阅读说明：本技术 一种基于模块化的组合灌装机组 (Modular-based combined filling unit ) 是由 郑长发 张科 周波 于 2021-08-27 设计创作，主要内容包括：本发明公开了一种基于模块化的组合灌装机组,涉及灌装设备技术领域。本发明包括并排设置的第一功能模块与第二功能模块；第一功能模块包括至少一个冲瓶单元和/或至少一个灌装单元；第二功能模块包括至少一个旋盖单元和/或至少一个压盖单元；冲瓶单元、灌装单元、旋盖单元及压盖单元均包括一机架、一进瓶星轮、一出瓶星轮以及一驱动组件。本发明通过基于模块化设计,能够有效提高设计、制造及流转效率以及运输便捷性,具有较高的市场应用价值。(The invention discloses a modular-based combined filling unit, and relates to the technical field of filling equipment. The invention comprises a first functional module and a second functional module which are arranged side by side; the first functional module comprises at least one bottle washing unit and/or at least one filling unit; the second functional module comprises at least one cap screwing unit and/or at least one cap pressing unit; the bottle flushing unit, the filling unit, the cap screwing unit and the cap pressing unit all comprise a frame, a bottle inlet star wheel, a bottle outlet star wheel and a driving assembly. The invention is based on modular design, can effectively improve the design, manufacture and circulation efficiency and the transportation convenience, and has higher market application value.)

1. A modular based modular combined filling machine set, comprising:

a first functional module (1) comprising at least one bottle-washing unit (101) and/or at least one filling unit (102);

a second functional module (2) comprising at least one capping unit (201) and/or at least one capping unit (202);

the bottle washing unit (101), the filling unit (102), the cap screwing unit (201) and the cap pressing unit (202) respectively comprise a rack (A), a bottle inlet star wheel (B), a bottle outlet star wheel (C) and a driving assembly (D).

2. A modular based modular combined filling unit according to claim 1, wherein the first functional module (1) comprises a filling unit (102); the second functional module (2) comprises a cover screwing unit (201) or a cover pressing unit (202); the filling unit (102) is connected with the cap screwing unit (201) or the cap pressing unit (202) through a pair of positioning pieces (3), and the filling unit (102) is in transmission connection with the cap screwing unit (201) or the cap pressing unit (202) through a transition star wheel (4).

3. A modular based modular combined filling unit according to claim 1, wherein the first functional module (1) comprises a bottle-washing unit (101) and a filling unit (102); the second functional module (2) comprises a cover screwing unit (201) or a cover pressing unit (202); the bottle washing unit (101) and the filling unit (102) and the cap screwing unit (201) or the cap pressing unit (202) are connected through a pair of positioning pieces (3), and the bottle washing unit (101) and the filling unit (102) and the cap screwing unit (201) or the cap pressing unit (202) are in transmission connection through a transition star wheel (4).

4. A modular based modular combined filling unit according to claim 1, wherein the first functional module (1) comprises a filling unit (102); the second functional module (2) comprises a cap screwing unit (201) and a cap pressing unit (202); the filling unit (102) is connected with the cap screwing unit (201) through a pair of positioning pieces (3), and the cap screwing unit (201) is connected with the cap pressing unit (202) through a pair of positioning pieces (3), and the filling unit (102) is connected with the cap screwing unit (201) and the cap screwing unit (201) is connected with the cap pressing unit (202) through a transition star wheel (4) in a transmission mode.

5. A modular based modular combined filling unit according to claim 1, wherein the first functional module (1) comprises a bottle-washing unit (101) and a filling unit (102); the second functional module (2) comprises a cap screwing unit (201) and a cap pressing unit (202); the bottle washing machine is characterized in that the bottle washing unit (101) is connected with the filling unit (102), the filling unit (102) is connected with the cap screwing unit (201), the cap screwing unit (201) is connected with the cap pressing unit (202) through a pair of positioning pieces (3), and the bottle washing unit (101) is in transmission connection with the filling unit (102), the filling unit (102) is connected with the cap screwing unit (201), and the cap screwing unit (201) is in transmission connection with the cap pressing unit (202) through a transition star wheel (4).

