CN212475384U - Vertical paging machine - Google Patents

Abstract

The utility model discloses a vertical paging machine, which comprises a feeding mechanism, a marking mechanism and a receiving mechanism which are arranged in sequence; the marking mechanism comprises two groups of marking components, a bottom belt conveyor and two side belt conveyors; the two side surface belt conveyors are respectively erected on two sides of the bottom surface belt conveyor; the two side surfaces of the bottom of the paperboard are respectively contacted with the conveying belts of the two side surface belt conveyors, and the bottom surface of the bottom of the paperboard is contacted with the conveying belt of the bottom surface belt conveyor; the two groups of spraying mark components are used for marking codes on two sides of the paperboard; the material receiving mechanism comprises a push handle, a push handle driving mechanism, a material receiving frame and a brush component; the push handle and the brush component are respectively positioned at two sides of the material receiving frame; the two groups of brush assemblies are arranged in sequence along the direction of the paper conveying plate; the pushing handle driving mechanism is used for driving the pushing handle to push the paper board between the two groups of brush assemblies, so that the paper board is spaced and vertically placed. The utility model has the advantages of can be two-sided mark sign indicating number simultaneously and mark sign indicating number smooth and easy, receive the material and can the sunning simultaneously.

Description

Vertical paging machine

Technical Field

The utility model relates to a carton paging field especially relates to a vertical paging machine.

Background

When marking the code to the carton, need carry the carton that stacks through carton paging machine one by one to realize mechanized assembly line operation, present paging machine divides there are horizontal paging machine and vertical paging machine two kinds.

The horizontal paging machine can only convey flatly-placed paperboards, although the conveying mode is more stable, only one side of each paperboard can be marked in a single-pass conveying process, if two sides of each paperboard need to be marked, double-pass conveying is needed, and the efficiency is low; the vertical paging machine can convey vertically placed paperboards, and can finish the code marking on two sides in a single-pass conveying process, but because the paperboards move in the code marking process only by the conveying mechanism in contact with the paperboards at the bottom, the conveying process is not stable, and the code marking quality is easily influenced.

In addition, current horizontal paging machine and vertical paging machine are after accomplishing the mark sign indicating number, and cardboard contacts each other when receiving the material, if use printing ink to spout the mark, the mark sign indicating number needs drying time, and the cardboard contacts each other promptly after spouting the mark and can destroy the integrity of mark sign indicating number.

SUMMERY OF THE UTILITY MODEL

Therefore, a vertical paging machine is needed to be provided to solve the problems that in the prior art, the paging machine has no two functions of conveying smoothness and vertical conveying, and the receiving mode after label spraying can damage the integrity of the label codes.

In order to achieve the purpose, the inventor provides a vertical paging machine, which comprises a feeding mechanism, a marking mechanism and a receiving mechanism which are arranged in sequence;

the feeding mechanism is used for conveying the vertically placed paper boards into the marking mechanism one by one;

the marking mechanism comprises two groups of marking components, a bottom belt conveyor and two side belt conveyors; the bottom surface belt conveyor is horizontally arranged; the two side surface belt conveyors are respectively erected on two sides of the bottom surface belt conveyor; the paper board is conveyed to a position between the two side belt conveyors by the feeding mechanism, the two side surfaces of the bottom of the paper board are respectively contacted with the conveying belts of the two side belt conveyors, and the bottom surface of the bottom of the paper board is contacted with the conveying belt of the bottom belt conveyor; the two groups of spraying mark components are respectively positioned on the two side belt conveyors and are used for respectively marking the two board surfaces of the paper board;

the material receiving mechanism comprises a push handle, a push handle driving mechanism, a material receiving frame and a brush component; the push handle and the brush component are respectively positioned at two sides of the material receiving frame; the paper board is conveyed to a position between the push handle and the brush component by the marking mechanism; the two groups of brush components are arranged in sequence along the direction of the paper conveying plate, and the bristles of the two groups of brush components are arranged oppositely; the push handle driving mechanism is in transmission connection with the push handle and is used for driving the push handle to push the paper boards between the two groups of brush assemblies so as to enable the paper boards to be in an interval and vertical state.

As a preferred structure of the utility model, bottom surface belt conveyor, side belt conveyor are band conveyer, the face frictional contact of band conveyer and cardboard.

As a preferred structure of the utility model, the bottom belt conveyor is a marking section and a material receiving section along the direction of the paper conveying plate in sequence; the material receiving section is positioned between the push handle and the brush component and is used for conveying the paper board to the position between the push handle and the brush component; two bottom surface belt conveyors are located on both sides of the code segment.

As a preferred structure of the utility model, the bottom belt conveyor and the two side belt conveyors enclose a channel for conveying the paper board; the length of the channel along the conveying direction is not less than twice of the length of the paper boards along the conveying direction, the channel is sequentially a plurality of stations along the conveying direction, and each station can accommodate a single paper board.

