CN212146724U

CN212146724U - Automatic flat pusher of dust type flower mud

Info

Publication number: CN212146724U
Application number: CN202020363868.9U
Authority: CN
Inventors: 郑静; 赵启军; 郑强; 杨建鹏
Original assignee: Hebei Hui Ya Mud Special Equipment Manufacturing Ltd By Share Ltd
Current assignee: Hebei Huiya New Material Group Co ltd
Priority date: 2020-03-20
Filing date: 2020-03-20
Publication date: 2020-12-15
Anticipated expiration: 2030-03-20

Abstract

The utility model discloses a dust type automatic flat pusher of flower mud, including first support body, locate transverse cutting mechanism, second support body on the first support body, locate the longitudinal cutting mechanism on the second support body and locate the stamp mechanism on the second support body, its characterized in that, the one end of first support body pastes with the middle part of second support body mutually, transverse cutting mechanism includes horizontal propulsion subassembly and locates the first cutter unit of horizontal propulsion subassembly one side, first cutter unit is located one side that first support body is close to the second support body, one side that transverse propulsion subassembly was kept away from to first cutter unit is equipped with dust removal mechanism; the dust removal mechanism comprises two groups of supporting frames, a collecting tank arranged between the two groups of supporting frames, a lifting assembly arranged between the collecting tank and the supporting frames, and a collecting pipeline communicated with the interior of the collecting tank. The flower mud strip dust removing device has the technical effects of effectively removing dust of cut flower mud strips and reducing suction of workers.

Description

Automatic flat pusher of dust type flower mud

Technical Field

The utility model relates to a flat push machine technical field, concretely relates to automatic flat push machine of dust type flower mud.

Background

The produced floral foam is large, according to the needs of flower arrangement in the market, people need to cut and print marks on the floral foam, the existing floral foam cutting and printing processes in the market are all manually cut, on one hand, the workload is large, the cost is high, on the other hand, the manual cutting size cannot be completely consistent, and errors are easily caused.

Therefore, how to automatically cut the flower mud becomes a problem to be solved urgently, on the patent with the publication number of (CN206357342U), a transverse cutting mechanism and a longitudinal cutting mechanism are respectively designed, the flower mud is firstly transversely cut and then longitudinally cut, and the transverse cutting mechanism and the longitudinal cutting mechanism are mutually matched to realize automatic accurate cutting of the flower mud, but a lot of dust is generated in the flower mud cutting process, if workers suck the flower mud, a lot of damage is caused to the flower mud, and therefore how to remove dust is a problem to be solved.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model provides an automatic flat push machine of dust type flower mud to solve among the prior art because the more and easy inspiratory problem of staff that leads to of dust during the cutting of flower mud strip.

In order to achieve the above object, the present invention provides the following technical solutions:

a dust removal type automatic flower mud flat pushing machine comprises a first frame body, a transverse cutting mechanism arranged on the first frame body, a second frame body, a longitudinal cutting mechanism arranged on the second frame body and a printing mechanism arranged on the second frame body, and is characterized in that one end of the first frame body is attached to the middle of the second frame body, the transverse cutting mechanism comprises a transverse pushing assembly and a first cutter set arranged on one side of the transverse pushing assembly, the first cutter set is arranged on one side, close to the second frame body, of the first frame body, and a dust removal mechanism is arranged on one side, far away from the transverse pushing assembly, of the first cutter set;

the dust removal mechanism comprises two groups of support frames, a collecting tank arranged between the two groups of support frames, a lifting assembly arranged between the collecting tank and the support frames and a collecting pipeline communicated with the interior of the collecting tank;

the lower opening of the collecting tank, the transverse cutting mechanism conveys the flower mud strips to the lower part of the collecting tank when in work, and the other end of the collecting pipeline is connected with the exhaust fan.

Further, lifting unit includes lead screw and runner, and the lead screw is vertical to be set up and its upper end and support frame threaded connection, and the lower extreme rotates with the collecting vat to be connected.

Furthermore, the dust removal mechanism has three groups and is evenly arranged along the length direction of the first frame body.

Furthermore, the two sides of the lower opening of the collecting groove are provided with aluminum row brushes, and when the flower mud strips pass through the lower part of the collecting groove, the lower ends of the aluminum row brushes are attached to the upper parts of the flower mud strips.