6. A modular based modular combined filling unit according to claim 1, wherein the first functional module (1) comprises a pair of bottle-washing units (101) and a filling unit (102); the second functional module (2) comprises a cap screwing unit (201) and a cap pressing unit (202); one between towards bottle unit (101) and another towards bottle unit (101), towards between bottle unit (101) and filling unit (102), between filling unit (102) and spiral cover unit (201) and between spiral cover unit (201) and gland unit (202) be connected through a pair of setting element (3) respectively, and one towards between bottle unit (101) and another towards bottle unit (101), towards between bottle unit (101) and filling unit (102), between filling unit (102) and spiral cover unit (201) and between spiral cover unit (201) and gland unit (202) be connected through a transition star gear (4) transmission respectively.

7. A modular based modular combined filling unit according to any of claims 2-6, wherein the positioning element (3) comprises a first positioning block (301) and a second positioning block (302); the first positioning block (301) and the second positioning block (302) are respectively connected to the upper parts of two adjacent racks (A) through bolts, and the first positioning block (301) is connected with the second positioning block (302) through bolts.

8. The modular-based combined filling machine set according to claim 7, wherein the opposite inner side surfaces of the first positioning block (301) and the second positioning block (302) are respectively provided with a containing groove (303) with a semicircular horizontal cross section; the two accommodating grooves (303) are combined to form a positioning cavity; a matched positioning ball (304) is placed in the positioning cavity.

Technical Field

The invention belongs to the technical field of filling equipment, and particularly relates to a modular combined filling unit.

Background

The existing filling machine set is designed by determining the composition of the filling and capping two-in-one machine or the bottle-washing, filling and cap-screwing three-in-one machine, and then performing scheme design, drawing design and the like, so that the design period is longer, the number of multiplex parts of different machine types is small, the batch processing is not facilitated, the overall efficiency is low, and the space for further improving the quality control and the cost control is provided. On the other hand, under the condition of the multi-split air conditioner, the integrally designed rack structure is large in size, and the problems of poor structural strength, inconvenience in processing and circulation, inconvenience in whole machine transportation and the like exist. Therefore, there is a need to develop a modular-based combined filling machine set in order to solve the above problems.

Disclosure of Invention

The invention provides a modular combined filling machine set, and aims to solve the problems in the background technology.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a modular-based combined filling unit which comprises a first functional module and a second functional module which are arranged side by side; the first functional module comprises at least one bottle washing unit and/or at least one filling unit; the second functional module comprises at least one cap screwing unit and/or at least one cap pressing unit; the bottle flushing unit, the filling unit, the cap screwing unit and the cap pressing unit all comprise a rack, a bottle inlet star wheel, a bottle outlet star wheel and a driving assembly.

Further, the first functional module comprises a filling unit; the second functional module comprises a cover screwing unit or a cover pressing unit; the filling unit is connected with the cap screwing unit or the cap pressing unit through a pair of positioning pieces, and the filling unit is in transmission connection with the cap screwing unit or the cap pressing unit through a transition star wheel.

Further, the first functional module comprises a bottle washing unit and a filling unit; the second functional module comprises a cover screwing unit or a cover pressing unit; the bottle washing unit and the filling unit and the cap screwing unit or the cap pressing unit are connected through a pair of positioning pieces respectively, and the bottle washing unit and the filling unit and the cap screwing unit or the cap pressing unit are connected through a transition star wheel respectively.

Further, the first functional module comprises a filling unit; the second functional module comprises a cover screwing unit and a cover pressing unit; the filling unit and the cap screwing unit and the gland pressing unit are connected through a pair of positioning pieces respectively, and the filling unit and the cap screwing unit and the gland pressing unit are connected through a transition star wheel respectively in a transmission mode.

Further, the first functional module comprises a bottle washing unit and a filling unit; the second functional module comprises a cover screwing unit and a cover pressing unit; the bottle washing machine is characterized in that the bottle washing unit and the filling unit, the filling unit and the cap screwing unit are connected through a pair of positioning pieces respectively, and the bottle washing unit and the filling unit, the filling unit and the cap screwing unit are connected through a transition star wheel respectively.

Further, the first functional module comprises a pair of bottle washing units and a filling unit; the second functional module comprises a cover screwing unit and a cover pressing unit; one between bottle washing unit and another bottle washing unit, between bottle washing unit and filling unit, between filling unit and cap screwing unit and between cap screwing unit and gland pressing unit are respectively connected through a pair of positioning pieces, and one between bottle washing unit and another bottle washing unit, between bottle washing unit and filling unit, between filling unit and cap screwing unit and between cap screwing unit and gland pressing unit are respectively connected through a transition star wheel transmission.

