CN215554570U - Novel reagent full-high-efficiency double-mode bagging device - Google Patents

Abstract

The utility model discloses a novel reagent full-high-efficiency double-item mode bag feeding device which comprises a support, wherein a temporary storage component is arranged on the support and used for temporarily storing single upper bags of stacked packaging bags, and a double-item bag feeding component is also arranged on the support and positioned below the temporary storage component and matched with the temporary storage component to be used for taking out the stacked packaging bags one by one and placing the stacked packaging bags at a fixed position.

Description

Novel reagent full-high-efficiency double-mode bagging device

Technical Field

The utility model relates to the technical field of packaging bag feeding, in particular to a novel reagent full-high-efficiency double-mode bag feeding device.

Background

The packaging bag is used for packaging various articles, so that the goods are convenient to transport and easy to store in the production flow process. The product packaging bag is generally stacked together in batches in order to store and carry, and this in-process that just leads to the enterprise to use the wrapping bag packing commodity, needs the manual work to take out alone one of the wrapping bag that piles up, and the in-process of taking in the manual work is very easily taken more, and the commodity packing in-process manual labor intensity who just lasts is big, and is easy tired, and then makes the efficiency of commodity packing processing difficult to guarantee, and for this, we propose a bagging apparatus in the two modes of novel reagent full high efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a novel reagent full-high-efficiency double-mode bagging device to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: a novel reagent full-high-efficiency double-mode bag feeding device comprises a support, wherein a temporary storage component is arranged on the support and used for temporarily storing single bag feeding of stacked packaging bags;

the support is further provided with a double-item bag feeding component, the double-item bag feeding component is located below the temporary storage component and matched with the temporary storage component to take out stacked packaging bags one by one and place the stacked packaging bags at fixed positions.

Preferably, the temporary storage component comprises a bearing plate arranged on the bracket, guide posts are arranged on the bearing plate, the number of the guide posts is multiple, the guide posts are uniformly arranged to form two rectangular placing areas, and stacked packaging bags are placed in each placing area;

the loading board is close to the position of placing the district all sets up the material mouth that gets that runs through, get material mouth and two last bag part cooperations, and its size is less than the wrapping bag size, and pass through wrapping bag self gravity is in place the district in not falling.

Preferably, a pressing plate is movably arranged in each placing area.

Preferably, the pressing plate in each placing area is in close contact with all guide posts forming the placing area and can slide relatively.

Preferably, the double bag feeding component comprises an installation shaft and two material taking sucker groups arranged on the installation shaft, and the material taking sucker groups are arranged corresponding to the material taking ports;

the packaging bag taking device is characterized by further comprising an action connecting part, wherein the action connecting part is used for installing the installation shaft on the support, and can drive the installation shaft to shift and rotate relatively, so that the material taking sucker group penetrates through the material taking port to absorb one packaging bag, and the material taking sucker group is reset through the action connecting part to move to a fixed position.

Preferably, the material taking sucker group comprises four suction nozzles arranged on the installation shaft, the four suction nozzles correspond to the four corners of the packaging bag and are externally connected with an air pump for suction in the working process.

Preferably, the action connecting part comprises a guide rail which is rotatably arranged at the side position of the bracket, and a base is arranged on the guide rail in a sliding manner;

the mounting shaft is fixed on the base, and a connecting rod is fixed on the mounting shaft;

the motion coupling component further includes a drive member coupled to the link to provide an automatic drive to deflect the link.

Preferably, the driving member comprises a stepping motor arranged on the bracket;

the driving piece also comprises a driving shaft which is rotatably arranged on the bracket, and the connecting rod is fixed on the driving shaft;

the stepping motor is characterized by further comprising two belt wheels and a belt, wherein the two belt wheels are arranged at the output end of the driving shaft and the output end of the stepping motor respectively, and the two belt wheels are in transmission connection through the belt.

Preferably, the surface of the belt wheel is provided with continuous bulges, the inner surface of the belt is provided with continuous tooth grooves, and the bulges can be meshed with the tooth grooves one by one.

Compared with the prior art, the utility model has the beneficial effects that:

the temporary storage device is different from the prior art, stacked packaging bags can be temporarily stored in the temporary storage component, and the stacked packaging bags can be automatically taken out one by one and automatically placed at a fixed position through the use of the double bag loading component, so that the traditional manual sorting mode is abandoned, the labor is liberated, and the continuous and efficient commodity packaging and processing are ensured.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of another orientation of the present invention shown in FIG. 1;

FIG. 3 is a schematic view of another aspect of FIG. 2 and a partially enlarged view thereof;

FIG. 4 is a schematic side plan view of the present invention shown in FIG. 1.

