CN212789467U - Ultrasonic therapeutic apparatus casing and preparation mould thereof - Google Patents

Abstract

The utility model provides an ultrasonic therapy appearance casing and preparation mould thereof, including epitheca die mechanism and inferior valve die mechanism, epitheca die mechanism and inferior valve die mechanism all include last mould forming assembly and with last mould forming assembly complex lower mould forming assembly, lower mould forming assembly includes under bracing casing, the four sides of under bracing casing upper end slide and be provided with edge forming slider, be provided with middle forming casing down in the under bracing casing of edge forming slider inboard, be provided with the first condenser tube of a plurality of in the under bracing casing of middle forming casing below, under bracing casing's lower extreme is provided with the climbing mechanism that is used for the drawing of patterns. The utility model discloses set up marginal shaping slider, the drawing of patterns is carried out when the side of the fashioned upper and lower casing of being convenient for has outer catching groove, has improved the efficiency of drawing of patterns, has realized the harmless drawing of patterns.

Description

Ultrasonic therapeutic apparatus casing and preparation mould thereof

Technical Field

The utility model relates to the technical field of ultrasonic therapeutic apparatus, in particular to an ultrasonic therapeutic apparatus casing and a preparation mould thereof.

Background

The ultrasonic therapeutic apparatus casing includes casing and lower casing, and upper and lower casing adopts injection molding machine injection moulding respectively usually, and current preparation mould has following problem: 1. after the product is formed, the product is not easy to demould, the shell is easy to damage, and the production efficiency is reduced; 2. particularly, the problem how to realize quick demoulding and nondestructive demoulding is also an urgent need to be solved when a shell with an inner buckle groove or an outer buckle groove is demoulded; 3. the mould is easy to deform under the pressure injection molding condition, so that the formed shell is deformed or the size is not accurate, and the yield is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a supersonic therapeutic instrument's casing and preparation mould thereof sets up marginal shaping slider, and the drawing of patterns is carried out when the side of the fashioned upper and lower casing of being convenient for has outer catching groove, has improved the efficiency of drawing of patterns, has realized the harmless drawing of patterns.

The technical scheme of the utility model is realized like this: the utility model provides a preparation mould of ultrasonic therapy appearance casing, including epitheca die mechanism and inferior valve die mechanism, epitheca die mechanism and inferior valve die mechanism all include last mould forming component and with last mould forming component complex lower mould forming component, lower mould forming component includes the under bracing casing, the four sides of under bracing casing upper end slide and are provided with edge forming slider, be provided with middle forming casing down in the under bracing casing of edge forming slider inboard, be provided with the first condenser tube of a plurality of in the under bracing casing of middle forming casing below down, the lower extreme of under bracing casing is provided with the climbing mechanism who is used for the drawing of patterns.

Furthermore, the upper end of the upper die forming assembly is provided with an injection molding hole, the upper die forming assembly comprises an upper supporting shell, the upper end of the upper supporting shell is provided with an injection molding panel, the lower end of the upper supporting shell is provided with an upper middle forming shell matched with a lower middle forming shell, a plurality of second cooling water pipes are arranged between the upper supporting shell and the upper middle forming shell, and the injection molding hole sequentially penetrates through the injection molding panel, the upper supporting shell and the upper middle forming shell from top to bottom.

Furthermore, all be provided with L type supporting seat on the four sides lateral wall of under bracing casing, be provided with the carriage release lever on the L type supporting seat, carriage release lever one end links to each other with edge shaping slider, and the other end slides and passes L type supporting seat, and the cover is equipped with the spring.

Furthermore, a lower support shell of the upper shell mold mechanism is provided with a vertical sliding inclined top, and the upper end of the inclined top penetrates through the corresponding lower middle forming shell in a sliding manner and is flush with the upper end of the lower middle forming shell.

