CN219728788U - Glassware combination baling line - Google Patents

Abstract

The utility model relates to a glassware combined packaging line, and belongs to the technical field of glassware packaging production. The conveying direction of the glassware linear conveying conveyor A is perpendicular to the conveying direction of the glassware linear conveying conveyor B, the rear of the glassware linear conveying conveyor B is connected with a carton box sealing machine, multiple groups of handle assembling work tables are respectively arranged at two sides of the glassware linear conveying conveyor A at intervals, and multiple groups of box assembling work tables are respectively arranged at two sides of the glassware linear conveying conveyor B at intervals. The utility model has the following beneficial effects: compared with discontinuous non-pipelining operation, the working efficiency is improved, the investment cost is low, the operation is simple and convenient, and the method is suitable for manual pipelining operation.

Description

Glassware combination baling line

Technical Field

The utility model relates to a glassware combined packaging line, and belongs to the technical field of glassware packaging production.

Background

The handle is arranged on the object and is convenient to hold by hand. At present, wooden handles are required to be installed on a plurality of glassware. The wooden handle still adopts manual installation because of technical difficulty.

The manual installation of the handle on the glassware is adopted, so that the prior art is not comprehensive in consideration, and has the following disadvantages:

1. the handle is installed and boxed by the same person, and a corresponding glassware combined packaging line is lacked, so that the operation while conveying can not be realized, and the working efficiency and the yield are improved;

2. the workers tired or walk away, so that the operation beats cannot keep up with the production line product conveying beats, and the packing boxes are easy to drop from the discharging side of the glassware conveying linear conveyor belt B due to untimely treatment.

What is needed is a glassware combined packaging line that can be operated while being transported to improve the working efficiency and yield, and that is low in input cost, simple and convenient to operate, and suitable for manual assembly line operation.

Disclosure of Invention

In order to solve one of the above problems, according to the above shortcomings in the prior art, the present utility model aims to solve the technical problems: how to realize carrying out the operation simultaneously to improve work efficiency and output, input cost is low moreover, easy operation is convenient, is fit for artifical assembly line operation, provides a glassware combination baling line for this reason.

The glassware combined packaging line comprises a glassware linear conveying conveyor A, an arc-shaped conveyor and a glassware conveying linear conveyor B which are sequentially connected, and is characterized in that the upstream side of the glassware conveying linear conveyor B receives arc-shaped conveyor feed, the feeding end of the arc-shaped conveyor receives the glassware linear conveying conveyor A for feed, the conveying direction of the glassware linear conveying conveyor A is perpendicular to the conveying direction of the glassware conveying linear conveyor B, the glassware conveying linear conveyor B is connected with a box sealing and sealing machine for a paper box, multiple groups of handle assembly work tables are respectively arranged at two sides of the glassware linear conveying linear conveyor A at intervals, and multiple groups of box packing work tables are respectively arranged at two sides of the glassware conveying linear conveyor B at intervals.

Each handle assembling workbench is an assembling station, a worker is needed, the worker needs to install corresponding wooden handles on glassware without handles, the glassware with the handles is placed on a conveying belt of a glassware linear conveying belt A, and the glassware on the glassware linear conveying belt A is transferred to the upstream side of a glassware conveying linear conveying belt B through an arc-shaped conveying belt on the downstream side of the glassware linear conveying belt A; each boxing workbench is provided with a boxing station, a worker is needed, the worker needs to put glassware and damping foam with handles into corresponding cartons, the cartons with the glassware and the damping foam are put on the glassware conveying linear conveyor belt B again, the cartons are transferred to a box sealing machine for sealing on the downstream side of the glassware conveying linear conveyor belt B through a box sealing operator, and the cartons after sealing are piled up, and compared with discontinuous non-assembly line operation, the carton is conveyed and operated at the same time, so that the work efficiency and the yield are improved, the input cost is low, the operation is simple and convenient, and the carton boxing machine is suitable for manual assembly line operation.

Preferably, the glassware linear conveying conveyor A comprises a conveyor frame, the conveyor frame is supported on the ground through frame supporting legs, a driving roller and a driven roller are respectively rotatably mounted at two ends of the conveyor frame, a rubber belt is wound on the driving roller and the driven roller, a plurality of groups of mutually parallel supporting rollers are further arranged on the conveyor frame between the driving roller and the driven roller at equal intervals, the driving roller is driven by a first gear motor, and a lighting device is mounted above the rubber belt. The first gear motor drives the driving roller to rotate, and the driving roller drives the rubber belt to operate, so that goods on the upstream side of the linear glassware conveying conveyor belt A are transported to the downstream side of the linear glassware conveying conveyor belt A.

Preferably, the lighting device comprises a bracket mounted on the conveyor frame and a lighting lamp mounted on the bracket.