In the figure: 1-a scaffold; 2-temporary storage means; 21-a carrier plate; 22-guide posts; 23-a placement area; 24-packaging the bag; 25-material taking port; 26-a press plate; 3-a double bag-on-part; 31-mounting shaft; 4-material taking sucker group; 41-a suction nozzle; 5-an action connection member; 51-a guide rail; 52-a base; 53-connecting rod; 6-a driving member; 61-a stepper motor; 62-a drive shaft; 63-a pulley; 64-a belt; 65-convex; 66-gullet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a novel reagent high-efficiency double-item mode bagging device comprises a support 1, wherein a temporary storage part 2 is arranged on the support 1, the temporary storage part 2 comprises a bearing plate 21 arranged on the support 1, guide pillars 22 are arranged on the bearing plate 21, the guide pillars 22 are multiple in number and are uniformly arranged to form two rectangular placing areas 23 in a surrounding mode, stacked packaging bags 24 are placed in each placing area 23, a penetrating material taking opening 25 is formed in the position, close to the placing area 23, of the bearing plate 21, the material taking opening 25 is matched with a double-item bag feeding part 3, the size of the material taking opening is smaller than that of each packaging bag 24, the packaging bags 24 cannot fall in the placing areas 23 due to the self gravity of the packaging bags 24, the support 1 is further provided with the double-item bag feeding part 3, and the double-item bag feeding part 3 is located below the temporary storage part 2, and cooperates with the escrow unit 2 to remove and place the stacked packages 24 one at a time in a fixed position.

Further, a pressing plate 26 is movably disposed in each of the placing areas 23, so that a heavier weight is provided by the pressing plate 26, thereby pressing the packing bag 24 and stably temporarily storing it in the placing area 23.

Furthermore, the pressing plate 26 in each placing area 23 is in close contact with all the guide posts 22 forming the placing area 23, and can slide relatively to ensure the directional displacement of the pressing plate 26, so as to prevent the pressing plate 26 from moving downwards due to gravity to drive the packaging bags 24 to displace, the double-item bag feeding component 3 comprises an installation shaft 31 and two material taking sucker groups 4 arranged on the installation shaft 31, the material taking sucker groups 4 are arranged corresponding to the material taking openings 25, and the double-item bag feeding component also comprises an action connecting component 5, the action connecting component 5 is used for installing the installation shaft 31 on the support 1, and can drive the installation shaft 31 to displace and rotate relatively to enable the material taking sucker groups 4 to penetrate through the material taking openings 25 to absorb one packaging bag 24, and reset through the action connecting component 5 to move the material taking sucker groups 4 to fixed positions.

Get material sucking disc group 4 including setting up suction nozzle 41 on the installation axle 31, suction nozzle 41 is provided with four, and corresponds wrapping bag 24 four corners position to external air pump suction in the course of the work.

The motion connecting part 5 comprises a guide rail 51 rotatably mounted at a side position of the bracket 1, a base 52 is slidably arranged on the guide rail 51, and the motion connecting part 5 further comprises a driving part 6, wherein the driving part 6 is connected with the connecting rod 53 to provide automatic driving to drive the connecting rod 53 to deflect.

The drive member 6 comprises a stepper motor 61 arranged on the support 1 to provide bi-directional rotation;

the driving member 6 further includes a driving shaft 62 rotatably mounted on the bracket 1, the connecting rod 53 is fixed on the driving shaft 62, and further includes two belt wheels 63 and a belt 64 respectively disposed at the output ends of the driving shaft 62 and the stepping motor 61, and the two belt wheels 63 are in transmission connection through the belt 64 to provide effective driving.

The surface of the belt wheel 63 is provided with continuous protrusions 65, the inner surface of the belt 64 is provided with continuous tooth grooves 66, the protrusions 65 can be meshed with the tooth grooves 66 one by one, and the structural design is adopted to ensure the stable contact transmission of the protrusions 65 and the tooth grooves 66.