Furthermore, four sides of the upper supporting shell are provided with a plurality of inclined guide posts and vertical positioning screws, inclined guide grooves in one-to-one correspondence with the inclined guide posts and positioning grooves in one-to-one correspondence with the positioning screws are formed in the edge forming sliding block, the lower ends of the inclined guide posts slide in the inclined guide grooves, and the lower ends of the positioning screws slide in the positioning grooves.

Furthermore, vertical guide cylinders are arranged at four corners of the upper support shell, vertical guide columns in one-to-one correspondence with the guide cylinders are arranged at four corners of the lower support shell, and the upper ends of the vertical guide columns are arranged in the vertical guide cylinders in a sliding mode.

Further, both sides of lower support housing lower extreme all are provided with the riser, be provided with the bottom plate between the lower extreme of two risers, climbing mechanism includes thimble board and a plurality of lift-pin, but the lift-pin board vertical movement arrange in between two risers, and be located the top of bottom plate, the upper end of lift-pin slides and passes the lower support housing, and in arranging middle shaping casing down in, the upper end of lift-pin flushes with the up end of middle shaping casing down, the lower extreme links to each other with the thimble board, the upper end of bottom plate is provided with the chaplet, the upper end of chaplet slides and passes the thimble board, and offsets with the lower terminal surface of lower support housing.

Furthermore, a plurality of ejector sleeve needle assemblies are arranged on the lower die forming assembly and comprise ejector sleeve needle bodies used for forming the cylindrical holes of the machine shell, ejector sleeve sleeves used for demolding are slidably sleeved on the outer sides of the ejector sleeve needle bodies, the lower ends of the ejector sleeve sleeves are connected with the ejector plate, and the lower ends of the ejector sleeve needle bodies are connected with the bottom plate.

Furthermore, four corners of the ejector plate are provided with vertical upward jacking guide posts, the lower support shell and the edge forming slide block are provided with strip-shaped slide holes in one-to-one correspondence with the jacking guide posts, and the upper ends of the jacking guide posts are arranged in the strip-shaped slide holes in a sliding mode.

The utility model provides an ultrasonic therapy apparatus casing that adopts preparation mould to prepare, includes casing and the lower casing that is located the casing lower extreme, all is provided with the outer catching groove of a plurality of on the lateral wall of last casing and lower casing four sides, and the upper end of going up the casing is provided with the display screen mounting hole, all is provided with the vertical interior knot hole of a plurality of on the last casing of display screen mounting hole four sides, and the inboard of going up casing and casing down all is provided with a plurality of shell cylinder hole.

The utility model has the advantages that:

the utility model is provided with the edge forming slide block, which is convenient for demoulding when the side edges of the upper and lower shells are provided with the external catching grooves; by arranging the inclined top, demolding is conveniently carried out when the formed upper shell is internally provided with the inner buckling groove; meanwhile, the jacking needle and the ejector sleeve needle assembly are matched, so that the demolding efficiency is improved, and nondestructive demolding is realized.

The utility model realizes the accurate positioning during the die assembly through the matching of the inclined guide post and the inclined guide groove and the matching of the vertical guide cylinder and the vertical guide post, and simultaneously, the inclined guide post also limits the outward movement of the edge forming slide block during the injection molding of the product, thereby improving the yield of the product and the accuracy of the size of the product; the strength of the lower die forming assembly is improved by arranging the supporting head; through the cooperation of jacking guide post and bar slide opening, guarantee the vertical removal of thimble board, also can play the guide effect to moving outward of edge shaping slider 2 simultaneously.

Drawings

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

FIG. 1 is a schematic structural view of a mold for manufacturing the present invention;

FIG. 2 is a schematic view of the internal structure of the upper shell mold mechanism;

FIG. 3 is a schematic structural view of an upper intermediate molded shell of the upper shell mold mechanism;

FIG. 4 is a schematic view of the construction of the lower intermediate forming shell of the upper shell mold mechanism;

FIG. 5 is a schematic structural view of the lift pin;

FIG. 6 is a schematic structural view of a lower intermediate molded shell of the lower shell mold mechanism;

FIG. 7 is a schematic structural view of a housing of the ultrasonic treatment apparatus;

FIG. 8 is a schematic structural view of the upper housing;

fig. 9 is a structural schematic view of the lower case.

