CN113942241B - Jacketing machine - Google Patents

Abstract

An embodiment of the present application provides a jacketing machine comprising: a frame; the clamping component is arranged on the frame and is used for clamping the sleeve; a filler component comprising: the rotating piece is rotatably arranged on the frame; a filler head mounted on the rotating member; the mounting piece is connected with the filling head and is used for enabling the inner core to be arranged on the filling head; the clamping component corresponds to the position of the filling head, so that the inner core arranged on the filling head rotates along with the rotating piece and enters the sleeve clamped by the clamping component.

Description

Jacketing machine

Technical Field

The application relates to the technical field of body-building ring manufacturing, in particular to a jacketing machine.

Background

Hula hoops are also called body-building hoops, and the 50 s of the 20 th century are popular in Europe, america, australia and other countries. Because the exercise device is light and beautiful, the exercise floor is small, and the exercise device quickly becomes an exercise project suitable for people of all ages. The hula hoop can be replaced by an artistic gymnastics hoop, and has low requirements on field equipment. The exerciser can rotate the hula hoop around the body through the movement of limbs or other parts of the body, so that the effects of body building and weight reducing can be achieved.

In the related art, the hula hoop is formed by assembling a segment-shaped inner core and a sleeve, and the inner core and the sleeve are matched with each other in the filling process of the hula hoop, so that a large number of workers are required to fill in the production process, and the technical problem of high labor cost is caused.

Disclosure of Invention

In order to solve the above problems, an object of the present application is to provide a jacketing machine for solving the technical problems that the cooperation between the inner core and the sleeve of the hula hoop needs to be manually filled in the process of filling, which results in a large number of workers to fill in the process of production, resulting in high labor cost.

In order to solve the technical problems, the embodiment of the application adopts the following technical scheme:

an embodiment of the present application provides a jacketing machine comprising:

a frame;

the clamping component is arranged on the frame and is used for clamping and expanding an end part of the sleeve; and

a filler component comprising:

the rotating piece is rotatably arranged on the frame;

a filler head mounted on the rotating member;

the mounting piece is connected with the filling head and is used for enabling the inner core to be mounted on or separated from the filling head;

the clamping component corresponds to the position of the filling head, so that the inner core arranged on the filling head rotates along with the rotating piece and enters the sleeve clamped by the clamping component.

Further, the method further comprises the following steps:

and the air injection component is arranged on the frame and corresponds to an end part of the sleeve clamped by the clamping component, and is used for injecting air into the end part of the sleeve, so that air flow enters the sleeve from the outside.

Further, the air injection component is provided with a first air passage, one end of the first air passage is aligned with the opening of the sleeve, and the other end of the first air passage is used for being connected with an air supply device.

Further, the filler member further includes:

the first driver is arranged on the frame, connected with the rotating piece and used for driving the rotating piece to rotate.

Further, the frame comprises a stand column arranged on the frame, and the first driver is hinged with the stand column;

the first driver comprises a telescopic rod arranged on the first driver, and the telescopic rod is hinged with the rotating piece;

when the telescopic rod stretches out or retracts back, the rotating piece is driven to rotate compared with the rack.

Further, the filler head is provided with a second air passage, a first end of the second air passage is positioned on the front end of the filler head, and a second end of the second air passage is used for being connected with an air exhaust device, so that the first end of the second air passage adsorbs the inner core on the filler head.

Further, the clamping member includes:

the first clamping piece is arranged on the rack;

the second clamping piece is arranged on the frame and is opposite to the first clamping piece;

the opening of the sleeve is arranged on the first clamping piece and the second clamping piece, and the opening of the sleeve is opened for the first clamping piece and the second clamping piece.

