CN218803406U - Shoe mold with replaceable mold - Google Patents

Abstract

The utility model relates to a can replace shoe mold of mould belongs to shoe mold technique, including the installation shell, rotatory erection column, rotate mounting substrate, side direction telescopic link, extrusion fixed plate and shaping auxiliary assembly with higher speed, the one end of rotatory erection column is connected with the inner wall of installation shell through the pivot, the other end of rotatory erection column is connected with the motor output shaft of placing in the installation shell in, rotate mounting substrate fixed mounting on rotatory erection column, shoe mold centre gripping groove and auxiliary member mounting groove have been seted up respectively to the both sides of rotating mounting substrate, side direction telescopic link fixed mounting is in shoe mold centre gripping inslot, the extrusion fixed plate is connected with the flexible end of side direction telescopic link, the utility model discloses can realize the fast switch-over of shoe mold, and the shoe mold body is detachable construction, and the position between each shoe mold body does not influence each other, and the structure is comparatively nimble, and shaping auxiliary assembly can be along with each shoe mold body synchronous motion with higher speed, effectively improves work efficiency, and the functionality is stronger.

Description

Shoe mold with replaceable mold

Technical Field

The utility model relates to a shoe mold technical field especially relates to a can replace shoe mold of mould.

Background

The shoe mold generally refers to a mold for shoes such as sports shoes, beach shoes, slippers, rubber shoes, and the like, wherein the shoes are mainly sports shoes. The mould is used for moulding plastics, blow molding, extrusion, die-casting or forging and pressing shaping, smelting, punching press, drawing etc. method obtain the various moulds and tools of required product in the industrial production, offer a shoes mould that can replace the mould in the chinese utility model patent of application number CN202121002823.X, promote the compressed particleboard and shoes mould cooperation production through lift hydraulic press and push rod cooperation, coupling mechanism provides the compressed particleboard along bracing piece steady movement, place the piece and provide the space of placing the shoes mould, lifting mechanism can lift the shoes mould and change, helping hand mechanism promotes the shoes mould that needs to be changed and breaks away from the convenient change of placing the piece, fixed being provided with on the shoes mould blocks the piece, place and set up the dead slot that is used for restricting the removal of blocks in, set up on the piece and be used for providing the logical groove that blocks the piece and the shoes mould and break away from the placing piece, the shock attenuation piece can absorb the sense that overall structure function in-process produced, the shoes mould that above-mentioned comparison file provided promotes to the replacement efficiency of mould, but overall structure is not enough, and the mould is still perfect, the function is more swift, and the while is more weak, and the practicality is not enough.

The present application is made in view of this.

SUMMERY OF THE UTILITY MODEL

For overcoming the technical defect that prior art exists, the utility model provides a can replace shoe mold of mould can realize the fast switch-over of shoe mold, and the shoe mold body is detachable construction, and the position between each shoe mold body does not influence each other, and the structure is comparatively nimble, and the shaping is auxiliary assembly with higher speed can be along with each shoe mold body synchronous motion, effectively improves work efficiency, and is functional stronger.

The utility model discloses a technical solution be: including installation shell, rotatory erection column, rotation mounting substrate, side direction telescopic link, extrusion fixed plate and shaping auxiliary assembly with higher speed, the one end of rotatory erection column through the pivot with the inner wall of installation shell is connected, place in the other end of rotatory erection column in with the motor output shaft in the installation shell is connected, rotate mounting substrate fixed mounting in on the rotatory erection column, shoe mold centre gripping groove and auxiliary member mounting groove have been seted up respectively to the both sides of rotating mounting substrate, side direction telescopic link fixed mounting be in the shoe mold centre gripping inslot, the extrusion fixed plate with the flexible end of side direction telescopic link is connected, and two are arranged in to the shoe mold body between the extrusion fixed plate, shaping auxiliary assembly with higher speed is in motor output shaft in the auxiliary member mounting groove is connected, the quantity of rotating mounting substrate is four, four the rotation mounting substrate is in order that the mode of annular array is even to be set up on the rotatory erection column.