The device comprises a lower supporting shell 1, an edge forming slide block 2, an L-shaped supporting seat 3, a moving rod 4, a spring 5, a lower middle forming shell 6, a first cooling water pipe 7, an injection molding hole 8, an upper supporting shell 9, an injection molding panel 10, an upper middle forming shell 11, a second cooling water pipe 12, an inclined top 13, an inclined guide column 14, an inclined guide groove 15, a vertical guide cylinder 16, a vertical guide column 17, a vertical plate 18, a bottom plate 19, an ejector pin plate 20, an ejector pin 21, a supporting head 22, an ejector pin body 23, an ejector sleeve 24, a cylindrical hole forming cavity 25, an ejector guide column 26, a strip-shaped slide hole 27, an upper shell 28, a lower shell 29, an outer buckling groove 30, a display screen mounting hole 31, an inner buckling hole 32, a shell cylindrical hole 33, a positioning screw 34 and a positioning groove 35.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without any creative effort belong to the protection scope of the present invention.

The terms "upper and lower" and the like of the present embodiment are relative to the positional relationship shown in fig. 1.

Example one

As shown in fig. 1-5, a preparation mould of ultrasonic treatment instrument casing, including epitheca mold mechanism and inferior valve mold mechanism, epitheca mold mechanism and inferior valve mold mechanism all include last mould shaping subassembly and with last mould shaping subassembly complex lower mould shaping subassembly, lower mould shaping subassembly includes under bracing casing 1, the four sides slip of under bracing casing 1 upper end is provided with edge shaping slider 2, all be provided with L type supporting seat 3 on the four sides lateral wall of under bracing casing 1, be provided with carriage release lever 4 on the L type supporting seat 3, 4 one end of carriage release lever link to each other with edge shaping slider 2, the other end slides and passes L type supporting seat 3, and the cover is equipped with spring 5, edge shaping slider 2 moves the upper casing 28 or the lower casing 29 drawing of patterns that are convenient for drive outer catching groove 30 outward.

A lower middle forming shell 6 is fixed in the lower support shell 1 on the inner side of the edge forming slide block 2, a plurality of transverse first cooling water pipes 7 are fixed in the lower support shell 1 below the lower middle forming shell 6, and a jacking mechanism for demoulding is arranged at the lower end of the lower support shell 1.

Go up the upper end of mould shaping subassembly and be provided with injection molding hole 8, it includes supporting shell 9 to go up mould shaping subassembly, the upper end of going up supporting shell 9 is fixed with injection moulding panel 10, the lower extreme is fixed with and lower middle shaping shell 6 complex in the middle of shaping shell 11, it is fixed with the horizontal second condenser tube 12 of a plurality of to go up between supporting shell 9 and the last middle shaping shell 11, injection molding hole 8 from the top down runs through injection moulding panel 10 in proper order, go up supporting shell 9 and last middle shaping shell 11.

The application method of the embodiment comprises the following steps: forming die cavities are formed between the upper middle forming shell 11 and the lower middle forming shell 6 and between the lower middle forming shell 6 and the edge forming slide block 2, and forming materials are injected into the die cavities through the injection molding holes 8; after the injection molding is finished, cooling water passes through the first cooling water pipe 7 and the second cooling water pipe 12, so that the product is rapidly cooled, the processing time of the product is shortened, and the production efficiency is improved; after the product is cooled and formed, the upper shell mold mechanism moves upwards, when the movable rod 4 is pulled outwards, the movable rod 4 drives the edge forming slide block 2 to move outwards along the outwards moving L-shaped supporting seat 3, the edge forming slide block 2 is separated from the side edge of the upper shell 28 or the lower shell 29, and finally the upper shell 28 or the lower shell 29 of the jacking mechanism is demoulded from the lower middle forming shell 6.

