CN111516921A

CN111516921A - Guiding mechanism is sealed with shaping to packagine machine

Info

Publication number: CN111516921A
Application number: CN202010311973.2A
Authority: CN
Inventors: 束义; 殷祥根
Original assignee: Jiangsu Joyea Corp
Current assignee: Jiangsu Joyea Corp
Priority date: 2020-04-20
Filing date: 2020-04-20
Publication date: 2020-08-11
Anticipated expiration: 2040-04-20
Also published as: CN111516921B

Abstract

The invention discloses a formed seal guide mechanism for a packaging machine, which comprises a left collar, a right collar and a plurality of shifting sheets, wherein the left collar and the right collar are arranged in a side-by-side butt joint or integrated forming mode, guide heads are formed at the front end parts of the left collar and the right collar, forming grooves are formed in the upper surfaces of the forming part bodies of the left collar and the right collar along the forming direction, and the plurality of shifting sheets are arranged at the positions, adjacent to the forming part bodies, of the front end parts of the left collar and the right collar and used for adjusting the left and right positions of a feeding roll film. The front end part of the forming sealing guide mechanism and the front and back of the forming part body are integrally arranged, so that the size of the whole height direction of forming and longitudinal sealing guide can be reduced, the reduction of the whole height of equipment is facilitated, the length of a flow channel and the blanking distance are reduced, and the running speed of a packing machine is increased; the split butt joint mode is convenient for cleaning a forming groove, namely a flow channel; the arrangement of the shifting sheet is convenient for adjusting the feeding position of the rolled film; the whole mechanism is simplified, and is convenient to disassemble, assemble and position and adjust.

Description

Guiding mechanism is sealed with shaping to packagine machine

Technical Field

The invention belongs to the field of packaging equipment, and particularly relates to a forming seal guide mechanism for a packaging machine.

Background

The forming principle of the prior strip-pack multi-row filling packaging machine bag is that a whole-width film rolling material is cut into a plurality of constant-width packaging materials by a cutting mechanism, the packaging materials are firstly formed into a cylindrical shape by a film rolling forming mechanism, and then the longitudinal sealing is sewn by a longitudinal sealing mechanism; referring to a split structure of a guide head and a forming longitudinal seal of a product of the first generation in fig. 1, the guide head 1 and the forming longitudinal seal part 2 are independent and split structures, forming grooves are formed in the guide head 1 and the forming longitudinal seal part along the processing direction, and a forming pipe 3 is arranged in the forming grooves; the guiding and forming are also completed in two steps in the process. For large-batch packaging work, one process step can cause cost increase, the time, the yield and other aspects are affected, and on the contrary, under the condition of ensuring the quality of finished products, the time cost is greatly reduced by reducing one part or one procedure. And the molding groove of the first generation product, namely the length of the runner is longer due to the split structure, and the runner at the guide head 1 and the molding longitudinal sealing part 2 is segmented, so that the molding quality is easy to reduce. Therefore, a mechanism for reducing cost and improving quality is needed for large-scale processing of bag formation.

Disclosure of Invention

In order to overcome the disadvantages of the prior art, the present invention provides a forming seal guiding mechanism for a packaging machine, which can solve the above-mentioned problems.

The purpose of the invention is realized by adopting the following technical scheme:

the utility model provides a packagine machine seals guiding mechanism with shaping, the mechanism includes left collar, right collar and a plurality of plectrum, left side collar and right collar butt joint side by side connect the setting or integrated into one piece sets up to form the direction head at both front end portions, set up the shaping groove at both shaping portion body upper surfaces along the shaping direction, it is a plurality of the plectrum setting is in the front end portion of left collar and right collar and adjacent department of shaping portion body department and is used for adjusting the position about the feeding roll membrane.

Preferably, the whole guide head is of a bent arc type and comprises a front inclined plane, an upper multi-section arc surface, a guide end bottom plane, a lower arc surface, guide side planes positioned on two sides of the guide head and a front plectrum installation part arranged on the upper multi-section arc surface and close to the forming part body, the forming groove penetrates through the front end part and the forming part body, front groove flaring formed on the upper multi-section arc surface of the guide head is processed at the joint of the front groove flaring and the upper multi-section arc surface to form a fillet, and the front end of the front groove flaring is abutted to the upper edge of the front inclined plane.

Preferably, the front plectrum mounting part comprises a first front plectrum mounting part and a second front plectrum mounting part which are symmetrically arranged, and threaded holes for mounting the plectrum are arranged on the bottom surfaces of the first front plectrum mounting part and the second front plectrum mounting part.

