CN218140150U - Mechanism for feeding carton top paper ash plate - Google Patents

Abstract

The utility model relates to a mechanism for it box top paper hawk material loading belongs to a box processingequipment technical field. A mechanism for feeding a carton top cardboard comprises a base, wherein the base comprises a rotating bottom plate and a rotating motor arranged below the rotating bottom plate; an ash plate feeding assembly is arranged above the rotating bottom plate; the ash plate feeding assembly comprises a back vertical plate, two ash plate groove assemblies are arranged on one side of the back vertical plate, each ash plate groove assembly comprises an inner vertical plate and an outer vertical plate, strip holes are formed in the inner vertical plate and the outer vertical plate along the length direction, and notch blocking pieces are arranged on the inner vertical plate or the outer vertical plate; the ash plate lifting plate cartridge is at the ash plate inslot, and the tip fixed mounting of ash plate lifting plate is on the activity lifter plate, and the end fixing of activity lifter plate is on the board even is driven, and the drive is even the board and is fixed on the clamp splice, and the clamp splice passes through the slide rail and installs on the board of carrying on the back, and the clamp splice is fixed on the belt, and the both ends suit of belt is on the belt pulley, and one of them belt pulley is installed on belt pulley motor's output shaft.

Description

Mechanism for feeding carton top paper ash plate

Technical Field

The utility model relates to a mechanism for it box top paper hawk material loading belongs to a box processingequipment technical field.

Background

In the processing of the packing box, top paper needs to be attached to the bottom in the top box, and the structure of the top paper comprises a top paper body and gray plates attached to two sides of the top paper body. The gray board is attached to two sides of the top paper in parallel. The size of the gray plate is smaller, the general width is 6-15 mm, the length is 60-150 mm, the gray plate is mainly processed in a manual laminating mode, the operation requirement on workers is higher, and the large-scale production is not facilitated, so that the design of the automatic equipment for improving the laminating of the gray plate and the top paper body becomes a subject to be researched in the field. The automatic feeding of the gray board also becomes a necessary problem to be solved in the automatic production.

SUMMERY OF THE UTILITY MODEL

In order to realize the automatic feeding of hawk, the application provides a mechanism that is used for sky box top paper hawk material loading.

The utility model discloses a through following technical scheme, solve above-mentioned technical problem:

a mechanism for feeding a paper ash board at the top of a storage box comprises a base and is characterized in that the base comprises a rotating bottom plate and a rotating motor arranged below the rotating bottom plate; an ash plate feeding assembly is arranged above the rotating bottom plate; the ash plate feeding assembly comprises a back vertical plate, two ash plate groove assemblies are arranged on one side of the back vertical plate, each ash plate groove assembly comprises an inner vertical plate and an outer vertical plate, strip holes are formed in the inner vertical plate and the outer vertical plate along the length direction, and notch blocking pieces are arranged on the inner vertical plate or the outer vertical plate; the ash plate lifting plate is inserted in the ash plate groove, the movable lifting plate is inserted in a strip hole on the inner vertical plate and the outer vertical plate, the end part of the ash plate lifting plate is fixedly arranged on the movable lifting plate, the end part of the movable lifting plate is fixed on the driving connecting plate, the driving connecting plate is fixed on the clamping block, the clamping block is arranged on the back vertical plate through a sliding rail, the clamping block is fixed on the belt, the two ends of the belt are sleeved on the belt pulley, and one belt pulley is arranged on an output shaft of the belt pulley motor.

The technical scheme has the advantages that: this application is through a pair of hawk groove of design parallel, with the hawk placing in hawk inslot in batches, utilizes the hawk lift plate of bottom, rotates the hawk rebound that realizes one by one according to the frequency of setting for through the motor, and after a pair of hawk on upper strata was taken away, the hawk of lower floor rises automatically, and the use is step motor.

On the basis of the technical scheme, the application makes the following improvements and improvements on the technical scheme:

furthermore, the movable lifting plate penetrates through the two ash plate grooves, and the two ash plate lifting plates are fixed on the same movable lifting plate.

The technical characteristics have the beneficial effects in the application that: the design can realize synchronous lifting of the gray plate.

Furthermore, the driving connecting plate is inserted into the guide groove on the back standing plate.

The technical characteristics have the beneficial effects in the application that: the belt and the ash plate lifting plate are positioned on two sides of the back plate, so that the space is effectively utilized, and the equipment is convenient to overhaul.

Furthermore, the clamp splice has two, and two clamp splices are all installed on the back of the body board through the slide rail.

The technical characteristics have the beneficial effects in the application that: slide rail and clamp splice cooperation, the operation is stable, designs two clamp splices to every clamp splice all has the motor of oneself, guarantees the operation effect of equipment, avoids the operation of unilateral motor, leads to grey board lifting plate operation incline.

Further, the two clamping blocks are connected through a connector; the connector comprises a small sliding block and a pair of L-shaped connecting plates fixed on the small sliding block, wherein each L-shaped connecting plate is fixed on the small sliding block on the side of the L-shaped connecting plate.

The technical characteristics have the beneficial effects in the application that: the two clamping blocks are connected into a whole, and the stability of high operation is improved.

