CN109049964B - Material waiting mechanism of character rolling machine and character rolling machine - Google Patents

Abstract

The invention discloses a material waiting mechanism of a character rolling machine and the character rolling machine, which belong to the field of pipe production and comprise a pipe fitting accommodating groove for accommodating and positioning a pipe fitting, wherein a base is arranged below the pipe fitting accommodating groove, the top of the base is provided with an accommodating groove sliding groove, an accommodating groove sliding block is slidingly connected in the accommodating groove sliding groove, the pipe fitting accommodating groove is positioned on the accommodating groove sliding block, the accommodating groove sliding block is connected with a third linear driver for driving the accommodating groove sliding block to slide in the accommodating groove sliding groove, and the top of the base is fixedly provided with a first accommodating groove baffle and a second accommodating groove baffle for limiting the pipe fitting. By means of the pipe fitting accommodating groove and the pipe fitting sliding groove which are perpendicular to each other, the pipe fitting which is immediately rolled is separated from the pipe fitting which is finished with the rolling and other pipe fittings to be rolled, so that the pipe fittings are not affected with each other, and the accuracy of rolling is improved.

Description

Material waiting mechanism of character rolling machine and character rolling machine

[ field of technology ]

The invention relates to a material waiting mechanism of a character rolling machine and the character rolling machine, and belongs to the field of pipe fitting production.

[ background Art ]

The existing character rolling machine is characterized in that all the pipe fittings to be rolled are arranged in a straight line by unidirectional feeding, and the pipe fittings to be rolled are sent out along the straight line after the end of the character rolling. Therefore, the positions of the pipe fittings to be rolled are affected by the pipe fittings at the two ends of the pipe fittings, particularly, the length of the pipe fittings is slightly different, if the length difference is accumulated, all the pipe fittings to be rolled can be affected, and the rolling accuracy of a large number of pipe fittings is reduced.

[ invention ]

The invention aims to solve the technical problem of overcoming the defects of the prior art and providing a waiting mechanism of a character rolling machine and the character rolling machine.

The technical problems are solved, and the invention adopts the following technical scheme:

the utility model provides a wait material mechanism of word machine, including the pipe fitting accommodation groove that is used for holding and location pipe fitting, the below of pipe fitting accommodation groove is provided with the base, the accommodation groove spout has been seted up at the top of base, the sliding connection has the accommodation groove slider in the accommodation groove spout, the pipe fitting accommodation groove is located the accommodation groove slider, the accommodation groove slider is connected with No. three linear drive ware, no. three linear drive ware drive accommodation groove slider slides in the accommodation groove spout, the fixed first accommodation groove baffle that is provided with in top of base and the second accommodation groove baffle that carries out spacing to the pipe fitting, first accommodation groove baffle and second accommodation groove baffle are all parallel to the accommodation groove spout, pipe fitting accommodation groove and accommodation groove slider all are located between first accommodation groove baffle and the second accommodation groove baffle, the pipe fitting accommodation groove is provided with the pipe fitting sliding groove that is used for supplying the pipe fitting to slide along the rear of pay-off direction, pipe fitting groove perpendicular to the accommodation groove spout, no. three linear drive ware removes the accommodation groove slider until pipe fitting accommodation groove and slides the pipe fitting in the pipe fitting accommodation groove and slides the groove intercommunication back.

By means of the pipe fitting accommodating groove and the pipe fitting sliding groove which are perpendicular to each other, the pipe fitting which is immediately rolled is separated from the pipe fitting which is finished with the rolling and other pipe fittings to be rolled, so that the pipe fittings are not affected with each other, and the accuracy of rolling is improved. Meanwhile, even if the pipe fitting with the wrong rolling position is generated, the error is a relatively independent event, the subsequent pipe fitting cannot be influenced, and the rejection rate is effectively reduced.

The pipe fitting accommodating groove is arranged at the top of the accommodating groove sliding block, a positioning block for positioning the pipe fitting is arranged at the top of the accommodating groove sliding block, and the positioning block is arranged between the first accommodating groove baffle and the second accommodating groove baffle.

The two positioning blocks are a first positioning block and a second positioning block respectively, the first positioning block and the second positioning block are arranged between a first accommodating groove baffle and a second accommodating groove baffle, and a pipe fitting accommodating groove is arranged between the first positioning block and the second positioning block.