Preferably, a side surface connecting hole is formed in the guide side plane and is used for butt joint connection of a left collar and a right collar which are arranged in a butt joint mode side by side.

Preferably, the forming part body comprises a first upper plane, a first side plane, a first upper inclined plane, a first rear end surface and a first bottom surface which are positioned on the left collar, fixing holes are vertically formed through the first upper plane and the first bottom surface, the first upper inclined plane is arranged between the first upper plane and the forming groove, the first upper inclined plane is downwards inclined from the adjacent position of the first upper plane to the adjacent position of the forming groove, and the adjacent position of the first upper inclined plane and the forming groove is subjected to fillet treatment; the forming part body comprises a second upper plane, a second side plane, a second rear end surface and a second bottom surface which are positioned on the right collar, and fixing holes are vertically formed through the second upper plane and the second bottom surface; the forming groove penetrates through the front end part and the forming part body, a forming long notch is formed in the middle of the forming part body along the forming direction, the edge of a first side notch of the forming long notch is adjacent to the inner edge of the first upper inclined plane, and the edge of a second side notch of the forming long notch is adjacent to the inner edge of the second upper plane.

Preferably, the first upper plane is higher than the forming long notch, and the first upper inclined plane forms an inclination angle α relative to the first upper plane; the second upper plane is flush and adjacent to the forming long notch, sinks relative to the adjacent position of the guide head and the forming part body, and is provided with a rear shifting piece mounting hole; first bottom surface and second bottom surface parallel and level set up, and the homogeneous phase is relative the lower cambered surface of direction head adjoins the department and sinks the setting, thereby the department that adjoins of shaping portion body and front end portion forms horizontal installation backstop face it sets up vertical backstop strip along the shaping direction to be close to outer edge department on the first bottom surface.

Preferably, the front end of the longitudinal stop bar and the transverse installation stop surface are spaced to form a positioning installation gap.

Preferably, the plurality of shifting pieces comprise a front guide shifting piece and a rear stop shifting piece, each shifting piece comprises a shifting piece inclined plate and a shifting piece bottom plate, and a positioning waist-shaped hole is formed in each shifting piece bottom plate; the plectrum swash plate with the plectrum bottom plate skew sets up, and two preceding plectrums symmetry sets up, and the plectrum swash plate of preceding plectrum is preceding plectrum contained angle beta with the contained angle of plectrum bottom plate, and preceding plectrum contained angle beta makes the plectrum swash plate draw in the past backward, and the plectrum swash plate of back backstop plectrum is back plectrum contained angle gamma with the contained angle of plectrum bottom plate, and back plectrum contained angle gamma makes the plectrum swash plate of back backstop plectrum draw in the past backward, back plectrum contained angle gamma is the obtuse angle, and back plectrum contained angle gamma and first upper inclined plane and the first inclination alpha that goes up the plane of back backstop plectrum rearmost.

Compared with the prior art, the invention has the beneficial effects that: the front end part of the forming sealing guide mechanism and the front and back of the forming part body are integrally arranged, so that the size of the whole height direction of forming and longitudinal sealing guide can be reduced, the reduction of the whole height of equipment is facilitated, the length of a flow channel and the blanking distance are reduced, and the running speed of a packing machine is increased; the split butt joint mode is convenient for cleaning a forming groove, namely a flow channel; the arrangement of the shifting sheet is convenient for adjusting the feeding position of the rolled film; the whole mechanism is simplified, and is convenient to disassemble, assemble and position and adjust.

Drawings

FIG. 1 is a schematic view of a split structure of a conventional guide head and a forming longitudinal seal;

FIG. 2 is a schematic structural view of a forming seal guiding mechanism for a packaging machine according to the present invention;

FIG. 3 is a schematic view of another perspective of the form closure guide mechanism;

FIG. 4 is a schematic view of the mounting of the pick on the form closure guide mechanism in one embodiment;

FIG. 5 is a schematic structural view showing an embodiment in which a left collar and a right collar are separately and butt-jointed;

FIG. 6 is a schematic structural view of a front guide paddle;

FIG. 7 is a schematic structural view of a rear stop paddle;

FIG. 8 is a rear view of the formed seal guide mechanism;

fig. 9 is a schematic view of multiple sets of forming seal guiding mechanisms arranged side by side.