Further, the clamping member further includes:

the mounting plate is arranged on the frame and is provided with a first through part and a chute, the first clamping piece can move relative to the mounting plate, the second clamping piece is arranged on the mounting plate, and the first through part and the second through part are positioned in the first through part;

the mounting seat is mounted on the sliding groove and can move relative to the mounting plate through the sliding groove, the mounting seat is provided with a second through part, the second through part is positioned below the first through part, and parts of the first clamping piece and the second clamping piece are positioned in the second through part;

wherein the first clamping piece and the second clamping piece can move relatively;

when the sleeve is in operation, the first clamping piece and the inner wall of the second through part jointly clamp the first part of the pipe wall of the one end part of the sleeve, and the second clamping piece and the inner wall of the second through part jointly clamp the second part of the pipe wall of the one end part of the sleeve.

Further, the clamping member further includes:

the second driver is arranged on the mounting plate, is connected with the first clamping piece and is used for driving the first clamping piece to move in the second through part;

and one end of the elastic piece is connected with the mounting plate, and the other end of the elastic piece is connected with the mounting seat.

Further, the first clamping piece and/or the second clamping piece are/is internally provided with a third air passage, one end of the third air passage is aligned with one end opening part of the sleeve, the other end of the third air passage is used for being connected with the inflating device, and the third air passage is used for jetting air to one end opening part of the sleeve, so that air flow enters the sleeve from the outside.

Further, the number of the filling heads is at least two, and the filling pieces are arranged on the rotating piece;

the number of the clamping parts is consistent with the number of the filling heads.

Compared with the prior art, the embodiment of the application has the beneficial effects that:

the embodiment of the application provides a jacketing machine, which comprises a frame, a clamping part and a packing part, wherein the packing part comprises a rotating part, a packing head and an installing part, wherein the clamping part clamps and supports an end opening part of a sleeve, so that the opening part at one end of the sleeve is opened, the inner core is arranged on the packing head through the installing part, the packing head is driven to rotate by rotating the rotating part, so that the inner core arranged on the packing head synchronously rotates, the inner core is filled in the sleeve in the process of rotating the packing head due to the fact that the clamping part corresponds to the position of the packing head, then the inner core is separated from the packing head through the installing part, the rotating part is rotated, the packing head is driven to be far away from the clamping part, the inner core is filled in the sleeve, the packing of the hula hoop is repeatedly completed repeatedly, the operation process is simple, the operation of the jacketing machine can be completed by only one person, the packing of the hula hoop is realized, the packing cost of the hula hoop is greatly reduced, and the manual packing cost of the hula hoop is greatly reduced in the process is greatly reduced, and the manual packing cost of the hula hoop is reduced in the process is greatly needed.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are only embodiments of the present application, and other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a jacketing machine according to an embodiment of the present application;

FIG. 2 is a schematic view of a filling head of a jacketing machine according to an embodiment of the present application;

FIG. 3 is a schematic view of a clamping member of a jacketing machine according to an embodiment of the present application;

FIG. 4 is a bottom view of a clamping member of a jacketing machine provided in accordance with an embodiment of the present application;

fig. 5 is a schematic structural view of a first clamping member of a jacketing machine according to an embodiment of the present application.

Wherein:

100. a frame; 101. a column; 200. a clamping member; 201. a first clamping member; 202. a second clamping member; 203. a mounting plate; 204. a first through portion; 205. a mounting base; 206. a second through portion; 207. a second driver; 208. an elastic member; 209. a third airway; 210. a chute; 300. a rotating member; 400. a filler head; 401. a second airway; 500. a first driver.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In the description of the embodiments of the present application, it should be noted that the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the embodiments of the present application and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the embodiments of the present application. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In describing embodiments of the present application, it should be noted that, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, interchangeably connected, integrally connected, mechanically connected, electrically connected, directly connected, indirectly connected through an intermediary, or in communication between two elements. The specific meaning of the above terms in embodiments of the present application will be understood in detail by those of ordinary skill in the art.

The following describes in further detail the embodiments of the present application with reference to the drawings and examples. The following examples are illustrative of the application and are not intended to limit the scope of the application.