As the utility model discloses a preferred structure, passageway department is provided with a plurality of positioning sensor, and a plurality of positioning sensor set gradually along direction of delivery to whether there is the cardboard in the detection station.

As a preferred structure of the utility model, the two side belt conveyors are respectively provided with a paper board bracket vertically to keep the paper boards in a vertical state; two groups of code marking components are respectively arranged at the two paper board supports.

As a preferred structure of the utility model, the brush assembly comprises a brush holder and a plurality of brushes; the brush frame is vertically arranged at the material receiving frame, the plurality of brushes are sequentially arranged at the brush frame from top to bottom, and the length direction of the brushes is arranged along the direction of pushing the paper board to move.

As a preferred structure of the utility model, two groups of brush components arranged along the conveying direction are respectively a first brush component and a second brush component; the second brush component can be arranged at the material receiving frame in a translation manner close to or far away from the first brush component;

the material receiving mechanism also comprises a screw and a transmission nut; the screw rod can be axially and rotatably arranged in the material receiving frame, and the axial direction is orthogonal to the direction in which the pushing handle pushes the paper board to move; the transmission nut is screwed at the screw in a threaded transmission manner and is connected with the second brush component.

As a preferred structure of the utility model, the feeding mechanism comprises a feeding frame, a feeding belt conveyor, a pressing plate driving mechanism and a baffle plate;

the feeding belt conveyor is erected on the feeding frame; the pressing plate and the baffle are sequentially arranged along the conveying direction, the pressing plate is vertically arranged on the feeding frame, the plate surface of the pressing plate is opposite to the belt surface of the conveying belt of the feeding belt conveyor, the paper plate is vertically arranged between the feeding belt conveyor and the pressing plate, and a gap for the single paper plate to pass through is reserved between the baffle and the feeding belt conveyor;

the pressing plate driving mechanism is connected with the pressing plate in a transmission mode and used for driving the pressing plate to be close to the feeding belt conveyor so as to press the paper plate to be in contact with a belt surface of a conveying belt of the feeding belt conveyor.

As an optimized structure of the utility model, the feeding frame is arranged along the downward inclination direction close to the feeding belt conveyor.

Different from the prior art, the vertical paging machine in the technical scheme can complete double-sided marking in a single conveying process by conveying the vertically placed paperboards in the whole process, and is high in efficiency; in the marking process, the bottom belt conveyor and the two side belt conveyors are used for conveying together, the two side belt conveyors convey and clamp the vertically placed paper boards and have the functions of supporting and guiding the paper boards, the paper boards are driven to move by means of friction contact of the conveying belts and the surfaces of the paper boards, the contact area of conveying is increased by means of the arrangement of the two side belt conveyors, the bottom belt conveyor and the side belt conveyors convey the paper boards at the same conveying speed, the smoothness of the paper boards can be guaranteed, the paper boards are more stable in the conveying process, the single marking spraying speed of the marking component is fixed, the quality of the marking is related to the moving state of the paper boards, the paper boards move more stably and at the same speed, and the quality of the marking is guaranteed; after spouting the mark and accomplishing, need receive the cardboard and close to subsequent spouting mark operation under not influencing, through pushing away the cardboard to between two sets of brush subassemblies, under the support of brush, the cardboard can be in alone and put the state immediately, and adjacent cardboard need not to rely on each other, need not the contact promptly, can carry out the sunning at this moment, guarantees that the mark code is dry to take shape, and receives the material efficiency still high.

Drawings

Fig. 1 is a structural diagram of a vertical paging machine according to an embodiment of the present invention;

fig. 2 is a first structural diagram of a feeding mechanism according to an embodiment of the present invention;

fig. 3 is a second structural diagram of the feeding mechanism according to an embodiment of the present invention;

fig. 4 is a third structural view of the feeding mechanism according to an embodiment of the present invention;

fig. 5 is a partially enlarged view of the feeding mechanism according to an embodiment of the present invention;

fig. 6 is a first structural diagram of a code marking mechanism according to an embodiment of the present invention;

fig. 7 is a second structural diagram of a code marking mechanism according to an embodiment of the present invention;

fig. 8 is a partially enlarged view of a coding mechanism according to an embodiment of the present invention;

fig. 9 is a first structural view of a material receiving mechanism according to an embodiment of the present invention;

fig. 10 is a second structural view of the material receiving mechanism according to an embodiment of the present invention;

fig. 11 is a partial structure view of a material receiving mechanism according to an embodiment of the present invention.

