CN215885768U - Rear end positioning device for sticker panel - Google Patents

Abstract

The application discloses a rear end positioning device for a sticker board, which relates to the technical field of sticker boards, and solves the problems of inconvenience and poor effect of manually stacking sticker boards, and comprises a stacking platform and a positioning mechanism, wherein the positioning mechanism is positioned above the stacking platform, the positioning mechanism comprises a base, a transportation assembly and a positioning assembly, a stacking port is formed in the base along the vertical direction, the transportation assembly comprises a feed inlet, the transportation assembly comprises a plurality of transportation units, the transportation units are divided into two groups and are arranged on two sides of the base, the transportation units have two states of stretching out and withdrawing, when the transportation units stretch out, the transportation units are positioned in the stacking port, when the transportation units are withdrawn, the sticker board falls onto the stacking platform, the positioning assembly comprises a plurality of first positioning plates, the first positioning plates are positioned at one end of the base, which is far away from the feed inlet, this application can be automatically neatly piled up sticker panel.

Description

Rear end positioning device for sticker panel

Technical Field

The application relates to the technical field of sticker panels, in particular to a rear end positioning device for sticker panels.

Background

The sticker board is a plate-shaped structural material and is widely used in the building industry and the household industry. The sticker panel comprises the wooden board inside and the sticker adhered to the surface of the panel, wherein the sticker has the functions of moisture protection, corrosion protection, insect prevention and the like, and can protect the wooden board.

Currently, the last step in the production of sticker sheets is typically to stack the sticker sheets. Since the sticker on the surface of the sheet material has a very important protective effect on the sticker sheet material, it is desirable to minimize the occurrence of collisions of the sticker sheet material during the step of stacking the sticker sheet materials. Therefore, in the production process, generally, the workers are arranged to convey the processed sticker boards to the storage area from the conveying mechanism for stacking, or the machined sticker boards are conveyed to the storage platform through the conveying mechanism and then stacked by the workers.

In the process of realizing the application, the applicant finds that at least the following problems exist in the technology, more manpower needs to be input in the stacking process of the sticker boards, the manually stacked sticker boards are prone to being stacked irregularly, inclined and the like, the carrying of the stacked sticker boards is affected, and meanwhile the sticker boards are large in quality, so that burden and inconvenience are brought to workers.

SUMMERY OF THE UTILITY MODEL

In order to improve the manual work and pile up the inconvenient and not good problem of effect of sticker panel, this application provides a rear end positioner for sticker panel.

The application provides a rear end positioner for sticker panel adopts following technical scheme:

the utility model provides a rear end positioner for sticker panel for supplementary sticker panel location piles up, including stacking platform and positioning mechanism, stack the setting of platform level, positioning mechanism is located the top of stacking the platform, positioning mechanism includes:

the stand is arranged on the ground;

a transport assembly for transporting the sticker sheet;

the positioning assembly is arranged above the transportation assembly;

wherein, set up along vertical direction on the frame and supply sticker panel to fall to the stacking mouth of stacking the platform, the transportation subassembly includes the feed inlet, the transportation subassembly includes a plurality of transportation units, and is a plurality of the transportation unit divide into two sets of both sides that set up in the frame, the transportation unit has and stretches out and withdraws two kinds of states, when the transportation unit stretches out, the transportation unit is arranged in stacking the mouth, when the transportation unit is withdrawed, sticker panel falls to stacking the platform through stacking the mouth on, locating component includes a plurality of first locating plates, the one end of keeping away from the feed inlet on first locating plate is arranged in the frame.

Through adopting above-mentioned technical scheme, the transportation unit stretches out and transports sticker panel to sticker panel and first locating plate counterbalance back, and the transportation unit is withdrawed and is made sticker panel drop to stacking the platform through piling up the mouth on, and the above-mentioned step of transportation subassembly recirculation makes sticker panel pile up and places in stacking the platform top, has accelerated sticker panel's pile efficiency greatly, and sticker panel piles up neatly and has practiced thrift a large amount of human input.

