CN205708683U - Material transfer equipment and the packaging production line with material transfer equipment - Google Patents

Abstract

This utility model relates to a kind of packaging production line, discloses a kind of material transfer equipment and the packaging production line with material transfer equipment.This material transfer equipment comprises the connecting gear with material Transfer pipe, is arranged on connecting gear side the discharging mechanism with tapping channel.Wherein, the tapping channel of discharging mechanism is interconnected with the Transfer pipe of connecting gear, and tapping channel comprises a charging aperture and a discharging opening, and tapping channel is increasingly towards side from charging aperture to discharging opening and reverses, and from tapping channel discharging opening derive material and from tapping channel charging aperture import material between exist one preset deflection angle.Compared with the existing technology, after material is imported into tapping channel under the effect of connecting gear, can reverse voluntarily according to default deflection angle, and derive from the discharging opening of tapping channel, and then facilitate the subsequent handling of material to process, improve production efficiency and yields.

Description

Material transfer equipment and the packaging production line with material transfer equipment

Technical field

This utility model relates to a kind of packaging production line, particularly to a kind of packaging production line with material transfer equipment.

Background technology

Along with modern industry develops towards intelligentized direction, require more and more higher for the automaticity in packaging production line and control accuracy, therefore, in order to realize this target, need the manufacture equipment in links in packaging production line is upgraded and transformed, the especially material transfer equipment in packaging production line.

At present, in packaging production line, material transfer equipment is during conveying products, especially when material is for material bottle, material bottle can be with horizontal on transmission equipment, the attitude of other forms such as vertical type transmits, and during material bottle transmits on transmission equipment, need to carry out the process of various operation, but in the prior art, owing to different operations is different to the Gesture of material bottle, it is thus desirable to use artificial mode that material bottle is processed, to change the attitude of material bottle, such as vertical type, horizontal, tilting etc., so that follow-up operation processes, owing to have employed artificial mode of operation, the reduction of production efficiency can be caused, and the generation of substandard products may be caused because of human error.Further, since during material bottle transmits with constant attitude on transmission equipment, follow-up material bottle is easily stacked, and is unfavorable for the process of subsequent handling.

Therefore, how to ensure that material transfer equipment is during transmitting material, it is achieved the change to material attitude, it is simple to the process of subsequent handling, improve production efficiency and yields is current problem to be solved.

Utility model content

The purpose of this utility model is to provide a kind of packaging production line with material transfer equipment, it is ensured that can ensure that material transfer equipment is during transmitting material, it is achieved the change to material attitude, it is simple to the process of subsequent handling.

For solving above-mentioned technical problem, embodiment of the present utility model provides a kind of material transfer equipment, comprises the connecting gear with material Transfer pipe, is arranged on described connecting gear side the discharging mechanism with tapping channel；

Wherein, the tapping channel of described discharging mechanism is interconnected with the Transfer pipe of described connecting gear, and described tapping channel comprises one for importing the charging aperture of material and one for deriving the discharging opening of material, and described tapping channel is increasingly towards side from charging aperture to discharging opening and reverses, and the material derived from described tapping channel discharging opening and there is a deflection angle preset between the material that described tapping channel charging aperture imports.

Of the present utility model embodiment further provides a kind of packaging production line, comprise above-mentioned in material transfer equipment.

This utility model embodiment is in terms of existing technologies, owing in material transfer equipment, tapping channel has a charging aperture and a discharging opening, and tapping channel is to be increasingly towards side to reverse from charging aperture to discharging opening, so that after material is imported into tapping channel under the effect of connecting gear, can be according to default deflection angle from horizontal deflection, and derive from the discharging opening of tapping channel, to ensure the material that discharging opening is derived and the deflection angle that existence one is preset between the material that charging aperture imports, and then facilitate the subsequent handling of material to process, improve production efficiency and yields.

It addition, the windup-degree that described tapping channel is from charging aperture to discharging opening is 90 degree.So that material transfer equipment is during transmitting material, so that material is derived from discharging opening after partially turning 90 degrees, in order to the process of subsequent handling.