Description of reference numerals:

1. a feeding mechanism;

100. a feeding frame; 101. a feeding belt conveyor; 102. pressing a plate; 103. a platen drive mechanism; 104. A baffle plate; 105. a baffle locking assembly; 1050. a transverse screw; 1051. a transverse drive nut; 1052. A vertical screw; 1053. a vertical drive nut;

2. a code marking mechanism;

200. a bottom belt conveyor; 2000. a material receiving section; 201. a side belt conveyor; 202. a cardboard support; 203. a machine base; 204. a first translational locking assembly; 2040. a first screw; 2041. a first drive nut;

3. a material receiving mechanism;

300. a push handle; 301. a push handle driving mechanism; 302. a material receiving frame; 303. a first brush assembly; 3030. A guide bar; 3031. a brush; 3032. a guide rod seat; 3033. cutting; 3034. a bolt; 304. a second brush assembly; 305. a second screw; 306. a second drive nut.

Detailed Description

To explain technical contents, structural features, and objects and effects of the technical solutions in detail, the following detailed description is given with reference to the accompanying drawings in conjunction with the embodiments.

The utility model provides a vertical paging machine for carton mark code operation provides mechanized assembly line, especially can guarantee the steadiness that mark code process cardboard removed, and when guaranteeing to spout the mark after receiving the material cardboard need not the mutual contact, can carry out the sunning and do not influence and receive material efficiency again.

Referring to fig. 1, in a specific embodiment, the vertical paging machine includes a feeding mechanism 1, a marking mechanism 2, and a receiving mechanism 3, which are sequentially disposed; the feeding mechanism 1 is used for sequentially conveying the vertically placed cartons arranged in rows to the marking mechanism 2 one by one; the marking mechanism 2 is used for spraying marks on two sides of the carton; receiving agencies 3 is used for collecting the carton that has spouted the sign indicating number, makes the carton that has spouted the sign indicating number not influence later treat the carton of sign indicating number, accomplishes the sunning of cardboard simultaneously, makes the dry shaping of sign indicating number.

The feeding mechanism 1 is used for conveying the vertically placed paper boards into the marking mechanism 2 one by one, and in a certain embodiment, the feeding mechanism 1 comprises a feeding frame 100, a feeding belt conveyor 101, a pressing plate 102, a pressing plate driving mechanism 103 and a baffle plate 104; the loading frame 100 is used for supporting the paper boards to be marked in a row; the feeding belt conveyor 101 is used for driving the paper boards to move into the marking mechanism 2 one by one, specifically, the paper boards are driven to move in a friction mode, and the feeding belt conveyor can be a belt conveyor, and a power mechanism of the feeding belt conveyor can be a servo motor, so that the feeding belt conveyor is high in speed, stable and reliable; the first pressure plate 102 is used for supporting the paper boards together with the feeding belt conveyor 101 to enable the paper boards to be in a standing state, and can apply pressure for pressing the paper boards to a conveying belt of the feeding belt conveyor, so that friction force after the paper boards are contacted with the feeding belt conveyor 101 is large enough to drive a single paper board to move; the pressing plate driving mechanism 103 is used for driving the pressing plate 102 to move, so that the pressing plate 102 can play the role; the baffle 104 is used for shielding other paperboards except the paperboards contacting with the feeding belt conveyor 101, so that the other paperboards are prevented from moving together with the paperboards contacting with the feeding belt conveyor 101, and only a single paperboard is conveyed in a single conveying process.

Referring to fig. 2, the feeding belt conveyor 101 and the pressing plate 102 are both erected on the feeding frame 100, a belt surface of a conveying belt of the feeding belt conveyor 101 is arranged opposite to a plate surface of the pressing plate 102, the pressing plate 102 and the feeding belt conveyor 101 are arranged in parallel, a user can erect a paperboard between the feeding belt conveyor 101 and the pressing plate 102, the paperboards are sequentially arranged in rows along a direction from the feeding belt conveyor 101 to the pressing plate 102, and the plate surface of the paperboard closest to the feeding belt conveyor 101 is in contact with the belt surface of the conveying belt of the feeding belt conveyor 101.

Referring to fig. 4, after the feeding belt conveyor 101 is started, under the action of friction, the paper boards contacting the feeding belt conveyor 101 may move along the conveying direction of the feeding belt conveyor 101, and other paper boards may also move along with the paper boards, and need to block the movement of other paper boards, so that the pressing plate 102 and the baffle 104 are sequentially arranged along the conveying direction, the pressing plate 102 may block the paper boards not contacting the feeding belt conveyor 101, specifically, a gap for a single paper board to pass through is left between the baffle 104 and the feeding belt conveyor 101, and such an arrangement enables the feeding belt conveyor 101 to convey the paper boards one by one.

