CN216804573U - Double-station paperboard alternate feeder - Google Patents

Abstract

The utility model provides a double-station paperboard alternative feeding machine which comprises a bottom plate, two supports, an inner frame, a double-station material bearing assembly and a material taking assembly, wherein the bottom plate is provided with a first support and a second support; the two supports are correspondingly arranged on the bottom plate in parallel; the inner frame is correspondingly arranged between the two supports and connected with the lower parts of the two supports; the double-station material bearing assembly is arranged on the inner frame in a lifting manner; the material taking assembly stretches across the upper part between the two supports and is positioned corresponding to the double-station material bearing assembly; an auxiliary feeding roller and an auxiliary pressing roller matched with the auxiliary feeding roller are arranged on one side, close to the discharge port, between the two supports in a crossing mode, and a paperboard output space is formed between the auxiliary feeding roller and the auxiliary pressing roller. The utility model has the beneficial effects that: the feeding action can be still kept in the feeding process, and the feeding efficiency is ensured.

Description

Double-station paperboard alternative feeding machine

Technical Field

The utility model relates to the technical field of packaging box processing, in particular to a double-station paper board alternate feeder.

Background

In the production and processing process of the packaging box, the packaging box paperboard in an unfolded state needs to be fed piece by piece when being fed into a production line for processing. In the prior art, to the material loading action of this link, either adopt artifical material loading, or adopt equipment auxiliary feeding, and adopt equipment to carry out auxiliary feeding, the operation that needs the stop equipment at the in-process of feed supplement is single station basically, can only continue the material loading after accomplishing the feed supplement, greatly reduced efficiency, in view of this kind of condition, treat to improve urgently.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model aims to provide a double-station paperboard alternative feeder which can still keep the feeding action in the material supplementing process and ensure the feeding efficiency.

The utility model provides a double-station paperboard alternative feeding machine which comprises a bottom plate, two supports, an inner frame, a double-station material bearing assembly and a material taking assembly, wherein the bottom plate is provided with a first support and a second support;

the two supports are correspondingly arranged on the bottom plate in parallel;

the inner frame is correspondingly arranged between the two supports and is connected with the lower parts of the two supports;

the double-station material bearing assembly is arranged on the inner frame in a lifting manner;

the material taking assembly stretches across the upper part between the two supports and is positioned corresponding to the double-station material bearing assembly;

an auxiliary feeding roller and an auxiliary pressing roller matched with the auxiliary feeding roller are arranged on one side, close to the discharge port, between the two supports in a crossing mode, and a paperboard output space is formed between the auxiliary feeding roller and the auxiliary pressing roller.

As a preferred scheme, the double-station material bearing assembly comprises a lifting bearing and placing bottom plate, a first lifting driving motor and two groups of limiting structures, wherein the lifting bearing and placing bottom plate is movably arranged in the inner frame, the first lifting driving motor is arranged on the bottom plate and is positioned below the inner frame, and a power output end of the first lifting driving motor is connected with the lifting bearing and placing bottom plate; the two groups of limiting structures are correspondingly arranged at the bottom of the inner cavity of the inner frame and extend upwards out of the lifting bearing bottom plate to divide the lifting bearing bottom plate into two paperboard bearing spaces.

As a preferable scheme, each group of limiting structures comprises two pairs of vertical rods which are arranged in the paperboard bearing space and can move oppositely, and the bottoms of the vertical rods are connected with the inner frame through screws; the lifting bearing bottom plate is provided with a strip-shaped hole along the length direction for the vertical rod to move.

As an optimal scheme, two first material baffle plates are vertically arranged at the positions, corresponding to the two paper board placing spaces, of the front part of the lifting bearing bottom plate.

As a preferable scheme, a plurality of second material blocking plates corresponding to the first material blocking plates are vertically arranged at positions, corresponding to the rear parts of the lifting and bearing bottom plate, on the upper surface of the bottom plate.

Preferably, the material scraping sheets are arranged on the upper portions of the vertical rod, the first material baffle plate and the second material baffle plate and are located at the same height position.

