TW201914799A - Injection mold - Google Patents

Abstract

The invention discloses an injection mold. The injection mold includes a upper mold, a lower mold, a upper template and a lower template on the upper template. The upper mold includes a first connecting surface, and the first connecting surface has a first positioning structure. The lower mold includes a second connecting surface. The second connecting surface opposite to the first connecting surface. The second connecting surface has a second positioning structure. The upper mold is positioned by the first positioning structure and the second positioning structure. The first connecting surface is connected to the second connecting surface to cooperatively define a mold cavity. The upper mold is inserted in the upper template. The lower mold is inserted in the lower template. The upper template and the lower template form a flow passage connected with the mold cavity. The injection mold of the embodiment makes the upper mold and the lower mold positioning through the first positioning structure and the second positioning structure. This injection mold can reduce the deviation of the upper mold and the lower mold, so as to make the high yield of product.

Description

Injection mold

The invention relates to the field of mold technology, and in particular to an injection mold.

In the injection mold of the related art, the mold core and the lower mold core are easily offset when the mold is connected, resulting in a lower yield of the corresponding product.

The present invention aims to at least solve one of the technical problems existing in the related art. To this end, the present invention provides an injection mold. The injection mold includes: a lower mold core, the lower mold core includes a second abutting surface opposite to the first mating surface, the second mating surface is formed with a second positioning structure, and the upper mold core is configured by the first positioning structure Cooperating with the second positioning structure of the lower mold core, the first abutting surface is connected to the second abutting surface and jointly defines a mold cavity; the upper template is inserted into the upper template; and the upper surface The template is stacked under the template, and the lower mold is inserted into the lower template, and the upper template and the lower template are formed with a flow path communicating with the mold cavity.

In the injection mold of the above embodiment, the first positioning structure and the second positioning structure are used to position and match the upper mold core and the lower mold core, so that the degree of deviation between the upper mold core and the lower mold core can be reduced, thereby producing the injection mold. The product yield is high.

In some embodiments, the first positioning structure includes a protrusion at an edge of the first abutting surface, and the second positioning structure includes a groove formed at an edge of the second abutting surface, the protrusion is received in the groove in.

Thus, by interposing the protrusions and the grooves, the positioning between the upper mold core and the lower mold core can be made more precise.

In some embodiments, the protrusion includes a first connecting surface facing the second mating surface and a first connecting slope connecting the first connecting surface and the first mating surface, the recess including the first connection And a second connecting surface connecting the second connecting surface and the second connecting surface, the second connecting inclined surface is in contact with the first connecting inclined surface.

Thus, since the first connecting bevel and the second connecting bevel are fitted to each other to make the positioning between the upper die and the lower die more precise.

In some embodiments, the upper mold core and the lower mold core are both columnar, and the angle between the first connecting slope and the central axis of the upper mold core is 0-45 degrees.

In this way, the upper mold core and the lower mold core can be more easily positioned and fitted, and at the same time, in the mold opening process of the injection mold, the upper mold core and the lower mold core are easily separated.

In some embodiments, the first abutting surface is formed with a first cavity, the first cavity is spaced apart from the first positioning structure; the second abutting surface is formed with a second cavity, the second cavity Arranged from the second positioning structure, the first cavity communicates with the second cavity to define a mold cavity.

In this way, the plastic material can be solidified in the mold cavity.

In some embodiments, the injection mold includes a thimble that passes through the lower template, the thimble being movable into the flow path relative to the lower template.

Thus, when the plastic material is solidified in the mold cavity, the upper template and the upper mold can be opened by opening the mold, and the plastic is processed by the thimble to obtain the plastic product.

In some embodiments, the upper template is provided with a first positioning device, and the lower template is provided with a second positioning device, the first positioning device and the second positioning device are cooperatively connected to make the upper template and the lower template Position the connection.

In this way, the upper template and the lower template can be accurately positioned by the first positioning device and the second positioning device.

In some embodiments, the upper template is provided with a first height adjustment block, and the first height adjustment block cooperates with the upper mold to adjust the height of the upper mold relative to the top of the upper template; a second height adjustment block, the second height adjustment block cooperates with the lower mold to adjust the height of the lower mold relative to the bottom of the lower mold.

Thus, the injection mold can be molded into different types of plastic parts by the first height adjustment block and the second height adjustment block.