The accommodating groove sliding block comprises an accommodating groove upper sliding block and an accommodating groove lower sliding block, wherein the accommodating groove lower sliding block is slidingly connected in an accommodating groove sliding groove, the accommodating groove upper sliding block is arranged at the top of the accommodating groove lower sliding block, the first positioning block and the second positioning block are arranged at the top of the accommodating groove upper sliding block, the first positioning block and the second positioning block are integrally formed, and the accommodating groove upper sliding block is arranged between the first accommodating groove baffle and the second accommodating groove baffle.

The lower floating piece is arranged on the second positioning block, the first positioning block, the second positioning block, the lower floating piece and the pipe fitting sliding groove are sequentially arranged along the axial direction of the accommodating groove sliding groove, and a first reset piece is arranged between the lower floating piece and the accommodating groove upper sliding block.

The top of the pipe fitting accommodating groove is provided with a top plate, an ascending part is inserted on the top plate, the lower part of the ascending part is positioned in the pipe fitting accommodating groove, and a second reset part is arranged between the ascending part and the top plate.

The pipe fitting accommodating groove is communicated with a pipe fitting feeding groove, and the pipe fitting feeding groove penetrates through the first accommodating groove baffle plate.

A linear vibrator is fixed on a pipe fitting feeding groove.

A character rolling machine comprises a material waiting mechanism of the character rolling machine.

Other features and advantages of the present invention will be disclosed in the following detailed description of the invention and the accompanying drawings.

[ description of the drawings ]

The invention is further described with reference to the accompanying drawings:

FIG. 1 is a schematic diagram of a three-dimensional structure of a character rolling machine according to an embodiment of the invention;

figure 2 is a schematic view of a three-dimensional structure of a top structure of a support table according to an embodiment of the invention;

FIG. 3 is a schematic perspective view of a top structure of a mounting plate according to an embodiment of the present invention;

FIG. 4 is a schematic perspective view of a material waiting mechanism according to an embodiment of the present invention;

fig. 5 is an exploded view of a material handling mechanism according to an embodiment of the present invention.

A. A feeding mechanism; a1, vibrating a disc; a2, a pipe fitting discharging groove; a3, vibrating the tray table; B. a material waiting mechanism; b1, a pipe fitting accommodating groove; b2, a base; b3, a containing groove chute; b4, a containing groove sliding block; b5, a first accommodating groove baffle; b6, a second accommodating groove baffle; b7, a pipe fitting sliding groove; b8, a first positioning block; b9, a second positioning block; b10, sliding blocks on the accommodating grooves; b11, a lower sliding block of the accommodating groove; b12, a lower buoyancy element; b13, a top plate; b14, an ascending buoyancy element; b15, feeding the pipe fitting into a trough; b16, a linear vibrator; b17, a vibrator supporting plate; b18, supporting columns of the vibrator; b19, a third linear driver; C. a driving mechanism; c1, taking a pipe joint; c2, a translation mechanism I; c21, a first linear driver; c22, pushing plate; c3, a translation mechanism II; c31, a second linear driver; c32, sliding rails; c33, a sliding plate; D. a positioning mechanism; E. a character rolling mechanism; F. a pipe fitting; G. a support table; H. and (3) mounting a plate.

[ detailed description ] of the invention

The technical solutions of the embodiments of the present invention will be explained and illustrated below with reference to the drawings of the embodiments of the present invention, but the following embodiments are only preferred embodiments of the present invention, and not all embodiments. Based on the examples in the implementation manner, other examples obtained by a person skilled in the art without making creative efforts fall within the protection scope of the present invention.

In the following description, the terms such as "inner", "outer", "upper", "lower", "left", "right", etc. are used to indicate an orientation or a positional relationship based on that shown in the drawings, and are merely for convenience of description of the embodiments and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Examples

See fig. 1-5.

The embodiment provides a character rolling machine which comprises a feeding mechanism A, a material waiting mechanism B, a driving mechanism C, a positioning mechanism D and a character rolling mechanism E.

The feeding mechanism A sends the pipe fitting F to the waiting mechanism B, the pipe fitting F in the waiting mechanism B is driven to the character rolling mechanism E by the driving mechanism C, then the position of the pipe fitting F is fixed by the matching positioning mechanism D, and the character rolling mechanism E rolls the pipe fitting F.