Furthermore, the clamping blocks and the ash plate lifting plates are positioned on two sides of the back vertical plate.

Furthermore, a stacking and aligning cylinder is installed on the side of the top of the ash plate groove assembly, and a stacking and aligning block is installed at the front end of the stacking and aligning cylinder.

The technical characteristics have the beneficial effects in the application that: the position of the ash plates at the top is guaranteed by the stacking and aligning cylinder, and the phenomenon that when the ash plates are subsequently extracted, the two ash plates are not parallel to each other, so that the quality of the top paper is influenced is avoided.

Furthermore, the code Ji Kuai is U-shaped, and the top end of the outer vertical plate is positioned in the U-shaped groove of the stacking block.

The technical characteristics have the beneficial effects in the application that: sign indicating number Ji Kuai promotes the hawk from the both sides of outer riser, can realize the neat of pushing away to the hawk buttress, can also utilize outer riser, avoids the hawk to drop.

Further, there are two gray board feeding assemblies.

The technical characteristics have the beneficial effects in the application that: the continuous processing and feeding can be realized, when the ash plates in one ash plate feeding assembly are used up, the other ash plate feeding assembly rotates to the feeding position to continue feeding, and the ash plate feeding device on the side can add the ash plates inwards.

Furthermore, the top of the inner vertical plate and/or the outer vertical plate is provided with a friction shifting sheet through a fixed pressing block.

The beneficial effects of the technical characteristics in the application are as follows: the utility model provides a mechanism for it is used for box top paper hawk material loading when using, can absorb the hawk at the loading attachment top layer through negative pressure suction means at the top, in the absorption, can absorb the hawk of two stromatolites sometimes, and actually only need one, just so can utilize the friction plectrums to make the hawk of bottom separate with the hawk on upper strata through frictional force, concretely, through the position of adjusting the friction plectrum, the friction plectrum is only with the side edge contact of hawk, frictional force is very little, do not influence the monolithic hawk and be absorbed, but in case absorb two hawks of upper and lower superpose simultaneously, the hawk of lower floor will be under the frictional force effect, separated, guarantee to absorb only a hawk.

Drawings

FIG. 1 is a schematic structural view of the mechanism for ceiling mounted cardboard gray board loading of the present application having two gray board supply assemblies;

FIG. 2 is a perspective view of the gray plate supply assembly mounted on the rotating base plate;

FIG. 3 is a schematic view of the mounting structure of the clamping block on the back plate;

FIG. 4 is a schematic view of the connection between the pulley motor and the ash plate lifting plate;

FIG. 5 is a schematic view of the ash panel lifting plate and the movable lifting plate;

FIG. 6 is a perspective view of the connector;

FIG. 7 is a schematic diagram of the position relationship between the inner vertical plate and the outer vertical plate;

fig. 8 is an enlarged view of fig. 2 at a.

The reference numbers are recorded as follows: the device comprises a rotary bottom plate-1, a back vertical plate-2, an inner vertical plate-3, an outer vertical plate-4, a baffle plate-5, a spanner bolt-6, an ash plate lifting plate-7, a belt pulley motor-8, a stacking block-9, a stacking block Ji Qigang-10, a clamping block-11, a belt-12, a slide rail-13, a rotary motor-14, a movable lifting plate-15, a driving connecting plate-16, a connector-17, a small sliding block-17.1, an L-shaped connecting plate-17.2, a fixed pressing block-18 and a friction plate-19.

Detailed Description

The following examples are only for illustrating the technical solutions described in the claims with reference to the drawings, and are not intended to limit the scope of the claims.

Example 1

With reference to fig. 1-5 and 7, the mechanism for feeding the cardboard at the top of the ceiling box comprises a base, wherein the base comprises a rotating bottom plate 1 and a rotating motor 14 arranged below the rotating bottom plate 1; an ash plate feeding assembly is arranged above the rotating bottom plate 1; the ash plate feeding assembly comprises a back vertical plate 2, two groups of ash plate groove assemblies are mounted on one side of the back vertical plate 2, each ash plate groove assembly comprises an inner vertical plate 3 and an outer vertical plate 4, strip holes are formed in the inner vertical plate 3 and the outer vertical plate 4 along the length direction and can be formed in the plate surface or in the positions close to the edge of the plate surface, notch blocking pieces 5 are mounted on the inner vertical plate 3 or the outer vertical plate 4, the blocking pieces 5 are mounted through bolts or handle bolts 6, the mounting holes in the blocking pieces 5 are the strip holes, and when the bolts or the handle bolts are loosened, the blocking pieces can be pushed aside to leave openings for filling ash plates; the cartridge of hawk lift plate 7 is at the hawk inslot, activity lifter plate 15 cartridge is in the rectangular hole on interior riser 3 and outer riser 4, the tip fixed mounting of hawk lift plate 7 is on activity lifter plate 15, the tip of activity lifter plate 15 is fixed on drive even board 16, drive even board 16 is fixed on clamp splice 11, clamp splice 11 passes through slide rail 13 and installs on back of the body riser 2, and clamp splice 11 fixes on belt 12, the both ends suit of belt 12 is on the belt pulley, one of them belt pulley is installed on the output shaft of belt pulley motor 8.