The utility model discloses in, the shoes mould body is arranged in and is obtained fixedly between two extrusion fixed plates, the motor of placing in the installation shell in through rotates driving rotatory erection column, can realize the fast switch-over of shoes mould, and the shoes mould body is detachable construction, position between each shoes mould body does not influence each other, the shoes mould body of one side is when being used for production, the shoes mould body of opposite side still can load and unload the replacement, the structure is comparatively nimble, the while shaping is with higher speed auxiliary assembly can be along with each shoes mould body synchronous motion, thereby cool off design and strike to arbitrary one shoes mould body during operation, utilize to strike to make the more quick discharge of bubble in the raw materials for production, effectively improve work efficiency, the functionality is stronger.

Preferably, the extrusion fixed plate activity card is established in the shoe mold centre gripping inslot, the side direction telescopic link with the quantity of extrusion fixed plate is two, two the flexible end of side direction telescopic link sets up in opposite directions, and the flexible control extrusion fixed plate of side direction telescopic link through both sides removes, utilizes two extrusion fixed plates to fix the shoe mold body in the middle.

Preferably, the bottom of the installation shell is provided with a drainage groove, and water for cooling can be quickly drained through the drainage groove.

Preferably, the shaping is auxiliary assembly with higher speed includes dwang and electric telescopic handle, the dwang is in with the setting motor output shaft in the auxiliary member mounting groove is connected, electric telescopic handle's stiff end is installed on the lateral wall of dwang, open through the motor that sets up in the auxiliary member mounting groove and drive the dwang and remove to carry out position control to electric telescopic handle and connecting portion, keep whole shrink in the auxiliary member mounting groove when not using, expand during the use alright.

Preferably, the shaping is auxiliary assemblies still including the mounting bar with higher speed, the mounting bar welding is in electric telescopic handle's flexible serving, the mounting bar is hollow strip, the water jet of bar is seted up to one side of mounting bar, the opposite side of mounting bar is provided with the water receiving mouth, inserts outside cold water source through the water receiving mouth, then from the water jet blowout for the cooling water lets in the cooling.

Preferably, the molding acceleration auxiliary assembly further comprises an electric cylinder and a knocking hammer, the knocking hammer is installed on the telescopic end of the electric cylinder, the electric cylinder is arranged on the outer wall of the mounting bar, the electric cylinder is used for controlling the telescopic knocking hammer to stretch out and draw back through the expansion and contraction of the electric cylinder, the knocking hammer is used for discharging bubbles in the production raw materials more quickly, the working efficiency is effectively improved, and the functionality is stronger.

The utility model has the advantages that: the utility model discloses an interior motor of placing in the installation shell opens and drives rotatory erection column and rotate, and then drives the shoes mould body that rotates between mounting substrate and two extrusion fixed plates and remove to realize the fast switch-over of shoes mould, and the shoes mould body is detachable construction, and the position between each shoes mould body does not influence each other, and when the shoes mould body of one side was used for production, the shoes mould body of opposite side still can load and unload the replacement, and the structure is comparatively nimble.

The utility model discloses a shaping is auxiliary assembly with higher speed can be along with each shoes mould body synchronous motion to cooling design and strike arbitrary one shoes mould body during operation, utilize to strike and make the discharge that the bubble is faster among the raw materials for production, effectively improve work efficiency, the functionality is stronger.

Drawings

Fig. 1 is a schematic diagram of the external structure of the present invention.

Fig. 2 is a schematic diagram of the internal structure of the present invention.

Fig. 3 is the structure schematic diagram of the utility model after the installation of the shell is hidden.

Fig. 4 is a schematic structural view of the forming acceleration auxiliary assembly of the present invention.