Specifically, feeding mechanism A includes vibrations dish table A3, vibrations dish A1, and the pipe fitting blown down tank A2 that links to each other with vibrations dish A1 discharge gate in this embodiment. The vibration disk A1 is arranged on the vibration disk table A3, the height of the vibration disk A1 is adjusted through the vibration disk tables A3 with different heights, and then the height of the pipe fitting discharging groove A2 is adjusted. The shape of the wall of the pipe discharge chute A2 is set according to the shape of the required conveying pipe F. For example, in the present embodiment, the pipe F is L-shaped, so the groove wall of the pipe discharging groove A2 is also L-shaped, so as to perform stable transportation of the pipe F in all the pipe discharging grooves A2 along a specific angle.

The waiting mechanism B comprises a pipe fitting accommodating groove B1 for accommodating and positioning the pipe fitting F. The pipe fitting accommodating groove B1 is communicated with a pipe fitting feeding groove B15. The pipe fitting discharging groove A2 is communicated to one end of the pipe fitting feeding groove B15, and the other end of the pipe fitting feeding groove B15 is communicated to the pipe fitting accommodating groove B1.

The pipe fitting discharging groove A2 and the pipe fitting feeding groove B15 are arranged along a straight line, the groove wall shape of the pipe fitting feeding groove B15 is consistent with that of the pipe fitting discharging groove A2, and the angle relation between the pipe fitting feeding groove B15 and the pipe fitting discharging groove A2 is adjusted, so that the pipe fitting F can smoothly move from the pipe fitting discharging groove A2 to the pipe fitting feeding groove B15 and then move to the pipe fitting accommodating groove B1.

In order to make the pipe feeding groove B15 feed the pipe accommodating groove B1 more smoothly, the pipe feeding groove B15 in this embodiment is fixed with a linear vibrator B16. In this embodiment, the waiting mechanism B, the driving mechanism C, the positioning mechanism D and the character rolling mechanism E are all installed on a mounting board H, the mounting board H is located above a supporting table G, and the linear vibrator B16 is located between the supporting table G and the pipe feeding groove B15. The one side that the linear vibrator B16 is close to the desktop of supporting table G is fixed with vibrator backup pad B17, is fixed with vibrator support column B18 on the desktop of supporting table G, and the axial of vibrator support column B18 sets up along the vibration direction of linear vibrator B16, drives vibrator backup pad B17 vibration when linear vibrator B16 vibrates simultaneously to make the linear vibrator B16 excessively vibrate the vibrator support column B18 play spacing effect to vibrator backup pad B17. The vibrator support post B18 is located directly below the vibrator support plate B17 in this embodiment.

A base B2 is arranged below the pipe fitting accommodating groove B1, an accommodating groove sliding groove B3 is formed in the top of the base B2, and the accommodating groove sliding groove B3 is perpendicular to the pipe fitting feeding groove B15. The containing groove sliding groove B3 is internally and slidably connected with a containing groove sliding block B4, the pipe fitting containing groove B1 is positioned on the containing groove sliding block B4, and the containing groove sliding block B4 is connected with a third linear driver B19 for driving the containing groove sliding block B4 to slide in the containing groove sliding groove B3. The third linear driver B19 drives the accommodating groove sliding block B4 to slide in the accommodating groove sliding groove B3, and the pipe fitting F in the pipe fitting accommodating groove B1 is separated from the pipe fitting F in the pipe fitting feeding groove B15 to be mutually influenced. The third linear driver B19 may be an air cylinder or an electric push rod, and in this embodiment, the third linear driver B19 is an air cylinder.

The top of base B2 is fixed and is provided with holding tank baffle B5 and is used for carrying out spacing holding tank baffle B6 No. two to pipe fitting F, and holding tank baffle B5 and No. two holding tank baffle B6 are all on a parallel with holding tank spout B3, and pipe fitting holding tank B1 and holding tank slider B4 all are located between holding tank baffle B5 and No. two holding tank baffle B6.