Example 2

On the basis of the embodiment 1, the movable lifting plate 15 penetrates through two ash plate grooves, and two ash plate lifting plates 7 are fixed on the same movable lifting plate 15; the driving connecting plate 16 is inserted into the guide groove on the back standing plate 2.

Example 3

On the basis of embodiment 2, there are two clamping blocks 11, both of which are mounted on the back plate 2 through a slide rail 13, and each of the two clamping blocks is connected to one end of a movable lifting plate 15 through a driving connecting plate 16.

With reference to fig. 5 and 6, the two clamping blocks 11 are connected by a connector 17; the connector 17 comprises a small slide block 17.1 and a pair of L-shaped connecting plates 17.2 fixed on the small slide block 17.1, wherein each L-shaped connecting plate 17.2 is fixed on the small slide block 17.1 at the side of the L-shaped connecting plate.

The clamping blocks 11 and the ash plate lifting plate 7 are positioned on two sides of the back vertical plate 2.

Example 4

On the basis of embodiment 3, an aligning cylinder 10 is arranged on the side of the top of the ash plate trough assembly, and an aligning block 9 is arranged at the front end of an aligning Ji Qigang 10; the neat stacking block 9 is U-shaped, and the top end of the outer vertical plate 4 is located in a U-shaped groove of the neat stacking block 9.

Example 5

On the basis of example 4, there were two gray board supply assemblies. The two ash plate feeding assemblies can be switched in position under the driving of the rotating motor, the ash plates in one ash plate work material assembly are used up, the positions can be switched, the feeding is continued, and meanwhile, the ash plates are loaded into the ash plate grooves of the empty ash plate feeding assemblies.

Example 6

On the basis of the embodiment 5, the friction shifting sheet 19 is arranged on the top of the inner vertical plate 3 and/or the outer vertical plate 4 through the fixed pressing block 18.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. A mechanism for feeding a carton top ash board comprises a base, and is characterized in that the base comprises a rotating bottom board (1) and a rotating motor (14) arranged below the rotating bottom board (1); an ash plate feeding assembly is arranged above the rotating bottom plate (1); the ash plate feeding assembly comprises a back vertical plate (2), two groups of ash plate groove assemblies are arranged on one side of the back vertical plate (2), each ash plate groove assembly comprises an inner vertical plate (3) and an outer vertical plate (4), strip holes are formed in the inner vertical plate (3) and the outer vertical plate (4) along the length direction, and notch blocking pieces (5) are arranged on the inner vertical plate (3) or the outer vertical plate (4); the cartridge of grey board lifting plate (7) is in the grey board inslot, activity lifter plate (15) cartridge is in interior riser (3) and the rectangular hole on outer riser (4), the tip fixed mounting of grey board lifting plate (7) is on activity lifter plate (15), the tip of activity lifter plate (15) is fixed on drive even board (16), drive even board (16) are fixed on clamp splice (11), install on back of the body riser (2) clamp splice (11) through slide rail (13), and clamp splice (11) are fixed on belt (12), the both ends suit of belt (12) is on the belt pulley, one of them belt pulley is installed on the output shaft of belt pulley motor (8).

2. Mechanism for ceiling carton board loading according to claim 1, characterized in that the movable lifting plate (15) passes through two board slots, and two board lifting plates (7) are fixed on the same movable lifting plate (15).

3. The mechanism for cardboard ceiling loading according to claim 2, characterized in that the driving link plate (16) is inserted in a guide groove on the back plate (2).

4. The mechanism for feeding ceiling cardboard of claim 1, characterized in that there are two clamping blocks (11), both of which are mounted on the back plate (2) by means of a sliding rail (13).

5. Mechanism for ceiling cardboard loading according to claim 4, characterized in that the two clamping blocks (11) are connected by means of a connector (17); the connector (17) comprises a small sliding block (17.1) and a pair of L-shaped connecting plates (17.2) fixed on the small sliding block (17.1), wherein each L-shaped connecting plate (17.2) is fixed on the small sliding block (17.1) on the side of the L-shaped connecting plate.

6. Mechanism for ceiling-mounted carton ash panel loading according to claim 1, characterized in that the clamping blocks (11) and the ash panel lifting plate (7) are located on both sides on the back plate (2).

7. The mechanism for feeding ceiling paper ash board of claim 1, wherein the side of the top of the ash tray assembly is provided with a stacking cylinder (10), and the front end of the stacking cylinder Ji Qigang (10) is provided with a stacking block (9).

8. The mechanism for feeding ceiling cardboard of claim 7, characterized in that the stacking block (9) is U-shaped, the top end of the outer standing board (4) being located in the U-shaped groove of the stacking block (9).

9. The mechanism for ceiling-mounted cardboard grey board loading according to claim 1, characterized in that there are two of said grey board feeding assemblies.

10. The mechanism for ceiling cardboard loading according to claim 1, characterized in that the friction plectrum (19) is mounted on the top of the inner vertical plate (3) and/or the outer vertical plate (4) through a fixed press block (18).

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