CN112661088A - Bottle feeding system of filling machine - Google Patents

Abstract

The utility model discloses a bottle feeding system of a filling machine, belonging to the field of bottle feeding systems, comprising a feeding pipe, a high-low conveying mechanism and an equidistant conveying mechanism, the high-low conveying mechanism is positioned between the feeding pipe and the equidistant conveying mechanism, the high-low conveying mechanism is arranged between the feeding pipe and the equidistant conveying mechanism, the bottle bodies are butted from two conveying lines with different heights, materials enter the first bent pipe from the first square pipe and flow to the second support, the bottle bodies are placed on the conveying platform, the second support is rotated by the gravity of the bottle bodies, the second support blocks the discharging of the first connecting column after the rotation, when the bottle body on the conveying platform slides to the first conveying groove, the second support returns and rotates under the action of the first clamp spring, the second support eliminates the blockage of the discharge of the first connecting column, the next bottle body slides to the second support, and the bottle body is conveyed and butted from the conveying line with two different heights in a reciprocating circulation mode.

Description

Bottle feeding system of filling machine

Technical Field

The utility model belongs to into bottle system field, concretely relates to liquid filling machine advances bottle system.

Background

At present, in the liquid packaging industry, irregular special-shaped bottles are often adopted for packaging to meet market requirements, the irregular special-shaped bottles are easy to collide, fall and damage on a production line, and meanwhile, the bottle bodies are easy to damage due to the fact that conveying lines of the bottle bodies are not mutually in conveying butt joint on the same horizontal plane; the bottle feeding system of the filling machine can connect the conveying systems with inconsistent horizontal planes together and can uniformly separate the bottles, so that the bottles are not extruded, the bottles are not collided, the bottles are less damaged, the working efficiency is improved, and the breakage rate of the bottles is reduced.

Disclosure of Invention

To the not enough of prior art, this disclosed aim at provides a liquid filling machine advances a bottle system, has solved the inhomogeneous problem of advancing a bottle system bottle among the prior art and has distributed.

The purpose of the disclosure can be realized by the following technical scheme:

a bottle feeding system of a filling machine comprises a feeding pipe, a high-low conveying mechanism and an equidistant conveying mechanism, wherein the high-low conveying mechanism is positioned between the feeding pipe and the equidistant conveying mechanism;

the feeding pipe comprises a first square pipe, the height conveying mechanism comprises a first mounting seat, a first bent pipe is mounted on the first mounting seat, a first support is arranged on the side face of the first bent pipe, a first rotating shaft is arranged on the first support, a clamp spring box is arranged on the first rotating shaft, a first clamp spring is mounted in the clamp spring box, a clamp spring shaft is movably mounted on the first rotating shaft, and one end of the clamp spring shaft is connected to the first clamp spring;

a second support is mounted on the clamp spring shaft, the side face of the second support is arc-shaped, the axis of the clamp spring shaft and the circle center of the arc profile of the side face of the second support are not on the same axis, a first connecting rod is arranged on the clamp spring shaft, a first connecting rod is provided with a material conveying platform, and a blanking abdicating groove and a material conveying platform abdicating groove are formed in the first support;

the equidistance transport mechanism includes that transport platform and the first support connection of blend stop are equipped with the blend stop with the both sides of transport platform hookup location on the transport platform, has seted up first transport tank on the transport platform, is equipped with first motor on the transport platform, installs the tripper on the main shaft of first motor, and the tripper is located one side of first transport tank, is equipped with supporting roller on the opposite side of first transport tank.

Further, a belt installation groove is formed in the first transportation groove, and a first belt is installed in the belt installation groove.

Furthermore, a push plate mounting groove is formed in the first conveying groove, and a first material pushing boss is movably mounted on the push rod pushing rod in the push plate mounting groove.

Furthermore, a first rack is arranged on the push rod strip, a first gear is arranged above the first rack, and the first gear is meshed with the first rack.

Furthermore, the cross section of the first bent pipe is rectangular, and the central axis of the first bent pipe is a spiral line.

Furthermore, a second rotating shaft is arranged on the first gear, a first bevel gear is mounted on the second rotating shaft, a second bevel gear is arranged on the extension part of the clamp spring shaft, and the second bevel gear is meshed with the first bevel gear.

The beneficial effect of this disclosure:

the bottle body can be uniformly separated, so that the bottle body is not squeezed and collided.

Drawings

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present disclosure, the drawings used in the description of the embodiments or prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic overall structure diagram of an embodiment of the present disclosure;

FIG. 2 is a schematic view of an isometric transport mechanism of an embodiment of the present disclosure;

FIG. 3 is an exploded view of a high and low transport mechanism according to an embodiment of the disclosure;

FIG. 4 is another schematic view of FIG. 3;

FIG. 5 is a partial block diagram of an embodiment of the present disclosure;

in the figure: the device comprises a feeding pipe 1, a high-low conveying mechanism 2 and an equidistant conveying mechanism 3; a first square tube 11; the material conveying device comprises a first mounting seat 21, a first bent pipe 22, a first abdicating groove 23, a first flange 24, a first connecting column 25, a first support 26, a second support 27, a first connecting rod 28, a material conveying platform 29, a first rotating shaft 201, a clamp spring box 202, a first clamp spring 203, a clamp spring shaft 204, a clamp spring cover 205, a blanking abdicating groove 261 and a material conveying platform abdicating groove 262; the device comprises a transportation platform 31, a first transportation groove 311, a push plate installation groove 312, a belt installation groove 313, a barrier strip 32, a push rod strip 33, a first rack 331, a first push boss 332, a first gear 34, a first motor 35, a distributor 36, a distribution screw 361, a support roller 37, a first belt 38, a second rotating shaft 341, a first bevel gear 342 and a second bevel gear 2041.