Optionally, it is a plurality of the equal level of transportation unit sets up, the transportation unit rotates with the frame to be connected, transportation unit and frame sliding connection, just be equipped with on the frame and be used for driving the gliding first driving piece of transportation unit along the perpendicular to direction of transportation.

Through adopting above-mentioned technical scheme, two sets of transport unit can be withdrawed simultaneously under the drive of first driving piece, make sticker panel can keep the horizontality whereabouts to make sticker panel can pile up neatly, prevent sticker panel slope simultaneously and drop and cause the damage.

Optionally, the positioning assembly further includes:

the number of the second positioning plates is even, the second positioning plates are vertically arranged and are arranged in parallel to the transportation direction;

the even number of second positioning plates are respectively arranged on two sides of the machine base and positioned in the stacking port, the second positioning plates are positioned above the conveying units, a gap is reserved between the lower ends of the second positioning plates and the upper ends of the conveying units, the second positioning plates are connected with the machine base in a sliding mode, and a second driving piece used for driving the second positioning plates to slide in the direction perpendicular to the conveying direction is arranged on the machine base.

Through adopting above-mentioned technical scheme, when the transportation subassembly stretches out transportation sticker panel, the second locating plate of both sides is close to in the phase slip under the drive of second driving piece, the second locating plate promotes sticker panel between two parties, it is tight simultaneously with sticker panel clamp, then the transportation subassembly is withdrawed the back, sticker panel is loosened when both sides second locating plate change slip direction, sticker panel falls to stacking the platform through piling up the mouth on, prevent that the transportation subassembly from withdrawing the in-process because of there is frictional force between transportation subassembly and the sticker panel and lead to sticker panel offset, it is more neat to make sticker panel pile up.

Optionally, the positioning assembly further includes:

a third positioning plate arranged in parallel with the first positioning plate;

the third positioning plate is located at one end, close to the feed inlet, of the machine base, the upper end of the third positioning plate is not higher than the upper end of the transportation unit, the third positioning plate is connected with the machine base in a sliding mode, and a third driving piece used for driving the third positioning plate to slide along the transportation direction is further arranged on the machine base.

Through adopting above-mentioned technical scheme, sticker panel falls to stacking on the platform after, and the third locating plate slides and promotes the sticker panel of the top to align with the sticker panel that the below was piled up, prevents that sticker panel from falling to stacking on the platform after take place the offset in the direction of transportation, makes sticker panel pile neatly.

Optionally, the method further includes:

the lifting mechanism is positioned below the stacking platform;

the upper end of the lifting mechanism is connected with the stacking platform, and the lifting mechanism is used for driving the stacking platform to move in the vertical direction.

Through adopting above-mentioned technical scheme, elevating system drives and stacks the platform and rises, can reduce sticker panel and fall to the distance of stacking the platform, reduces sticker panel and takes place because of the condition of falling and colliding with the damage.

Optionally, the ground below the lifting mechanism is provided with:

the lifting groove is formed in the vertical direction, and an opening above the lifting groove is communicated with the outside;

the lifting mechanism drives the stacking platform to slide in the lifting groove, the lifting mechanism has two states of a minimum stroke and a maximum stroke, when the lifting mechanism is at a minimum stroke position, the stacking platform is located in the lifting groove, and when the lifting mechanism is at a maximum stroke position, the stacking platform is located outside the lifting groove.

Through adopting above-mentioned technical scheme, can the rational utilization space, make and stack more sticker panels on the platform.

Optionally, a plurality of grooves are formed in the upper end surface of the stacking platform, the grooves are parallel to each other, the forming track of the grooves is perpendicular to the transportation direction, and the grooves penetrate through two ends of the stacking platform.

Through adopting above-mentioned technical scheme, operation fork truck is located the sticker panel below that piles up behind inserting along the recess with the fork foot, makes things convenient for staff's operation fork truck to carry the sticker panel that piles up.