Due to the thickness of the paper boards being different, in order to enable the paper boards with different thicknesses to pass through the gap, in a further embodiment, the baffle 104 may be disposed at the feeding frame 100 close to or far from the feeding belt conveyor 101 in a translational manner, specifically, the feeding frame 100 may be provided with a slide rail, a slide block is disposed in the slide rail, and the baffle 104 is disposed at the slide block. On this basis, a baffle locking assembly 105 is further included, and when the baffle 104 is adjusted to the corresponding position, the gap is allowed to pass through by the single paperboard, and then the baffle 104 can be locked to the position through the baffle locking assembly 105, wherein the baffle locking assembly 105 can be a bolt, and the baffle 104 is fixed to the upper rack 100 through the bolt.

After the conveyance of a single paperboard is completed and the subsequent paperboard needs to be conveyed, it needs to be ensured that the subsequent paperboard also contacts with the feeding belt conveyor 101, please refer to fig. 3, in a specific embodiment, the pressing plate driving mechanism 103 is connected with the pressing plate 102 in a transmission manner, and is used for driving the pressing plate 102 to be close to the feeding belt conveyor 101 so as to press the paperboard to be contacted with the belt surface of the conveying belt of the feeding belt conveyor 101, and the pressing plate driving mechanism 103 drives the pressing plate 102 to move by a distance of one paperboard thickness every time one paperboard is conveyed so as to ensure that the paperboard can be conveyed uninterruptedly. The pressing plate driving mechanism 103 can be an air cylinder, an oil cylinder or a linear motor, the body of the pressing plate driving mechanism 103 is fixed at the feeding frame 100, the output end of the pressing plate driving mechanism 103 is connected with the pressing plate 102, when the pressing plate driving mechanism 103 is the linear motor, the screw rod motor can be rotated, the screw rod of the screw rod motor is screwed with a transmission nut, and the transmission nut is connected with the pressing plate 102.

In another embodiment, the loading frame 100 may be arranged to be inclined downward along a direction that the pressing plate 102 approaches the loading belt conveyor 101, and when a row of paper boards is placed at the loading frame 100, the paper boards fall to the conveying belt attached to the loading belt conveyor 101 under the action of their own gravity, so that the pressure of the paper boards on the loading belt conveyor 101 can be increased, and the friction force between the paper boards and the loading belt conveyor 101 can be increased; in addition, after one paper board is conveyed out, the subsequent paper board moves towards the direction close to the feeding belt conveyor 101 under the action of self gravity, and the action of the pressing plate 102 and the pressing plate driving mechanism 103 only ensures that the paper board is not inclined, so that the paper board is completely attached to the feeding belt conveyor.

Referring to fig. 4 and 5, when the feeding frame 100 is inclined, the feeding frame 100 is provided with a slide rail, a slide block is arranged in the slide rail, and the baffle 104 is arranged at the slide block, the baffle locking assembly 105 may include a first base, a transverse screw 1050, a transverse transmission nut 1051, a second base, a vertical screw 1052, and a vertical transmission nut 1053; the first base is connected with the feeding frame 100, the transverse screw 1050 is arranged at the first base through a bearing seat, the transverse screw 1050 can axially rotate, and the axial direction of the transverse screw 1050 is horizontal and orthogonal to the conveying direction of the feeding belt conveyor 101; the transverse drive nut 1051 is threaded at the transverse screw 1050; the second base is arranged at the transverse transmission nut 1051; the axial direction of the vertical screw 1052 is vertical, and the bottom end of the vertical screw 1052 is connected to the second base through a bearing, so that the vertical screw 1052 can axially rotate; the vertical transmission nut 1053 is screwed at the vertical screw 1052, and the vertical transmission nut 1053 is connected with the baffle plate 104; and by rotating the horizontal screw 1050 and the vertical screw 1052 at the same time, the position of the baffle plate 104 can be adjusted, so that the baffle plate 104 can move in the plane of the baffle plate 104.

In order to facilitate the rotation of the horizontal screw rod 1050 and the vertical screw rod 1052, a handle may be disposed at one end of each of the horizontal screw rod 1050 and the vertical screw rod 1052.

Referring to fig. 6, the marking mechanism 2 includes two sets of marking components, a bottom belt conveyor 200 and two side belt conveyors 201; the two groups of label spraying components are respectively used for spraying labels on two sides of the paper box and can be label spraying machines; the bottom belt conveyor 200 is used for supporting the paper boards which are vertically placed, or driving one of the forces for moving the paper boards, and is also driven by friction, and similarly, can also be a belt conveyor; the two side belt conveyors 201 are also driven by friction, and may be belt conveyors, which also serve to straighten the cardboard at this time, thereby ensuring that the cardboard is in a standing state.

The bottom belt conveyor 200 is horizontally arranged so as to support the paper board and drive the paper board to move by contacting with the bottom of the paper board; the two side belt conveyors 201 are respectively erected on two sides of the bottom belt conveyor 200, the bottom belt conveyor 200 and the two side belt conveyors 201 enclose a channel for conveying the paper boards, and the distance between the two side belt conveyors 201 is only the thickness of a single paper board, that is, the width of the channel is only the thickness of the single paper board.

