outer end wall of the cavity of the fixed clamping block, a clamping plate cavity with a leftward opening is arranged at the left side of the fixed clamping block cavity, a clamping plate extending leftward is connected in the clamping plate cavity in a sliding fit manner, a clamping balancing weight cavity is arranged at the right side of the fixed clamping block cavity, a clamping balancing weight is connected in the clamping balancing weight cavity in a sliding fit manner, a clamping extension spring is fixedly connected between the inner end surface of the clamping balancing weight and the inner end wall of the cavity of the clamping balancing weight, and the inner end surface of the clamping balancing weight is fixedly connected with a clamping plate pull rope, and the other end of the clamping balancing weight is fixedly connected with the inner end surface of the clamping plate.

6. The automatic packing and bundling device for single fresh flower according to claim 1, wherein: the bending splint cavity comprises a bending splint rotating shaft, the bending splint rotating shaft is connected with the right end wall of the bending splint cavity in a rotating fit manner, the bending splint rotating shaft extends leftwards into the bending splint cavity and rightwards into the half gear cavity, a bending splint fixedly connected with the bending splint rotating shaft is arranged in the bending splint cavity, an iron wire push plate is connected in the iron wire cavity in a sliding fit manner, a feeding compression spring is fixedly connected between the left end surface of the iron wire push plate and the left end wall of the iron wire cavity, a half gear fixedly connected with the bending splint rotating shaft is arranged in the bending transmission gear, a spiral spring is fixedly connected between the right end surface of the bending splint rotating shaft and the right end wall of the half gear cavity, and a third driven shaft which extends leftwards into the half gear cavity and rightwards into the bevel gear cavity is connected in a rotating fit manner on the right end wall of, and a bent transmission gear which is fixedly connected with the third driven shaft and can be meshed with the half gear is arranged in the half gear cavity.

7. The automatic packing and bundling device for single fresh flower according to claim 1, wherein: the bevel gear chamber includes fifth bevel gear, fifth bevel gear be located the bevel gear intracavity and with third driven shaft fixed connection, bevel gear chamber rear end rotation fit is connected with and extends forward bevel gear intracavity and ranging back to the transmission shaft of buckling in the upper and lower transmission intracavity, the upside buckle the transmission shaft and extend to after extending to buckle the transmission belt intracavity, the bevel gear intracavity be equipped with buckle transmission shaft fixed connection and with the sixth bevel gear of fifth bevel gear meshing, power fit is connected with between the transmission shaft of buckling is located the upper and lower drive belt in the upper and lower transmission intracavity, the upside buckle the transmission shaft with it is connected with the drive belt of buckling that is located to buckle power fit between the transmission shaft.

8. The automatic packing and bundling device for single fresh flower according to claim 1, wherein: it rotates the chamber including rolling a bundle dish pivot to roll a bundle dish, roll a bundle dish pivot with roll a bundle dish and rotate chamber front end wall normal running fit and connect, roll a bundle dish pivot forward extend to roll a bundle drive belt intracavity and extend to backward roll a bundle dish and rotate the intracavity, roll a bundle dish pivot with roll power fit between the bundle transmission shaft and be connected with and be located roll a bundle drive belt of rolling a bundle drive belt intracavity, roll a bundle dish rotate the intracavity be equipped with roll a bundle board sliding chamber of rolling a bundle dish pivot fixed connection, roll bundle be equipped with in the dish with roll a bundle dish pivot is the sliding chamber of the bundle board that central symmetry set up, initial state lower left side roll bundle board sliding chamber opening and right side roll a bundle board sliding chamber opening downwards, roll a bundle dish in with roll a bundle dish pivot is provided with for central symmetry and rolls a bundle balancing weight chamber, initial state lower left side roll a bundle balancing weight chamber is located the left side roll a bundle board sliding chamber downside and right side bundle balancing weight chamber right side roll a bundle balancing weight chamber right side The bundling plate is connected with a bundling limiting plate in a sliding fit mode, the bundling balancing weight cavity is connected with a bundling balancing weight in a sliding fit mode, a bundling tension spring is fixedly connected between the inner end face of the bundling balancing weight and the inner end wall of the bundling balancing weight cavity, and the other end of the inner end face of the bundling balancing weight is fixedly connected with a bundling plate pull rope fixedly connected with the inner end face of the bundling limiting plate.

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