Optionally, two first sliding rails are further arranged on the ground, the two first sliding rails are respectively located on two sides of the lifting groove, the length direction of the first sliding rails is parallel to the transportation direction, and a sliding assembly matched with the first sliding rails is arranged at the bottom of the machine base;

the first sliding track is provided with:

the limiting pieces are used for limiting the sliding position of the engine base, two limiting pieces are arranged on each first sliding rail, and the two limiting pieces are respectively positioned at two ends of each first sliding rail;

when the sliding assembly abuts against the limiting part close to one end of the lifting groove, the stacking opening is communicated with the lifting groove, the stacking opening corresponds to the lifting groove in the vertical direction, and when the sliding assembly abuts against the limiting part far away from one end of the lifting groove, the base and the stacking platform have a distance in the horizontal direction.

Through adopting above-mentioned technical scheme, frame and first slip track sliding connection slide the frame to the one end of keeping away from the lift groove after, make things convenient for staff to operate fork truck and carry the sticker panel that piles up, also make things convenient for the staff to inspect and maintain equipment such as stacking platform, elevating system simultaneously.

Optionally, a locking member is disposed on the first sliding rail, the locking member is used to fix a sliding position of the base, and the locking members are respectively close to two ends of the first sliding rail.

Through adopting above-mentioned technical scheme, can make the frame fixed in the position at first slip track upper end both ends, prevent that the frame from taking place the mistake on first slip track and sliding.

In summary, the present application includes at least one of the following benefits:

1. the sticker sheets can be automatically stacked and stacked on the platform in order;

2. on the premise of not occupying extra space, a large number of sticker sheets can be stacked on the stacking platform at one time;

3. the base can slide according to needs, and the sliding position of the base can be fixed.

Drawings

FIG. 1 is a schematic structural view of a rear end positioning device for a sticker sheet material according to an embodiment of the present application;

FIG. 2 is an enlarged view at A in FIG. 1;

FIG. 3 is an enlarged view at B in FIG. 1;

FIG. 4 is an enlarged view at C of FIG. 1;

FIG. 5 is a view of the positioning mechanism and transport mechanism in the transport direction in an embodiment of the present application;

FIG. 6 is a cross-sectional view of a rear end positioning device in an embodiment of the present application;

figure 7 is a cross-sectional view of a slide assembly in an embodiment of the present application.

Description of reference numerals: 1. a positioning mechanism; 11. a machine base; 111. a boss; 112. a sliding assembly; 1121. mounting grooves; 1122. a slider; 1123. a guide member; 1124. a contact member; 113. a stacking port; 12. a transport assembly; 121. a mounting frame; 122. a transport unit; 123. a fourth drive; 124. a transmission member; 125. a first driving member; 1251. a first connecting member; 126. an auxiliary transport unit; 127. a feed inlet; 13. a positioning assembly; 131. a first positioning plate; 132. a second positioning plate; 133. a second driving member; 1331. a second connecting member; 134. a third positioning plate; 135. a third driving member; 1351. a third connecting member; 2. stacking the platform; 21. a groove; 3. a lifting mechanism; 4. a ground surface; 41. a lifting groove; 42. a sliding track; 421. a limiting hole; 422. a locking hole; 5. a locking member; 6. a limiting member; 61. a limit screw; 7. sticker board.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses rear end positioner for sticker panel.

Referring to fig. 1 and 2, the rear end positioning device includes a stacking platform 2, a lifting mechanism 3, and a positioning mechanism 1. The stacking platform 2 is horizontally arranged and used for stacking and placing a plurality of sticker sheets 7. The lifting mechanism 3 is arranged below the stacking platform 2 and used for driving the stacking platform 2 to lift and descend. Positioning mechanism 1 includes frame 11, and frame 11 bottom is equipped with slip subassembly 112, and positioning mechanism 1 can slide on ground 4, and when positioning mechanism 1 slided to stacking platform 2 position, positioning mechanism 1 will stack the platform 2 and surround, and positioning mechanism 1 is used for piling up on stacking platform 2 after the sticker panel 7 location.

Referring to fig. 1 and 3, the sticker sheet material 7 is transported to the positioning mechanism 1 after being processed by the previous process, and after the positioning mechanism 1 carries out position calibration on the sticker sheet material 7, the sticker sheet material 7 is moved to the stacking platform 2, and meanwhile, the lifting mechanism 3 drives the stacking platform 2 to move in the vertical direction, so that the sticker sheet materials 7 are stacked neatly on the stacking platform 2.