In some embodiments, the injection mold includes a filling nozzle and a mold fixing plate stacked on the upper mold plate, the filling nozzle is received in the upper mold fixing plate and the upper template; the filling nozzle is formed to communicate with the flow passage The nozzle channel.

In this way, the plastic material can be more easily entered into the flow path through the nozzle channel.

In some embodiments, the injection mold includes a positioning ring disposed on the upper mold fixing plate, the positioning ring having a flow guiding hole communicating with the nozzle passage.

In this way, the flow guiding hole facilitates the injection of the plastic material into the flow channel. The positioning ring is fixed to the upper film fixing plate by screws, for example.

The additional aspects and advantages of the invention will be set forth in part in the description which follows.

The embodiments of the present invention are described in detail below, and the examples of the embodiments are illustrated in the drawings, wherein the same or similar reference numerals are used to refer to the same or similar elements or elements having the same or similar functions. The embodiments described below with reference to the drawings are intended to be illustrative of the invention and are not to be construed as limiting.

In the description of the present invention, the terms "center", "longitudinal", "transverse", "length", "width", "thickness", "upper", "lower", "front", " Orientation or position of indications such as "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inside", "outside", "clockwise", "counterclockwise", etc. The relationship is based on the orientation or positional relationship shown in the drawings, and is merely for the convenience of the description of the present invention and the description of the invention, and is not intended to indicate or imply that the device or component referred to has a specific orientation and is constructed and operated in a specific orientation. Therefore, it should not be construed as limiting the invention. In addition, the terms "first" and "second" are used for the purpose of description only, and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, features defining "first" and "second" may include one or more of the features, either explicitly or implicitly. In the description of the present invention, the meaning of "plural" means two or more, unless specifically defined otherwise.

In the description of the present invention, it is to be understood that the terms "installation", "connected", and "connected" are to be understood broadly, and may be, for example, fixed or detachable, unless explicitly stated or defined. Connected, or integrally connected; may be mechanically connected, or may be electrically connected or may communicate with each other; may be directly connected, or may be indirectly connected by an intermediate medium, may be internal communication of two components or mutual interaction of two components Role relationship. For those skilled in the art, the specific meanings of the above terms in the present invention can be understood on a case-by-case basis.

In the present invention, the first feature "on" or "under" the second feature may include direct contact of the first and second features, and may include first and second features, unless otherwise specified and defined. They are not in direct contact but are contacted by additional features between them. Moreover, the first feature "above", "above" and "above" the second feature includes the first feature directly above and above the second feature, or merely indicating that the first feature level is higher than the second feature. The first feature "below", "below" and "below" the second feature includes the first feature directly below and below the second feature, or merely the first feature level being less than the second feature.

The disclosure below provides many different embodiments or examples for implementing the different structures of the present invention. In order to simplify the disclosure of the present invention, the components and arrangements of the specific examples are described below. Of course, they are merely examples and are not intended to limit the invention. In addition, the present disclosure may repeat reference numerals and/or reference letters in different examples, and such repetitions are not intended to indicate the relationship between the various embodiments and/or arrangements discussed. In addition, the present invention provides examples of various specific processes and materials, but one of ordinary skill in the art will recognize the use of other processes and/or other materials.

Referring to FIGS. 1 to 4, an embodiment of the present invention provides an injection mold 100. The injection mold 100 includes an upper mold core 10, a lower mold core 20, an upper mold 40, and a mold 50 disposed under the upper mold 40. The upper mold core 10 includes a first mating face 12. The first docking surface 12 is formed with a first positioning structure 124. The lower mold core 20 includes a second abutment surface 22 opposite the first abutment surface 12. The second mating face 22 is formed with a second positioning structure 224. The upper mold core 10 is cooperatively positioned with the second positioning structure 224 of the lower mold core 20 by the first positioning structure 124. The first mating face 12 connects the second mating faces 22 and collectively defines a mold cavity 30. The upper mold core 10 is inserted into the upper mold 40; the lower mold core 20 is inserted into the lower mold 50. The upper die plate 40 and the lower die plate 50 are formed with a flow path 60 that communicates with the mold cavity 30.

The injection mold 100 of the above embodiment has the first positioning structure 124 and the second positioning structure 224 for positioning and docking the upper mold core 10 and the lower mold core 20, so that the upper mold core 10 and the lower mold core 20 can be lowered. The degree of deviation is such that the yield of the product produced by the injection mold 100 by injection molding is high.