As shown in fig. 1-4, an embodiment of the present application provides a jacketing machine comprising:

a frame 100;

a clamping member 200 mounted on the frame 100 for clamping and opening an end portion of the sleeve; and

a filler component comprising:

a rotating member 300 rotatably installed on the frame 100;

a filler head 400 mounted on the rotating member 300;

a mounting member connected to the filler head 400 for mounting or dismounting an inner core to or from the filler head 400;

wherein the clamping member 200 corresponds to the position of the packing head 400 such that the inner core provided on the packing head 400 rotates with the rotating member 300 into the sleeve clamped by the clamping member 200.

The embodiment of the application provides a jacketing machine, which comprises a frame 100, a clamping component 200 and a packing component, wherein the packing component comprises a rotating piece 300, a packing head 400 and a mounting piece (not shown in the figure), the clamping component 200 clamps and supports an end opening of a sleeve, the opening of one end of the sleeve is opened, the inner core is arranged on the packing head 400 through the mounting piece, the packing head 400 is driven to rotate by rotating the rotating piece 300, so that the inner core arranged on the packing head 400 synchronously rotates, the inner core is filled into the sleeve in the process of rotating the packing head 400 due to the position correspondence of the clamping component 200 and the packing head 400, and then the inner core is separated from the packing head 400 through the mounting piece, the rotating piece 300 drives the packing head 400 to be far away from the clamping component 200, so that the inner core is filled in the sleeve, the packing of a hula hoop is repeatedly completed, the operation process is simple, one person is required to complete the packing machine, the packing machine is required to be manufactured, and the manual packing cost of the hula hoop is reduced, and the manual packing machine is saved.

The rotating member 300 is a frame body with two ends hinged to the frame 100 and a middle rotatable relative to the frame 100, and one end of the filling head 400 or a side surface of the filling head 400 may be mounted at a middle position of the rotating member 300 by means of bolting, welding, bonding or clamping, etc., so as to rotate along with the rotating member 300.

The frame 100 may be a steel frame structure or an alloy frame structure.

In the related art, the inner side of some plastic inner cores is provided with bulges and is not easy to assemble, so that soapy water is required to be coated on the inner cores during assembly, the inner cores are filled into one end buckling parts of the sleeves, the other ends of the sleeves are required to be inflated by air, the foam sleeve is expanded, the inner cores are completely sleeved into the foam sleeve, two people are required to coordinate and cooperate in the process, and the assembly difficulty is high.

Further, the method further comprises the following steps:

and an air injection part installed on the frame 100 and corresponding to an end portion of the sleeve clamped by the clamping part 200, for injecting air into the end portion of the sleeve, so that air flow enters the sleeve from the outside.

When the sleeve is spread by the clamping component 200, the air injection part injects air towards the inside of the sleeve, and the sleeve is inflated by the air at the moment, so that the inner core is conveniently sleeved in the outside sleeve, and meanwhile, an air film is formed between the sleeve and the inner core, so that the lubricating effect is achieved, and the filling work is conveniently carried out;

through the jet component can be directly to the sleeve pipe is jet, can play will the sleeve pipe expands and play lubricated effect when inserting the inner core, only can use one alone to control, need not additionally to increase the staff and control and operate, convenient and fast.

Further, the air injection part includes:

a communication member mounted on the frame 100 and having a first air passage, one end of which is aligned with the mouth;

and the air supply device is connected with the other end of the first air passage and is used for supplying air to the first air passage.

The air supply device is preferably an air pump, and can also be other devices capable of supplying air;

the communicating member may be a pipe member, and is mounted on the frame 100, one end of the communicating member is directly connected to the air supply device, and the other end of the communicating member is aligned with the opening of the sleeve to perform air injection. In some embodiments, the communicating member may be a plate member or a block member, and the first air passage is an air hole provided therein.

Further, the filler member further includes:

the first driver 500 is installed on the frame 100, and is connected to the rotating member 300, for driving the rotating member 300 to rotate.

The first driver 500 may be mounted on the frame 100 by means of a clamping connection, welding or a bolt, and the first driver 500 may be a motor and a transmission assembly, or may be a motor spindle connected to the rotating member 300, and the rotating member 300 is driven to rotate by the motor spindle, or a driving gear is mounted on the motor spindle, and a driven gear is mounted on the rotating member 300, and the driven gear is driven to rotate by the motor spindle to drive the driving gear, so as to realize rotation of the rotating member 300.