Example two

This embodiment is substantially the same as the first embodiment, except that: as shown in fig. 4 and 5, the lower support shell 1 of the upper shell mold mechanism is provided with a vertical slidable lifter 13, and the upper end of the lifter 13 slides through the corresponding lower intermediate molding shell 6 and is flush with the upper end of the lower intermediate molding shell 6. When the upper shell 28 is demoulded, the inclined top 13 moves upwards, so that the upper shell 28 with the inner buckle groove can be demoulded conveniently.

EXAMPLE III

This embodiment is substantially the same as the first or second embodiment, except that: as shown in fig. 2 and 3, a plurality of inclined guide posts 14 inclined downward are fixed on four sides of the upper supporting housing 9, inclined guide grooves 15 corresponding to the inclined guide posts 14 one to one are formed on the edge forming slider 2, and lower ends of the inclined guide posts 14 are slidably disposed in the inclined guide grooves 15. Four sides of the upper supporting shell 9 are all fixed with a plurality of vertical downward positioning screws 34, positioning grooves 35 corresponding to the positioning screws 34 one to one are arranged on the edge forming sliding block 2, and the lower ends of the positioning screws 34 are arranged in the positioning grooves 35 in a sliding mode to play a role in fixing the edge forming sliding block 2.

Vertical guide cylinders 16 are fixed at four corners of the upper support shell 9, vertical guide columns 17 corresponding to the guide cylinders one to one are fixed at four corners of the lower support shell 1, and the upper ends of the vertical guide columns 17 are arranged in the vertical guide cylinders 16 in a sliding mode.

The application method of the embodiment comprises the following steps: when the upper die forming assembly moves downwards to close the die, the inclined guide posts 14 move downwards along the inclined guide grooves 15, the vertical guide cylinders 16 move downwards along the vertical guide posts 17, the lower ends of the positioning screws 34 are arranged in the positioning grooves 35 in a sliding mode, the die closing accuracy is guaranteed, meanwhile, the inclined guide posts 14 limit outward movement of the edge forming slide blocks 2 when a product is subjected to injection molding, and the rate of finished products and the accuracy of product sizes are improved.

Example four

This embodiment is substantially the same as the first, second or third embodiment, except that: as shown in fig. 2, 5 and 6, both sides of the lower end of the lower support casing 1 are fixed with risers 18, a bottom plate 19 is fixed between the lower ends of the two risers 18, the jacking mechanism comprises an ejector plate 20 and a plurality of ejector pins 21, the ejector plate 20 can be vertically moved and arranged between the two risers 18, and is located above the bottom plate 19, the upper ends of the ejector pins 21 slide through the lower support casing 1, and are arranged in the lower middle forming casing 6, the upper ends of the ejector pins 21 flush with the upper end face of the lower middle forming casing 6, the lower ends are fixedly connected with the ejector plate 20, the upper end of the bottom plate 19 is fixed with a supporting head 22, the upper end of the supporting head 22 slides through the ejector plate 20, and abuts against the lower end face of the lower support casing 1. The lower end of the inclined top 13 is fixedly connected with an ejector plate 20.

The lower die forming assembly is provided with a plurality of ejector sleeve needle assemblies, each ejector sleeve needle assembly comprises an ejector sleeve needle body 23 used for forming a shell cylindrical hole 33, an ejector sleeve 24 used for demolding is slidably sleeved on the outer side of the ejector sleeve needle body 23, and the lower end of the ejector sleeve 24 is fixedly connected with the ejector plate 20. The upper end face of the lower middle forming shell 6 is provided with cylindrical hole forming cavities 25 which correspond to the ejector pins one by one, the upper ends of the ejector pins are arranged in the cylindrical hole forming cavities 25, and the upper ends of the ejector sleeves 24 are arranged at the lower ends of the cylindrical hole forming cavities 25 in a sliding mode.