Description of reference numerals: in the figure: 1. installing a shell; 2. rotating the mounting post; 3. rotating the mounting substrate; 301. a shoe mold clamping groove; 302. an auxiliary member mounting groove; 4. a lateral telescopic rod; 5. extruding the fixed plate; 6. forming an acceleration assist assembly; 601. rotating the rod; 602. an electric telescopic rod; 603. mounting a bar; 604. a water jet; 605. an electric cylinder; 606. knocking hammer.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

as shown in fig. 1-4, this embodiment provides a shoe mold capable of replacing a mold, which includes an installation housing 1, a rotary installation column 2, a rotary installation substrate 3, a lateral expansion link 4, an extrusion fixing plate 5 and a forming acceleration auxiliary assembly 6, wherein one end of the rotary installation column 2 is connected to an inner wall of the installation housing 1 through a rotating shaft, the other end of the rotary installation column 2 is connected to a motor output shaft embedded in the installation housing 1, the rotary installation substrate 3 is fixedly installed on the rotary installation column 2, shoe mold clamping grooves 301 and auxiliary piece installation grooves 302 are respectively formed on two sides of the rotary installation substrate 3, the lateral expansion link 4 is fixedly installed in the shoe mold clamping grooves 301, the extrusion fixing plates 5 are connected to telescopic ends of the lateral expansion link 4, a shoe mold body is placed between the two extrusion fixing plates 5, the forming acceleration auxiliary assembly 6 is connected to the motor output shaft arranged in the auxiliary piece installation grooves 302, the number of the rotary installation substrates 3 is four, and the four rotary installation substrates 3 are uniformly arranged on the rotary installation column 2 in an annular array manner.

The utility model discloses in, the shoes mould body is arranged in and is obtained fixedly between two extrusion fixed plate 5, the motor through placing in the installation shell 1 in opens and drives rotatory erection column 2 and rotate, and then the drive rotates the shoes mould body between mounting substrate 3 and two extrusion fixed plate 5 and removes, thereby realize the fast switch-over of shoes mould, and the shoes mould body is detachable construction, position between each shoes mould body does not influence each other, the shoes mould body of one side is when being used for production, the shoes mould body of opposite side still can load and unload the replacement, the structure is comparatively nimble, still have shaping acceleration auxiliary assembly 6 simultaneously, shaping acceleration auxiliary assembly 6 can be along with each shoes mould body synchronous motion, thereby cool off design and strike arbitrary one shoes mould body during operation, utilize to strike and make the more quick discharge of bubble in the raw materials for production, effectively improve work efficiency, the functionality is stronger.

As a technical optimization scheme of the utility model, specifically as shown in fig. 2, 5 movable cards of extrusion fixed plate are established in shoe mold centre gripping groove 301, and the quantity of side direction telescopic link 4 and extrusion fixed plate 5 is two, and the flexible end of two side direction telescopic links 4 sets up in opposite directions, and 4 flexible control extrusion fixed plates of side direction telescopic link through both sides 5 remove, utilize two extrusion fixed plates 5 to fix middle shoe mold body.

As a technical optimization scheme of the utility model, specifically as shown in fig. 2, water drainage tank has been seted up to the bottom of installation shell 1, makes the hydroenergy of cooling usefulness discharge fast through water drainage tank's setting.

As a technical optimization scheme of the utility model, it is specifically as shown in fig. 4, the shaping is with higher speed auxiliary assembly 6 and is included dwang 601 and electric telescopic handle 602, dwang 601 is connected with the motor output shaft that sets up in auxiliary member mounting groove 302, electric telescopic handle 602's stiff end is installed on the lateral wall of dwang 601, it removes to open drive dwang 601 through the motor that sets up in auxiliary member mounting groove 302, thereby carry out position control to electric telescopic handle 602 and connecting portion branch, keep whole shrink in auxiliary member mounting groove 302 when not using, expand during the use alright.