Further, the transverse pushing assembly comprises a first motor, a transmission piece and a push plate; the transmission part is connected between the first motor and the push plate.

Further, the transmission member comprises a first gear, a first rack and a slide rod; the first gear is fixedly connected with a rotating shaft of the first motor, the sliding rod is arranged along the length direction of the first frame body and horizontally arranged on the first frame body, the first rack is arranged on the sliding rod in the same direction and is connected with the sliding rod in a sliding manner, and the lower part of the first gear is meshed with the first rack; the push plate is positioned on one side of the rack close to the second rack body.

Further, the longitudinal cutting mechanism comprises a second motor, a first chain group, a main shaft, an advancing component, a retracting component, a second chain group, a pushing plate and a second cutter group; the second motor is located the one end of second support body, first chain group connects between main shaft and second motor, advances the subassembly and rolls back the subassembly and all connect between main shaft and second support body, and the propulsion board is located the middle part of second support body, and second cutter unit is located the one side that the second motor was kept away from to the propulsion board, be the calico printing machine platform between propulsion board and the second cutter unit.

Further, the advancing assembly comprises a guide rail, a slide bar and a first eccentric wheel; the first eccentric wheel is coaxially arranged on the main shaft, an eccentric rod of the first eccentric wheel is hinged with a deflector rod, and the other end of the deflector rod is the lower end of the deflector rod and droops through gravity;

one side of the second frame body, which corresponds to the first eccentric wheel, is provided with a support, a pulley is arranged on the support, the height of the pulley is greater than that of the lower end of the deflector rod, one end of the deflector rod, which is far away from the eccentric wheel of the first eccentric wheel, is connected with a steel wire rope, the middle part of the steel wire rope upwards passes through the pulley, the other end of the steel wire rope downwards extends, and the other;

the guide rail level is located on the second support body, and the slide bar slides with guide rail parallel arrangement and connects on the guide rail, and evenly distributed is equipped with a plurality of shifting blocks along its length direction in the top of slide rail.

Further, one side of the sliding rod, which is close to the second motor, extends horizontally towards the second motor to form a supporting platform; the backspacing component comprises a second gear, a second rack, a ratchet wheel and a pawl; the second gear is coaxially and rotatably connected to the spindle, the second rack is horizontally arranged along the length direction of the second frame body and is arranged on the supporting table, one end of the second rack is connected with the pushing plate, the second gear is located above the second rack and is meshed with the second rack, the ratchet wheel is connected to the spindle, and the pawl is connected to one side of the second gear and is meshed with the ratchet wheel.

Furthermore, a control console is arranged on one side of the first rack body, a second travel switch is arranged on one end, close to the push plate, of the first rack body, a first travel switch is arranged on the other end of the first rack body, and one side, close to the first travel switch, of the first rack body is connected with the touch strip; the second rack body is provided with a fourth travel switch at one section of the second rack close to the pushing plate, the other end of the second rack is provided with a third travel switch, one side of the second rack close to the third travel switch is connected with a touch block, and the control console is electrically connected with the travel switches and the motors.

The utility model has the advantages of as follows:

the flower mud strip after the cutting of crosscut mechanism sends into the below of collecting tank under the promotion of push pedal, and air exhauster work produces the negative pressure in collecting the pipeline, and the opening of collecting tank below inhales the dust on the flower mud strip under the negative pressure and collects inslot portion, then passes the dust and collects the mouth and collect the pipeline and see off, and the staff can not inhale the dust after the flower mud strip removes dust, just can not cause the damage to workman's health yet, more safety and sanitation.

The first motor is started in a forward rotation mode to drive the first rack to move in a forward direction, when the touch strip touches the second travel switch, a signal is sent into the console, the console controls the first motor to rotate in a reverse direction, the first rack moves in a reverse direction, when the touch strip touches the first travel switch, the signal is sent into the console, the console controls the first motor to stop, and the second motor is started; when the second motor corotation, drive the slide bar and move forward, when touching the piece and touching fourth travel switch, with in signal transmission to the control cabinet, the control cabinet control second motor reversal, the motor work drives the slide bar and moves back, when touching the piece and touching third travel switch, with in signal transmission to the control cabinet, the control cabinet control second motor stops, first motor begins corotation, so relapse, realizes the automatic cutout to the flower mud strip.