Referring to fig. 1, a lifting groove 41 is formed in one end of the ground 4 close to the previous device outlet along the vertical direction, the lower end of the lifting mechanism 3 is connected with the bottom of the lifting groove 41, and the upper end of the lifting mechanism 3 is connected with the stacking platform 2. The lifting mechanism 3 can drive the stacking platform 2 to slide in the lifting groove 41 along the vertical direction.

In this embodiment, the lifting mechanism 3 is a scissor type lifting platform, which is a known technology in the art and therefore will not be described in detail.

In the process that the lifting mechanism 3 drives the stacking platform 2 to move along the vertical direction, the lifting mechanism 3 has two positions of a maximum stroke and a minimum stroke, when the lifting mechanism 3 is at the maximum stroke position, the stacking platform 2 is located at the highest point, and the stacking platform 2 is located outside the lifting groove 41; when the lifting mechanism 3 is at the minimum stroke position, the stacking platform 2 is at the lowest point, and the stacking platform 2 is located in the lifting groove 41.

The upper end of stacking platform 2 is provided with a groove 21 for inserting fork truck pins, the number of grooves 21 is two, and the groove 21 is perpendicular to the transportation direction and penetrates through the two sides of stacking platform 2.

The base 11 is a cuboid structure, and the base 11 is provided with a stacking opening 113 for the sticker sheet material 7 to fall to the stacking platform 2 after passing through along the vertical direction.

Referring to fig. 1 and 3, the positioning mechanism 1 further includes a transport assembly 12 for transporting the sticker sheet 7, and the transport assembly 12 has a feed opening 127 at an end thereof adjacent to the previous apparatus in the transport direction. The transportation assembly 12 includes a plurality of transportation units 122, in this embodiment, the transportation units 122 are rotating rollers, and in other embodiments, transportation modes such as crawler transportation and the like may also be adopted.

The transportation units 122 are divided into two groups and are respectively arranged on two sides of the positioning mechanism 1, and the transportation units 122 are horizontally arranged and are located on the same horizontal plane. The two sets of transportation units 122 are symmetrically disposed and respectively located at two ends of the positioning mechanism 1 near one side of the stacking port 113.

The transport assembly 12 further includes two mounting brackets 121, and the two mounting brackets 121 are respectively located at two ends of the base 11. Two sets of transportation units 122 are respectively arranged on the two mounting frames 121, the transportation units 122 are rotatably connected with the mounting frames 121, and the rotation axis of the transportation units 122 is perpendicular to the transportation direction.

The transportation assembly 12 further includes a fourth driving member 123 for providing power for the transportation unit 122 to perform a transportation function, and a transmission member 124 for driving the transportation unit 122 to perform the transportation function, in this embodiment, the fourth driving member 123 is a motor, the transmission member 124 is a belt, and in other embodiments, the transmission member 124 may also be implemented by a gear, a chain, or the like.

Two fourth driving parts 123 are provided and are respectively located at two sides of the base 11. The fourth driving member 123 is connected to an end of a transport unit 122 away from the stacking port 113, and the fourth driving member 123 is connected to an end of the mounting frame 121 away from the stacking port 113.

The transmission member 124 is engaged with the plurality of transport units 122 on the same side, and the transmission member 124 is located at an end of the transport unit 122 away from the stacking port 113.

The fourth driving member 123 drives the transmission member 124 to move, so as to drive the transportation unit 122 to transport the sticker sheet material 7.

Both the mounting frames 121 are slidably connected to the base 11, and the base 11 is provided with a first driving member 125 for driving the mounting frames 121 to slide in a direction perpendicular to the transportation direction. The number of the first driving members 125 is four, and the first driving members are respectively located at four corner positions of the base 11.

In this embodiment, the first driving element 125 is an air cylinder, and in other embodiments, a driving element such as a screw rod can be used. The first driving members 125 are all disposed in parallel, and the driving direction of the first driving members 125 is perpendicular to the transportation direction.