The paper board is conveyed to a position between the two side belt conveyors 201 through the feeding mechanism 1, namely the gap of the feeding mechanism 1 is arranged opposite to the channel, two side faces of the bottom of the paper board conveyed to the channel are respectively contacted with the conveying belts of the two side belt conveyors 201, the bottom of the paper board is contacted with the conveying belt of the bottom belt conveyor 200, the paper board moves more stably under the common driving of the bottom belt conveyor 200 and the two side belt conveyors 201, the contact area of the two side belt conveyors 201 and the paper board is increased, so that the friction contact conveying mode is more reliable, in the actual use process, the conveying speeds of the bottom belt conveyor 200 and the two side belt conveyors 201 need to be adjusted to be consistent, and the paper board is driven together.

The vertical dimension of the two side belt conveyors 201 is smaller than that of the paperboard, so that the two side belt conveyors 201 cannot cover the whole board surface of the paperboard and only contact with the lower half part of the board surface of the paperboard, and the position of the label is remained. The two groups of spraying mark components are respectively positioned on the two side belt conveyors 201 and are used for respectively marking two board surfaces of the paperboard.

The length of the channel along the conveying direction is not less than twice of the length of the paper boards along the conveying direction, the channel is sequentially a plurality of stations along the conveying direction, and each station can accommodate a single paper board. The passageway department is provided with a plurality of positioning sensor, and a plurality of positioning sensor set gradually along direction of delivery to whether there is the cardboard in the detection station, detecting to have the cardboard, the jet printing subassembly then can begin the jet printing operation.

In order to further ensure the stability of the paper boards, in a further embodiment, paper board supports 202 are respectively arranged on the two side belt conveyors 201 in an upright mode to keep the paper boards in an upright state; the two groups of code components are respectively arranged at the two paperboard supports 202, and specifically, the paperboard supports 202 may include a plurality of cross bars and a plurality of vertical bars; a plurality of montants set gradually along direction of delivery, and a plurality of horizontal poles from top to bottom set gradually, and are connected with a plurality of montants.

In order to accommodate different thicknesses of cardboard, in a further embodiment, the cardboard box further comprises a base 203 and a first translational locking component 204; the bottom belt conveyor 200 and the side belt conveyors 201 are both arranged at the base 203, wherein one side belt conveyor 201 is arranged at the base 203 in a translation manner far away from or close to the other side belt conveyor 201 and is locked by the first translation locking assembly 204. For convenience of description, the side belt conveyor 201 capable of translational movement is hereinafter referred to as a first side belt conveyor, i.e., the translatable side belt conveyor 201, and the other side belt conveyor 201 is referred to as a second side belt conveyor. The user can adjust the interval of the first side belt conveyor relative to the second side belt conveyor according to the thickness of the paper board, so that the first side belt conveyor and the second side belt conveyor can be respectively contacted with two sides of the paper board and can convey the paper board.

The two side belt conveyors 201 are positioned above the bottom belt conveyor 200, the two side belt conveyors 201 are positioned at the same height, and the width of the bottom belt conveyor 200 is not less than the adjustable range of the distance between the two side belt conveyors 201.

The first translational locking component 204 may be a bolt, the base 203 and the first side belt conveyor are both provided with a hole through which the bolt passes, and the hole through which the bolt passes through the base 203 may be a long strip, and according to the thickness of the cardboard, the bolt is locked to a corresponding position of the long strip hole of the base 203, and in order to facilitate moving the first side belt conveyor at the same time, please refer to fig. 7 and 8, in a preferred embodiment, the first translational locking component 204 may include a first screw 2040 and a first transmission nut 2041; the first screw 2040 is axially and rotatably arranged below the translatable side belt conveyor 201, and specifically may be arranged through a bearing seat, and the axial direction of the first screw 2040 is consistent with the translation direction of the translatable side belt conveyor 201; the first transmission nut 2041 is screwed at the first screw 2040 in a threaded transmission manner and is connected with the lateral belt conveyors 201 capable of translating, specifically, the two lateral belt conveyors 201 are both provided with L-shaped connecting plates, but the bottoms of the lateral belt conveyors 201 capable of translating are connected with the first transmission nut 2041 through the L-shaped connecting plates, while the other lateral belt conveyor 201 is connected to the base 203 through the L-shaped connecting plates, and the L-shaped connecting plates of the two lateral belt conveyors 201 are respectively located outside the two sides of the bottom belt conveyor 200.