Drawings

In order to more clearly illustrate the embodiments of the present 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. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structure, ratio, size and the like shown in the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by people familiar with the technology, and are not used for limiting the limit conditions which can be implemented by the present invention, so that the present invention has no technical essential significance, and any structure modification, ratio relationship change or size adjustment should still fall within the scope which can be covered by the technical content disclosed by the present invention without affecting the efficacy and the achievable purpose of the present invention.

FIG. 1 is a schematic view of the overall structure of a dust-removing type automatic flower mud flat pusher provided by the present invention;

FIG. 2 is a schematic structural view of a dust removing mechanism of the dust removing type automatic flower mud flat pusher provided by the utility model;

fig. 3 is a schematic view of a collecting tank structure of the dust-removing type automatic flower mud flat pusher provided by the utility model;

fig. 4 is a schematic structural view of a forward component and a backward component of the dust-removing type automatic flower mud flat pushing machine provided by the utility model;

FIG. 5 is a schematic view of the connection structure of the ratchet and the pawl of the dust-removing type automatic flower mud flat pusher provided by the present invention;

FIG. 6 is a schematic structural view of a printing mechanism of the dust-removing type automatic flower mud flat pushing machine provided by the utility model;

fig. 7 is a schematic view of the connection structure of the hinged plate and the connecting plate of the dust-removing type automatic flower mud flat pushing machine provided by the utility model.

In the figure: 1. a first frame body; 11. a first travel switch; 12. a second travel switch; 2. a second frame body; 21. a support; 22. a pulley; 23. a hinge plate; 24. column shifting; 25. a third travel switch; 26. a fourth travel switch; 27. a connecting plate; 28. an arc-shaped slot; 29. a tension spring; 3. a transverse cutting mechanism; 31. a first motor; 32. a first gear; 33. a first rack; 331. touching the touch strip; 34. a slide bar; 35. a first cutter set; 36. pushing the plate; 4. a slitting mechanism; 41. a second motor; 42. a first chain set; 43. a main shaft; 44. an advancing assembly; 441. a guide rail; 442. a slide bar; 4421. shifting blocks; 4422. a front pusher dog; 4423. a rear pusher dog; 443. a first eccentric wheel; 444. a deflector rod; 445. a wire rope; 446. a balancing weight; 45. a fallback component; 451. a second gear; 452. a second rack; 4521. a touch block; 453. a ratchet wheel; 454. a pawl; 46. a second chain set; 47. a propulsion plate; 48. a second cutter set; 5. a printing mechanism; 51. a frame; 52. a rotating shaft; 53. a second eccentric wheel; 54. printing plate; 55. a connecting rod; 6. a dust removal mechanism; 61. a support frame; 62. collecting tank; 63. a lead screw; 64. a rotating wheel; 65. a collection pipe; 66. an aluminum row brush; 7. a pH adjusting device; 8. a console.

Detailed Description

The present invention is described in terms of specific embodiments, and other advantages and benefits of the present invention will become apparent to those skilled in the art from the following disclosure. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

A dust-removing type automatic flower mud flat pushing machine is shown in figure 1 and comprises a frame body, a transverse cutting mechanism 3, a longitudinal cutting mechanism 4 and a printing mechanism 5.

The support body divide into first support body 1 and second support body 2 and both perpendicular settings, and the one end of first support body 1 is located the middle part of second support body 2. The transverse cutting mechanism 3 is arranged on the first frame body 1, and the longitudinal cutting mechanism 4 and the printing mechanism 5 are arranged on the second frame body 2.

The crosscutting mechanism 3 includes a first motor 31, a transmission member, a push plate 36, and a first cutter set 35. The first motor 31 is connected to one side of the first frame body 1 far away from the second frame body 2. The transmission members comprise a first gear wheel 32, a first rack 33 and a slide bar 34. First gear 32 and first motor 31's pivot fixed connection, the slide bar sets up and the level is located on first support body 1 along the length direction of first support body 1, and first rack 33 syntropy is located on the slide bar and is connected with the slide bar slides, the lower part and the first rack 33 intermeshing of first gear 32. The push plate 36 is positioned at one side of the rack close to the second frame body 2, and the first cutter set 35 is positioned between the push plate 36 and the second frame body 2.