The first driving member 125 has a first connecting member 1251 thereon, the first connecting member 1251 is slidably connected to the first driving member 125 along a driving direction thereof, and an end of the first connecting member 1251 away from the first driving member 125 is connected to an end of the mounting frame 121 close to the stacking port 113.

The first driving member 125 drives the first connecting member 1251 to slide, so as to drive the mounting frame 121 to slide on the base 11. During the sliding of the mounting frame 121, the transport assembly 12 has two states of extension and retraction. When the transport assembly 12 is in the extended state, the mounting frame 121 and the transport unit 122 are located in the stacking opening 113 for transporting the sticker sheet 7; when the transport assembly 12 is in the retracted state, the mounting frame 121 and the transport unit 122 are located on both sides of the stacking port 113.

Referring to fig. 1, the positioning mechanism 1 further includes a positioning assembly 13, the positioning assembly 13 includes a first positioning plate 131, the first positioning plate 131 is perpendicular to the transportation direction, and the first positioning plate 131 is fixedly connected to one end of the base 11, which is far away from the feeding port 127.

The end of the base 11 away from the feed opening 127 is provided with a boss 111, the boss 111 is horizontally arranged, the boss 111 extends towards the stacking opening 113, and the first positioning plate 131 is arranged on the boss 111.

The first positioning plate 131 is provided with a plurality of, and two first positioning plates 131 are arranged in the embodiment, and the distance between the two first positioning plates 131 is smaller than the transverse dimension of the sticker sheet material 7.

The positioning mechanism 1 further includes an even number of second positioning plates 132, and the even number of second positioning plates 132 are respectively located at two ends of the base 11. In this embodiment, two second positioning plates 132 are disposed, and the second positioning plates 132 are symmetrically disposed.

The second positioning plate 132 is parallel to the transportation direction and is vertically disposed, and the second positioning plate 132 is located on one side of the base 11 close to the stacking port 113. The second positioning plate 132 is slidably connected to the base 11, and a second driving member 133 for driving the second positioning plate 132 to slide along a direction perpendicular to the transporting direction is further disposed at two ends of the base 11. An even number of the second driving members 133 are provided, and six second driving members 133 are provided in this embodiment.

The second driving member 133 is disposed in parallel with the first driving member 125, and the second driving member 133 is connected to an end of the base 11 away from the stacking port 113. In this embodiment, the second driving member 133 is a cylinder. A second connecting member 1331 is slidably connected to the second driving member 133 along the driving direction thereof, and one end of the second connecting member 1331 away from the second driving member 133 is connected to one side of the second positioning plate 132 away from the stacking port 113.

When the second driving member 133 drives the second positioning plate 132 to slide toward the sticker sheet 7, the second positioning plates 132 on both sides push the sticker sheet 7 to the center position and clamp the sticker sheet 7 in the horizontal direction; when the second driving member 133 drives the second positioning plate 132 to slide away from the sticker sheet material 7, the two side second positioning plates 132 release the sticker sheet material 7.

To the extrusion injury of sticker sheet material 7 when reducing the tight sticker sheet material 7 of second locating plate 132 clamp, second locating plate 132 can be made by rubber materials.

Referring to fig. 1, 4 and 5, the positioning assembly 13 further includes a third positioning plate 134, the third positioning plate 134 is disposed parallel to the first positioning plate 131, and the third positioning plate 134 is disposed at an end of the housing 11 close to the feed opening 127.

Referring to fig. 6, the base 11 is also provided with a boss 111 at an end thereof adjacent to the feed opening 127, and the boss 111 extends toward the stacking opening 113. The third positioning plate 134 is slidably connected to the base 11, and a third driving member 135 for driving the third positioning plate 134 to slide along the transportation direction is disposed on the boss 111.

A third connecting member 1351 is slidably connected to the third driving member 135, the third connecting member 1351 is parallel to the transportation direction, and an end of the third connecting member 1351 away from the third driving member 135 is connected to the third positioning plate 134.

In this embodiment, the third driving member 135 is a cylinder, and one third driving member 135 is provided.