When the distance between the two lateral belt conveyors 201 needs to be adjusted, only the first screw 2040 needs to be rotated, at this time, the first transmission nut 2041 can move along the axial direction of the first screw 2040 under the action of thread transmission, the lateral belt conveyor 201 capable of translating moves along with the first transmission nut 2041, after the position of the lateral belt conveyor 201 capable of translating is adjusted, the rotation of the first screw 2040 is stopped, at this time, the lateral belt conveyor 201 capable of translating is fixed at the position, the lateral belt conveyor 201 capable of translating can be conveniently adjusted, and the effect of fixing the lateral belt conveyor 201 can also be achieved after the adjustment is completed.

In order to facilitate the rotation of the first screw 2040, in a further embodiment, a handle is disposed at an end of the first screw 2040, so that manual adjustment is facilitated; or, the end of the first screw 2040 is connected to a rotating motor through a coupling, so that electric adjustment can be realized, and labor is saved.

Because the side belt conveyor 201 has a certain length, in a further embodiment, the first translational locking assemblies 204 may be provided in multiple sets, and the multiple sets of first translational locking assemblies 204 are arranged in sequence along the conveying direction.

After the label spraying operation is completed, the material receiving mechanism 3 is required to collect the labeled paper boards together to make a position for the subsequent paper boards, please refer to fig. 9 and 10, in a specific embodiment, the material receiving mechanism 3 includes a push handle 300, a push handle driving mechanism 301, a material receiving rack 302 and a brush assembly; the push handle 300 is used for moving the paper board output by the marking mechanism 2 to other places under the driving of the push handle driving mechanism 301; the push handle driving mechanism 301 is used for driving the push handle 300 to move; the material collecting frame 302 is used for placing paperboards; the brush component is used for supporting the paper board to enable the paper board to be in a vertical state.

The push handle 300 and the brush component are respectively positioned at two sides of the material receiving frame 302; the cardboard is transported to the material receiving frame 302 by the marking mechanism 2, and the cardboard is located between the pushing handle 300 and the brush component, one side of the cardboard faces the pushing handle 300, and the other side of the cardboard faces the brush component. In addition, the push handle 300 faces the gap between the two sets of brush assemblies, that is, the paper board can be pushed between the two sets of brush assemblies when the push handle 300 moves.

The two groups of brush components are arranged in sequence along the direction of the paper conveying plate, the bristles of the two groups of brush components are arranged oppositely, the distance between the two groups of brush components is matched with the length of the paper plate along the conveying direction, that is, when the paper board is pushed between the two sets of brush assemblies by the push handle 300, the paper board can be clamped by the bristles of the two sets of brush assemblies, so that the paper board can be in a vertical state without a support member on both sides, and is supported by the two sets of brush assemblies, so that the paper board can be moved away from the code marking mechanism 2, the paper boards are arranged in rows to play a role of receiving materials, the second paper board does not depend on the support of the adjacent paper board to keep the vertical placement state, the back cardboard is carried extremely, and with leave certain space between the cardboard earlier, the condition that the both sides of cardboard can have the sunning avoids adjacent cardboard to contact each other, makes all marks that its surface sprayed rub badly, guarantees the mark integrality that sprays.

The push handle driving mechanism 301 is in transmission connection with the push handle 300 and is used for driving the push handle 300 to push the paper boards between the two groups of brush assemblies so that the paper boards are in an interval and vertical state. The push handle driving mechanism 301 can be an air cylinder, an oil cylinder or a linear motor, wherein the linear motor can be a screw rod motor, the body of the push handle driving mechanism 301 can be fixed at the material receiving frame 302, and the output end of the push handle driving mechanism 301 is connected with the push handle 300.

In a further embodiment, the brush assembly comprises a brush holder and a plurality of brushes 3031; the brush holder is vertically arranged at the position of the material receiving frame 302, the plurality of brushes 3031 are sequentially arranged at the brush holder from top to bottom, and the length direction of the brushes 3031 is arranged along the direction of pushing the paper board 300 to move. The bristles of the brush 3031 have certain flexibility and supporting capacity, and can be made of silica gel or plastic and the like.

The brush holder comprises a guide rod 3030 which is vertically arranged; the brush 3031 is arranged at the guide rod 3030 through a guide rod seat 3032; referring to fig. 11, the guide rod base 3032 is provided with a rod hole and a notch 3033 penetrating into the rod hole, and the notch 3033 is locked by a bolt 3034 to clamp the guide rod 3030 in the rod hole when the guide rod 3030 penetrates into the rod hole, so that the brush 3031 can be detachably arranged at the guide rod 3030, and the height of the brush 3031 can be adjusted according to the vertical height of the cardboard to adapt to a plurality of cardboard with different sizes.