Further, the positioning piece comprises a first positioning block and a second positioning block; the first positioning block and the second positioning block are respectively connected to the upper parts of the two adjacent racks through bolts, and the first positioning block and the second positioning block are connected through bolts.

Furthermore, the opposite inner side surfaces of the first positioning block and the second positioning block are respectively provided with an accommodating groove with a horizontal cross section in a semicircular structure; the two accommodating grooves are combined to form a positioning cavity; and a matched positioning ball is placed in the positioning cavity.

The invention has the following beneficial effects:

based on the modular design, the bottle washing machine is provided with the first functional module and the second functional module, the first functional module comprises at least one bottle washing unit and/or at least one filling unit, the second functional module comprises at least one cap screwing unit and/or at least one cap pressing unit, so that the combination of different units can be realized, the design, manufacture and circulation efficiency and the transportation convenience can be effectively improved, and the market application value is higher.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a first embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a second embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a third embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a fourth embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a fifth embodiment of the present invention;

fig. 6 is a schematic structural diagram of a positioning element according to the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1-a first functional module, 2-a second functional module, 3-a positioning piece, 4-a transition star wheel, 101-a bottle punching unit, 102-a filling unit, 201-a cap screwing unit, 202-a cap pressing unit, 301-a first positioning block, 302-a second positioning block, 303-an accommodating groove, 304-a positioning ball, an A-frame, a B-a bottle feeding star wheel, a C-a bottle discharging star wheel and a D-driving assembly.

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.

The first embodiment is as follows:

referring to fig. 1, the present invention is a modular-based combined filling machine set, including a first functional module 1 and a second functional module 2 arranged side by side; the first functional module 1 comprises a filling unit 102; the second functional module 2 comprises a cap screwing unit 201 or a cap pressing unit 202; the filling unit 102, the cap screwing unit 201 and the cap pressing unit 202 respectively comprise a frame A, a bottle inlet star wheel B, a bottle outlet star wheel C and a driving component D; the driving component D is composed of a driving motor and a conventional speed reducer in the field; the filling unit 102 is connected with the cap screwing unit 201 or the cap pressing unit 202 through a pair of positioning pieces 3, and the filling unit 102 is in transmission connection with the cap screwing unit 201 or the cap pressing unit 202 through a transition star wheel 4; the filling unit 102 also includes a conventional filling mechanism in the art; the capping unit 201 also includes a capping mechanism as is conventional in the art; the capping unit 202 also includes a conventional capping mechanism in the art; in filling unit 102, canning mechanism, bottle star gear B, play bottle star gear C and drive assembly D all install on frame A's upper portion, and canning mechanism and drive assembly D all set up into between bottle star gear B and the play bottle star gear C, and its theory of operation is: the driving assembly D drives the canning mechanism, the bottle feeding star wheel B and the bottle discharging star wheel C to move synchronously, bottles are conveyed into the canning mechanism through the bottle feeding star wheel B for canning, and are conveyed out through the bottle discharging star wheel C after canning is finished, and finally the bottles are conveyed to the next station through the transition star wheel 4; in spiral cover unit 201, spiral cover mechanism, advance a bottle star gear B, go out a bottle star gear C and drive assembly D and all install in frame A's upper portion, spiral cover mechanism and drive assembly D all set up in advancing a bottle star gear B and go out between the bottle star gear C, and its theory of operation is: the driving assembly D drives the cap screwing mechanism, the bottle feeding star wheel B and the bottle discharging star wheel C to move synchronously, the bottle is conveyed into the cap screwing mechanism through the bottle feeding star wheel B for cap screwing, and the bottle is conveyed out through the bottle discharging star wheel C after the cap screwing is finished; in gland unit 202, capping mechanism, bottle star gear B, play bottle star gear C and drive assembly D all install in frame A's upper portion, and capping mechanism and drive assembly D all set up in into between bottle star gear B and the play bottle star gear C, and its theory of operation is: drive assembly D drive gland mechanism, advance a bottle star gear B and go out a bottle star gear C synchronous motion, send the bottle to gland mechanism in and carry out the gland through advancing a bottle star gear B, the rethread goes out a bottle star gear C and sees off after the gland is accomplished.