It can be understood that the injection mold 100 can be used for injection molding precision optical lenses, such as mobile lens lenses, vehicle lens lenses, and security lens lenses. Of course, the injection mold 100 is not limited to injection molding precision optical lenses, and can also be injection molded with other plastic products.

Specifically, the upper mold core 10 and the lower mold core 20 are columnar. Since the coaxiality of the upper mold core 10 and the lower mold core 20 affects the yield of the produced product, it is necessary to ensure the upper mold core 10 when molding the optical lens. The lower mold cores 20 can be accurately positioned to maximize the axial center of the upper mold core 10 and the axial center of the lower mold core 20. The injection mold 100 of the embodiment of the present invention is coupled by the first positioning structure 124 and the second positioning structure 224 so that the axis of the upper mold core 10 and the axis of the lower mold core 20 can be maximally overlapped, so that the injection molding can be performed. The products can meet the requirements of production.

Specifically, the first positioning structure 124 and the second positioning structure 224 can be integrally processed by a single-point lathe, and the accuracy of the single-point lathe is 0.0001 um. The single point lathe is integrally processed, which can reduce the eccentricity of the upper mold core 10 and the lower mold core 20, and improve the coaxiality of the upper mold core 10 and the lower mold core 20.

It can be understood that since the upper die 10 is inserted in the upper die plate 40, the overall thickness of the upper die 10 and the upper die 40 can be lowered. Further, the lower mold core 10 is inserted into the lower die plate 50, so that the thickness of the lower mold core 10 and the lower mold plate 50 can be lowered, so that the injection mold 100 can be miniaturized.

Specifically, the upper mold core 10 can be inserted into the upper die plate 40 by adhesive, and the lower mold core 10 can also be inserted into the lower die plate 50 by adhesive. Since the upper mold core 10 and the lower mold core 20 are directly in contact with the mold cavity 30, the upper mold core 10 and the lower mold core 20 are subjected to an impact force greater than that of the upper mold 40 and the lower mold 50, and therefore, When selecting the manufacturing material, it is necessary to ensure that the materials of the upper mold core 10 and the lower mold core 20 have stronger impact resistance than the materials of the upper mold 40 and the lower mold 50.

The insertion of the upper mold core 10 into the upper die plate 40 is understood to mean that the upper mold core 10 is housed in the upper die plate 40. The insertion of the lower mold core 10 into the lower mold 50 can be understood as the upper mold core 10 being housed in the upper mold 40.

Referring to FIGS. 5-6, in some embodiments, the first positioning structure 124 includes a protrusion 1242 at the edge of the first mating face 12. The second positioning structure 224 includes a recess 2242 formed at an edge of the second mating face 22. The protrusion 1242 is received in the recess 2242.

Thus, by interposing the projections 1242 and the recesses 2242, the positioning between the upper mold core 10 and the lower mold core 20 can be made more precise.

It should be noted that the number of the protrusions 1242 may be plural, and the number of the grooves 2242 may be plural.

Of course, in another embodiment, the first positioning structure 124 includes a groove at the edge of the first mating face 12. The second positioning structure 224 includes protrusions that form an edge with the second abutment surface 22. The groove of the first positioning structure 124 is received in the protrusion of the second positioning structure 224. By positioning the grooves of the first positioning structure 124 and the projections of the second positioning structure 224, the positioning between the upper mold core 10 and the lower mold core 20 can be made more precise.

Referring to FIG. 2 and FIG. 4 again, in some embodiments, the protrusion 1242 includes a first connecting surface 12421 facing the second mating surface 22 and a first connecting first connecting surface 12421 and the first mating surface 12 The bevel 12423 is connected. The recess 2242 includes a second connecting surface 22421 that is coupled to the first connecting surface 12421 and a second connecting inclined surface 22423 that connects the second connecting surface 22421 and the second mating surface 22. The second connecting slope 22423 is in contact with the first connecting slope 12423.

Thus, since the first connecting bevel 12423 and the second connecting bevel 22423 are fitted to each other to make the positioning between the upper die 10 and the lower die 20 more precise.

Specifically, in one embodiment, the first connecting inclined surface 12423 and the second connecting inclined surface 22423 are respectively adhered with a rubber layer, such that the rubber layer can make the first connecting inclined surface 12423 and the second connecting inclined surface 22423 fit closer together. Therefore, the positioning of the upper mold core 10 and the lower mold core 20 is more precise.