Detailed Description

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

As shown in fig. 1-5, a bottle feeding system of a filling machine comprises a feeding pipe 1, a high-low transport mechanism 2 and an equidistant transport mechanism 3, wherein the high-low transport mechanism 2 is positioned between the feeding pipe 1 and the equidistant transport mechanism 3, and the feeding pipe 1 is positioned obliquely above the equidistant transport mechanism 3;

the feeding pipe 1 comprises a first square pipe 11;

the height transportation mechanism 2 comprises a first installation base 21, a first elbow pipe 22, first flanges 24 and first connecting columns 25, the first elbow pipe 22 is installed on the first installation base 21, a discharge port of the first square pipe 11 is connected with a feed port of the first elbow pipe 22, a first abdicating groove 23 is formed in the first elbow pipe 22, two first flanges 24 are installed on the first installation base 21, the two first flanges 24 are connected through the first connecting columns 25, the discharge port of the first elbow pipe 22 is connected with the first flange 24 close to one side of the first elbow pipe 22, a first support 26 is arranged on the side surface of the first flange 24 far away from the first elbow pipe 22, a first rotating shaft 201 is arranged on the first support 26, a clamp spring box 202 is arranged on the first rotating shaft 201, a first clamp spring 203 is installed in the clamp spring box 202, a clamp spring shaft 204 is movably installed on the first rotating shaft 201, one end of the clamp spring shaft 204 is connected to the first clamp spring 203, a clamp spring cover 205 is installed on the clamp spring box 202, the clamp spring cover 205 is used for protecting and fixing the first clamp spring 203;

the clamp spring shaft 204 is provided with a second support 27, the side surface of the second support 27 is arc-shaped, the axis of the clamp spring shaft 204 and the circle center of the arc profile of the side surface of the second support 27 are not on the same axis, the clamp spring shaft 204 is provided with a first connecting rod 28, the first connecting rod 28 is provided with a material transporting platform 29, the first support 26 is provided with a blanking abdicating groove 261 and a material transporting platform abdicating groove 262, the blanking abdicating groove 261 is used for abdicating the bottle body and can also play a certain guiding role, 206 is used for abdicating the material transporting platform 29 and is a better horizontal sliding of the bottle bottom and the first support 26;

the second bracket 27 is composed of two special-shaped sector plates and a supporting framework, the two special-shaped sectors are mutually horizontally arranged at two ends of the supporting framework at the same angle, and further, the horizontal distance between the two special-shaped sector plates of the second bracket 27 can be adjusted according to the size of the bottle body;

the first support 26 is formed by installing two contour plates on the first installation seat 21 in a mutually horizontal and same angle mode, guide pipe strips are arranged on the two contour plates, the contour of each guide pipe strip is similar to the arc of a special-shaped sector plate, and the guide pipe strips are sequentially divided into a smooth material receiving section, an arc-shaped material conveying section and a blanking section inclined at a small angle;

the isometric transportation mechanism 3 comprises a transportation platform 31 and barrier strips 32, the first support 26 is connected to the transportation platform 31, the barrier strips 32 are arranged on two sides of the connection position of the first support 26 and the transportation platform 31, the barrier strips 32 can play a role of protecting and supporting the bottle body, the bottle body is prevented from falling off from the first support 26 and inclining, a first transportation groove 311 is formed in the transportation platform 31, a first motor 35 is arranged on the transportation platform 31, a distributor 36 is arranged on a main shaft of the first motor 35, the distributor 36 is positioned on one side of the first transportation groove 311, a support roller 37 is arranged on the other side of the first transportation groove 311, the support rollers 37 are all linearly closed, and a distribution screw 361 on the distributor 36 cooperates with the support roller 37 to finish isometric transportation of the bottle body in the first transportation groove 311;

in some disclosures, a belt installation groove 313 is formed in the first transportation groove 311, a first belt 38 is installed in the belt installation groove 313, and by means of the design, the equally-spaced bottles can be directly transported to the first belt 38 to be transported, and meanwhile, the equally-spaced bottles on the first belt 38 can be guaranteed by the material distribution screw 361 and the supporting roller 37.

In some disclosures, a push plate mounting groove 312 is formed in the first transportation groove 311, a push rod bar 33 is movably mounted in the push plate mounting groove 312, and a first material pushing boss 332 is arranged on the push rod bar 33; by such a design, the first pushing boss 332 can push the bottles sliding down from the first rack 26 forward into the dispenser 36 for transportation by the reciprocating motion of the pushing bar 33 in the pushing plate mounting groove 312, so as to prevent the bottles from sliding down from the first rack 26 into the first transportation groove 311 and then directly entering the dispenser 36 for transportation without being supported by the supporting roller 37, and the bottles are inclined.