This scheme is when using, wrapping bag 24 is kept in temporary storage part 2 department, then step motor 61 works, and order about drive shaft 62 rotatory through the use of band pulley 63 and belt 64, and during drive shaft 62 is rotatory, order about installation axle 31 and drive base 52 and slide on guide rail 51 through connecting rod 53, and guide rail 51 deflects simultaneously, make and get material sucking disc group 4 just to getting material mouth 25, external air pump simultaneously, will pile up wrapping bag 24 one by one and get material mouth 25 suction one by one, and place fixed position, thereby realized piling up the automatic packing use of wrapping bag 24.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a novel bagging-off is gone up to full high-efficient binomial mode of reagent device, includes support (1), its characterized in that: the temporary storage component (2) is arranged on the support (1), and the temporary storage component (2) is used for temporarily storing single upper bags of the stacked packaging bags (24);

the support (1) is further provided with a double-item bag feeding component (3), the double-item bag feeding component (3) is located below the temporary storage component (2) and matched with the temporary storage component (2) to be used for taking out the stacked packaging bags (24) one by one and placing the stacked packaging bags at fixed positions.

2. The novel reagent full-high-efficiency double-mode bagging device according to claim 1, characterized in that: the temporary storage component (2) comprises a bearing plate (21) arranged on the support (1), guide posts (22) are arranged on the bearing plate (21), the number of the guide posts (22) is multiple, the guide posts are uniformly arranged and enclosed into two rectangular placing areas (23), and stacked packaging bags (24) are placed in each placing area (23);

be close to on loading board (21) place the position of district (23) and all seted up material taking mouth (25) that run through, material taking mouth (25) and two last bag part (3) cooperations, and its size is less than wrapping bag (24) size, and pass through wrapping bag (24) self gravity is in place the district (23) in not dropping.

3. The novel reagent full-high-efficiency double-mode bagging device according to claim 2, characterized in that: a pressing plate (26) is movably arranged in each placing area (23).

4. The novel reagent full-high-efficiency double-mode bagging device according to claim 3, wherein: the pressing plate (26) in each placing area (23) is in close contact with all guide columns (22) forming the placing area (23) and can slide relatively.

5. The novel reagent full-high-efficiency double-mode bagging device according to claim 4, wherein: the double-item bag feeding component (3) comprises a mounting shaft (31) and two material taking sucker groups (4) arranged on the mounting shaft (31), and the material taking sucker groups (4) are arranged corresponding to the material taking opening (25);

the packaging bag taking device is characterized by further comprising an action connecting component (5), wherein the action connecting component (5) is used for installing the installation shaft (31) on the support (1) and can drive the installation shaft (31) to displace and rotate relatively, so that the material taking sucker group (4) penetrates through the material taking opening (25) to suck one packaging bag (24), and the material taking sucker group (4) is moved to a fixed position through resetting of the action connecting component (5).

6. The novel reagent full-high-efficiency double-mode bagging device according to claim 5, wherein: get material sucking disc group (4) including setting up suction nozzle (41) on installation axle (31), suction nozzle (41) are provided with four, and correspond wrapping bag (24) four corners position to external air pump suction in the course of the work.

7. The novel reagent full-high-efficiency double-mode bagging device according to claim 6, wherein: the action connecting component (5) comprises a guide rail (51) rotatably mounted at the side edge position of the bracket (1), and a base (52) is arranged on the guide rail (51) in a sliding manner;

the mounting shaft (31) is fixed on the base (52), and a connecting rod (53) is fixed on the mounting shaft (31);

the motion connecting part (5) further comprises a driving part (6), and the driving part (6) is connected with the connecting rod (53) to provide automatic driving to drive the connecting rod (53) to deflect.

8. The novel reagent full-high-efficiency double-mode bagging device according to claim 7, wherein: the driving piece (6) comprises a stepping motor (61) arranged on the bracket (1);

the driving piece (6) further comprises a driving shaft (62) rotatably mounted on the bracket (1), and the connecting rod (53) is fixed on the driving shaft (62);

the device is characterized by further comprising two belt wheels (63) and a belt (64), wherein the two belt wheels (63) are respectively arranged at the output ends of the driving shaft (62) and the stepping motor (61), and the two belt wheels (63) are in transmission connection through the belt (64).

9. The novel reagent full-high-efficiency double-mode bagging device according to claim 8, wherein: the surface of the belt wheel (63) is provided with continuous protrusions (65), the inner surface of the belt (64) is provided with continuous tooth grooves (66), and the protrusions (65) can be meshed with the tooth grooves (66) one by one.

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