As a preferred scheme, the material taking assembly comprises a linear motor, a sliding block, a sliding support, two second lifting driving motors, a mounting plate, a plurality of suckers, a third driving motor and an embedded sliding block, wherein the linear motor is mounted on the upper parts of the two double-station supports in a crossing manner and is positioned above the material bearing assembly; the sliding block is connected with the linear motor in a sliding manner, the third driving motor is fixedly connected with the sliding block, the embedded sliding block is arranged on the upper surface of the third driving motor, the embedded sliding block is connected with the sliding support in a sliding manner, and the power output end of the third driving motor is connected with the inner side surface of the sliding support; the two second lifting driving motors are respectively and correspondingly installed on the two opposite side faces of the sliding support, the power output ends of the two second lifting driving motors are connected with the upper surface of the installation plate, and the suckers are correspondingly arranged on the lower surface of the installation plate through connecting rods.

The utility model has the beneficial effects that:

1. by adopting a matching structure of the double-station material bearing component and the material taking component, when the material in one paper board bearing space is used up, the material taking component continues to take the material from the other paper board bearing space, and meanwhile, the staff can carry out material supplementing operation, so that the equipment can keep the feeding action all the time, and the feeding efficiency is ensured;

2. the pole setting position among the limit structure can carry out adaptability adjustment according to the size of cardboard to promote the suitability.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a front view of the present invention.

Figure 3 is a perspective view of the present invention (with paperboard).

Fig. 4 is a perspective view of the present invention (showing the bottom).

The reference signs are: the device comprises a lifting bearing bottom plate 10, a scraping piece 11, a support 12, a second material blocking plate 13, a linear motor 14, a sliding block 15, a sliding support 16, two second lifting driving motors 17, a material taking assembly 18, a suction cup 19, a vertical rod 20, a first material blocking plate 21, a limiting structure 22, an inner frame 25, a double-station material bearing assembly 23, a connecting rod 24, a first lifting driving motor 26, a paper plate 27, a bottom plate 28, an auxiliary feeding roller 30, an auxiliary material pressing roller 29, a strip-shaped hole 31, a mounting plate 33, a third driving motor 35 and an embedded sliding block 34.

Detailed Description

For a better understanding of the features and technical solutions of the present invention, together with the specific objects and functions attained by the utility model, reference is made to the following detailed description and accompanying drawings that form a part hereof.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Referring to fig. 1-4, the utility model provides a double-station cardboard alternate feeder, which comprises a bottom plate 28, two support bases 12, an inner frame 25, a double-station material supporting assembly 23 and a material taking assembly 18. The two supports 12 are correspondingly arranged on the bottom plate 28 in parallel. The inner frame 25 is correspondingly installed between the two supports 12 and connected with the lower parts of the two supports 12.

The double-station material bearing assembly 23 is arranged on the inner frame 25 in a lifting mode. The double-station material bearing assembly 23 comprises a lifting bearing and placing bottom plate 10, a first lifting driving motor 26 and two groups of limiting structures 22, wherein the lifting bearing and placing bottom plate 10 is movably arranged in an inner frame 25, the first lifting driving motor 26 is arranged on a bottom plate 28 and is positioned below the inner frame 25, and the power output end of the first lifting driving motor 26 is connected with the lifting bearing and placing bottom plate 10; the two groups of limiting structures 22 are correspondingly arranged at the bottom of the inner cavity of the inner frame 25 and extend upwards out of the lifting and supporting bottom plate 10 to divide the lifting and supporting bottom plate 10 into two paperboard supporting and supporting spaces. In operation, the first lift driving motor 26 causes the lift loading base 10 to ascend with the decrease of the sheets 27 placed in the sheet loading space to cooperate with the material taking assembly 18 to take out the materials.