An opening matched with the groove wall shape of the pipe fitting feeding groove B15 is formed in the first containing groove baffle B5, so that the pipe fitting feeding groove B15 penetrates through the first containing groove baffle B5, and the pipe fitting F positioned in the pipe fitting feeding groove B15 firstly passes through the first containing groove baffle B5 and then enters the pipe fitting containing groove B1. The second accommodating groove baffle B6 prevents the pipe F in the pipe accommodating groove B1 from shifting along the axial direction of the pipe feeding groove B15. And the pipe fitting F in the first accommodating groove baffle B5 is limited by the forward and backward extrusion of the pipe fitting F in the pipe fitting feeding groove B15 and the pipe fitting F in the pipe fitting accommodating groove B1 in the axial direction of the pipe fitting feeding groove B15, and the pipe fitting F in the first accommodating groove baffle B5 is limited by the first accommodating groove baffle B5 in the axial direction of the accommodating groove chute B3, so that the pipe fitting F in the pipe fitting feeding groove B15 can be continuously and accurately fed into the pipe fitting accommodating groove B1.

Through holding groove baffle B5 and No. two holding groove baffles B6, further realize the location of pipe fitting F in pipe fitting holding groove B1, and then guarantee the stability and the accuracy that actuating mechanism C is connected with pipe fitting F in the pipe fitting holding groove B1.

The pipe fitting accommodation groove B1 is located the top of accommodation groove slider B4, and the top of accommodation groove slider B4 is provided with the locating piece that is used for carrying out the location to pipe fitting F, and the locating piece sets up between accommodation groove baffle B5 and No. two accommodation groove baffles B6.

Since the pipe member F in this embodiment is an L-shaped pipe. Preferably, the two positioning blocks are a first positioning block B8 and a second positioning block B9 respectively, the first positioning block B8 and the second positioning block B9 are both arranged between a first accommodating groove baffle B5 and a second accommodating groove baffle B6, and the pipe fitting accommodating groove B1 is arranged between the first positioning block B8 and the second positioning block B9. At this time, a tube sliding groove B7 for sliding the tube F is provided at the rear of the tube accommodating groove B1 along the feeding direction, and the tube sliding groove B7 is perpendicular to the accommodating groove chute B3.

After the pipe fitting F is positioned in the pipe fitting accommodating groove B1, the second positioning block B9 is clamped at the corner of the pipe fitting F, the first positioning block B8 is abutted against the pipe wall of the pipe fitting F, so that the pipe fitting F cannot move along the axial direction of the pipe fitting feeding groove B15 in the pipe fitting accommodating groove B1, and the second positioning block B9 cannot influence the connection of the driving mechanism C and the pipe fitting F. Only when the pipe fitting accommodating groove B1 is communicated to the pipe fitting sliding groove B7 under the drive of the third linear driver B19, the pipe fitting F can be moved to the pipe fitting sliding groove B7 under the action of the driving mechanism C.

According to the embodiment, the pipe fitting sliding groove B7 and the pipe fitting accommodating groove B1 are used for separating the pipe fitting F which is being subjected to the character rolling by the character rolling mechanism E from the pipe fitting F to be subjected to the character rolling, so that working states of the pipe fitting F and the pipe fitting F are not affected, and the rejection rate is reduced.

The accommodating groove sliding block B4 comprises an accommodating groove upper sliding block B10 and an accommodating groove lower sliding block B11, the accommodating groove lower sliding block B11 is slidably connected in the accommodating groove sliding groove B3, the accommodating groove upper sliding block B10 is arranged at the top of the accommodating groove lower sliding block B11, the first positioning block B8 and the second positioning block B9 are arranged at the top of the accommodating groove upper sliding block B10, the accommodating groove lower sliding block B11, the first positioning block B8 and the second positioning block B9 are integrally formed, and the accommodating groove upper sliding block B10 is arranged between the first accommodating groove baffle B5 and the second accommodating groove baffle B6.

Preferably, in this embodiment, the second positioning block B9 is provided with a lower lifting member B12, and the first positioning block B8, the second positioning block B9, the lower lifting member B12 and the pipe fitting sliding groove B7 are sequentially arranged along the axial direction of the accommodating groove sliding groove B3, and a first reset member is provided between the lower lifting member B12 and the bottom of the accommodating groove upper sliding block B10.

Specifically, an opening is formed in the lower slider B11 of the accommodating groove, the lower lifting member B12 can move in the opening along a direction perpendicular to the table top of the supporting table G, the opening penetrates through the bottom of the upper slider B10 of the accommodating groove, a part of the lower lifting member B12 located in the opening is located under the upper slider B10 of the accommodating groove, and a first reset member is disposed between the part of the lower lifting member B12 and the upper slider B10 of the accommodating groove.