As shown in fig. 1 and fig. 6, the positioning element 3 includes a first positioning block 301 and a second positioning block 302; the first positioning block 301 and the second positioning block 302 are respectively bolted to the upper parts of two adjacent racks a, and the first positioning block 301 and the second positioning block 302 are connected through bolts; the opposite inner side surfaces of the first positioning block 301 and the second positioning block 302 are respectively provided with an accommodating groove 303 with a horizontal cross section in a semicircular structure; the two accommodating grooves 303 are combined to form a positioning cavity; a mating detent ball 304 is disposed within the detent cavity.

The second embodiment is as follows:

referring to fig. 2, the present invention is a modular-based combined filling machine set, including a first functional module 1 and a second functional module 2 arranged side by side; the first functional module 1 comprises a bottle washing unit 101 and a filling unit 102; the second functional module 2 comprises a cap screwing unit 201 or a cap pressing unit 202; the bottle washing unit 101, the filling unit 102, the cap screwing unit 201 and the cap pressing unit 202 all comprise a frame A, a bottle inlet star wheel B, a bottle outlet star wheel C and a driving component D; the driving component D is composed of a driving motor and a conventional speed reducer in the field; the bottle washing unit 101 and the filling unit 102, and the filling unit 102 and the cap rotating unit 201 or the cap pressing unit 202 are respectively connected through a pair of positioning pieces 3, and the bottle washing unit 101 and the filling unit 102, and the filling unit 102 and the cap rotating unit 201 or the cap pressing unit 202 are respectively in transmission connection through a transition star wheel 4; the bottle washing unit 101 further comprises a conventional bottle washing mechanism in the field; the filling unit 102 also includes a conventional filling mechanism in the art; the capping unit 201 also includes a capping mechanism as is conventional in the art; the capping unit 202 also includes a conventional capping mechanism in the art; in dashing a bottle unit 101, dash a bottle mechanism, advance a bottle star gear B, go out a bottle star gear C and drive assembly D and all install in frame A's upper portion, dash a bottle mechanism and drive assembly D and all set up and advance a bottle star gear B and go out between a bottle star gear C, its theory of operation is: the driving assembly D drives the bottle flushing mechanism, the bottle inlet star wheel B and the bottle outlet star wheel C to move synchronously, bottles are conveyed into the bottle flushing mechanism through the bottle inlet star wheel B to be flushed, the bottles are conveyed out through the bottle outlet star wheel C after the bottle flushing is finished, and finally the bottles are conveyed to the next station through the transition star wheel 4; in filling unit 102, canning mechanism, bottle star gear B, play bottle star gear C and drive assembly D all install on frame A's upper portion, and canning mechanism and drive assembly D all set up into between bottle star gear B and the play bottle star gear C, and its theory of operation is: the driving assembly D drives the canning mechanism, the bottle feeding star wheel B and the bottle discharging star wheel C to move synchronously, bottles are conveyed into the canning mechanism through the bottle feeding star wheel B for canning, and are conveyed out through the bottle discharging star wheel C after canning is finished, and finally the bottles are conveyed to the next station through the transition star wheel 4; in spiral cover unit 201, spiral cover mechanism, advance a bottle star gear B, go out a bottle star gear C and drive assembly D and all install in frame A's upper portion, spiral cover mechanism and drive assembly D all set up in advancing a bottle star gear B and go out between the bottle star gear C, and its theory of operation is: the driving assembly D drives the cap screwing mechanism, the bottle feeding star wheel B and the bottle discharging star wheel C to move synchronously, the bottle is conveyed into the cap screwing mechanism through the bottle feeding star wheel B for cap screwing, and the bottle is conveyed out through the bottle discharging star wheel C after the cap screwing is finished; in gland unit 202, capping mechanism, bottle star gear B, play bottle star gear C and drive assembly D all install in frame A's upper portion, and capping mechanism and drive assembly D all set up in into between bottle star gear B and the play bottle star gear C, and its theory of operation is: drive assembly D drive gland mechanism, advance a bottle star gear B and go out a bottle star gear C synchronous motion, send the bottle to gland mechanism in and carry out the gland through advancing a bottle star gear B, the rethread goes out a bottle star gear C and sees off after the gland is accomplished.