It addition, described connecting gear comprises the lower transport unit that transport unit be arranged in parallel, the drive division driving described lower transport unit with described upper transport unit；Wherein, the lower surface of described upper transport unit and the upper surface of described lower transport unit are the transmission plane for transmitting described material, and the described lower surface of upper transport unit is spaced from each other the Transfer pipe formed for transmitting described material with the upper surface of described lower transport unit, and described material is fitted by the transmission plane of transport unit on described and described lower transport unit after entering described Transfer pipe.Owing to the upper transport unit in connecting gear and lower transport unit be arranged in parallel, and the lower surface of upper transport unit is spaced from each other formation Transfer pipe with the upper surface of described lower transport unit, so that material is after entering Transfer pipe, can be by the laminating on material surface with upper and lower transport unit transmission plane, ensure that material is transmitted, successively to avoid the occurrence of the phenomenon of material superposition during transmitting.

It addition, the transmission plane of described upper transport unit and described lower transport unit is a flexible face.Thus when material transmits in Transfer pipe, owing to being flexible contact between surface and the transmission plane of upper transport unit and lower transport unit of material, the upper and lower transport unit thrust to material can be increased, further ensure that the material stable transmission in Transfer pipe, and the frictionally damage that material surface caused by upper and lower transport unit can be avoided simultaneously.

It addition, described upper transport unit comprises upper driven voller that drive roll be arranged in parallel with described upper drive roll, is connected described upper drive roll and the upper feed belt of described upper driven voller；And described lower transport unit comprises lower driven voller that lower drive roll be arranged in parallel with described lower drive roll, is connected described lower drive roll and the lower feed belt of described lower driven voller.Thus when material can be made to pass through Transfer pipe by the cooperation of upper feed belt and lower feed belt, transmitted in Transfer pipe successively, to guarantee the material stable transmission in Transfer pipe, prevent material from the phenomenon of superposition occurring during transmitting.

Further, described drive division comprises the reductor that motor is connected with the outfan of described motor, and the lower drive roll of described lower transport unit is set on the main shaft of described reductor.Owing to the motor in drive division is connected with lower drive roll by reductor, and this structure can preferably reduce the rotating speed of lower drive roll, promotes the torque of lower drive roll, to ensure the material stable transmission on lower feed belt.

It addition, described upper drive roll, described upper driven voller, described lower drive roll and described lower driven voller are the synchronization roller with tooth-shape structure；And described upper feed belt and described lower feed belt are the Timing Belt with toothed surface.Owing to upper and lower drive roll and upper and lower driven voller all use the synchronization roller with tooth-shape structure, and upper and lower feed belt uses inner edge surface to be the Timing Belt in tooth-shape structure, so that upper and lower drive roll and upper and lower driven voller can engage each other transmission with corresponding feed belt when rotated, without skidding occurs between feed belt, to ensure the upper and lower feed belt stability when transmission.

It addition, described material transfer equipment also comprises is arranged on described Transfer pipe feed side for the material guide plate being imported by material in described Transfer pipe；Wherein, the tilting feed side at described Transfer pipe of described material guide plate, and and described Transfer pipe between in one preset angle.So that material is slipped in Transfer pipe by material guide plate under the effect of self gravitation, and production efficiency need not be improve by external force.

It addition, the upper surface of described material guide plate is a shiny surface.Thus the coefficient of friction between the surface of material and the upper surface of material guide plate can be reduced, reduce the frictional force being subject to during material slides on material guide plate further, it is ensured that material can slide in Transfer pipe on material guide plate smoothly.

It addition, the profile of described material is circular.So that material and material guide plate, upper and lower transport unit transmission plane between be Structure deformation, the frictional force being subject to during material rolls on material guide plate can be reduced further, and the thrust that improving material is when transmitting in transmission channel, guarantee the material stable transmission on conveying equipment, with improving production efficiency.

Accompanying drawing explanation

Fig. 1 is the structural representation of material transfer equipment in this utility model the first embodiment；

Fig. 2 is the structural representation of tapping channel in this utility model the first embodiment.

Detailed description of the invention

For making the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing, each embodiment of the present utility model is explained in detail.But, it will be understood by those skilled in the art that in each embodiment of this utility model, in order to make reader be more fully understood that, the application proposes many ins and outs.But, even if there is no these ins and outs and many variations based on following embodiment and amendment, it is also possible to realize the application each claim technical scheme required for protection.