Preferably, a strip-shaped supporting plate consistent with the length direction of the conveyor belt frame is respectively arranged at two sides of the conveyor belt frame, the inner side edge of the strip-shaped supporting plate is fixed on the conveyor belt frame, and a plurality of handle assembly work tables are integrated on one strip-shaped supporting plate.

Preferably, the structure of the glassware conveying straight line conveyor B is the same as that of the glassware conveying straight line conveyor a, the glassware conveying straight line conveyor B is driven by a first speed reducing motor, and the arc-shaped conveyor is driven by a third speed reducing motor.

Preferably, the downstream discharging side of the glassware conveying straight line conveyor B is further provided with an incoming material reminding device, the reminding device comprises a transverse tube which spans the downstream discharging side of the glassware conveying straight line conveyor B, two ends of the transverse tube are respectively arranged on two sides of the glassware conveying straight line conveyor B through corresponding supports, at least two groups of first stirring sheets are rotatably arranged on the transverse tube, the bottom of each first stirring sheet is provided with a counterweight, the first stirring sheets are in a vertical state in normal state, the transverse tube is provided with a proximity switch used for sensing the swing of the upper end of each first stirring sheet, the proximity switch is electrically connected with the signal input end of the controller, and the device further comprises an audible-visual alarm connected with the controller, when a packaging paper box passes through the lower part of the transverse tube, the packaging paper box contacts the first stirring sheets, the first stirring sheets are forced to rotate, the proximity switch detects the rotation of the first stirring sheets, and further, an operator is reminded of timely processing by the audible-visual alarm, and the situation that the packaging paper box falls off the discharging side of the glassware conveying straight line conveyor B from the glassware conveying straight line conveyor B due to processing is avoided as far as possible.

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

the glassware combined packaging line is characterized in that each handle assembly workbench is provided with an assembly station, a worker is required to install a corresponding wooden handle on a glassware without a handle, the glassware with the handle is placed on a conveying belt of a glassware linear conveying belt A, and the glassware on the glassware linear conveying belt A is transferred to the upstream side of a glassware conveying linear conveying belt B through an arc-shaped conveying belt on the downstream side of the glassware linear conveying belt A; each boxing workbench is provided with a boxing station, a worker is needed, the worker needs to put glassware and damping foam with handles into corresponding cartons, the cartons with the glassware and the damping foam are put on the glassware conveying linear conveyor belt B again, the cartons are transferred to a box sealing machine for sealing on the downstream side of the glassware conveying linear conveyor belt B through a box sealing operator, and the cartons after sealing are piled up, and compared with discontinuous non-assembly line operation, the carton is conveyed and operated at the same time, so that the work efficiency and the yield are improved, the input cost is low, the operation is simple and convenient, and the carton boxing machine is suitable for manual assembly line operation.

The glassware combined packaging line has the advantages that each procedure is finished by a specific person, and each person performs a specific work to improve the working efficiency and the yield.

According to the glassware combined packaging line, when the packaging paper box passes through the lower part of the transverse tube, the packaging paper box contacts with the first poking piece to force the first poking piece to rotate, the proximity switch detects that the first poking piece rotates, and then the controller is used for reminding an operator of feeding materials by utilizing the audible and visual alarm and timely processing, so that the situation that the packaging box falls from the discharging side of the glassware conveying linear conveyor belt B due to untimely processing is avoided as much as possible.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. Like elements or portions are generally identified by like reference numerals throughout the several figures. In the drawings, elements or portions thereof are not necessarily drawn to scale.

FIG. 1 is a front view of the present utility model;

fig. 2 is a schematic diagram of an installation position of the incoming material reminding device.

In the figure: 1. the glass ware linear conveying conveyor belt A2, the glass ware linear conveying belt B3, the handle assembling workbench 4, the boxing workbench 5, the box sealing machine 6, the arc-shaped conveying belt 7, the illuminating lamp 8, the transverse tube 9 and the first poking piece.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

the present utility model is further illustrated by the following examples, which are not intended to be limiting, but any modifications, equivalents, improvements, etc. within the spirit and principles of the present utility model are intended to be included within the scope of the present utility model.

Examples

As shown in fig. 1-2, the glassware combined packaging line comprises a glassware linear conveying conveyor belt A1, an arc-shaped conveyor belt 6 and a glassware conveying linear conveyor belt B2 which are sequentially connected, wherein the upstream side of the glassware conveying linear conveyor belt B2 receives the feeding of the arc-shaped conveyor belt 6, the feeding end of the arc-shaped conveyor belt 6 receives the feeding of the glassware linear conveying conveyor belt A1, the conveying direction of the glassware linear conveying conveyor belt A1 is perpendicular to the conveying direction of the glassware conveying linear conveyor belt B2, the rear of the glassware conveying linear conveyor belt B2 is connected with a box sealing and sealing machine 5, a plurality of groups of handle assembling work tables 3 are respectively arranged at two sides of the glassware linear conveying conveyor belt A1 at intervals, and a plurality of box assembling work tables 4 are respectively arranged at two sides of the glassware conveying linear conveyor belt B2 at intervals.