Here, the first rack 33 is set to be forward when moving in the direction approaching the push plate 36 and to be reverse when moving in the direction away from the push plate 36.

When the first motor 31 works, the first gear 32 is driven to rotate, the first gear 32 drives the first rack 33 to slide on the sliding rod, and the push plate 36 is pushed to horizontally slide along the length direction of the first rack body 1 and slide towards the direction close to or far away from the first cutter set 35.

The first cutter set 35 is composed of a bracket 21 and a plurality of cutters arranged side by side, and the structure of the first cutter set 35 is prior art and is not described herein again. The lower surface of the cutter is not in contact with the upper surface of the first frame body 1, and the push plate 36 can pass through the space between the cutter and the first frame body 1. The flower mud to be cut is placed between the first cutter set 35 and the push plate 36 and attached to the push plate 36, when the push plate 36 slides to one side close to the first cutter set 35, the flower mud is pushed to move to the first cutter set 35 to be cut into strips, and the flower mud after being cut into strips continues to move forwards under the pushing of the push plate 36 until the flower mud moves to the second frame body 2 and stops.

The transverse cutting mechanism 3 and the longitudinal cutting mechanism 4 are provided with dust removing mechanisms 6 in front, as shown in fig. 2 and 3, the dust removing mechanisms 6 are provided with three groups in total and are arranged side by side along the length direction of the first frame body 1, and the dust removing mechanism 6 comprises a supporting frame 61, a collecting groove 62, a lifting assembly and a collecting pipeline 65.

The support frames 61 are vertically arranged and the tops of the support frames are horizontally turned over towards the middle of the first support body 1 to form an L shape, the support frames 61 are arranged on two sides of the middle of the first support body 1 in two groups and symmetrically, the collecting groove 62 is horizontally arranged between the two groups of support frames 61, and the bottom of the collecting groove 62 is opened. The lifting assemblies are two groups and are respectively arranged between the two ends of the collecting groove 62 and the tops of the two groups of supporting frames 61, each lifting assembly comprises a lead screw 63 and a rotating wheel 64, the lead screws 63 are vertically arranged, the upper ends of the lead screws are in threaded connection with the supporting frames 61, the lower ends of the lead screws are in rotating connection with the collecting groove 62, and lifting is achieved through rotating the rotating wheels 64 on the screw rods.

Collecting vat 62 level is located in lifting unit and is linked to each other with the screw rod, and two dust collection mouths with the inside intercommunication of collecting vat 62 are seted up to collecting vat 62's bottom opening, top, and collecting pipe 65 is total two sets of and two dust collection mouths link to each other, and the air exhauster is connected to two collecting pipe 65's the other end. It should be noted here that the number of the dust collecting ports and the collecting duct 65 is not limited to two, and can be adjusted according to actual needs. The flower mud strip after 3 cuts of crosscut mechanism sends into the below of collecting tank 62 under the promotion of push pedal 36, and the air exhauster work produces the negative pressure in collecting pipe 65, and the opening of collecting tank 62 below inhales the dust on the flower mud strip under the negative pressure inside collecting tank 62, then passes the dust and collects mouth and collecting pipe 65 and see off, and the staff can not inhale the dust after the dust removal, just can not cause the damage to workman's health yet, more safety and sanitation.

In order to improve the dust removal efficiency, the lower opening two sides of each group of collecting grooves 62 are provided with aluminum row brushes 66, when the flower mud strips pass through the lower part of the collecting grooves 62, the lower ends of the aluminum row brushes 66 are attached to the upper parts of the flower mud strips, the side walls and the tops of the flower mud strips are brushed to enable dust on the flower mud strips to swing, so that the collecting grooves 62 can suck conveniently, and the dust removal efficiency is improved.

After the three groups of dust removal, the dust on the flower mud strips is effectively removed, and the rear flower mud strips are pushed down to the longitudinal frame body by the continuous pushing of the pushing plate 36.