The four corners of thimble board 20 all is fixed with vertical ascending jacking guide post 26, all is equipped with the bar slide opening 27 with jacking guide post 26 one-to-one on under bracing casing 1 and the marginal profiled slide block 2, and the upper end of jacking guide post 26 slides and arranges in bar slide opening 27, adopts the bar to slide, also can play the guide effect to moving outward of marginal profiled slide block 2 simultaneously.

The application method of the embodiment comprises the following steps: the ejector pin plate 20 is connected with an ejector device, such as an ejector cylinder, and a piston rod of the ejector cylinder penetrates through the bottom plate 19 in a sliding manner to be fixedly connected with the ejector pin plate 20. After the edge forming slide block 2 is separated from the side edge of the upper shell 28 or the lower shell 29, the jacking device drives the ejector plate 20 to vertically move upwards, the ejector plate 20 drives the jacking needle 21 to move upwards, the ejector sleeve 24 moves upwards, the ejector sleeve 24 enables the shell cylindrical hole 33 to be separated from the cylindrical hole forming cavity 25, and the shell cylindrical hole 33 is matched with the jacking needle 21 to enable a product to be separated from the upper middle forming shell 11. In the process of demoulding the upper shell 28, the ejector plate 20 simultaneously drives the inclined top 13 to move upwards, so that the inner catching groove of the upper shell 28 is demoulded.

EXAMPLE five

As shown in fig. 7 to 9, an ultrasonic treatment apparatus enclosure manufactured by using the manufacturing mold according to the first to fourth embodiments includes an upper enclosure 28 and a lower enclosure 29 located at a lower end of the upper enclosure 28, wherein a plurality of outer fastening grooves 30 are respectively disposed on outer sidewalls of four sides of the upper enclosure 28 and the lower enclosure 29, a display screen mounting hole 31 is disposed at an upper end of the upper enclosure 28, a plurality of vertical inner fastening holes 32 are respectively disposed on the upper enclosure 28 at four sides of the display screen mounting hole 31, and a plurality of enclosure cylindrical holes 33 are respectively disposed on inner sides of the upper enclosure 28 and the lower enclosure 29. The upper shell 28 and the lower shell 29 are integrally formed, and the decorative plate of the upper shell 28 is conveniently and fixedly installed through a buckle through the inner buckle hole 32.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a preparation mould of ultrasonic therapy appearance casing, includes epitheca mold mechanism and inferior valve mold mechanism, epitheca mold mechanism and inferior valve mold mechanism all include last mould forming component and with last mould forming component complex lower mould forming component, its characterized in that: the lower die forming assembly comprises a lower support shell (1), edge forming sliding blocks (2) are arranged on four sides of the upper end of the lower support shell (1) in a sliding mode, a lower middle forming shell (6) is arranged in the lower support shell (1) on the inner side of each edge forming sliding block (2), a plurality of first cooling water pipes (7) are arranged in the lower support shell (1) below the lower middle forming shell (6), and a jacking mechanism used for demolding is arranged at the lower end of the lower support shell (1).

2. The mold for manufacturing the casing of the ultrasonic therapeutic apparatus according to claim 1, wherein: the upper end of going up mould shaping subassembly is provided with injection molding hole (8), it includes support housing (9) to go up mould shaping subassembly, the upper end of going up support housing (9) is provided with injection moulding panel (10), the lower extreme be provided with middle shaping casing (6) complex down go up middle shaping casing (11), it is provided with a plurality of second condenser tube (12) to go up between support housing (9) and last middle shaping casing (11), injection molding hole (8) from the top down runs through injection moulding panel (10) in proper order, go up support housing (9) and last middle shaping casing (11).

3. The mold for manufacturing the casing of the ultrasonic therapeutic apparatus according to claim 1, wherein: all be provided with L type supporting seat (3) on the four sides lateral wall of under bracing casing (1), be provided with carriage release lever (4) on L type supporting seat (3), carriage release lever (4) one end links to each other with edge shaping slider (2), and the other end slides and passes L type supporting seat (3), and the cover is equipped with spring (5).

