CN206030387U - Injection molding machine and for injection molding machine die carrier, mould, runner module - Google Patents

Abstract

The utility model discloses an injection molding machine and for injection molding machine die carrier, mould, runner module, wherein the mould includes for the injection molding machine: the die carrier body be provided with the mounting groove on the die carrier body, the runner module, runner module detachably set up in in the mounting groove, the runner module has pan feeding mouth and discharge gate, wherein, be in still be formed with the intercommunication on the die carrier the branch branch fluid channel of mounting groove, divide the branch fluid channel structure to do: the runner module install in in the time of in the mounting groove, divide branch fluid channel communicate in the discharge gate of runner module. Be formed with the mounting groove, the runner with the modular structrual installation to the mounting groove in, made things convenient for the change of runner.

Description

Injection molding machine and die carrier, die and runner module for injection molding machine

Technical Field

The present disclosure relates generally to the field of injection molding, and more particularly to injection molding machines, and mold carriers, molds, and runner modules for injection molding machines.

Background

During injection molding, the raw materials are required to be melted and distributed through the flow channel, so that the part bent by the flow channel is very easy to block, the work of the injection molding machine is influenced, the flow channel needs to be replaced, but the flow channel of the injection molding machine is directly fixed with a mold, the mold needs to be detached together when the flow channel is replaced, time and labor are wasted, the accuracy of the mold during closing the mold can be influenced by frequent detachment, and the product yield is reduced.

In addition, in small-scale production, if the color of the injection mold is to be changed, the runner is often replaced, and the runner is replaced together with the mold in the same manner as the above steps.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned drawbacks and deficiencies of the prior art, it is desirable to provide a mold frame for an injection molding machine, comprising: the die carrier comprises a die carrier body, wherein a mounting groove is formed in the die carrier body; the runner module is detachably arranged in the mounting groove and is provided with a feeding port and a discharging port; wherein, still be formed with the branch runner of intercommunication the mounting groove on the die carrier, the branch runner structure is: when the runner module is installed in the installation groove, the branch runner is communicated with the discharge hole of the runner module.

On the other hand, this application still provides a mould for injection molding machine, includes: the die comprises a die body, wherein a mounting groove is formed in the die body; the runner module is detachably arranged in the mounting groove and is provided with a feeding port and a discharging port; wherein a branch flow passage communicating with the mounting groove is further formed on the mold, the branch flow passage being configured to: when the runner module is installed in the installation groove, the branch runner is communicated with the discharge hole of the runner module.

In yet another aspect, the present application further provides an injection molding machine comprising: the mold frame for the injection molding machine; or comprises the following steps: the mold for injection molding machine.

This application still provides a runner module for injection molding machine at last, the runner module has pan feeding mouth and discharge gate, runner module detachably sets up in foretell die carrier for injection molding machine in the mounting groove, perhaps, runner module detachably sets up in foretell mould for injection molding machine in the mounting groove.

Based on the content, the die frame or the die is provided with the mounting groove, and the runner is mounted in the mounting groove in a modularized structure, so that the runner is convenient to replace.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

FIG. 1 is an exploded view of a mold frame for an injection molding machine of the present application;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

FIG. 3 is an enlarged view of a portion B of FIG. 1;

FIG. 4 is a schematic view showing the overall structure of a mold frame for an injection molding machine according to the present application;

FIG. 5 is a schematic view of an injection molding machine using a mold frame for the injection molding machine;

FIG. 6 is an exploded view of a mold for an injection molding machine of the present application;

fig. 7 is a partial enlarged view of a' in fig. 6.

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and are not limiting of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

The application discloses a mold frame for an injection molding machine, a mold for an injection molding machine, a runner module for an injection molding machine, and an injection molding machine, which are described below with respect to each aspect, respectively.

The first embodiment is as follows:

first, a mold frame for an injection molding machine will be described, and for convenience of description, the mold frame will be hereinafter simply referred to as a mold frame.

Referring to fig. 1, the mold frame includes: the die carrier body 1 is provided with the mounting groove, the runner module 2 is detachably arranged in the mounting groove, the runner module 2 comprises a feed port and a discharge port, and the discharge port and the feed port are communicated with each other to form a runner, so that injection molding raw materials can flow. The die carrier is generally suitable for installing a die for use, and it can be understood that injection molding raw materials are used for injection molding in a die cavity of the die, a plurality of die cavities are possible to be formed during injection molding, a plurality of products are simultaneously injected, a plurality of dies are also installed on the die carrier, and in order to supply injection molding raw materials for each die, a branch flow passage is further formed on the die carrier and communicated with a mounting groove, and when the flow passage module 2 is installed in the mounting groove, the branch flow passage is communicated with a discharge hole of the flow passage module 2.