In the figure:

100. a left collar; 101. a first upper plane; 102. a first lateral plane; 103. a first upper inclined plane; 104. a first rear end face; 105. a first bottom surface; 1201. transversely installing a stop surface; 1202. a longitudinal stop bar; 1203. positioning the mounting gap;

200. a right collar; 201. a second upper plane; 202. a second side plane; 203. a second rear end face; 204. a second bottom surface; 205. a plectrum mounting hole;

300. a shifting sheet; 301. a shifting piece inclined plate; 302. a plectrum bottom plate; 303. positioning the waist-shaped hole;

400. a guide head; 401. a guiding inclined plane; 402. an upper multi-section arc surface; 403. a leading end bottom plane; 404. a lower arc surface; 405. a guide side plane; 406. a first front paddle mounting section; 407. a second front paddle mounting section; 408. connecting holes;

500. forming a groove; 501. flaring the front groove; 502. forming a long notch;

600. and (5) mounting a bottom plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Referring to fig. 2-8, a formed seal guide mechanism for a packaging machine comprises a left collar 100, a right collar 200 and a plurality of plectrums 300, wherein the left collar 100 and the right collar 200 are arranged in a side-by-side butt joint or integrated forming mode, a guide head 400 is formed at the front end parts of the left collar 100 and the right collar 200, forming grooves 500 are formed in the upper surfaces of the forming part bodies of the left collar 100 and the right collar 200 along the forming direction, and the plectrums 300 are arranged at the front end parts of the left collar 100 and the right collar 200 adjacent to the forming part bodies in an adjustable and replaceable mode and are used for adjusting the left and right positions of a feeding roll film.

Guide head

The guide head 400 is integrally curved and comprises a front inclined plane 401, an upper multi-section arc surface 402, a guide end bottom plane 403, a lower arc surface 404, guide side planes 405 positioned on two sides of the guide head, and front plectrum installation parts (406 and 407) arranged on the upper multi-section arc surface 402 and close to the forming part body, wherein the forming groove 500 penetrates through the front end part and the forming part body to form a front groove flaring 501 on the upper multi-section arc surface 402 of the guide head 400, the adjacent part of the front groove flaring 501 and the upper multi-section arc surface 402 is subjected to fillet treatment, and the front end of the front groove flaring 501 is adjacent to the upper edge of the front inclined plane 401.

In one embodiment, the front inclined plane 401 of the guiding head 400 is, but not limited to, a regular triangle, and may also be a peach-tip shape, etc.

Further, the upper arc surface 402 is composed of multiple arc surfaces beneficial to film rolling and feeding, and the transition is from the middle to the front and to the arc surfaces on both sides.

The front plectrum mounting parts (406 and 407) comprise a first front plectrum mounting part 406 and a second front plectrum mounting part 407 which are symmetrically arranged, and threaded holes for mounting plectrum are arranged on the bottom surfaces of the first front plectrum mounting part 406 and the second front plectrum mounting part 407.

When the left collar 100 and the right collar 200 are disposed in a side-by-side abutting relationship, they may be connected in a transverse direction or not, since they are screwed to the machine body through the fixing holes in the vertical direction. When butt joint fixing is needed, a side connecting hole 408 is formed in the guide side plane 405. The connecting hole 408 includes a countersunk threaded hole formed in the guide side plane 405 of the left collar 100 or the right collar 200 to facilitate the connection of the hexagon socket head cap screw, and to hide the head of the hexagon socket head cap screw in the countersunk hole.

Formed part body

The forming part body comprises a first upper plane 101, a first side plane 102, a first upper inclined plane 103, a first rear end surface 104 and a first bottom surface 105 which are positioned on the left collar 100, fixing holes (one fixing hole can be respectively arranged in the front and at the back) are vertically arranged through the first upper plane 101 and the first bottom surface 105, the first upper inclined plane 103 is arranged between the first upper plane 101 and the forming groove 500, the first upper inclined plane 103 is downwards inclined from the adjacent position of the first upper plane 101 to the adjacent position of the forming groove 500, and the adjacent position of the first upper inclined plane 103 and the forming groove 500 is subjected to fillet treatment.

The forming part body also comprises a second upper plane 201, a second side plane 202, a second rear end face 203 and a second bottom face 204 which are positioned on the right collar 200, and fixing holes (one can be respectively arranged in the front and the back) vertically penetrating through the second upper plane 201 and the second bottom face 204; the forming groove 500 penetrates through the front end part and the forming part body to form a forming long notch 502 in the middle of the forming part body along the forming direction, a first side notch edge of the forming long notch 502 is adjacent to the inner edge of the first upper inclined plane 103, and a second side notch edge of the forming long notch 502 is adjacent to the inner edge of the second upper plane 201.