Due to the different sizes of the paper boards, in a further embodiment, the two sets of brush assemblies arranged along the conveying direction are the first brush assembly 303 and the second brush assembly 304 respectively; the second brush assembly 304 is translatably disposed at the collector 302, either adjacent to or distal to the first brush assembly 303, and is locked by a second translational locking assembly. After the distance between the first brush assembly 303 and the second brush assembly 304 is adjusted according to the size of the cardboard, the second brush assembly 304 can be fixed and moved by locking the second translation locking assembly, so that the cardboard with different sizes can be adapted.

The material receiving frame 302 can be provided with a sliding rail, the bottom of the second brush assembly 304 can be provided with a sliding block, the sliding block can be slidably arranged in the sliding rail, the second brush assembly 304 can be arranged in a translation mode through the sliding rail, the second translation locking assembly can be a bolt at the moment, and the bolt penetrates into the sliding block from the side portion of the sliding rail to lock the sliding block.

To lock the second brush assembly 304 and also facilitate adjustment of the position of the second brush assembly 304 relative to the first brush assembly 303, in the case where the second brush assembly 304 is translatably disposed at the material receiving rack 302, in the preferred embodiment, the second translational locking assembly includes a second screw 305 and a second drive nut 306; the second screw 305 is axially and rotatably arranged in the material receiving frame 302, specifically can be arranged in the material receiving frame 302 through a bearing, and the axial direction is orthogonal to the direction in which the pushing handle 300 pushes the paper board to move; the second driving nut 306 is threadedly rotated to adjust the second screw 305 and is connected to the second brush assembly 304.

When the distance between the first brush assembly 303 and the second brush assembly 304 needs to be adjusted, only the second screw 305 needs to be rotated, at this time, the second transmission nut 306 can move along the axial direction of the second screw 305 under the effect of thread transmission, the second brush assembly 304 moves along with the second transmission nut 306, after the position adjustment of the second brush assembly 304 is completed, the rotation of the second screw 305 is stopped, at this time, the second brush assembly 304 is fixed at the position, the position of the second brush assembly 304 can be conveniently adjusted, and the effect of fixing the second brush assembly 304 can also be achieved after the adjustment is completed.

To facilitate rotation of the second screw 305, in a further embodiment, one end of the second screw 305 is threaded out of the material receiving rack 302; a handle is arranged at one end of the second screw 305 penetrating out of the material receiving frame 302, so that manual adjustment can be facilitated; or, the end of the second screw 305 is connected to a rotating motor through a coupling, so that electric adjustment can be realized, and labor is saved.

In order to stably convey the paper board with the marked code between the pushing handle 300 and the brush assembly, in a further embodiment, the bottom belt conveyor 200 is sequentially a marked section and a receiving section 2000 along the direction of the paper board; the material receiving section 2000 is located between the pushing handle 300 and the brush component and used for conveying the paperboard to a position between the pushing handle 300 and the brush component, and specifically, the material receiving section 2000 can be located on the material receiving frame 302 or arranged in parallel with the material receiving frame 302; two bottom belt conveyors 200 are located on either side of the code segment. In the actual operation process, the lengths of the marking section and the receiving section 2000 are set, so that when the marked paperboard is just conveyed to the pushing handle 300, the subsequent paperboard is also just conveyed to the station of the label spraying operation, at the moment, the marked paperboard is pushed to the space between the two groups of brush assemblies by the pushing handle 300, and the subsequent paperboard is subjected to the label spraying operation by the label spraying assembly.

The vertical paging machine conveys the vertically placed paperboards in the whole process, double-sided marking can be completed in a single conveying process, and the efficiency is high; in the marking process, the bottom belt conveyor 200 and the two side belt conveyors 201 are used for conveying, the two side belt conveyors 201 convey and clamp the vertically placed paper boards, the paper boards are supported and guided, the paper boards are driven to move by means of friction contact of the conveying belts and the surfaces of the paper boards, the contact area of conveying is increased by means of the arrangement of the two side belt conveyors 201, the bottom belt conveyor 200 and the side belt conveyors 201 convey the paper boards at the same conveying speed, smoothness of the paper boards can be guaranteed, the paper boards are more stable in the conveying process, the single marking speed of the marking component is fixed, the quality of the marking is related to the moving state of the paper boards, the paper boards move more stably and at a constant speed, and the quality of the marking is guaranteed; after spouting the mark and accomplishing, need receive the cardboard and close to subsequent spouting mark operation under not influencing, through pushing away the cardboard to between two sets of brush subassemblies, under the support of brush, the cardboard can be in alone and put the state immediately, and adjacent cardboard need not to rely on each other, need not the contact promptly, can carry out the sunning at this moment, guarantees that the mark code is dry to take shape, and receives the material efficiency still high.

It should be noted that, although the above embodiments have been described herein, the scope of the present invention is not limited thereby. Therefore, based on the innovative concept of the present invention, the changes and modifications of the embodiments described herein, or the equivalent structure or equivalent process changes made by the contents of the specification and the drawings of the present invention, directly or indirectly apply the above technical solutions to other related technical fields, all included in the scope of the present invention.