The driving mechanism C comprises a pipe taking joint C1 for connecting the pipe fitting F, the part of the pipe taking joint C1, which is close to the pipe fitting accommodating groove B1, is arc-shaped, the height of the lower lifting part B12 in the natural state is not too high, and the lower lifting part B12 is extruded in the process that the pipe taking joint C1 is gradually close to the pipe fitting accommodating groove B1. The lower buoyancy member B12 in a natural state can assist in limiting the pipe F in the pipe accommodating groove B1. The compressed lower buoyancy element B12 can help the pipe joint C1 to be tightened in the mouth of the pipe member F.

Approximately, a top plate B13 is arranged at the top of the pipe fitting accommodating groove B1, an ascending floating piece B14 is inserted on the top plate B13, the ascending floating piece B14 can move along the direction vertical to the tabletop of the supporting table G relative to the top plate B13, the lower part of the ascending floating piece B14 is positioned in the pipe fitting accommodating groove B1, and a second reset piece is arranged between the ascending floating piece B14 and the top plate B13. In the process of moving the pipe fitting F in the first accommodating groove baffle B5 to the empty pipe fitting accommodating groove B1, the lower part of the rising member B14 is gradually extruded due to a certain radian of the pipe fitting F, so that the rising member B14 moves in a direction away from the pipe fitting accommodating groove B1, and the rising member B14 positions the pipe fitting F in the pipe fitting accommodating groove B1 along a direction perpendicular to the top plate B13 under the action of the second resetting member.

Preferably, the first reset piece and the second reset piece can be springs.

The driving mechanism C further includes a first translation mechanism C2 and a second translation mechanism C3. The pipe taking joint C1 is arranged on the first translation mechanism C2, and the pipe taking joint C1 is driven by the first translation mechanism C2 to move into the pipe fitting accommodating groove B1 and is sleeved into the pipe fitting F. The first translation mechanism C2 is arranged on the second translation mechanism C3, after the pipe fitting C1 is sleeved on the pipe fitting F in the pipe fitting accommodating groove B1, the first translation mechanism C2 is matched with the third linear driver B19 to enable the pipe fitting accommodating groove B1 to be communicated with the pipe fitting sliding groove B7, and then the pipe fitting C1 and the pipe fitting F are moved into the pipe fitting sliding groove B7 from the pipe fitting accommodating groove B1 under the action of the second translation mechanism C3.

Specifically, the translation mechanism C2 includes a linear driver C21, a push plate C22, and a joint connection shaft.

The first linear driver C21 is fixedly connected with the push plate C22, and the joint connecting shaft is perpendicular to the push plate C22. The push plate C22 is pushed to perform linear motion by the first linear driver C21, so that the joint connecting shaft moves along the driving direction of the first linear driver C21. In order to make the joint connecting shaft go through to the pipe fitting accommodating groove B1 to sleeve the pipe fitting F, the installation direction of the first linear driver C21, that is, the driving direction should be parallel to the accommodating groove chute B3, the joint connecting shaft is parallel to the installation direction of the first linear driver C21, and the pipe joint C1 is located at one end of the joint connecting shaft far away from the push plate C22, that is, the pipe joint C1 is located at one end of the joint connecting shaft near the pipe fitting accommodating groove B1. The first linear driver C21, the push plate C22, the joint connecting shaft and the pipe taking joint C1 are sequentially arranged along the axial direction of the containing groove chute B3,

the first linear driver C21 may be an air cylinder or an electric push rod, and in this embodiment, the first linear driver C21 is an air cylinder.

The second translation mechanism C3 includes a second linear driver C31, a slide rail C32, and a slide plate C33 slidably connected to the slide rail C32. The second linear driver C31 is connected to the slide plate C33, and the slide plate C33 is driven by the second linear driver C31 to perform linear motion on the slide rail C32.

Similarly, the second linear driver C31 may be an air cylinder or an electric push rod, and in this embodiment, the second linear driver C31 is an air cylinder.

In this embodiment, the first linear driver C21 and the push plate C22 are fixed to the slide plate C33, so that the first translation mechanism C2 is mounted to the second translation mechanism C3. Meanwhile, the second linear driver C31 is perpendicular to the first linear driver C21, so that the driving direction of the second linear driver C31 is perpendicular to the driving direction of the first linear driver C21.