Referring to Figures 2 and 4, in some embodiments, the upper mold core 10 and the lower mold core 20 are both columnar. The angle a between the first connecting bevel 12423 and the central axis of the upper die 10 is 0-30 degrees.

Thus, the upper mold core 10 and the lower mold core 20 can be more easily positioned and fitted, and at the same time, the upper mold core 10 and the lower mold core 20 are easily separated during the mold opening process of the injection mold 100.

It can be understood that the upper mold core 10 and the lower mold core 20 can be cylindrical and prismatic. Of course, the shapes of the upper mold core 10 and the lower mold core 20 are not limited to the above-described embodiments, and may be designed into other shapes according to actual needs.

The angle a between the first connecting inclined surface 12423 and the central axis of the upper mold core 10 is 0-45 degrees. It can be understood that the angle a between the first connecting inclined surface 12423 and the central axis of the upper mold core 10 can be designed according to actual needs. It is any angle between 0 and 45 degrees. Of course, the angle a between the first connecting bevel 12423 and the central axis of the upper die 10 includes 0 or 45 degrees.

It should be noted that the angle a between the second connecting slope 22423 and the central axis of the lower mold core 10 is also 0-30 degrees. In the embodiment of the present invention, it is necessary to ensure that the angle between the first connecting slope 12423 and the central axis of the upper mold core 10 and the angle between the second connecting slope 22423 and the central axis of the lower mold core 10 are the same.

Referring again to FIG. 3, in some embodiments, the first mating face 12 is formed with a first cavity 126. The first cavity 126 is spaced apart from the first positioning structure 124. The second mating face 22 is formed with a second cavity 226. The second cavity 226 is spaced apart from the second positioning structure 224. The first cavity 126 is in communication with the second cavity 226 to collectively define the mold cavity 30.

In this way, the plastic material can be cooled and formed in the mold cavity 30.

It should be noted that the number of mold cavities 30 may be two or more. The shape of the mold cavity 30 can be adjusted according to the needs of the product.

In certain embodiments, the injection mold 100 includes a thimble 70. The ejector pin 70 is passed through the lower die plate 50. The thimble 70 is movable relative to the lower die plate 50 to extend into the flow passage 60.

Thus, when the plastic material is solidified in the mold cavity 30, the upper mold 40 and the upper mold core 10 can be opened by opening the mold, and the plastic material 105 is ejected by the ejector needle 70, and the waste rubber is processed. Get a plastic product.

Specifically, the ejector pin 70 can be moved up and down for ejecting the plastic member 105.

It should be noted that the number of thimbles 70 can be plural.

In certain embodiments, the injection mold 100 includes an upper ejector plate 101 and a lower ejector plate 102. The upper ejector plate 101 and the lower ejector plate 102 fix the ejector pin 70, and when the upper ejector plate 101 and the lower ejector plate 102 move, the ejector pin 70 can be moved together.

Referring again to FIG. 1, in some embodiments, the upper template 40 is provided with a first positioning device 42. The lower template 50 is provided with a second positioning device 52. The first positioning device 42 and the second positioning device 52 are coupled to each other to position the upper template 40 and the lower template 50.

Thus, the upper template 40 and the lower template 50 can be accurately positioned by the first positioning device 42 and the second positioning device 52 being mated.

It can be understood that in one embodiment, the first positioning device 42 includes a positioning protrusion and the second positioning device 52 includes a positioning groove. The first positioning device 42 and the second positioning device 52 are attached to each other by positioning protrusions and positioning grooves to realize positioning of the upper template 40 and the lower template 50.

Referring again to FIG. 1, in some embodiments, the upper template 40 is provided with a first height adjustment block 44. The first height adjustment block 44 cooperates with the upper mold core 10 to adjust the height of the upper mold core 10 relative to the top of the upper mold. The lower template 50 is provided with a second height adjustment block 54. The second height adjustment block 54 cooperates with the lower mold core 20 to adjust the height of the lower mold core 20 relative to the bottom of the lower mold 50.

As such, the injection mold 100 can be molded into different types of plastic members 105 by the first height adjustment block 44 and the second height adjustment block 54.