Because the printing mechanism 5 repeatedly moves up and down as required, the printing mechanism 5 is lifted when the flower mud strips move up, the flower mud strips are sent to the position below the printing mechanism 5, then the flower mud strips stop for a period of time, and the printing mechanism 5 descends to print the flower mud strips. Therefore, the transverse cutting assembly moves intermittently when advancing so as to facilitate the printing of the printing mechanism 5, and moves uniformly when retreating so as to facilitate the quick return to the original position.

In this case, the movement toward the printing unit 5 is set as forward movement, and the movement away from the printing unit 5 is set as backward movement.

As shown in fig. 1, 4-5, the slitting mechanism 4 includes a second motor 41, a first chain set 42, a main shaft 43, an advancing assembly 44, a retracting assembly 45, a second chain set 46, a pushing plate 47, and a second knife set 48. Between the pushing plate 47 and the second cutter group 48 is a printing machine platform, and the strips of flower mud on the first frame body 1 are conveyed to the printing machine platform after being processed. Stamp mechanism 5 locates the one end of second motor 41, and the other end of second support body 2 is located to second motor 41, is connected with two supporting seats on the second support body 2, and main shaft 43 horizontal rotation connects between two supporting seats. The first chain set 42 is composed of two sprockets and a chain, and the structure is prior art and will not be described herein. The first chain group 42 is connected between the second motor 41 and the main shaft 43, when the second motor 41 works, the first chain group 42 runs along, and the main shaft 43 rotates under the driving of the first chain group 42.

The advancing assembly 44 includes a guide rail 441, a slide bar 442, and a first eccentric 443. The first eccentric 443 is coaxially disposed on the main shaft 43, the eccentric rod of the first eccentric 443 is hinged with a shift lever 444, and the other end of the shift lever 444 is a lower end thereof and droops by gravity. One side of the second frame body 2 corresponding to the first eccentric wheel 443 is provided with a support 21, the support 21 is provided with a pulley 22, the height of the pulley 22 is greater than the height of the lower end of the shift lever 444, one end of the shift lever 444, which is far away from the first eccentric wheel 443, is connected with a steel wire rope 445, the middle part of the steel wire rope 445 upwards passes through the pulley 22 and the other end thereof extends downwards, and the other end of the steel wire rope 445 is provided with a balancing weight. When the first eccentric 443 rotates, if the lower end of the shift lever 444 is not pulled by the weight block 446, the lower end of the shift lever 444 swings back and forth at a lower position; if the lower end of the lever 444 receives a pulling force of the mating block, the lower end of the lever 444 is reciprocally swung at a higher position due to the upward inclination of the pulling force of the weight block 446.

The guide rail 441 is horizontally disposed on the second frame body 2, the sliding rod 442 is parallel to the guide rail 441 and slidably connected to the guide rail 441, and a plurality of shifting blocks 4421 are uniformly distributed above the sliding rod 442 along the length direction thereof. When the lower end of the driving lever 444 swings at a lower position, the end of the driving lever 444 can clamp one side of the shifting block 4421 and push the sliding rod 442 to advance; when the shift lever 444 swings at a higher position, the end of the shift lever 444 does not contact the shift block 4421, and the slide rod 442 cannot be driven to move.