In some disclosures, the first rack 331 is disposed on the push rod bar 33, the first gear 34 is disposed above the first rack 331, and the first gear 34 is engaged with the first rack 331, so that the transmission and control of the reciprocating motion of the push rod bar 33 can be more accurately completed by using the characteristics of gear transmission.

In some disclosures, the first bend 22 is rectangular in cross-section, with the central axis of the first bend 22 being a helix; through such design, can avoid the too fast damage that causes card material and bottle of bottle falling speed.

In some disclosures, the first gear 34 is provided with a second rotating shaft 341, the second rotating shaft 341 is provided with a first bevel gear 342, the extension part of the clamp spring shaft 204 is provided with a second bevel gear 2041, and the second bevel gear 2041 is meshed with the first bevel gear 342.

Principle of operation

The bottle body is connected with the conveying line with two different heights by the aid of the height conveying mechanism 2 arranged between the feeding pipe 1 and the equidistant conveying mechanism 3, materials flow into the first bent pipe 22 from the first square pipe 11 and flow to the second support 27, the bottle body is placed on the material conveying platform 29, the second support 27 is rotated by gravity of the bottle body, the second support 27 blocks discharging of the first connecting column 25 after rotation, when the bottle body on the material conveying platform 29 slides onto the first conveying groove 311, the second support 27 returns to rotate under the action of the first clamp spring 203, the second support 27 eliminates blocking of discharging of the first connecting column, the next bottle body 251 slides onto the second support 27, and the operation is repeated in a reciprocating mode.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the disclosure. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing illustrates and describes the general principles, principal features, and advantages of the present disclosure. It will be understood by those skilled in the art that the present disclosure is not limited to the embodiments described above, which are presented solely for purposes of illustrating the principles of the disclosure, and that various changes and modifications may be made to the disclosure without departing from the spirit and scope of the disclosure, which is intended to be covered by the claims.

Claims (6)

1. A bottle feeding system of a filling machine comprises a feeding pipe (1), a high-low conveying mechanism (2) and an equidistant conveying mechanism (3), and is characterized in that the high-low conveying mechanism (2) is positioned between the feeding pipe (1) and the equidistant conveying mechanism (3);

the feeding pipe (1) comprises a first square pipe (11), the high-low conveying mechanism (2) comprises a first mounting seat (21), a first bent pipe (22) is mounted on the first mounting seat (21), a first support (26) is arranged on the side surface of the first bent pipe (22), a first rotating shaft (201) is arranged on the first support (26), a clamp spring box (202) is arranged on the first rotating shaft (201), a first clamp spring (203) is mounted in the clamp spring box (202), a clamp spring shaft (204) is movably mounted on the first rotating shaft (201), and one end of the clamp spring shaft (204) is connected to the first clamp spring (203);

a second support (27) is mounted on the clamp spring shaft (204), the side face of the second support (27) is arc-shaped, the axis of the clamp spring shaft (204) and the circle center of the arc profile of the side face of the second support (27) are not on the same axis, a first connecting rod (28) is arranged on the clamp spring shaft (204), a material conveying platform (29) is arranged on the first connecting rod (28), and a blanking abdicating groove (261) and a material conveying platform abdicating groove (262) are formed in the first support (26);

equidistance transport mechanism (3) are connected to on transport platform (31) including transport platform (31) and blend stop (32) first support (26), first support (26) are equipped with blend stop (32) with transport platform (31) hookup location's both sides, first transport tank (311) have been seted up on transport platform (31), be equipped with first motor (35) on transport platform (31), install tripper (36) on the main shaft of first motor (35), tripper (36) are located one side of first transport tank (311), be equipped with supporting roller (37) on the opposite side of first transport tank (311).

2. The bottle feeding system of the filling machine as claimed in claim 1, wherein the first transportation groove (311) is provided with a belt installation groove (313), and a first belt (38) is installed in the belt installation groove (313).

3. The bottle feeding system of the filling machine as claimed in claim 2, wherein the first transportation groove (311) is provided with a push plate installation groove (312), and the push rod strip (33) is movably installed in the push plate installation groove (312) and is provided with a first pushing boss (332) on the push rod strip (33).

4. A filler feeding system according to claim 3, wherein said pusher bar (33) is provided with a first rack (331), a first gear (34) is provided above said first rack (331), and said first gear (34) is engaged with said first rack (331).

5. The filler feeder system of claim 4, wherein the first curved tube (22) is rectangular in cross-section and the central axis of the first curved tube (22) is helical.

6. The bottle feeding system of the filling machine as claimed in claim 5, wherein the first gear (34) is provided with a second rotating shaft (341), the second rotating shaft (341) is provided with a first bevel gear (342), the extension part of the clamp spring shaft (204) is provided with a second bevel gear (2041), and the second bevel gear (2041) is meshed with the first bevel gear (342).

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