Further, the first upper plane 101 is higher than the forming long notch 502, and the first upper inclined plane 103 forms an inclination angle α with respect to the first upper plane 101; the second upper plane 201 is flush and adjacent to the forming long notch 502, the second upper plane 201 is sunken relative to the adjacent position of the guide head 400 and the forming part body, and a rear plectrum mounting hole 205 is formed in the second upper plane 201; the first bottom surface 105 and the second bottom surface 204 are arranged flush.

Mounting limit

The first bottom surface 105 and the second bottom surface 204 which are arranged in a flush manner are arranged in a sunken manner relative to the abutment of the lower arc surface 404 of the guide head 400, so that a transverse installation stop surface 1201 is formed at the abutment of the forming part body and the front end, and a longitudinal stop strip 1202 is arranged on the first bottom surface 105 in the forming direction adjacent to the outer edge.

Further, a front end of the longitudinal stop bar 1202 is spaced apart from the lateral installation stop surface 1201 by a positioning installation gap 1203.

Group of poking pieces

The plectrum group comprises a plurality of plectrums 300, in particular to a front guide plectrum (see figure 6) and a rear stop plectrum (see figure 7), and the plectrums 300 are arranged on the front end part and the forming part body and used for left and right position adjustment during film rolling and feeding.

Specifically, each of the plurality of plectrums 300 comprises a plectrum inclined plate 301 and a plectrum base plate 302, and the plectrum base plate 302 is provided with a positioning waist-shaped hole 303; plectrum swash plate 301 with plectrum bottom plate 302 skew sets up, and two preceding plectrums symmetry sets up, and the plectrum swash plate 301 of preceding plectrum is preceding plectrum contained angle beta with the contained angle of plectrum bottom plate 302, and preceding plectrum contained angle beta makes plectrum swash plate 301 draw in the past backward, and the plectrum swash plate 301 of back backstop plectrum is back plectrum contained angle gamma with the contained angle of plectrum bottom plate 302, and back plectrum contained angle gamma makes the plectrum swash plate 301 of back backstop plectrum draw in the past backward, back plectrum contained angle gamma is the obtuse angle, and back plectrum contained angle gamma and the inclination alpha of first inclined plane 103 and first upper flat plane 101 of back backstop plectrum rearmost end equal (refer to figure 8).

Forming groove

The forming groove 500 is used in cooperation with the forming tube, as described above, the forming groove penetrates through the front end portion and the forming portion body to form a cross section corresponding to the tube shape of the forming tube, and the forming groove 500 is arranged in a gap with the forming tube, and the gap is matched with the rolled film forming.

Relative to the front end portion, the forming groove 500 forms a front groove flaring 501 on the upper surface of the guide head 400, and in one embodiment, the vertical projection of the front groove flaring 501 is in a teardrop shape; the forming groove 500 forms a forming long notch 502 longitudinally along the forming direction of the middle portion of the forming part body, and in one embodiment, the vertical projection of the forming long notch 502 is a long strip.

Further, the width W1 of the shaped slot 502 of the shaped groove 500 is less than the width W2 between the rearmost end of the rear stop tab and the first upper ramp 103.

In one embodiment, the forming groove 500 is notched circular in cross-section to match a round tube shaped forming tube.

Further, the adjacent position of the forming long notch 502 and the first upper inclined plane 103 is rounded; the adjacent part of the forming long notch 502 and the inner edge of the second upper plane 201 is a vertical plane, and is not subjected to fillet treatment.

In practical use, often a plurality of sets of forming sealing guide mechanisms are arranged side by side to improve the processing efficiency, referring to fig. 9, a schematic diagram of the plurality of sets of forming sealing guide mechanisms arranged side by side is adopted to fix the plurality of sets of forming sealing guide mechanisms on the installation bottom plate 600 side by side, in the illustrated embodiment, 18 sets of forming sealing guide mechanisms are arranged side by side, and forming of 18 packaging bags can be completed simultaneously.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides a guiding mechanism is sealed with shaping to packagine machine which characterized in that: the mechanism comprises a left collar (100), a right collar (200) and a plurality of plectrums (300), wherein the left collar (100) and the right collar (200) are arranged in a side-by-side butt joint mode or in an integrated forming mode, guide heads (400) are formed at the front end portions of the left collar and the right collar, forming grooves (500) are formed in the upper surfaces of the forming portion bodies along the forming direction, and the plectrums (300) are arranged at the front end portions of the left collar (100) and the right collar (200) and adjacent to the forming portion bodies to be used for adjusting the left position and the right position of a feeding roll film.