4. The mold for manufacturing the casing of the ultrasonic therapeutic apparatus according to claim 1, wherein: the lower support shell (1) of the upper shell mold mechanism is provided with an inclined top (13) capable of sliding vertically, and the upper end of the inclined top (13) penetrates through the corresponding lower middle forming shell (6) in a sliding manner and is flush with the upper end of the lower middle forming shell (6).

5. The mold for manufacturing the casing of the ultrasonic therapeutic apparatus according to claim 2, wherein: four sides of the upper supporting shell (9) are provided with a plurality of inclined guide posts (14) and vertical positioning screws (34), inclined guide grooves (15) in one-to-one correspondence with the inclined guide posts (14) and positioning grooves (35) in one-to-one correspondence with the positioning screws (34) are formed in the edge forming sliding block (2), the lower ends of the inclined guide posts (14) are arranged in the inclined guide grooves (15) in a sliding mode, and the lower ends of the positioning screws (34) are arranged in the positioning grooves (35) in a sliding mode.

6. The mold for manufacturing the casing of the ultrasonic therapeutic apparatus according to claim 2, wherein: the four corners of the upper supporting shell (9) are provided with vertical guide cylinders (16), the four corners of the lower supporting shell (1) are provided with vertical guide columns (17) which correspond to the vertical guide cylinders (16) one to one, and the upper ends of the vertical guide columns (17) are arranged in the vertical guide cylinders (16) in a sliding mode.

7. The mold for manufacturing the casing of the ultrasonic therapeutic apparatus according to claim 1, wherein: both sides of lower support casing (1) lower extreme all are provided with riser (18), be provided with bottom plate (19) between the lower extreme of two riser (18), climbing mechanism includes thimble board (20) and a plurality of lift-up pin (21), but the lift-up pin board (20) vertical movement arrange in between two riser (18), and be located the top of bottom plate (19), the upper end of lift-up pin (21) slides and passes lower support casing (1), and arrange in lower middle shaping casing (6), the upper end of lift-up pin (21) flushes with the up end of lower middle shaping casing (6), the lower extreme links to each other with thimble board (20), the upper end of bottom plate (19) is provided with chaplet (22), the upper end of chaplet (22) slides and passes thimble board (20), and offsets with the lower terminal surface of lower support casing (1).

8. The mold for manufacturing a casing of an ultrasonic therapeutic apparatus according to claim 7, wherein: the lower die forming assembly is provided with a plurality of ejector sleeve needle assemblies, each ejector sleeve needle assembly comprises an ejector sleeve needle body (23) used for forming a shell cylindrical hole (33), an ejector sleeve (24) used for demolding is slidably sleeved on the outer side of each ejector sleeve needle body (23), the lower end of each ejector sleeve (24) is connected with the ejector plate (20), and the lower end of each ejector sleeve needle body (23) is connected with the bottom plate (19).

9. The mold for manufacturing a casing of an ultrasonic therapeutic apparatus according to claim 7, wherein: four corners of the ejector plate (20) are provided with vertical upward jacking guide posts (26), strip-shaped sliding holes (27) which correspond to the jacking guide posts (26) one by one are formed in the lower support shell (1) and the edge forming sliding block (2), and the upper ends of the jacking guide posts (26) are arranged in the strip-shaped sliding holes (27) in a sliding mode.

10. An ultrasonic therapeutic apparatus enclosure prepared by adopting the preparation mold of any one of claims 1 to 9, comprising an upper casing (28) and a lower casing (29) positioned at the lower end of the upper casing (28), wherein a plurality of outer fastening grooves (30) are respectively arranged on the outer side walls of the four sides of the upper casing (28) and the lower casing (29), a display screen mounting hole (31) is arranged at the upper end of the upper casing (28), a plurality of vertical inner fastening holes (32) are arranged on the upper casing (28) at the four sides of the display screen mounting hole (31), and a plurality of enclosure cylindrical holes (33) are respectively arranged at the inner sides of the upper casing (28) and the lower casing (29).

Images