Specifically, since the different types of plastic members 105 have different thicknesses, the heights of the upper mold core 10 and the lower mold core 20 of the injection mold 100 can be adjusted according to the thickness of the plastic member 105. During assembly, the height of the upper mold core 10 relative to the top of the upper mold plate is inconsistent with the predetermined height and needs to be reassembled until it meets the predetermined height. Repeating the disassembly of the upper mold core 10 in this manner causes the precision of the injection mold 100 to decrease, thereby degrading the precision of the plastic member 105. Similarly, repeated removal of the mold core 20 causes the precision of the injection mold 100 to decrease.

Therefore, the first height adjusting block 44 and the second height adjusting block 54 provided by the embodiments of the present invention, when the upper mold core 10 is assembled, if the height of the upper mold core 10 relative to the top of the upper mold 40 is found to be a predetermined height. Inconsistent, the height of the upper mold core 10 relative to the top of the upper mold 40 can be adjusted by adjusting the tightness of the combination of the first height adjustment block 44 and the upper mold core 10.

Specifically, when the first height adjusting block 44 and the upper mold core 10 are locked by screws, if the height of the upper mold core 10 relative to the top of the upper mold 40 is less than a predetermined height, the screw can be loosened by loosening the screw. The height of the upper mold core 10 relative to the top of the upper mold 40 (i.e., the difference between the upper mold core 10 and the top of the upper mold 40) is increased. If the height of the upper mold core 10 relative to the top of the upper mold 40 exceeds a predetermined height, the height of the upper mold core 10 relative to the top of the upper mold 40 can be reduced by tightening the screws (ie, the upper mold core 10 and the upper mold plate are reduced). The difference between the tops of 40).

In this way, the height of the top of the upper mold core 10 relative to the upper die plate 40 can be quickly adjusted to avoid the degradation of the precision of the injection mold 100 caused by repeated disassembly.

Similarly, the height of the lower mold core 20 relative to the top of the lower die plate 50 can be adjusted by adjusting the height of the second height adjusting block 54 and will not be described herein.

Referring again to FIG. 1, in some embodiments, the injection mold 100 includes a nozzle 80 and a mold mounting plate 90 stacked on the upper template 40. The nozzle 80 is housed in the upper mold fixing plate 90 and the upper mold 40. The nozzle 80 is formed with a nozzle passage 82 that communicates with the flow passage 60.

As such, this allows the plastic material to enter the flow channel 60 more easily through the nozzle channel 82.

It will be appreciated that the nozzle 80 is used to inject molten plastic material into the injection mold 100. The upper mold fixing plate 90 is used to fix the upper mold 40.

In certain embodiments, the injection mold 100 includes a lower mold mounting plate 103. It can be understood that the upper mold fixing plate 90 and the lower mold fixing plate 103 are oppositely disposed. The upper mold fixing plate 90 fixes the upper mold 40 by screws. The lower mold fixing plate 103 fixes the lower mold 50 by screws.

Referring again to FIG. 1, in some embodiments, the injection mold 100 includes a locating ring 104 disposed on the upper mold retaining plate 90. The positioning ring 104 defines a flow guiding hole 1042 that communicates with the nozzle channel 82.

As such, the flow guiding holes 1042 facilitate the injection of plastic material into the flow path 60. The positioning ring 104 is fixed to the upper film fixing plate 90 by screws, for example.

Specifically, the shape of the flow guiding hole 1042 is approximately funnel shaped. The diameter of the flow guiding hole 1042 gradually decreases from one end away from the flow path 60 to one end near the flow path 60.

In the description of the specification, the description of the terms "one embodiment", "some embodiments", "illustrative embodiment", "example", "specific example", or "some examples", etc. Specific features, structures, materials, or characteristics of the embodiments or examples are included in at least one embodiment or example of the invention. In the present specification, the schematic representation of the above terms does not necessarily mean the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable embodiment or embodiment.

While the embodiments of the present invention have been shown and described, the embodiments of the invention The scope of the invention is defined by the scope of the claims and their equivalents.