As shown in fig. 2 and fig. 6, the positioning element 3 includes a first positioning block 301 and a second positioning block 302; the first positioning block 301 and the second positioning block 302 are respectively bolted to the upper parts of two adjacent racks a, and the first positioning block 301 and the second positioning block 302 are connected through bolts; the opposite inner side surfaces of the first positioning block 301 and the second positioning block 302 are respectively provided with an accommodating groove 303 with a horizontal cross section in a semicircular structure; the two accommodating grooves 303 are combined to form a positioning cavity; a mating detent ball 304 is disposed within the detent cavity.

The third concrete embodiment:

referring to fig. 3, the present invention is a modular-based combined filling machine set, including a first functional module 1 and a second functional module 2 arranged side by side; the first functional module 1 comprises a filling unit 102; the second functional module 2 includes a cap screwing unit 201 and a cap pressing unit 202; the filling unit 102, the cap screwing unit 201 and the cap pressing unit 202 respectively comprise a frame A, a bottle inlet star wheel B, a bottle outlet star wheel C and a driving component D; the driving component D is composed of a driving motor and a conventional speed reducer in the field; the filling unit 102 and the cap screwing unit 201 and the cap pressing unit 202 are respectively connected through a pair of positioning pieces 3, and the filling unit 102 and the cap screwing unit 201 and the cap pressing unit 202 are respectively in transmission connection through a transition star wheel 4; the filling unit 102 also includes a conventional filling mechanism in the art; the capping unit 201 also includes a capping mechanism as is conventional in the art; the capping unit 202 also includes a conventional capping mechanism in the art; in filling unit 102, canning mechanism, bottle star gear B, play bottle star gear C and drive assembly D all install on frame A's upper portion, and canning mechanism and drive assembly D all set up into between bottle star gear B and the play bottle star gear C, and its theory of operation is: the driving assembly D drives the canning mechanism, the bottle feeding star wheel B and the bottle discharging star wheel C to move synchronously, bottles are conveyed into the canning mechanism through the bottle feeding star wheel B for canning, and are conveyed out through the bottle discharging star wheel C after canning is finished, and finally the bottles are conveyed to the next station through the transition star wheel 4; in spiral cover unit 201, spiral cover mechanism, advance a bottle star gear B, go out a bottle star gear C and drive assembly D and all install in frame A's upper portion, spiral cover mechanism and drive assembly D all set up in advancing a bottle star gear B and go out between the bottle star gear C, and its theory of operation is: the driving assembly D drives the cap screwing mechanism, the bottle feeding star wheel B and the bottle discharging star wheel C to move synchronously, the bottle is conveyed into the cap screwing mechanism through the bottle feeding star wheel B for cap screwing, the bottle is conveyed out through the bottle discharging star wheel C after the cap screwing is finished, and finally the bottle is conveyed to the next station through the transition star wheel 4; in gland unit 202, capping mechanism, bottle star gear B, play bottle star gear C and drive assembly D all install in frame A's upper portion, and capping mechanism and drive assembly D all set up in into between bottle star gear B and the play bottle star gear C, and its theory of operation is: drive assembly D drive gland mechanism, advance a bottle star gear B and go out a bottle star gear C synchronous motion, send the bottle to gland mechanism in and carry out the gland through advancing a bottle star gear B, the rethread goes out a bottle star gear C and sees off after the gland is accomplished.

As shown in fig. 3 and fig. 6, the positioning element 3 includes a first positioning block 301 and a second positioning block 302; the first positioning block 301 and the second positioning block 302 are respectively bolted to the upper parts of two adjacent racks a, and the first positioning block 301 and the second positioning block 302 are connected through bolts; the opposite inner side surfaces of the first positioning block 301 and the second positioning block 302 are respectively provided with an accommodating groove 303 with a horizontal cross section in a semicircular structure; the two accommodating grooves 303 are combined to form a positioning cavity; a mating detent ball 304 is disposed within the detent cavity.