The axial direction of the pipe fitting sliding groove B7 in this embodiment is arranged parallel to the slide rail C32. After the pipe joint C1 is sleeved into the pipe fitting F in the pipe fitting accommodating groove B1, the first linear driver C21 resets until the pipe fitting accommodating groove B1 is communicated with the pipe fitting sliding groove B7, then the pipe fitting F enters the pipe fitting sliding groove B7 and is always positioned by the pipe fitting sliding groove B7 in the moving process of the pipe joint C1 along the sliding rail C32 under the driving of the second linear driver C31, and the pipe fitting F is ensured not to rotate unnecessarily relative to the pipe fitting C1 in the moving process along the sliding rail C32. The groove wall shape of the pipe fitting sliding groove B7 is the same as the groove wall shape of the pipe fitting accommodating groove B1, so that after the pipe fitting sliding groove B7 penetrates through the pipe fitting accommodating groove B1, the pipe fitting F can smoothly move from the pipe fitting accommodating groove B1 to the pipe fitting sliding groove B7 without being blocked.

While the invention has been described in terms of embodiments, it will be appreciated by those skilled in the art that the invention is not limited thereto but rather includes the drawings and the description of the embodiments above. Any modifications which do not depart from the functional and structural principles of the present invention are intended to be included within the scope of the appended claims.

Claims (2)

1. The utility model provides a wait material mechanism of word machine which characterized in that: the pipe fitting sliding device comprises a pipe fitting accommodating groove used for accommodating and positioning a pipe fitting, a base is arranged below the pipe fitting accommodating groove, an accommodating groove sliding groove is formed in the top of the base, an accommodating groove sliding groove is formed in the accommodating groove sliding groove in a sliding mode, the pipe fitting accommodating groove is located on the accommodating groove sliding groove, a linear driver is connected with the accommodating groove sliding groove, the linear driver drives the accommodating groove sliding groove to slide in the accommodating groove sliding groove, a first accommodating groove baffle and a second accommodating groove baffle used for limiting a pipe fitting are fixedly arranged at the top of the base, the first accommodating groove baffle and the second accommodating groove baffle are parallel to the accommodating groove sliding groove, the pipe fitting accommodating groove and the accommodating groove sliding groove are both located between the first accommodating groove baffle and the second accommodating groove baffle, a pipe fitting sliding groove used for enabling the pipe fitting to slide is formed in the rear of the pipe fitting accommodating groove along the feeding direction, the linear driver moves the accommodating groove sliding groove until the pipe fitting accommodating groove is communicated with the pipe fitting accommodating groove, and then the pipe fitting in the pipe fitting sliding groove moves to the pipe fitting sliding groove; the pipe fitting accommodating groove is positioned at the top of the accommodating groove sliding block, and a positioning block for positioning the pipe fitting is arranged at the top of the accommodating groove sliding block; the two positioning blocks are a first positioning block and a second positioning block respectively, the first positioning block and the second positioning block are arranged between a first accommodating groove baffle and a second accommodating groove baffle, and the pipe fitting accommodating groove is arranged between the first positioning block and the second positioning block; the accommodating groove sliding block comprises an accommodating groove upper sliding block and an accommodating groove lower sliding block, the accommodating groove lower sliding block is slidingly connected in an accommodating groove sliding groove, the accommodating groove upper sliding block is arranged at the top of the accommodating groove lower sliding block, a first positioning block and a second positioning block are arranged at the top of the accommodating groove upper sliding block, the first positioning block and the second positioning block are integrally formed, the accommodating groove upper sliding block is positioned between a first accommodating groove baffle and a second accommodating groove baffle, a lower floating piece is arranged on the second positioning block, the first positioning block, the second positioning block, the lower floating piece and the pipe fitting sliding groove are sequentially arranged along the axial direction of the accommodating groove sliding groove, and a first resetting piece is arranged between the lower floating piece and the accommodating groove upper sliding block; a top plate is arranged at the top of the pipe fitting accommodating groove, an ascending buoyancy member is inserted on the top plate, the lower part of the ascending buoyancy member is positioned in the pipe fitting accommodating groove, and a second reset member is arranged between the ascending buoyancy member and the top plate; the pipe fitting accommodating groove is communicated with a pipe fitting feeding groove; the pipe fitting feeding groove penetrates through the first accommodating groove baffle; a linear vibrator is fixed on the pipe fitting feeding groove; the linear driver is an air cylinder or an electric push rod.

2. A roll word machine, characterized in that: a stock-handling mechanism comprising the character rolling machine of claim 1.