In order to ensure that the sliding rod 442 moves intermittently when moving forward and moves at a constant speed when retracting, the lower end of the shifting rod 444 is ensured not to be subjected to the gravity of the balancing weight 446 when the sliding rod 442 moves forward, and the shifting rod 444 receives the gravity of the balancing weight 446 when retracting, so that a vertically arranged hinged plate 23 is arranged on the second frame body 2, the hinged plate 23 is connected with one side, close to the balancing weight 446, of the steel wire rope 445, when the hinged plate 23 is positioned above, the balancing weight 446 is positioned above, the hinged plate 23 pulls the balancing weight 446 to enable the steel wire rope 445 above to be in a loose state and not to be subjected to the pulling force of the balancing weight 446, and the; when the hinge plate 23 is located below, the counter weight 446 is located below, the wire rope 445 is in a tensioned state under the gravity of the counter weight 446 and is under the tension of the counter weight 446, and the shift lever 444 swings back and forth at a higher position in this state. The upper part of the hinged plate 23 is provided with a long strip-shaped shifting column 24, the front end of the slide bar 442 is provided with a front shifting claw 4422, and the rear end is provided with a rear shifting claw 4423. As shown in FIG. 7, the second frame body 2 is provided with a connecting plate 27 at the position of the hinge plate 23, the connecting plate 27 is cut off at the position of the hinge plate 23, a convex arc-shaped groove 28 is formed at the cut-off position, a tension spring 29 is connected to the side wall of the connecting plate 27, two ends of the tension spring 29 are respectively connected with the connecting plate 27 and the hinge plate 23, when the tension spring 29 moves to the middle of the arc-shaped groove 28, the tension spring 29 is stretched to the longest state, and at this time, the hinge plate 23 is pulled to stay at the position, namely, the upper end or the lower end of the arc-shaped groove 28. When the poking column 24 is poked upwards, the hinge plate 23 and the tension spring 29 are driven to swing upwards, the hinge plate 23 rotates to the upper end of the arc-shaped groove 28, and when the poking column 24 is poked downwards, the hinge plate 23 and the tension spring 29 are driven to swing downwards, and the hinge plate 23 rotates to the lower end of the arc-shaped groove 28. When the slide bar 442 moves forward to the forefront, the rear pusher 4423 contacts with the pusher 24 on the hinge plate 23 and pulls the pusher 24, and the hinge plate 23 swings upward under the pulling of the rear pusher 4423; when the sliding rod 442 moves to the rearmost direction, the front finger 4422 contacts the finger post 24 of the hinge plate 23 and dials the shift lever 444, and swings from bottom to top under the action of the toggle of the hinge plate 23.

In an initial state, the sliding rod 442 is located at the rear, the second motor 41 works and drives the first eccentric wheel 443 to rotate, the shifting rod 444 shifts the sliding rod 442 to move forwards, the shifting rod 444 intermittently pushes the pushing plate 47 to move forwards, and the pushing plate 47 pushes the floral foam strips to move forwards and send to the printing mechanism 5 for printing; when the shift lever 444 shifts the slide rod 442 to the front, the rear shift finger 4423 shifts the hinge plate 23 and the counterweight 446 to descend, so that the shift lever 444 is not in contact with the slide rod 442, the second motor 41 rotates reversely, the push plate 47 returns to the initial state under the driving of the retraction assembly 45, and the shift lever 444 is not in contact with the slide rod 442 during retraction.

The side of the slide bar 442 close to the second motor 41 extends horizontally toward the second motor 41 to form a support platform. The retraction assembly 45 includes a second gear 451, a second rack 452, a ratchet 453, and a pawl 454. The second gear 451 is coaxially and rotatably connected to the main shaft 43, the second rack 452 is horizontally arranged along the length direction of the second frame body 2 and is arranged on the supporting platform, one end of the second rack 452 is connected with the pushing plate 47, the second gear 451 is positioned above the second rack 452 and is meshed with the second rack 452, the ratchet 453 is connected to the main shaft 43, the pawl 454 is connected to one side of the second gear 451 and is meshed with the ratchet 453, when the motor rotates forward, the sliding rod 442 moves forward, and the ratchet 453 on the main shaft 43 is disengaged from the pawl 454; when the motor is reversed, the slide rod 442 is retracted and the ratchet 453 of the spindle 43 is engaged with the pawl 454. Therefore, when the pushing plate 47 advances, the rod 444 and the sliding rod 442 cooperate with each other and drive the pushing plate 47 to advance, at this time, the ratchet 453 and the pawl 454 are separated from each other, and the second gear 451 is driven by the second rack 452 to rotate; when the pushing plate 47 retracts, the ratchet 453 is engaged with the pawl 454 and the second gear 451 drives the second rack 452 to retract, the pushing plate 47 retracts under the driving of the second rack 452, and the shift lever 444 is separated from the sliding rod 442, so that the pushing plate 47 intermittently advances and retracts at a constant speed.