First embodiment of the present utility model relates to a kind of material transfer equipment.As depicted in figs. 1 and 2, this material transfer equipment mainly by with material Transfer pipe 1 connecting gear, be arranged on connecting gear side and the discharging mechanism with tapping channel 2 is constituted.

Wherein, the tapping channel 2 of discharging mechanism is interconnected with the Transfer pipe 1 of connecting gear, and tapping channel 2 comprises one for importing the charging aperture 3 of material 5 and one for deriving the discharging opening 4 of material 5, and tapping channel 2 is increasingly towards side from charging aperture 3 to discharging opening 4 and reverses, and from tapping channel 2 discharging opening 4 derive material 5 and from tapping channel 2 charging aperture 3 import material 5 between exist one preset deflection angle.

By foregoing, owing in material transfer equipment, tapping channel 2 has a charging aperture 3 and a discharging opening 4, and tapping channel 2 is to be increasingly towards side to reverse from charging aperture 3 to discharging opening 4, so that after material 5 is imported into tapping channel 2 under the effect of connecting gear, can be according to default deflection angle from horizontal deflection, and derive from the discharging opening of tapping channel 2, to ensure the material 5 that discharging opening is derived and the deflection angle that existence one is preset between the material 5 that charging aperture 3 imports, and then facilitate the subsequent handling of material 5 to process, improve production efficiency and yields.

Specifically, in the present embodiment, as preferably, material 5 is material bottle, and tapping channel 2 from charging aperture 3 to the windup-degree of discharging opening 4 be 90 degree.Wherein, material bottle connecting gear on material transfer equipment is to be transmitted with the state of horizontal during transmitting, thus when expecting the side of charging aperture 3 that bottle is transported to tapping channel 2 from connecting gear, the material bottle of the side that the follow-up material bottle transmitted can will be located in charging aperture 3 pushes in tapping channel 2, and then make to expect the deflection that bottle carries out 90 degree in tapping channel 2, and drop out from tapping channel 2 with the attitude of vertical type, in order to the process of subsequent handling.

As it is shown in figure 1, the lower transport unit 7 that mainly be arranged in parallel with upper transport unit 6 by upper transport unit 6 of connecting gear, the drive division that drives lower transport unit 7 are constituted.Wherein, the lower surface of upper transport unit 6 and the upper surface of lower transport unit 7 are the transmission plane for transmitting material 5, and the upper lower surface of transport unit 6 is spaced from each other the Transfer pipe 1 formed for transmitting material 5 with the upper surface of lower transport unit 7, and material 5 is uploaded after entering Transfer pipe 1 and send the transmission plane of portion 6 and lower transport unit 7 to be fitted.

It can thus be appreciated that, owing to the upper transport unit 6 in connecting gear and lower transport unit 7 be arranged in parallel, and the lower surface of upper transport unit 6 is spaced from each other formation Transfer pipe 1 with the upper surface of described lower transport unit 7, so that material 5 is after entering Transfer pipe 1, can be by the laminating on material 5 surface with upper and lower transport unit transmission plane, ensure that material 5 is transmitted during transmitting successively, to avoid the occurrence of the phenomenon of material 5 superposition, it is simple to material 5 can deflect smoothly subsequently through during tapping channel 2.

Further, in the present embodiment, upper transport unit 6 is specially upper driven voller 6-2 that upper drive roll 6-1 and upper drive roll 6-1 be arranged in parallel, the upper feed belt 6-3 that is connected drive roll 6-1 and upper driven voller 6-2 is constituted.And lower transport unit 7 main is specially lower driven voller 7-2 that lower drive roll 7-1 and lower drive roll 7-1 be arranged in parallel, the lower feed belt 7-3 that is connected lower drive roll 7-1 and lower driven voller 7-2 is constituted.

As shown in the above, owing to upper transport unit 6 and lower transport unit 7 are respectively provided with a upper feed belt 6-3 and lower feed belt 7-3, thus material 5 can be made when passing sequentially through Transfer pipe 1 by the cooperation of upper feed belt 6-3 and lower feed belt 7-3, it is achieved the stable transmission to material 5.