2. The mechanism of claim 1, wherein: the whole guide head (400) is of a bent arc type and comprises a front guide inclined plane (401), an upper multi-section arc surface (402), a guide end bottom plane (403), a lower arc surface (404), guide side planes (405) positioned on two sides of the guide head, and front plectrum installation parts (406 and 407) which are arranged on the upper multi-section arc surface (402) and close to a forming part body, wherein the forming groove (500) penetrates through the front end part and the forming part body to form a front groove flaring (501) on the upper multi-section arc surface (402) of the guide head (400), the front groove flaring (501) is in fillet treatment with the adjacent part of the upper multi-section arc surface (402), and the front end of the front groove flaring (501) is arranged adjacent to the upper edge of the front guide inclined plane (401).

3. The mechanism of claim 2, wherein: the front guiding inclined plane (401) of the guiding head (400) is in a regular triangle shape.

4. The mechanism of claim 2, wherein: the front plectrum installation parts (406 and 407) comprise a first front plectrum installation part (406) and a second front plectrum installation part (407) which are symmetrically arranged, and threaded holes for plectrum installation are arranged on the bottom surfaces of the first front plectrum installation part (406) and the second front plectrum installation part (407).

5. The mechanism of claim 2, wherein: and a side surface connecting hole (408) is formed in the guide side plane (405) and is used for the butt joint connection of a left collar (100) and a right collar (200) which are arranged in a butt joint mode side by side.

6. The mechanism of claim 2, wherein: the forming part body comprises a first upper plane (101), a first side plane (102), a first upper inclined plane (103), a first rear end surface (104) and a first bottom surface (105) which are positioned on a left collar (100), fixing holes are vertically formed through the first upper plane (101) and the first bottom surface (105), the first upper inclined plane (103) is arranged between the first upper plane (101) and the forming groove (500), the first upper inclined plane (103) is downwards inclined from the adjacent position of the first upper plane (101) to the adjacent position of the forming groove (500), and fillet processing is performed on the adjacent position of the first upper inclined plane (103) and the forming groove (500); the forming part body comprises a second upper plane (201), a second side plane (202), a second rear end face (203) and a second bottom face (204) which are positioned on the right collar (200), and fixing holes are vertically formed through the second upper plane (201) and the second bottom face (204); the forming groove (500) penetrates through the front end part and the forming part body to form a forming long notch (502) in the middle of the forming part body along the forming direction, the edge of a first side notch of the forming long notch (502) is adjacent to the inner edge of the first upper inclined plane (103), and the edge of a second side notch of the forming long notch (502) is adjacent to the inner edge of the second upper plane (201).

7. The mechanism of claim 6, wherein: the first upper plane (101) is higher than the forming long notch (502), and the first upper inclined plane (103) forms an inclination angle alpha relative to the first upper plane (101); the second upper plane (201) is flush and adjacent to the forming long notch (502), the second upper plane (201) is sunken relative to the adjacent position of the guide head (400) and the forming part body, and a rear plectrum mounting hole (205) is formed in the second upper plane (201); the first bottom surface (105) and the second bottom surface (204) are arranged in a flush mode and are arranged in a sinking mode relative to the abutting position of the lower arc surface (404) of the guide head (400), so that a transverse installation stop surface (1201) is formed at the abutting position of the forming part body and the front end portion, and a longitudinal stop strip (1202) is arranged on the first bottom surface (105) close to the outer edge along the forming direction.

8. The mechanism of claim 7, wherein: the interval between the front end of the longitudinal stop bar (1202) and the transverse installation stop surface (1201) is set as a positioning installation gap (1203).

9. The mechanism of claim 6, wherein: the plurality of the plectrums (300) comprise front guide plectrums and rear stop plectrums, each plectrum (300) comprises a plectrum inclined plate (301) and a plectrum base plate (302), and the plectrum base plate (302) is provided with a positioning waist-shaped hole (303); plectrum swash plate (301) with plectrum bottom plate (302) skew sets up, and two preceding plectrums symmetry set up, and the contained angle of plectrum swash plate (301) of preceding plectrum and plectrum bottom plate (302) is preceding plectrum contained angle beta, and preceding plectrum contained angle beta makes plectrum swash plate (301) draw in the past backward, and the plectrum swash plate (301) of back backstop plectrum is back plectrum contained angle gamma with the contained angle of plectrum bottom plate (302), and back plectrum contained angle gamma makes plectrum swash plate (301) of back backstop plectrum draw in the past backward, back plectrum contained angle gamma is the obtuse angle, and the back plectrum contained angle gamma of back backstop plectrum rearmost end equals with the inclination alpha of first upper inclined plane (103) and first upper plane (101).

10. The mechanism of claim 9, wherein: the width W1 of the shaped slot opening (502) of the shaped groove (500) is less than the width W2 between the rearmost end of the rear stop pick and the first upper ramp (103).