Referring to fig. 5 and 6, the transport assembly 12 further includes auxiliary transport units 126, the auxiliary transport units 126 are disposed on the bosses 111 near the feeding ports 127, two auxiliary transport units 126 are disposed, and the two auxiliary transport units 126 are respectively disposed at both sides of the third driving member 135. The auxiliary transport unit 126 is provided perpendicularly to the transport direction for assisting the movement of the sticker sheet material 7 entering the positioning mechanism 1 from the feed opening 127 onto the transport unit 122. The auxiliary transport unit 126 is rotatably coupled to the boss 111, and a rotation axis of the auxiliary transport unit 126 is perpendicular to the transport direction.

The upper end surface of the third positioning plate 134 and the upper end of the transportation unit 122 are located on the same horizontal plane, the vertical height of the upper end of the auxiliary transportation unit 126 is larger than that of the upper end of the transportation unit 122, and the sticker sheet 7 cannot be affected by the third positioning plate 134 during transportation and is displaced.

The vertical height of first locating plate 131 up end is greater than the vertical height of transportation unit 122 upper end, and when sticker sheet material 7 transported on transportation unit 122, sticker sheet material 7 one end offseted with first locating plate 131.

Referring to fig. 6, the sticker sheet material 7 is moved to above the transport unit 122 in the transport direction by the auxiliary transport unit 126 and the transport unit 122, and one end of the sticker sheet material 7, which is far away from the feed opening 127, abuts against the first positioning plate 131. Then the second positioning plates 132 on both sides slide toward the sticker sheet material 7 to be close to, push the sticker sheet material 7 to the centering position and then clamp it. Thereafter, the transport assembly 12 retracts to allow the sticker sheet material 7 to lose vertical support, at which time the sticker sheet material 7 is secured between the two second positioning plates 132 due to the friction between the second positioning plates 132 and the sticker sheet material 7. Subsequently, the two second positioning plates 132 slide away from the sticker sheet 7, and the sticker sheet 7 loses its support and falls onto the stacking platform 2. Finally, the third positioning plate 134 slides close to the sticker sheet material 7, so that the sticker sheet material 7 is stacked neatly with other sticker sheet materials 7 stacked therebelow.

Referring to fig. 1 and 7, two sliding rails 42 are disposed on the ground 4 at both sides of the opening of the lifting groove 41, and the two sliding rails 42 are disposed parallel to each other and parallel to the transportation direction.

Referring to fig. 2 and 7, the sliding assembly 112 includes a sliding member 1122, and a mounting groove 1121 for mounting the sliding member 1122 is formed at the bottom of the machine base 11. The sliding member 1122 is located above the sliding rail 42, and in this embodiment, the sliding member 1122 is an i-shaped wheel adapted to the sliding rail 42, and in other embodiments, a pulley may be used.

The spool is rotatably connected to the base 11, and the rotation axis of the spool is perpendicular to the transport direction. The number of the spool wheels is four, and the four spool wheels are respectively positioned at four corners of the bottom of the machine base 11.

The two sides of the bottom of the machine base 11 in the axial direction of the spool are provided with the guide pieces 1123, and the two guide pieces 1123 are respectively located on the two sides of the sliding rail 42, so that the situation that the sliding piece 1122 is separated from the sliding rail 42 is reduced.

The sliding rails 42 are provided with limiting members 6 for limiting the machine base 11 to slide, each sliding rail 42 is provided with two limiting members 6, and the two limiting members 6 are respectively located at two ends of the sliding rail 42. Both ends of the sliding rail 42 are provided with a limiting hole 421 for the limiting part 6 to be in threaded connection with the sliding rail 42 along the vertical direction, and the limiting part 6 is in threaded connection with the sliding rail 42 through a limiting screw 61.

The sliding assembly 112 further includes an abutting member 1124, the abutting member 1124 is located on one side of the sliding member 1122 close to the position-limiting member 6, the abutting member 1124 is vertically disposed, and a gap exists between the abutting member 1124 and the sliding rail 42.