Simultaneously, in the present embodiment, constitute as it is shown in figure 1, drive division is the reductor (not indicating in figure) being connected with the outfan of motor by motor (not indicating in figure), and the lower drive roll 7-1 of lower transport unit 7 is set on the main shaft of reductor.So that motor drive under drive roll 7-1 rotate time, lower drive roll 7-1 can drive the rotation of lower driven voller 7-2 by lower feed belt 7-3, and lower feed belt 7-3 during transmission so that material 5 direction shown in arrow along Fig. 1 is transmitted, and during material 5 transmits on lower feed belt 7-3, upper feed belt 6-3 is started to produce transmission when contacting with each other with material 5 by the effect of frictional force of material 5, and then drive upper drive roll 6-1 and upper driven voller 6-2 to carry out synchronous axial system, to ensure that each material 5 can pass through Transfer pipe 1 successively, avoid drive roll 6-1 and upper driven voller 6-2 that the phenomenon skidded occurs.

Thus it is seen that, owing to the motor in drive division is connected with lower drive roll 7-1 by reductor, and this structure can preferably reduce the rotating speed of lower drive roll 7-1, promote the torque of lower drive roll 7-1, to ensure the material 5 stable transmission on lower feed belt 7-3.

It addition, it is noted that in the present embodiment, upper transport unit 6 and the transmission plane of lower transport unit 7 in connecting gear can be a flexible face.Thus when material 5 transmits in Transfer pipe 1, during owing to being flexible contact between surface and the transmission plane of upper transport unit 6 and lower transport unit 7 of material 5, the upper and lower transport unit 7 thrust to material 5 can be increased, further ensure that the material 5 stable transmission in Transfer pipe 1, and the frictionally damage that material surface caused by transport unit 6 and lower transport unit 7 can be avoided simultaneously.

Further, in the present embodiment, upper drive roll 6-1, upper driven voller 6-2, lower drive roll 7-1 and lower driven voller 7-2 all use the synchronization roller with tooth-shape structure.And upper feed belt 6-3 and lower feed belt 7-3 all uses the Timing Belt with toothed surface.

It can thus be appreciated that, owing to upper and lower drive roll and upper and lower driven voller all use the synchronization roller with tooth-shape structure, and upper and lower feed belt uses inner edge surface to be the Timing Belt in tooth-shape structure, so that upper and lower drive roll and upper and lower driven voller can engage each other transmission with corresponding feed belt when rotated, without skidding occurs between feed belt, to ensure the upper and lower feed belt stability when transmission.

It addition, in the present embodiment, as it is shown in figure 1, material transfer equipment also comprises is arranged on Transfer pipe 1 feed side for the material guide plate 8 being imported by material 5 in Transfer pipe 1.Wherein, the tilting feed side at Transfer pipe 1 of material guide plate 8, and and Transfer pipe 1 between in one preset angle.

Thus it is seen that, owing to material guide plate 8 is the tilting feed side at Transfer pipe 1, so that material 5 is slipped in Transfer pipe 1 by material guide plate 8 under the effect of self gravitation, and production efficiency need not be improve by external force.

Further, the upper surface of material guide plate 8 is a shiny surface.Thus when material 5 slides on material guide plate 8 when, the coefficient of friction between the surface of material 5 and the upper surface of material guide plate 8 can be reduced, reduce the frictional force being subject to during material 5 slides on material guide plate 8 further, it is ensured that material 5 can slide in Transfer pipe 1 on material guide plate 8 smoothly.

Additionally, it is worth mentioning, in the present embodiment, the profile of material 5 can be various shape, and as preferential, the profile of material 5 is circular, and as shown in Figure 1, when the profile of material 5 is circular, owing to being Structure deformation between the transmission plane of material 5 and material guide plate 8 and upper transport unit 6 and lower transport unit 7, thus the frictional force being subject to during material 5 rolls on material guide plate 8 can be reduced further, and the thrust that improving material 5 is suffered when transmitting in transmission channel, to guarantee the material 5 stable transmission on conveying equipment, it is easy to material 5 can the most automatically deflect in tapping channel 2.