When raw materials are blocked or the runner needs to be replaced due to other reasons, the runner module 2 is directly taken out and replaced by a new runner module 2, the modularized runner is convenient to replace, and the working efficiency is improved.

In an alternative embodiment, the branch flow channel is formed on the branch flow channel module 4, and the branch flow channel module 4 is formed on the die carrier body 1, which also facilitates the replacement of the branch flow channel. As shown in fig. 1, a hole 11 is formed in the formwork body, and the branch flow path module is disposed in the hole 11.

Optionally, the branch flow channel is perpendicular to the flow channel module 2 at a position where the branch flow channel communicates with the flow channel module 2. Of course, the branch flow path may be disposed at an angle to the stay module, taking the direction in which the flow path module 2 is fitted into the fitting groove as a first direction, and the branch flow path module 4 is inclined with respect to the first direction at a position where the branch flow path communicates with the flow path module 2. That is, the branch flow path is inclined in the direction of feeding the injection raw material, and contributes to the flow of the raw material to avoid clogging due to accumulation.

In one embodiment, referring to fig. 2 and 3, in order to facilitate the installation of the runner module 2, a first guide 41 is provided in the installation groove; a second guide 42, which is adapted to the first guide 41, is provided on the flow channel module 2. Preferably, the first guide means 41 is a guide groove, and the second guide means 42 is a guide projection; or the first guide device is a guide protrusion, and the second guide device is a guide groove. The concrete form of first and second guider can be the multiple, as long as can form and play the direction function and all can be used for when installing to runner module 2 the utility model discloses.

In another embodiment, in order to fix the installed runner module 2 and ensure the positioning and the alignment of the runner module 2 and the branch runner, a positioning device is provided, and a first positioning device is arranged in the installation groove; a second positioning device, which is adapted to the first positioning device, is arranged on the flow channel module 2.

The first positioning device is a buckle, and the second positioning device is a clamping groove; or, the first positioning device is a clamping groove, and the second positioning device is a buckle. Likewise, the first and second positioning means may be in various forms.

It is noted that the positioning means may be mechanical, e.g. by applying a force to move the catch into the slot during mounting, and by applying a force to move the opening out of the slot during dismounting. Or an electronic form can be adopted, after the installation, the control card slot is popped out to enter the card slot, and vice versa during the disassembly. In any form, the positioning of the runner module 2 and the die carrier body can be achieved to be applicable to the present application.

Finally, explaining the composition of the die carrier, the die carrier is composed of two die carrier plates, as shown in fig. 1, a first die carrier plate and a second die carrier plate are respectively, grooves 12 are respectively formed on the opposite sides of the first die carrier plate and the second die carrier plate, and the grooves are spliced to form the mounting grooves. When mounted, the two plywood layers can be connected by screws 6, but can also be connected in other ways, such as welding. Fig. 5 is a spliced formwork structure.

It should be understood that the mold frame is generally used for installing the mold, but different mold frame structures can be used according to different conditions of different injection molding machines, the mold frame is different from the traditional mold frame, the traditional mold frame can only play a role of fixing the mold, and the mold frame is provided with a branch flow passage for injecting materials into the mold besides fixing the mold.

For the convenience of understanding the mold frame of the present application, the structure of the mold frame of the present application and the structure of the injection molding machine using the mold frame are described below, but of course, the present application is only for convenience of understanding and is not limited thereto.

In addition to the mounting grooves and the branch flow passages, the mold frame has a mounting structure for mounting a mold, and it should be noted that the mold herein is a mold used for the mold frame of the present application, and is different from the mold for an injection molding machine mentioned in the present application, especially the mold in the following other embodiments, or the mold in the present embodiment is merely used as a reference for helping understanding the mold frame structure, which may have no correlation with the mold in the following embodiments.