The material taking assembly 18 comprises a linear motor 14, a sliding block 15, a sliding support 16, two second lifting driving motors 17, a mounting plate 33, a plurality of suckers 19, a third driving motor 35 and an embedded sliding block 34, wherein the linear motor 14 is installed on the upper parts of the two supports 12 in a crossing manner and is positioned above the double-station material bearing assembly 23; the sliding block 15 is connected with the linear motor 14 in a sliding mode, the third driving motor 35 is fixedly connected with the sliding block 15, the embedded sliding block 34 is installed on the upper surface of the third driving motor 35, the embedded sliding block 34 is connected with the sliding support 16 in a sliding mode, and the power output end of the third driving motor 35 is connected with the inner side face of the sliding support 16; the two second lifting driving motors 17 are respectively and correspondingly installed on two opposite side surfaces of the sliding support 16, power output ends of the two second lifting driving motors 17 are connected with the upper surface of the installation plate 33, and the suckers 19 are correspondingly arranged on the lower surface of the installation plate 33 through the connecting rods 24. Each sucker 19 is connected with a negative pressure air source through a pipeline.

An auxiliary feeding roller 30 and an auxiliary pressing roller 29 matched with the auxiliary feeding roller 30 are arranged on one side of the two supports 12 close to the discharge port in a crossing mode, and a paperboard output space is formed between the auxiliary feeding roller 30 and the auxiliary pressing roller 29.

In actual operation, the linear motor 14 drives the sliding block 15 to drive the sliding support 16, the two second lifting driving motors 17, the mounting plate 33 and the plurality of suckers 19 to realize material taking back and forth in the two paper board bearing spaces. When the materials are taken, the second lifting driving motor 17 causes the mounting plate 33 to descend to a set position, after the paper board is absorbed by the sucker 19, the second lifting driving motor 17 causes the mounting plate 33 to ascend to a position corresponding to the paper board output space, and the power output end of the third driving motor 35 pulls the sliding support 16 to move to the set position in the direction of the paper board output space, so that the paper board is inserted into the paper board output space; after the paper board inserting action is completed, the power output end of the third driving motor 35 pushes the sliding support 16 to move and reset in the direction away from the paper board output space, so as to prepare for the next paper board taking action.

Each group of limiting structures 22 comprises two pairs of upright rods 20 which are arranged in the paperboard bearing space and can move oppositely, and the bottoms of the upright rods 20 are connected with an inner frame 25 through screws; the bottom plate 10 is provided with a strip-shaped hole 31 along its length for the vertical rod 20 to move. When the size of space is put to needs adjustment cardboard bearing, loosen the screw, change two relative pole setting 20 relative distance, rethread screw is fixed can, easy and simple to handle, the suitability is high.

Two first material baffle plates 21 are vertically arranged at the front part of the lifting and bearing bottom plate 10 corresponding to the positions of the two paper plate placing spaces. A plurality of second material blocking plates 13 corresponding to the first material blocking plates are vertically arranged on the upper surface of the bottom plate 28 and the positions corresponding to the rear parts of the lifting and bearing bottom plate 10. The limiting structure 22, the first material baffle plate 21 and the second material baffle plate 13 stack the paper boards in a space with blocking on four sides, and the accuracy of feeding at each time is improved.

The vertical rod 20, the first striker plate 21 and the second striker plate 13 are provided with the scraping sheets 11 at the same height position. When the sucking disc adsorbs the cardboard, move to scraping the position of expecting piece 11, combine the toughness of cardboard itself, just be scraped by scraping piece 11 to the cardboard that overlaps in adsorbed cardboard below to promote the quality of pay-off.

In the embodiment, a matching structure of the double-station material bearing assembly and the material taking assembly is adopted, materials can be sequentially taken in the double-station material bearing assembly in an alternate mode, and materials can be taken from the other paper board bearing space after the materials in one paper board bearing space are taken. When the materials in one paper board bearing space are used up, the material taking assembly continues to take the materials from the other paper board bearing space, and meanwhile, the staff can carry out material supplementing operation, so that the equipment can keep the feeding action all the time, and the feeding efficiency is ensured.