As shown in fig. 4 and 6, the printing mechanism 5 is a flower mud eccentric wheel printing mechanism, the eccentric wheel printing mechanism realizes the up-and-down movement through a cam, the cam printing mechanism 5 includes a frame 51, a rotating shaft 52 rotatably connected in the frame 51, second eccentric wheels 53 arranged at two ends of the rotating shaft 52, and a printing plate 54, the second chain set 46 is connected between the rotating shaft 52 and the main shaft 43, and connecting rods 55 are hinged between two sides of the printing plate 54 and eccentric shafts of the two second eccentric wheels 53. When the main shaft 43 is driven by the second motor 41 to rotate, the second chain set 46 follows the main shaft 43 to move, the rotating shaft 52 rotates under the driving of the second chain set 46, and then the two second eccentric wheels 53 rotate synchronously to drive the two sets of connecting rods 55 to swing up and down. The second eccentric wheel 53 drives the connecting rod 55 to move up once and down once per rotation. When the connecting rod 55 moves upwards, the printing plate 54 is driven to be lifted, and the floral foam strips are conveyed to the lower part of the printing plate 54; when the connecting rod 55 moves downwards, the connecting rod contacts with the flower mud strips and prints the flower mud strips, the flower mud strips are lifted up again, the flower mud strips move a distance below the printing plate 54 again, the printing plate 54 descends again to print another position of the flower mud strips, and the process is repeated until all the flower mud strips are printed.

The second cutter set 48 is composed of a bracket 21 and a plurality of cutters arranged side by side, and the second cutter set 48 is prior art and is not described herein again. The second cutter group 48 is arranged between the printing mechanism 5 and the slitting mechanism 4, after the flower mud strips are sent into the second frame body 2 from the first frame body 1, the pushing plate 47 pushes the flower mud strips to be sent to the lower part of the second cutter group 48 firstly to carry out longitudinal cutting on the flower mud strips, and then the flower mud strips are sent into the printing mechanism 5 to be printed.

One side that second cutter unit 48 was kept away from to stamp mechanism 5 is equipped with PH adjusting device 7, and to different types of flower mud strip, PH adjusting device 7 can adjust the pH value to different flower mud strips as required to more be favorable to the planting and the cultivation of flowers, vegetables.

In order to realize the automatic control of the cutting and printing of the floral foam strips, a control console 8 is arranged on one side of the first frame body 1; the first frame body 1 is provided with a second travel switch 12 at one end of a first rack 33 close to a push plate 36, a first travel switch 11 at the other end of the first rack 33, and one side of the first rack 33 close to the first travel switch 11 is connected with a touch strip 331; the second frame body 2 is provided with a fourth travel switch 26 at a section of the second rack 452 close to the pushing plate 47, a third travel switch 25 at the other end of the second rack 452, and a touch block 4521 connected to a side of the second rack 452 close to the third travel switch 25. The control console 8 is electrically connected with each stroke switch and each motor. The first motor 31 is started in a forward rotation mode, the first rack 33 is driven to move in a forward direction, when the touch strip 331 touches the second travel switch 12, a signal is sent to the control console 8, the control console 8 controls the first motor 31 to rotate in a reverse direction, the first rack 33 moves in a reverse direction, when the touch strip 331 touches the first travel switch 11, the signal is sent to the control console 8, the control console 8 controls the first motor 31 to stop, and the second motor 41 is started; when the second motor 41 rotates forwards, the sliding rod 442 is driven to move forwards, when the touch block 4521 touches the fourth travel switch 26, a signal is sent into the console 8, the console 8 controls the second motor 41 to rotate backwards, the motor works and drives the sliding rod 442 to move backwards, when the touch block 4521 touches the third travel switch 25, the signal is sent into the console 8, the console 8 controls the second motor 41 to stop, the first motor 31 starts to rotate forwards, and the steps are repeated, so that the automatic cutting of the flower mud strips is realized.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims

1. A dust removal type automatic flower mud flat pushing machine comprises a first frame body, a transverse cutting mechanism arranged on the first frame body, a second frame body, a longitudinal cutting mechanism arranged on the second frame body and a printing mechanism arranged on the second frame body, and is characterized in that one end of the first frame body is attached to the middle of the second frame body, the transverse cutting mechanism comprises a transverse pushing assembly and a first cutter set arranged on one side of the transverse pushing assembly, the first cutter set is arranged on one side, close to the second frame body, of the first frame body, and a dust removal mechanism is arranged on one side, far away from the transverse pushing assembly, of the first cutter set;

2. The automatic horizontal dust-removing flower mud pushing machine as claimed in claim 1, wherein the lifting assembly comprises a screw rod and a rotating wheel, the screw rod is vertically arranged, the upper end of the screw rod is in threaded connection with the supporting frame, and the lower end of the screw rod is in rotary connection with the collecting tank.