In this embodiment, the frame 100 includes a column 101 mounted thereon, and the first driver 500 is hinged to the column 101;

the first driver 500 includes a telescopic rod mounted thereon, and the telescopic rod is hinged to the rotating member 300;

when the telescopic rod is extended or retracted, the rotating member 300 is driven to rotate compared with the frame 100.

The first driver 500 is an air cylinder or a hydraulic cylinder, and the telescopic rod is an air cylinder or a piston rod of the hydraulic cylinder, wherein the upright post 101 may be a part of the stand 100 or may be mounted on the stand 100 by welding, a bolt or plugging;

when the telescopic rod is extended, the rotating member 300 is pushed to move toward the direction approaching the clamping member 200, so that the inner core provided on the packing head 400 can be introduced into the sleeve; when the telescopic rod is retracted, the packing element can be driven away from the clamping component 200, so that the packing head 400 is reset for refilling.

Further, the packing head 400 has a second air channel 401, a first end of the second air channel 401 is located at a front end of the packing head 400, the mounting member is an air extracting device, and a second end of the second air channel 401 is connected with the air extracting device, so that the first end of the second air channel 401 adsorbs the inner core on the packing head 400.

The installation piece is an air extraction device, the second air channel 401 can be extracted through the air extraction device, the inner core can be adsorbed at the end part of the filler head 400 in the extraction process, so that the inner core is installed on the filler head 400, the filler head 400 moves towards the clamping component 200 in the filling process, the inner core is completely placed in the sleeve, the inner core is separated from the filler head 400 by closing the air extraction device, and the inner core is prevented from moving away from the sleeve along with the filler head 400 when the rotation piece 300 rotates to drive the filler head 400 to move away from the sleeve, and can be continuously left in the sleeve to finish partial filling.

The air extracting device may be an air extracting pump or a vacuum generator, and can enable the second end of the second air channel 401 to generate negative pressure, that is, enable the front end of the filling head 400 to form negative pressure capable of adsorbing the inner core, so as to achieve the adsorption of the inner core, and enable the inner core to be separated from the filling head 400 by closing the negative pressure.

Further, the clamping member 200 includes:

a first clamping member 201 mounted on the frame 100;

a second clamping member 202 mounted on the frame 100 and disposed opposite to the first clamping member 201;

wherein the mouth of the sleeve is arranged on the first clamping piece 201 and the second clamping piece 202 and is spread by the first clamping piece 201 and the second clamping piece 202.

The opening part of the sleeve is sleeved on the first clamping piece 201 and the second clamping piece 202, the first clamping piece 201 and the second clamping piece 202 are oppositely arranged, a reserved space for the inner core to enter is formed between the first clamping piece 201 and the second clamping piece 202, and the inner core enters the sleeve through the reserved space, so that filling is completed; the opening of the sleeve is opened by the first clamping piece 201 and the second clamping piece 202 at least with an opening with a reserved space size so as to be filled with the inner core.

In this embodiment, the first clamping member 201 and the second clamping member 202 may be mounted on the frame 100 by welding, bolting, or clamping, or may be any one or both of the first clamping member 201 and the second clamping member 202 may be movable relative to the frame 100, and the sleeve is sleeved on the bottoms of the first clamping member 201 and the second clamping member 202.

Further, the clamping member 200 further includes:

a mounting plate 203 mounted on the frame 100 and having a first through portion 204 and a chute 210, wherein the first clamping member 201 is movable relative to the mounting plate, the second clamping member 202 is mounted on the mounting plate 203, and both parts are located in the first through portion 204;

a mounting base 205 mounted on the chute 210 and movable relative to the mounting plate 203 via the chute 210, the mounting base having a second through portion 206, the second through portion 206 being located below the first through portion 204, portions of the first and second holders 201, 202 being located within the second through portion 206;

wherein the first clamping member 201 and the second clamping member 202 are relatively movable;

in operation, the first clamping member 201 and the inner wall of the second through portion 206 jointly clamp a first portion of the wall of the one end portion of the sleeve, and the second clamping member 202 and the inner wall of the second through portion 206 jointly clamp a second portion of the wall of the one end portion of the sleeve.