As the utility model discloses a technical optimization scheme, it is specifically as shown in fig. 4, the shaping is auxiliary assembly 6 with higher speed still includes mounting bar 603, the mounting bar 603 welds and is served in electric telescopic handle 602's flexible, mounting bar 603 is the hollow strip, the water jet 604 of bar is seted up to one side of mounting bar 603, the opposite side of mounting bar 603 is provided with the water receiving mouth, insert outside cold water source through the water receiving mouth, then spout from water jet 604 for the cooling water lets in the cooling.

As the utility model discloses a technical optimization scheme, it is specifically as shown in fig. 4, the shaping is with higher speed auxiliary assembly 6 and is still included electric cylinder 605 and strikes hammer 606, strikes hammer 606 and installs on electric cylinder 605's flexible end, and electric cylinder 605 sets up on the outer wall of mounting bar 603, through electric cylinder 605 flexible counterstrike hammer 606 flexible control, utilizes the strike hammer 606 strike to make the discharge that the bubble in the raw materials for production is faster, effectively improves work efficiency, and is functional stronger.

Having shown and described the fundamental principles and the principal features of the invention and its advantages, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (8)

1. A shoe mold capable of replacing a mold is characterized in that: including installation shell (1), rotatory erection column (2), rotate mounting substrate (3), side direction telescopic link (4), extrusion fixed plate (5) and shaping auxiliary assembly (6) with higher speed, the one end of rotatory erection column (2) through the pivot with the inner wall of installation shell (1) is connected, the other end of rotatory erection column (2) is with interior place motor output shaft in installation shell (1) is connected, rotate mounting substrate (3) fixed mounting be in on rotatory erection column (2), shoe mold centre gripping groove (301) and auxiliary member mounting groove (302) have been seted up respectively to the both sides of rotating mounting substrate (3), side direction telescopic link (4) fixed mounting be in shoe mold centre gripping groove (301), extrusion fixed plate (5) with the flexible end of side direction telescopic link (4) is connected, and the shoe mold body is arranged in two between extrusion fixed plate (5), shaping auxiliary assembly (6) with higher speed is in with the setting motor output shaft in auxiliary member mounting groove (302) is connected.

2. The mold-replaceable shoe mold of claim 1, wherein: the extrusion fixing plate (5) is movably clamped in the shoe mold clamping groove (301), the number of the lateral telescopic rods (4) and the number of the extrusion fixing plate (5) are two, and the two telescopic ends of the lateral telescopic rods (4) are arranged in a face-to-face mode.

3. The mold-replaceable shoe mold of claim 1, wherein: and a drainage channel is formed at the bottom of the mounting shell (1).

4. The mold-replaceable shoe mold of claim 1, wherein: the number of the rotating installation substrates (3) is four, and the four rotating installation substrates (3) are uniformly arranged on the rotating installation column (2) in an annular array mode.

5. The mold-replaceable shoe mold of claim 1, wherein: auxiliary assembly (6) is accelerated in the shaping includes dwang (601) and electric telescopic handle (602), dwang (601) is in with the setting motor output shaft in auxiliary member mounting groove (302) is connected, the stiff end of electric telescopic handle (602) is installed on the lateral wall of dwang (601).

6. The mold-replaceable shoe mold of claim 5, wherein: the forming acceleration auxiliary assembly (6) further comprises a mounting bar (603), and the mounting bar (603) is welded to the telescopic end of the electric telescopic rod (602).

7. The mold-replaceable shoe mold of claim 6, wherein: the mounting bar (603) is a hollow bar, one side of the mounting bar (603) is provided with a bar-shaped water spraying opening (604), and the other side of the mounting bar (603) is provided with a water receiving opening.

8. The mold-replaceable shoe mold of claim 7, wherein: the forming acceleration auxiliary assembly (6) further comprises an electric cylinder (605) and a knocking hammer (606), the knocking hammer (606) is installed on the telescopic end of the electric cylinder (605), and the electric cylinder (605) is arranged on the outer wall of the mounting bar (603).

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