The fourth concrete embodiment:

referring to fig. 4, the present invention is a modular-based combined filling machine set, including a first functional module 1 and a second functional module 2 arranged side by side; the first functional module 1 comprises a bottle washing unit 101 and a filling unit 102; the second functional module 2 comprises a cap screwing unit 201 and a cap pressing unit 202; the bottle washing unit 101, the filling unit 102, the cap screwing unit 201 and the cap pressing unit 202 all comprise a frame A, a bottle inlet star wheel B, a bottle outlet star wheel C and a driving component D; the driving component D is composed of a driving motor and a conventional speed reducer in the field; the bottle washing unit 101 and the filling unit 102, the filling unit 102 and the cap screwing unit 201, and the cap screwing unit 201 and the cap pressing unit 202 are respectively connected through a pair of positioning pieces 3, and the bottle washing unit 101 and the filling unit 102, the filling unit 102 and the cap screwing unit 201, and the cap screwing unit 201 and the cap pressing unit 202 are respectively in transmission connection through a transition star wheel 4; the bottle washing unit 101 further comprises a conventional bottle washing mechanism in the field; the filling unit 102 also includes a conventional filling mechanism in the art; the capping unit 201 also includes a capping mechanism as is conventional in the art; the capping unit 202 also includes a conventional capping mechanism in the art; in dashing a bottle unit 101, dash a bottle mechanism, advance a bottle star gear B, go out a bottle star gear C and drive assembly D and all install in frame A's upper portion, dash a bottle mechanism and drive assembly D and all set up and advance a bottle star gear B and go out between a bottle star gear C, its theory of operation is: the driving assembly D drives the bottle flushing mechanism, the bottle inlet star wheel B and the bottle outlet star wheel C to move synchronously, bottles are conveyed into the bottle flushing mechanism through the bottle inlet star wheel B to be flushed, the bottles are conveyed out through the bottle outlet star wheel C after the bottle flushing is finished, and finally the bottles are conveyed to the next station through the transition star wheel 4; in filling unit 102, canning mechanism, bottle star gear B, play bottle star gear C and drive assembly D all install on frame A's upper portion, and canning mechanism and drive assembly D all set up into between bottle star gear B and the play bottle star gear C, and its theory of operation is: the driving assembly D drives the canning mechanism, the bottle feeding star wheel B and the bottle discharging star wheel C to move synchronously, bottles are conveyed into the canning mechanism through the bottle feeding star wheel B for canning, and are conveyed out through the bottle discharging star wheel C after canning is finished, and finally the bottles are conveyed to the next station through the transition star wheel 4; in spiral cover unit 201, spiral cover mechanism, advance a bottle star gear B, go out a bottle star gear C and drive assembly D and all install in frame A's upper portion, spiral cover mechanism and drive assembly D all set up in advancing a bottle star gear B and go out between the bottle star gear C, and its theory of operation is: the driving assembly D drives the cap screwing mechanism, the bottle feeding star wheel B and the bottle discharging star wheel C to move synchronously, the bottle is conveyed into the cap screwing mechanism through the bottle feeding star wheel B for cap screwing, the bottle is conveyed out through the bottle discharging star wheel C after the cap screwing is finished, and finally the bottle is conveyed to the next station through the transition star wheel 4; in gland unit 202, capping mechanism, bottle star gear B, play bottle star gear C and drive assembly D all install in frame A's upper portion, and capping mechanism and drive assembly D all set up in into between bottle star gear B and the play bottle star gear C, and its theory of operation is: drive assembly D drive gland mechanism, advance a bottle star gear B and go out a bottle star gear C synchronous motion, send the bottle to gland mechanism in and carry out the gland through advancing a bottle star gear B, the rethread goes out a bottle star gear C and sees off after the gland is accomplished.

As shown in fig. 4 and fig. 6, the positioning element 3 includes a first positioning block 301 and a second positioning block 302; the first positioning block 301 and the second positioning block 302 are respectively bolted to the upper parts of two adjacent racks a, and the first positioning block 301 and the second positioning block 302 are connected through bolts; the opposite inner side surfaces of the first positioning block 301 and the second positioning block 302 are respectively provided with an accommodating groove 303 with a horizontal cross section in a semicircular structure; the two accommodating grooves 303 are combined to form a positioning cavity; a mating detent ball 304 is disposed within the detent cavity.