The first through portion 204 and the second through portion 206 are each a hole or a groove-like through space.

The mounting plate 203 is mounted on the frame 100 by welding or bolting or inserting;

the mounting seat 205 passes through the sliding groove 210 through a bolt, and is positioned at the bottom of the mounting plate 203, and the movement of the mounting seat is limited by the sliding groove 210. Four corners of the mounting seat are provided with four bolts, one ends of the four bolts respectively penetrate through the sliding groove 210, and the other ends of the four bolts are fixed by gaskets and nuts, so that the bolts can slide in the sliding groove 210, and the mounting seat 205 can move relative to the mounting plate 203; the length direction of the chute 210 is set along the direction of the relative movement of the first clamping member 201 and the second clamping member 202, so that the mounting seat 205 can move along the direction of the relative movement of the first clamping member 201 and the second clamping member 202; the second through portion 206 is an oval clamping hole, and the first clamping member 201 and the second clamping member 202 are partially located in the clamping hole; the inner wall of the second through part 206 is matched with the first clamping piece 201 to clamp the first part of the pipe wall of the sleeve, and the inner wall of the second through part 206 is matched with the second clamping piece 202 to clamp the second part of the pipe wall of the sleeve, so that the sleeve is clamped.

Further, the clamping member 200 further includes:

a second driver 207 mounted on the mounting plate 203 and connected to the first clamping member 201 for driving the first clamping member 201 to move in the second through portion 206;

and an elastic member 208 having one end connected to the mounting plate 203 located at one side of the second clamping member 202 and the other end connected to the mounting seat 205.

The elastic member 208 is preferably a spring, the second driver 207 is preferably a cylinder or an oil cylinder, when the piston rod of the cylinder or the oil cylinder contracts, the spring stretches, the first clamping member 201 is far away from the second clamping member 202, at this time, the first clamping member 201 is pressed against the inner wall of the second through part 206 to clamp the first part of the pipe wall of the sleeve, and meanwhile, the mounting seat 205 is driven to move, so that the inner wall of the other side of the second through part 206 is pressed against the second clamping member 202 to clamp the second part of the pipe wall of the sleeve, thereby expanding the sleeve and facilitating the sheathing of the inner core;

the elastic member 208 is preferably a spring, and the elastic member 208 connects the mounting plate 203 and the mounting seat 205; when the piston rod is extended, the gap between the second through part 206 and the first clamping piece 201 is enlarged, so that the first part of the wall of the sleeve is released; the deformation is restoreed to the spring under the effect of spring, mount pad 205 moves towards being close to one side of second holder 202, makes the clearance between second through-hole 206 and the second holder 202 also grow, thereby the sheathed tube second part pipe wall of release realizes to sheathed tube release makes this embodiment the sleeve pipe can realize automatic unloading, convenient and fast need not to consume too much staff, and efficient moreover, degree of automation is high, need not to use the violence to tear, both can realize assembling and dismantling the sleeve pipe.

In some implementations, the first clamping member 201 and/or the second clamping member 202 has a third air passage 209 therein, one end of the third air passage 209 is aligned with an end opening of the sleeve, the other end of the third air passage 209 is used for connecting with an inflator, and the third air passage 209 is used for injecting air into the end opening of the sleeve, so that air flows from the outside into the inside of the sleeve.

The third air channel 209 is a through hole in the first clamping member 201 and/or the second clamping member 202, and the air charging device is an air pump, which can directly jet air to the sleeve, so that the sleeve can be inflated and lubricated during core insertion, and only one person can be used for controlling without additionally adding a human hand for controlling and operating, thereby being convenient and fast; the above effect can be achieved directly without adding a gas injection pipe and considering the position setting, and the third air passage 209 is shown in fig. 5 by taking the first clamping member 201 as an example.