Each handle assembling workbench 3 is an assembling station, and a worker is needed, and the worker needs to install the glassware without handles on the corresponding wooden handles and place the glassware with the handles on the conveying belt of the glassware linear conveying belt A1, and the glassware on the glassware linear conveying belt A1 is transferred to the upstream side of the glassware linear conveying belt B2 on the downstream side of the glassware linear conveying belt A1 through the arc-shaped conveying belt 6; each of the boxing stations 4 is a boxing station, and a worker is required to load the glassware and the shock absorbing foam with the handles into the corresponding cartons, and place the cartons with the glassware and the shock absorbing foam on the glassware conveying straight line conveyor B2 again, and transfer the cartons to the box sealing machine 5 for sealing on the downstream side of the glassware conveying straight line conveyor B2 through the box sealing operator, and stack the sealed cartons. Compared with discontinuous non-pipelining, the method has the advantages that the operation is performed while the transmission is performed, so that the working efficiency and the yield are improved, the input cost is low, the operation is simple and convenient, and the method is suitable for manual pipelining.

Examples

As shown in fig. 1-2, the glassware combined packaging line comprises a glassware linear conveying conveyor belt A1, an arc-shaped conveyor belt 6 and a glassware conveying linear conveyor belt B2 which are sequentially connected, wherein the upstream side of the glassware conveying linear conveyor belt B2 receives the feeding of the arc-shaped conveyor belt 6, the feeding end of the arc-shaped conveyor belt 6 receives the feeding of the glassware linear conveying conveyor belt A1, the conveying direction of the glassware linear conveying conveyor belt A1 is perpendicular to the conveying direction of the glassware conveying linear conveyor belt B2, the rear of the glassware conveying linear conveyor belt B2 is connected with a box sealing and sealing machine 5, a plurality of groups of handle assembling work tables 3 are respectively arranged at two sides of the glassware linear conveying conveyor belt A1 at intervals, and a plurality of box assembling work tables 4 are respectively arranged at two sides of the glassware conveying linear conveyor belt B2 at intervals.

Further, the glassware linear conveying conveyor belt A1 comprises a conveyor belt frame 1.1, the conveyor belt frame 1.1 is supported on the ground through frame supporting legs 1.2, a driving roller 1.3 and a driven roller 1.4 are respectively rotatably mounted at two ends of the conveyor belt frame 1.1, a rubber belt 1.5 is wound on the driving roller 1.3 and the driven roller 1.4, a plurality of groups of mutually parallel supporting rollers 1.6 are further equidistantly arranged on the conveyor belt frame 1.1 between the driving roller 1.3 and the driven roller 1.4, the driving roller 1.3 is driven by a first speed reducing motor, and a lighting device is mounted above the rubber belt 1.5. The first gear motor drives the driving roller 1.3 to rotate, and the driving roller 1.3 drives the rubber belt 1.5 to operate, so that cargoes on the upstream side of the glassware linear conveying conveyor belt A1 are transferred to the downstream side of the glassware linear conveying conveyor belt A1.

Further, the lighting device comprises a bracket mounted on the conveyor frame 1.1 and a lighting lamp 7 mounted on the bracket.

Further, two sides of the conveyor frame 1.1 are respectively provided with a strip-shaped supporting plate 1.7 consistent with the length direction of the conveyor frame 1.1, the inner side edge of the strip-shaped supporting plate 1.7 is fixed on the conveyor frame 1.1, and a plurality of handle assembly work tables 3 are integrated on one strip-shaped supporting plate 1.7.

Further, the structure of the glassware conveying straight line conveyor B2 is the same as that of the glassware conveying straight line conveyor A1, the glassware conveying straight line conveyor B2 is driven by a first gear motor, and the arc-shaped conveyor 6 is driven by a third gear motor.

Examples

Further, unlike the above embodiment, the downstream discharging side of the glass ware conveying straight line conveyor B2 is further provided with an incoming material reminding device, the reminding device comprises a transverse tube 8 which spans the downstream discharging side of the glass ware conveying straight line conveyor B2, two ends of the transverse tube 8 are respectively provided with two sides of the glass ware conveying straight line conveyor B2 through corresponding brackets, at least two groups of first paddles 9 are rotatably provided on the transverse tube 8, the bottom of the first paddles 9 is provided with a counterweight, the first paddles 9 are in a vertical state normally, the transverse tube 8 is provided with a proximity switch 10 for sensing the swing of the upper end of the first paddles 9, the proximity switch 10 is electrically connected with the signal input end of the controller, and the device further comprises an audible and visual alarm connected with the controller, when the packaging cartons pass through the lower part of the transverse tube 8, the first paddles 9 are forced to rotate, the proximity switch 10 detects the rotation of the first paddles 9, and further, the operator can not timely process the glass ware conveying straight line conveyor B by using the controller 11, so that the operator can not timely process the glass ware conveying straight line conveyor B.