Claims (10)

1. A vertical paging machine is characterized by comprising a feeding mechanism, a marking mechanism and a receiving mechanism which are arranged in sequence;

the feeding mechanism is used for conveying the vertically placed paper boards into the marking mechanism one by one;

the marking mechanism comprises two groups of marking components, a bottom belt conveyor and two side belt conveyors; the bottom surface belt conveyor is horizontally arranged; the two side surface belt conveyors are respectively erected on two sides of the bottom surface belt conveyor; the paper board is conveyed to a position between the two side belt conveyors by the feeding mechanism, the two side surfaces of the bottom of the paper board are respectively contacted with the conveying belts of the two side belt conveyors, and the bottom surface of the bottom of the paper board is contacted with the conveying belt of the bottom belt conveyor; the two groups of spraying mark components are respectively positioned on the two side belt conveyors and are used for respectively marking the two board surfaces of the paper board;

the material receiving mechanism comprises a push handle, a push handle driving mechanism, a material receiving frame and a brush component; the push handle and the brush component are respectively positioned at two sides of the material receiving frame; the paper board is conveyed to a position between the push handle and the brush component by the marking mechanism; the two groups of brush components are arranged in sequence along the direction of the paper conveying plate, and the bristles of the two groups of brush components are arranged oppositely; the push handle driving mechanism is in transmission connection with the push handle and is used for driving the push handle to push the paper boards between the two groups of brush assemblies so as to enable the paper boards to be in an interval and vertical state.

2. The vertical paging machine as claimed in claim 1, wherein the bottom belt conveyor and the side belt conveyor are belt conveyors, and the belt conveyors are in frictional contact with the board surface of the paper board.

3. The vertical paging machine as claimed in claim 1, wherein the bottom belt conveyor is sequentially a code section, a material receiving section along a direction of the sheet conveying plate; the material receiving section is positioned between the push handle and the brush component and is used for conveying the paper board to the position between the push handle and the brush component; two bottom surface belt conveyors are located on both sides of the code segment.

4. The vertical paging machine as claimed in claim 1, wherein the bottom belt conveyor and the two side belt conveyors enclose a path for conveying a sheet; the length of the channel along the conveying direction is not less than twice of the length of the paper boards along the conveying direction, the channel is sequentially a plurality of stations along the conveying direction, and each station can accommodate a single paper board.

5. The vertical paging machine as claimed in claim 4, wherein a plurality of positioning sensors are disposed at the passage, and the plurality of positioning sensors are sequentially disposed along the conveying direction to detect whether the paper board exists at the station.

6. The vertical paging machine as claimed in claim 1, wherein cardboard holders are erected on the two side belt conveyors, respectively, for holding the cardboard in a standing state; two groups of code marking components are respectively arranged at the two paper board supports.

7. The vertical paging machine as claimed in claim 1, wherein the brush assembly comprises a brush holder and a plurality of brushes; the brush frame is vertically arranged at the material receiving frame, the plurality of brushes are sequentially arranged at the brush frame from top to bottom, and the length direction of the brushes is arranged along the direction of pushing the paper board to move.

8. The vertical paging machine as claimed in claim 1, wherein the two sets of brush assemblies disposed along the conveying direction are a first brush assembly and a second brush assembly, respectively; the second brush component can be arranged at the material receiving frame in a translation manner close to or far away from the first brush component;

the material receiving mechanism also comprises a screw and a transmission nut; the screw rod can be axially and rotatably arranged in the material receiving frame, and the axial direction is orthogonal to the direction in which the pushing handle pushes the paper board to move; the transmission nut is screwed at the screw in a threaded transmission manner and is connected with the second brush component.

9. The vertical paging machine according to claim 1, wherein the feeding mechanism comprises a feeding frame, a feeding belt conveyor, a pressing plate driving mechanism, and a baffle plate;

the feeding belt conveyor is erected on the feeding frame; the pressing plate and the baffle are sequentially arranged along the conveying direction, the pressing plate is vertically arranged on the feeding frame, the plate surface of the pressing plate is opposite to the belt surface of the conveying belt of the feeding belt conveyor, the paper plate is vertically arranged between the feeding belt conveyor and the pressing plate, and a gap for the single paper plate to pass through is reserved between the baffle and the feeding belt conveyor;

the pressing plate driving mechanism is connected with the pressing plate in a transmission mode and used for driving the pressing plate to be close to the feeding belt conveyor so as to press the paper plate to be in contact with a belt surface of a conveying belt of the feeding belt conveyor.

10. The vertical paging machine as claimed in claim 9, wherein the loading frame is disposed to be inclined downward in a direction close to the loading belt conveyor.

Images