3. The dust-removing type automatic flower mud flat pushing machine according to claim 1, wherein the dust-removing mechanisms are three groups and are uniformly arranged along the length direction of the first frame body.

4. The automatic flat pushing machine for dust-removing flower mud of claim 1, wherein aluminum row brushes are arranged on both sides of the lower opening of the collecting tank, and the lower ends of the aluminum row brushes are attached to the upper parts of the flower mud strips when the flower mud strips pass through the lower part of the collecting tank.

5. The automatic flat pusher of dust type floral foam of claim 1, wherein said transverse pushing assembly comprises a first motor, a transmission member and a pushing plate; the transmission part is connected between the first motor and the push plate.

6. The automatic flat pusher of dust type floral foam of claim 5, wherein said transmission member comprises a first gear, a first rack and a slide bar; the first gear is fixedly connected with a rotating shaft of the first motor, the sliding rod is arranged along the length direction of the first frame body and horizontally arranged on the first frame body, the first rack is arranged on the sliding rod in the same direction and is connected with the sliding rod in a sliding manner, and the lower part of the first gear is meshed with the first rack; the push plate is positioned on one side of the rack close to the second rack body.

7. The dust-removing type automatic flower mud flat pushing machine according to claim 6, wherein the longitudinal cutting mechanism comprises a second motor, a first chain group, a main shaft, an advancing component, a retracting component, a second chain group, a pushing plate and a second cutter group; the second motor is located the one end of second support body, first chain group connects between main shaft and second motor, advances the subassembly and rolls back the subassembly and all connect between main shaft and second support body, and the propulsion board is located the middle part of second support body, and second cutter unit is located the one side that the second motor was kept away from to the propulsion board, be the calico printing machine platform between propulsion board and the second cutter unit.

8. The dust-removing automatic flat pushing machine for floral foam of claim 7, wherein said advancing assembly comprises a guide rail, a slide bar and a first eccentric wheel; the first eccentric wheel is coaxially arranged on the main shaft, an eccentric rod of the first eccentric wheel is hinged with a deflector rod, and the other end of the deflector rod is the lower end of the deflector rod and droops through gravity;

a support is arranged on one side of the second frame body corresponding to the first eccentric wheel, a pulley is arranged on the support, the height of the pulley is greater than that of the lower end of the deflector rod, one end of the deflector rod, which is far away from the eccentric rod of the first eccentric wheel, is connected with a steel wire rope, the middle part of the steel wire rope upwards penetrates through the pulley, the other end of the steel wire rope downwards extends, and a balancing weight is arranged;

9. The automatic horizontal pushing machine for dust-removing flower mud as claimed in claim 8, wherein one side of the slide bar close to the second motor extends horizontally towards the second motor to form a support platform; the backspacing component comprises a second gear, a second rack, a ratchet wheel and a pawl; the second gear is coaxially and rotatably connected to the spindle, the second rack is horizontally arranged along the length direction of the second frame body and is arranged on the supporting table, one end of the second rack is connected with the pushing plate, the second gear is located above the second rack and is meshed with the second rack, the ratchet wheel is connected to the spindle, and the pawl is connected to one side of the second gear and is meshed with the ratchet wheel.

10. The dust-removing type automatic flower mud flat pushing machine according to claim 9, wherein a control console is arranged on one side of the first frame body, the first frame body is provided with a second travel switch at one end of the first rack close to the pushing plate, a first travel switch is arranged at the other end of the first rack, and the side of the first rack close to the first travel switch is connected with the touch strip; the second rack body is provided with a fourth travel switch at one section of the second rack close to the pushing plate, the other end of the second rack is provided with a third travel switch, one side of the second rack close to the third travel switch is connected with a touch block, and the control console is electrically connected with the travel switches and the motors.