The opposite sides of the mold frame are respectively provided with the installation structures (corresponding to the above, it can also be described that the installation structures are respectively formed on the sides of the mold frame plates opposite to each other, it is understood that the mold frame is formed by two mold frame plates, which is only one embodiment, and it can also be an integral structure, therefore, the installation structures can be provided in any form). Corresponding to the mold frame used in the present embodiment, the mold used in the present embodiment may be composed of a first mold block 51 and a second mold block 52 which are matched, wherein the first mold block 51 is fixedly disposed on the mounting structure of the mold frame for the injection molding machine, and a mold runner is formed on the first mold block 51 and is communicated with the mold frame runner. The first die has opposite first and second sides, the first side for mating with the mounting structure and the second side for mating with the second die block; an inlet of a mold runner is formed at the first side and an outlet of the mold runner is formed at the second side.

For clarity of understanding, an injection molding machine using the mold frame of the present embodiment will be described, but the injection molding machine is also used as an example for aiding understanding and is not related to the injection molding machine of the second embodiment described below.

Referring to fig. 5, the injection molding machine includes: the device comprises a first module, a second module and an intermediate module, wherein the intermediate module is arranged between the first module and the second module; the middle module is provided with the die carrier 1 for the injection molding machine; the first module and the second module are respectively provided with a die connecting device for installing a die.

The two opposite sides of the die carrier are respectively provided with a mounting structure, each mounting structure is respectively provided with a first die block 51, and the first module and the second module are respectively provided with a second die block 52. Of course, in order to supply the mold runner of the first mold block, branch runners are respectively formed on two sides of the mold frame for the injection molding machine, which are back to each other, and are communicated with the discharge port to guide the injection molding material flowing out of the discharge port into the mold runner.

The first module and the middle module are movable modules, and the second module is a fixed module. During operation, the first module and the middle module move towards the second module simultaneously, and finally the first module, the second module and the middle module are in place simultaneously, so that the first die block and the second die block arranged on the first module and the second module are matched, namely, the second grinding tool on the first module is matched with the first die block on one side of the middle module, the first die block on the other side of the middle module is matched with the second die block on the second module, and two die cavities are formed simultaneously. The injection molding operation is then started.

Example two

The present embodiment discloses a mold for injection molding machine, hereinafter referred to as mold, see fig. 6, the mold includes: the mould that is provided with the mounting groove is originally 1' to and the runner module 2 of detachably setting in the mounting groove, runner module 2 includes feed inlet and discharge gate, certainly, is the intercommunication between discharge gate and the feed inlet, is formed with the runner, can supply the raw materials of moulding plastics to flow. In the present embodiment, the flow path module 2 may be identical in part to the flow path module 2 in the embodiment.

The mold is generally fixed to a mold frame, but it should be noted that the mold frame mentioned in this embodiment is not the mold frame of the embodiment, and the mold frame in this embodiment is used for fixing the mold in a general sense.

As the mold, there may be a cavity, and each mold may have a plurality of cavities, so that a branch flow passage is further formed on the mold, the branch flow passage communicates with the mounting groove, and when the flow passage module 2 is mounted in the mounting groove, the branch flow passage communicates with the discharge port of the flow passage module 2, and after the branch flow passage communicates with the discharge port, the other end communicates with the cavity, and the injection molding material in the flow passage module 2 is introduced into the cavity.

When raw materials are blocked or the runner needs to be replaced due to other reasons, the runner module 2 is directly taken out and replaced by a new runner module 2, the modularized runner is convenient to replace, and the working efficiency is improved.

In an alternative embodiment, the branch runners are formed on a branch runner module 4 'and the branch runner module 4' is formed on the mold body, which also facilitates the replacement of the branch runners. As shown in fig. 6, a hole 11 'is formed in the formwork body, and the branch flow path module is disposed in the hole 11'.

Optionally, the branch flow channel is perpendicular to the flow channel module 2 at a position where the branch flow channel communicates with the flow channel module 2. Of course, the branch flow path may be disposed at an angle to the stay module, taking the direction in which the flow path module 2 is fitted into the fitting groove as a first direction, and the branch flow path is inclined with respect to the first direction at a position where the branch flow path communicates with the flow path module 2. That is, the branch flow path is inclined in the direction of feeding the injection raw material, and contributes to the flow of the raw material to avoid clogging due to accumulation.

In one embodiment, to facilitate the installation of the runner module 2, referring to fig. 7 and 3, a first guide 41' is provided in the installation groove; a second guide 42 is provided on the flow channel module 2, which is adapted to the first guide (see fig. 3, since the flow channel module in this embodiment may be identical to that in the first embodiment). Preferably, the first guide means is a guide groove, and the second guide means is a guide projection; or the first guide device is a guide protrusion, and the second guide device is a guide groove. The concrete form of first and second guider can be the multiple, as long as can form and play the direction function and all can be used for when installing to runner module 2 the utility model discloses.