When the base 11 slides along the sliding rail 42 until the abutting member 1124 abuts against the limiting member 6, the sliding position of the base 11 is limited. In order to reduce the abrasion caused by the collision between the contact member 1124 and the position-limiting member 6 during the sliding process of the housing 11, the position-limiting member 6 may be made of rubber.

The two ends of the sliding rail 42 are further provided with locking holes 422 for the locking member 5 to be inserted into, each sliding rail 42 is provided with two locking holes 422, the two locking holes 422 are located between the two limiting holes 421, and the two locking holes 422 are respectively close to the two limiting holes 421.

The locking hole 422 is obliquely opened, and the locking piece 5 is provided with an oblique structure matched with the locking hole 422. When the base 11 slides until the abutting member 1124 abuts against the limiting member 6, the locking member 5 is inserted into the locking groove, and at this time, the locking member 5 abuts against the sliding member 1122, so that the sliding position of the base 11 is fixed.

Referring to fig. 1 and 6, when the base 11 slides along the sliding rail 42 until the abutting part 1124 adjacent to the previous device abuts against the limiting part 6 adjacent to the previous device, the base 11 is located above the lifting slot 41, the stacking port 113 is opposite to the lifting slot 41 in the vertical direction, and the stacking port 113 is communicated with the lifting slot 41; when the base 11 slides along the sliding rail 42 to the abutting part 1124 far away from the lifting groove 41 and abuts against the limiting part 6 far away from the lifting groove 41, the base 11 is located on one side of the lifting groove 41 far away from the previous device, so that the forklift can carry the stacked sticker sheets 7 on the stacking platform 2 conveniently.

The implementation principle of the rear end positioning device for the sticker sheet material in the embodiment of the application is as follows:

the transportation assembly 12 is extended out, the sticker sheet 7 is transported to one end of the sticker sheet 7 through the transportation assembly 12 and abuts against the first positioning plate 131, the second driving member 133 drives the second positioning plate 132 to push the sticker sheet 7 to be centered and clamped, then the transportation assembly 12 is retracted, then the second positioning plate 132 is retracted to enable the sticker sheet 7 to fall onto the stacking platform 2, when the second sticker sheet 7 is stacked on the stacking platform 2, the third driving member 135 drives the third positioning plate 134 to enable the second sticker sheet 7 to be stacked with the first sticker sheet 7 in order, as the stacking number of the sticker sheets 7 on the stacking platform 2 is increased, the lifting mechanism 3 drives the stacking platform 2 to descend, after the sticker sheets 7 are stacked in a certain number, the stacking platform 2 is lowered to the lowest point, the positioning mechanism 1 is pushed to slide to one side far away from the stacking platform 2, then the stacking platform 2 is raised to the highest point, and finally, carrying the stacked sticker sheets 7 by a forklift.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a rear end positioner for sticker panel for supplementary sticker panel location piles up, a serial communication port, including stacking platform (2) and positioning mechanism (1), stack platform (2) level setting, positioning mechanism (1) are located the top of stacking platform (2), positioning mechanism (1) include:

the engine base (11), the engine base (11) is arranged on the ground (4);

a transport assembly (12), the transport assembly (12) being for transporting a sticker sheet (7);

a positioning assembly (13), the positioning assembly (13) being arranged above the transport assembly (12);

wherein, a stacking opening (113) for the sticker sheet material (7) to fall to the stacking platform (2) is arranged on the machine base (11) along the vertical direction, the transportation assembly (12) comprises a feeding hole (127), the transportation assembly (12) comprises a plurality of transportation units (122), the transportation units (122) are divided into two groups and are arranged on two sides of the base (11), the transport unit (122) has two states of extension and retraction, and when the transport unit (122) is extended, the transport unit (122) being located in the stacking opening (113), the transport unit (122), when retracted, the sticker sheet (7) falls onto the stacking platform (2) through the stacking port (113), the positioning assembly (13) comprises a plurality of first positioning plates (131), and the first positioning plates (131) are positioned at one end, far away from the feeding hole (127), of the machine base (11).