The above-mentioned embodiments only express one embodiment of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (7)

1. The utility model provides a duplex position cardboard feeder in turn which characterized in that: comprises a bottom plate (28), two support seats (12), an inner frame (25), a double-station material supporting component (23) and a material taking component (18); the two supports (12) are correspondingly arranged on the bottom plate (28) in parallel; the inner frame (25) is correspondingly arranged between the two supports (12) and is connected with the lower parts of the two supports (12); the double-station material bearing assembly (23) is arranged on the inner frame (25) in a lifting manner; the material taking component (18) is arranged on the upper part between the two supports (12) in a crossing way and corresponds to the double-station material bearing component (23) in position; an auxiliary feeding roller (30) and an auxiliary pressing roller (29) matched with the auxiliary feeding roller (30) are arranged on one side, close to the discharge port, between the two supports (12) in a crossing mode, and a paperboard output space is formed between the auxiliary feeding roller (30) and the auxiliary pressing roller (29).

2. The double-station paperboard alternate feeder according to claim 1, characterized in that: the double-station material bearing assembly (23) comprises a lifting bearing and placing bottom plate (10), a first lifting driving motor (26) and two groups of limiting structures (22), the lifting bearing and placing bottom plate (10) is movably arranged in the inner frame (25), the first lifting driving motor (26) is installed on the bottom plate (28) and located below the inner frame (25), and the power output end of the first lifting driving motor (26) is connected with the lifting bearing and placing bottom plate (10); the two groups of limiting structures (22) are correspondingly arranged at the bottom of the inner cavity of the inner frame (25) and extend upwards out of the lifting bearing bottom plate (10) to divide the lifting bearing bottom plate (10) into two paperboard bearing spaces.

3. The double-station paperboard alternate feeder according to claim 2, characterized in that: each group of limiting structures (22) comprises two pairs of vertical rods (20) which are arranged in the paperboard bearing space and can move oppositely, and the bottoms of the vertical rods (20) are connected with the inner frame (25) through screws; the lifting bearing bottom plate (10) is provided with a strip-shaped hole (31) along the length direction for the vertical rod (20) to move.

4. The double-station paperboard alternate feeder according to claim 3, characterized in that: two first material baffle plates (21) are vertically arranged at the positions, corresponding to the two paper board placing spaces, of the front part of the lifting and bearing bottom plate (10).

5. The double-station paperboard alternate feeder according to claim 4, characterized in that: and a plurality of second material blocking plates (13) corresponding to the first material blocking plates (21) are vertically arranged at positions, corresponding to the rear parts of the lifting and bearing bottom plate (10), on the upper surface of the bottom plate (28).

6. The double-station paperboard alternate feeder according to claim 5, characterized in that: and scraping pieces (11) are arranged on the upper parts of the vertical rod (20), the first material baffle (21) and the second material baffle (13) and are positioned at the same height position.

7. The double-station paperboard alternate feeder according to claim 1, characterized in that: the material taking assembly (18) comprises a linear motor (14), a sliding block (15), a sliding support (16), two second lifting driving motors (17), a mounting plate (33), a plurality of suckers (19), a third driving motor (35) and an embedded sliding block (34), and the linear motor (14) is installed on the upper portions of the two supports (12) in a crossing mode and is located above the double-station material bearing assembly (23); the sliding block (15) is connected with the linear motor (14) in a sliding mode, the third driving motor (35) is fixedly connected with the sliding block (15), the embedded sliding block (34) is installed on the upper surface of the third driving motor (35), the embedded sliding block (34) is connected with the sliding support (16) in a sliding mode, and the power output end of the third driving motor (35) is connected with the inner side face of the sliding support (16); the two second lifting driving motors (17) are respectively and correspondingly installed on two opposite side faces of the sliding support (16), the power output ends of the two second lifting driving motors (17) are connected with the upper surface of the mounting plate (33), and the suckers (19) are correspondingly arranged on the lower surface of the mounting plate (33) through connecting rods (24).

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