The fifth concrete embodiment:

referring to fig. 5, the present invention is a modular-based combined filling machine set, including a first functional module 1 and a second functional module 2 arranged side by side; the first functional module 1 comprises a pair of bottle washing units 101 and a filling unit 102; the second functional module 2 comprises a cap screwing unit 201 and a cap pressing unit 202; the bottle washing unit 101, the filling unit 102, the cap screwing unit 201 and the cap pressing unit 202 all comprise a frame A, a bottle inlet star wheel B, a bottle outlet star wheel C and a driving component D; the driving component D is composed of a driving motor and a conventional speed reducer in the field; a bottle washing unit 101 is connected with another bottle washing unit 101, a bottle washing unit 101 is connected with a filling unit 102, a filling unit 102 is connected with a cover screwing unit 201, and a cover screwing unit 201 is connected with a cover pressing unit 202 through a pair of positioning pieces 3, and the bottle washing unit 101 is connected with another bottle washing unit 101, the bottle washing unit 101 is connected with the filling unit 102, the filling unit 102 is connected with the cover screwing unit 201, and the cover screwing unit 201 is connected with the cover pressing unit 202 through transition star wheels 4 in a transmission mode; the bottle washing unit 101 further comprises a conventional bottle washing mechanism in the field; the filling unit 102 also includes a conventional filling mechanism in the art; the capping unit 201 also includes a capping mechanism as is conventional in the art; the capping unit 202 also includes a conventional capping mechanism in the art; in dashing a bottle unit 101, dash a bottle mechanism, advance a bottle star gear B, go out a bottle star gear C and drive assembly D and all install in frame A's upper portion, dash a bottle mechanism and drive assembly D and all set up and advance a bottle star gear B and go out between a bottle star gear C, its theory of operation is: the driving assembly D drives the bottle flushing mechanism, the bottle inlet star wheel B and the bottle outlet star wheel C to move synchronously, bottles are conveyed into the bottle flushing mechanism through the bottle inlet star wheel B to be flushed, the bottles are conveyed out through the bottle outlet star wheel C after the bottle flushing is finished, and finally the bottles are conveyed to the next station through the transition star wheel 4; in filling unit 102, canning mechanism, bottle star gear B, play bottle star gear C and drive assembly D all install on frame A's upper portion, and canning mechanism and drive assembly D all set up into between bottle star gear B and the play bottle star gear C, and its theory of operation is: the driving assembly D drives the canning mechanism, the bottle feeding star wheel B and the bottle discharging star wheel C to move synchronously, bottles are conveyed into the canning mechanism through the bottle feeding star wheel B for canning, and are conveyed out through the bottle discharging star wheel C after canning is finished, and finally the bottles are conveyed to the next station through the transition star wheel 4; in spiral cover unit 201, spiral cover mechanism, advance a bottle star gear B, go out a bottle star gear C and drive assembly D and all install in frame A's upper portion, spiral cover mechanism and drive assembly D all set up in advancing a bottle star gear B and go out between the bottle star gear C, and its theory of operation is: the driving assembly D drives the cap screwing mechanism, the bottle feeding star wheel B and the bottle discharging star wheel C to move synchronously, the bottle is conveyed into the cap screwing mechanism through the bottle feeding star wheel B for cap screwing, the bottle is conveyed out through the bottle discharging star wheel C after the cap screwing is finished, and finally the bottle is conveyed to the next station through the transition star wheel 4; in gland unit 202, capping mechanism, bottle star gear B, play bottle star gear C and drive assembly D all install in frame A's upper portion, and capping mechanism and drive assembly D all set up in into between bottle star gear B and the play bottle star gear C, and its theory of operation is: drive assembly D drive gland mechanism, advance a bottle star gear B and go out a bottle star gear C synchronous motion, send the bottle to gland mechanism in and carry out the gland through advancing a bottle star gear B, the rethread goes out a bottle star gear C and sees off after the gland is accomplished.

As shown in fig. 5 and 6, the positioning element 3 includes a first positioning block 301 and a second positioning block 302; the first positioning block 301 and the second positioning block 302 are respectively bolted to the upper parts of two adjacent racks a, and the first positioning block 301 and the second positioning block 302 are connected through bolts; the opposite inner side surfaces of the first positioning block 301 and the second positioning block 302 are respectively provided with an accommodating groove 303 with a horizontal cross section in a semicircular structure; the two accommodating grooves 303 are combined to form a positioning cavity; a mating detent ball 304 is disposed within the detent cavity.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.