The glassware combined packaging line is characterized in that each handle assembly workbench is provided with an assembly station, a worker is required to install a corresponding wooden handle on a glassware without a handle, the glassware with the handle is placed on a conveying belt of a glassware linear conveying belt A, and the glassware on the glassware linear conveying belt A is transferred to the upstream side of a glassware conveying linear conveying belt B through an arc-shaped conveying belt on the downstream side of the glassware linear conveying belt A; each boxing workbench is provided with a boxing station, a worker is needed, the worker needs to put glassware and damping foam with handles into corresponding cartons, the cartons with the glassware and the damping foam are put on the glassware conveying linear conveyor belt B again, the cartons are transferred to a box sealing machine for sealing on the downstream side of the glassware conveying linear conveyor belt B through a box sealing operator, and the cartons after sealing are piled up, and compared with discontinuous non-assembly line operation, the carton is conveyed and operated at the same time, so that the work efficiency and the yield are improved, the input cost is low, the operation is simple and convenient, and the carton boxing machine is suitable for manual assembly line operation.

According to the glassware combined packaging line, when the packaging paper box passes through the lower part of the transverse tube, the packaging paper box contacts with the first poking piece to force the first poking piece to rotate, the proximity switch detects that the first poking piece rotates, and then the controller is used for reminding an operator of feeding materials by utilizing the audible and visual alarm and timely processing, so that the situation that the packaging box falls from the discharging side of the glassware conveying linear conveyor belt B due to untimely processing is avoided as much as possible.

The foregoing has shown and described the basic principles, main features and advantages of the present utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

The present utility model is not described in detail in the present application, and is well known to those skilled in the art.

Claims (6)

1. The utility model provides a glassware combination baling line, includes glassware straight line conveyor belt A, arc conveyer belt, glassware straight line conveyor belt B that connects gradually, its characterized in that: the upper reaches side of glassware conveying straight line conveyer belt B accepts arc conveyer belt pay-off, and arc conveyer belt's feed end accepts glassware straight line conveyer belt A pay-off, glassware straight line conveyer belt A's direction of delivery is perpendicular with glassware conveying straight line conveyer belt B's direction of delivery, glassware conveying straight line conveyer belt B connects the carton and seals case sealer behind, glassware straight line conveyer belt A's both sides interval respectively is provided with multiunit handle equipment workstation, glassware conveying straight line conveyer belt B's both sides interval respectively is provided with multiunit vanning workstation.

2. The glassware composite packaging line according to claim 1, wherein the glassware linear conveying conveyor a comprises a conveyor frame, the conveyor frame is supported on the ground through frame supporting legs, driving rollers and driven rollers are rotatably mounted at two ends of the conveyor frame respectively, a rubber belt is wound on the driving rollers and the driven rollers, a plurality of groups of mutually parallel supporting rollers are further arranged on the conveyor frame between the driving rollers and the driven rollers at equal intervals, the driving rollers are driven by a first gear motor, and a lighting device is mounted above the rubber belt.

3. The glassware composite packaging line of claim 2, wherein the lighting device includes a bracket mounted to the conveyor frame and a lighting lamp mounted to the bracket.

4. A glassware composite packing line according to claim 3, wherein the two sides of the conveyor frame are respectively provided with a strip-shaped supporting plate which is consistent with the length direction of the conveyor frame, the inner side edges of the strip-shaped supporting plates are fixed on the conveyor frame, and the plurality of handle assembly tables are integrated on one strip-shaped supporting plate.

5. The glassware composite packing line according to claim 4, wherein the glassware conveying straight line conveyor B has the same structure as the glassware conveying straight line conveyor a, is driven by a first speed reducing motor, and is driven by a third speed reducing motor.

6. The glassware composite packaging line according to claim 5, wherein the downstream discharging side of the glassware conveying straight line conveyor belt B is further provided with an incoming material reminding device, the reminding device comprises a transverse tube which spans the downstream discharging side of the glassware conveying straight line conveyor belt B, two ends of the transverse tube are respectively arranged on two sides of the glassware conveying straight line conveyor belt B through corresponding brackets, at least two groups of first paddles are rotatably arranged on the transverse tube, the bottom of each first paddle is provided with a counterweight, the first paddles are in a vertical state in a normal state, the transverse tube is provided with a proximity switch for sensing the swing of the upper end of each first paddle, and the proximity switch is electrically connected with a signal input end of the controller and further comprises an audible-visual alarm connected with the controller.