Meanwhile, it should be noted that can smoothly enter Transfer pipe 1 for the ease of material, the distance between upper drive roll 6-1 and upper driven voller 6-2 is greater than the distance between lower drive roll 7-1 and lower driven voller 7-2.

Second embodiment of the present utility model relates to a kind of packaging production line, comprises the material transfer equipment in above-mentioned embodiment.

It can thus be appreciated that, in the material transfer equipment of packaging production line, owing in material transfer equipment, tapping channel 2 has a charging aperture 3 and a discharging opening 4, and tapping channel 2 is to be increasingly towards side to reverse from charging aperture 3 to discharging opening 4, so that after material 5 is imported into tapping channel 2 under the effect of connecting gear, can be according to default deflection angle from horizontal deflection, and derive from the discharging opening of tapping channel 2, to ensure the material 5 that discharging opening is derived and the deflection angle that existence one is preset between the material 5 that charging aperture 3 imports, and then facilitate the subsequent handling of material 5 to process, improve production efficiency and yields.

It will be understood by those skilled in the art that the respective embodiments described above are to realize specific embodiment of the utility model, and in actual applications, can to it, various changes can be made in the form and details, without departing from spirit and scope of the present utility model.

Claims (10)

1. a material transfer equipment, it is characterised in that: comprise the conveyer with material Transfer pipe Structure, it is arranged on described connecting gear side the discharging mechanism with tapping channel；

Wherein, the tapping channel of described discharging mechanism is interconnected with the Transfer pipe of described connecting gear, And described tapping channel comprises one for importing the charging aperture of material and one for deriving going out of material Expect mouth, and described tapping channel is increasingly towards side from charging aperture to discharging opening and reverses, and from described The material of tapping channel discharging opening derivation and existence between the material that described tapping channel charging aperture imports One deflection angle preset.

Material transfer equipment the most according to claim 1, it is characterised in that: described tapping channel Windup-degree from charging aperture to discharging opening is 90 degree.

Material transfer equipment the most according to claim 1, it is characterised in that: described connecting gear Comprise lower transport unit that transport unit be arranged in parallel with described upper transport unit, drive described lower transport unit Drive division；

Wherein, the lower surface of described upper transport unit and the upper surface of described lower transport unit are for transmitting State the transmission plane of material, and the upper surface of the lower surface of described upper transport unit and described lower transport unit mutually every Open form becomes the Transfer pipe for transmitting described material, and described material quilt after entering described Transfer pipe The transmission plane of described upper transport unit and described lower transport unit is fitted.

Material transfer equipment the most according to claim 3, it is characterised in that: described upper transport unit It is a flexible face with the transmission plane of described lower transport unit.

Material transfer equipment the most according to claim 3, it is characterised in that: described upper transport unit Comprise upper driven voller that drive roll be arranged in parallel with described upper drive roll, be connected described upper drive roll and The upper feed belt of described upper driven voller；And described lower transport unit comprises lower drive roll and described lower active Lower driven voller that roller be arranged in parallel, connect described lower drive roll and the lower feed belt of described lower driven voller；

Described drive division comprises the reductor that motor is connected with the outfan of described motor, and described under pass The lower drive roll sending portion is set on the main shaft of described reductor.

Material transfer equipment the most according to claim 5, it is characterised in that: described upper drive roll, Described upper driven voller, described lower drive roll and described lower driven voller are the synchronization roller with tooth-shape structure； And described upper feed belt and described lower feed belt are the Timing Belt with toothed surface.

Material transfer equipment the most according to claim 1, it is characterised in that: described material carries Equipment also comprises and is arranged on described Transfer pipe feed side for being imported in described Transfer pipe by material Material guide plate；

Wherein, the tilting feed side at described Transfer pipe of described material guide plate, and lead to described transmission In an angle preset between road.

Material transfer equipment the most according to claim 7, it is characterised in that: described material guides The upper surface of plate is a shiny surface.

Material transfer equipment the most according to claim 1, it is characterised in that: outside described material Shape is circular.

10. a packaging production line, it is characterised in that: described material transfer equipment comprises claim 1 Material transfer equipment described in any one in 9.