100‧‧‧Injection mould

10‧‧‧上模仁

12‧‧‧ first docking surface

124‧‧‧First positioning structure

1242‧‧‧ bump

12421‧‧‧First connection surface

12423‧‧‧First connecting bevel

126‧‧‧First cavity

20‧‧‧下模仁

22‧‧‧ second docking surface

224‧‧‧Second positioning structure

2242‧‧‧ Groove

22421‧‧‧second connection surface

22423‧‧‧Second connection bevel

226‧‧‧Second cavity

30‧‧‧Mold cavity

40‧‧‧Upper template

42‧‧‧First positioning device

44‧‧‧First height adjustment block

50‧‧‧Next template

52‧‧‧Second positioning device

54‧‧‧Second height adjustment block

60‧‧‧ flow path

70‧‧‧ thimble

80‧‧‧Gun

82‧‧‧Pipe channel

90‧‧‧Upper mold fixing plate

101‧‧‧Upper pin board

102‧‧‧ Lower thimble plate

103‧‧‧Mold fixing plate

104‧‧‧ positioning ring

1042‧‧‧Inlet

105‧‧‧Plastic parts

The above and/or additional aspects and advantages of the present invention will become apparent and readily understood from the following description of the embodiments of the present invention in which: FIG. 1 is a schematic cross-sectional view of an injection mold of an embodiment of the present invention. Fig. 2 is an enlarged schematic view of the portion of the injection mold II in Fig. 1. Fig. 3 is a schematic cross-sectional view showing the mold core and the lower mold core in the embodiment of the present invention. Fig. 4 is an enlarged schematic view showing the IV portion of the upper mold core and the lower mold core in Fig. 3. Figure 5 is a perspective view of the mold core and the lower mold core in the embodiment of the present invention. Figure 6 is a schematic cross-sectional view showing another structure of the mold core and the lower mold core in the embodiment of the present invention.

Claims (10)

An injection mold, the improvement comprising: an upper mold core, the upper mold core includes a first mating surface, the first mating surface is formed with a first positioning structure; and a lower mold core, the lower mold core includes The first mating surface is opposite to the second mating surface, and the second mating surface is formed with a second positioning structure. The upper mold core is positioned by the first positioning structure and the second positioning structure of the lower mold core. The docking surface is connected to the second mating surface and jointly defines a mold cavity; an upper template, the upper mold is inserted in the upper template; and a lower template is stacked on the upper template, and the lower mold is inserted In the lower template, the upper template and the lower template are formed with a flow path communicating with the mold cavity. The injection molding die of claim 1, wherein the first positioning structure comprises a protrusion at an edge of the first abutting surface, and the second positioning structure comprises a groove formed at an edge of the second abutting surface, The projection is received in the recess. The injection mold of claim 2, wherein the protrusion comprises a first connection surface facing the second abutment surface and a first connection slope connecting the first connection surface and the first abutment surface, The groove includes a second connecting surface that is in contact with the first connecting surface and a second connecting inclined surface that connects the second connecting surface and the second connecting surface, and the second connecting inclined surface is matched with the first connecting inclined surface . The injection mold according to claim 3, wherein the upper mold core and the lower mold core are in a column shape, and an angle between the first connection slope and the central axis of the upper mold core is 0-45 degrees. The injection mold according to claim 1, wherein the first abutting surface is formed with a first cavity, the first cavity is spaced apart from the first positioning structure; and the second abutting surface is formed with a second cavity The second cavity is spaced from the second positioning structure, and the first cavity communicates with the second cavity to collectively define the mold cavity. An injection mold according to claim 1, wherein the injection mold includes a thimble, the thimble penetrating the lower template, and the thimble is movable relative to the lower template into the flow path. The injection mold according to claim 1, wherein the upper template is provided with a first positioning device, and the lower template is provided with a second positioning device, and the first positioning device and the second positioning device are coupled to each other. The upper template is positioned to be positioned with the lower template. The injection mold according to claim 1, wherein the upper template is provided with a first height adjustment block, and the first height adjustment block cooperates with the upper mold to adjust the height of the upper mold relative to the top of the upper mold. The lower template is provided with a second height adjusting block, and the second height adjusting block cooperates with the lower mold to adjust the height of the lower mold relative to the bottom of the lower mold. The injection mold according to claim 1, wherein the injection mold comprises a nozzle and a mold fixing plate stacked on one of the upper templates, the nozzle is received in the upper mold fixing plate and the upper template; The mouth is formed with a nozzle passage in communication with the flow passage. The injection mold according to claim 9, wherein the injection mold comprises a positioning ring disposed on the upper mold fixing plate, and the positioning ring is provided with a flow guiding hole communicating with the nozzle passage.