2. The rear end positioning device for sticker sheets as claimed in claim 1, wherein the plurality of transport units (122) are horizontally disposed, the transport units (122) are slidably connected to the base (11), and the base (11) is provided with a first driving member (125) for driving the transport units (122) to slide along a direction perpendicular to the transport direction.

3. A rear-end positioning device for sticker sheets as claimed in claim 2, wherein the positioning assembly (13) further comprises:

an even number of second positioning plates (132), the second positioning plates (132) being arranged vertically, and the second positioning plates (132) being arranged parallel to the transport direction;

the even number of second positioning plates (132) are respectively arranged on two sides of the machine base (11), the second positioning plates (132) are positioned in the stacking opening (113), the second positioning plates (132) are positioned above the conveying unit (122), a gap exists between the lower ends of the second positioning plates (132) and the upper ends of the conveying unit (122), the second positioning plates (132) are connected with the machine base (11) in a sliding mode, and a second driving piece (133) used for driving the second positioning plates (132) to slide in the direction perpendicular to the conveying direction is arranged on the machine base (11).

4. A rear-end positioning device for sticker sheets as claimed in claim 2, wherein the positioning assembly (13) further comprises:

a third positioning plate (134), the third positioning plate (134) being arranged in parallel to the first positioning plate (131);

wherein, third locating plate (134) are located the one end that is close to feed inlet (127) on frame (11), the upper end of third locating plate (134) is not higher than the upper end of transportation unit (122), third locating plate (134) and frame (11) sliding connection, just still be equipped with on frame (11) and be used for driving gliding third driving piece (135) of third locating plate (134) along the direction of transportation.

5. The rear end positioning device for sticker sheets as claimed in claim 1, further comprising:

the lifting mechanism (3) is positioned below the stacking platform (2);

the upper end of the lifting mechanism (3) is connected with the stacking platform (2), and the lifting mechanism (3) is used for driving the stacking platform (2) to move along the vertical direction.

6. The rear end positioning device for the sticker sheet material as claimed in claim 5, wherein the ground (4) below the lifting mechanism (3) is provided with:

the lifting groove (41) is formed in the vertical direction, and an opening above the lifting groove (41) is communicated with the outside;

wherein, elevating system (3) drive stack platform (2) and slide in lift groove (41), elevating system (3) have minimum stroke and two kinds of states of maximum stroke, when elevating system (3) are minimum stroke position, stack platform (2) and be located lift groove (41), when elevating system (3) are maximum stroke position, stack platform (2) and be located outside lift groove (41).

7. The rear end positioning device for the sticker sheet material as claimed in claim 1, wherein the stacking platform (2) has a plurality of grooves (21) formed on an upper end surface thereof, the plurality of grooves (21) are parallel to each other, a forming path of the grooves (21) is perpendicular to a transport direction, and the grooves (21) penetrate through both ends of the stacking platform (2).

8. The rear end positioning device for the sticker sheet material according to claim 7, wherein two sliding rails (42) are further provided on the floor (4), the two sliding rails (42) are respectively located on two sides of the lifting groove (41), the length direction of the sliding rails (42) is parallel to the transportation direction, and the bottom of the machine base (11) is provided with a sliding assembly (112) matched with the sliding rails (42);

the sliding track (42) is provided with:

the limiting pieces (6) are used for limiting the sliding position of the engine base (11), two limiting pieces (6) are arranged on each sliding rail (42), and the two limiting pieces (6) are respectively positioned at two ends of each sliding rail (42);

when the sliding component (112) abuts against the limiting part (6) close to one end of the lifting groove (41), the stacking opening (113) is communicated with the lifting groove (41), the stacking opening (113) corresponds to the lifting groove (41) in the vertical direction, and when the sliding component (112) abuts against the limiting part (6) far away from one end of the lifting groove (41), the base (11) and the stacking platform (2) have a distance in the horizontal direction.

9. The rear end positioning device for sticker sheets as claimed in claim 8, wherein the sliding rail (42) is provided with locking members (5), the locking members (5) are used to fix the sliding position of the base (11), and the locking members (5) are respectively adjacent to both ends of the sliding rail (42).

Images