In order to achieve more efficient production of the hula hoop and reduce labor costs, the number of the packing heads 400 is at least two, and the packing elements are arranged on the rotating element 300;

the number of the clamping members 200 is identical to the number of the packing heads 400.

The number of the filling heads 400 in the present embodiment is four, the number of the clamping members 200 is also four, and the positions of the two parts are in one-to-one correspondence;

the sleeve machine can be produced efficiently, and the hula hoop can be machined completely by one person, so that the sleeve machine is efficient and quick and has low cost.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. A jacketing machine, comprising:

a frame;

the clamping component is arranged on the frame and is used for clamping and expanding an end part of the sleeve; and

a filler component comprising:

the rotating piece is rotatably arranged on the frame;

a filler head mounted on the rotating member;

the mounting piece is connected with the filling head and is used for enabling the inner core to be mounted on or separated from the filling head;

wherein the clamping part corresponds to the position of the filling head so that the inner core arranged on the filling head rotates along with the rotating piece and enters the sleeve clamped by the clamping part;

the clamping member includes:

the first clamping piece is arranged on the rack;

the second clamping piece is arranged on the frame and is opposite to the first clamping piece; the opening part of the sleeve is arranged on the first clamping piece and the second clamping piece and is spread by the first clamping piece and the second clamping piece;

the clamping member further includes:

the mounting plate is arranged on the frame and is provided with a first through part and a chute, the first clamping piece can move relative to the mounting plate, the second clamping piece is arranged on the mounting plate, and the first through part and the second through part are positioned in the first through part;

the mounting seat is mounted on the sliding groove and can move relative to the mounting plate through the sliding groove, the mounting seat is provided with a second through part, the second through part is positioned below the first through part, and parts of the first clamping piece and the second clamping piece are positioned in the second through part; wherein the first clamping piece and the second clamping piece can move relatively;

when the sleeve is in operation, the first clamping piece and the inner wall of the second through part jointly clamp the first part of the pipe wall of the one end part of the sleeve, and the second clamping piece and the inner wall of the second through part jointly clamp the second part of the pipe wall of the one end part of the sleeve.

2. A jacketing machine according to claim 1 further comprising:

and the air injection component is arranged on the frame and corresponds to an end part of the sleeve clamped by the clamping component, and is used for injecting air into the end part of the sleeve, so that air flow enters the sleeve from the outside.

3. A jacketing machine according to claim 2 wherein the air-ejecting means comprises:

a communication piece which is arranged on the frame and is provided with a first air passage, wherein one end of the first air passage is aligned with the opening part;

and the air supply device is connected with the other end of the first air passage and is used for supplying air to the first air passage.

4. A jacketing machine according to claim 1 wherein the packing element further comprises:

the first driver is arranged on the frame, connected with the rotating piece and used for driving the rotating piece to rotate.

5. A jacketing machine as claimed in claim 1 wherein,

the filler head is provided with a second air passage, the first end of the second air passage is positioned at the front end of the filler head, the mounting part is an air extractor, and the second end of the second air passage is connected with the air extractor, so that the first end of the second air passage adsorbs the inner core on the filler head.

6. The jacketing machine of claim 1 wherein the clamping member further comprises:

the second driver is arranged on the mounting plate, is connected with the first clamping piece and is used for driving the first clamping piece to move in the second through part;

and one end of the elastic piece is connected with the mounting plate positioned at one side of the second clamping piece, and the other end of the elastic piece is connected with the mounting seat.

7. A jacketing machine according to claim 1 wherein the first and/or second clamping members have a third air passage therein, one end of the third air passage being aligned with an end portion of the sleeve, the other end of the third air passage being for connection to an inflator device, the third air passage being for injecting air into an end portion of the sleeve so that air flow enters the interior of the sleeve from the outside.

8. The jacketing machine of claim 1 wherein there are at least two filler heads, said filler heads being mounted in alignment on said rotatable member;

the number of the clamping parts is consistent with the number of the filling heads.