In another embodiment, in order to fix the installed runner module 2 and ensure the positioning and the alignment of the runner module 2 and the branch runner, a positioning device is provided, and a first positioning device is arranged in the installation groove; a second positioning device, which is adapted to the first positioning device, is arranged on the flow channel module 2.

The first positioning device is a buckle, and the second positioning device is a clamping groove; or, the first positioning device is a clamping groove, and the second positioning device is a buckle. Likewise, the first and second positioning means may be in various forms.

It is noted that the positioning means may be mechanical, e.g. by applying a force to move the catch into the slot during mounting, and by applying a force to move the opening out of the slot during dismounting. Or an electronic form can be adopted, after the installation, the control card slot is popped out to enter the card slot, and vice versa during the disassembly. In either form, the ability to position the runner module 2 and the die body can be used for this application.

Finally, the composition of the die is described, the die is composed of oppositely arranged die plates, each die plate is provided with a groove 12 ', and the grooves 12' are spliced to form the mounting groove.

The die frame for the injection molding machine comprises two die plates, namely a first die plate and a second die plate, wherein grooves are formed in the opposite sides of the first die plate and the second die plate respectively, and the grooves are spliced into the mounting grooves. Of course, the mold may be of unitary construction and then the mounting groove formed.

Of course, as a mold, it should also have a mold cavity 15 ', see fig. 6, and the mold cavity 15' may have various forms, and in an alternative form, mold cavities are respectively formed on both sides of the mold facing away from each other, and the mold cavities communicate with the branch runners. Of course, if the mold is composed of a first mold plate and a second mold plate, it can also be described as: on the sides of the first and second mold plates facing away from each other, mold cavities are formed, respectively. It should be noted that the mold cavities and branch runners, etc. are not necessarily shown to scale in fig. 6 for clarity of illustration.

In addition, it should be understood that the mold used in general injection molding includes two mold blocks, which are clamped to each other to form a complete mold cavity for injection molding of the product. The mold described in this embodiment is generally a mold block, and usually needs to be matched with another mold block during operation, for convenience of description, the mold described in this embodiment may refer to one mold block in the mold, and for convenience of description, the mold formed with the branch runner is referred to as a first mold block, so that a second mold block matched with the first mold block may be disposed to form a complete mold cavity. And the two sides form a die cavity respectively, which can be understood as that the first die block has die cavities in two directions and two second die blocks correspondingly.

For clarity of understanding, an injection molding machine using the mold of the present embodiment will be described, but the injection molding machine is also used as an example for aiding understanding and is not related to the injection molding machine of the first embodiment.

The injection molding machine comprises: the device comprises a first module, a second module and an intermediate module, wherein the intermediate module is arranged between the first module and the second module; the middle module has the above-mentioned mold for injection molding machine, or the mold for injection molding machine constitutes the middle wood block, of course, the mold for injection molding machine mentioned herein generally refers to the first mold block, and the first module and the second module are respectively provided with a mold connecting device for installing the second mold block.

The first module and the middle module are movable modules, and the second module is a fixed module. During operation, the first module and the middle module move towards the second module simultaneously, and finally the first module, the second module and the middle module are in place simultaneously, so that the first die block and the second die block arranged on the first module and the second module are matched, namely, the second die block on the first module is matched with the first die block on one side of the middle module, the first die block on the other side of the middle module is matched with the second die block on the second module, and two die cavities are formed simultaneously. The injection molding operation is then started.

EXAMPLE III

The embodiment discloses an injection molding machine, which comprises the mold frame for the injection molding machine in the embodiment one, or comprises the mold for the injection molding machine in the embodiment two.

Example four

The embodiment discloses a runner module 2 for injection molding machine, runner module 2 has pan feeding mouth and discharge gate, and runner module 2 detachably sets up in the mounting groove of the die carrier for injection molding machine in embodiment one, perhaps, runner module 2 detachably sets up in the die for injection molding machine in embodiment two in the mounting groove.

In an alternative embodiment, the flow channel module 2 has at least one outlet opening; when the runner module 2 is installed in the installation groove of the mold frame for the injection molding machine in the first embodiment, the discharge port is communicated with the branch runner of the mold frame for the injection molding machine; when the runner module 2 is installed in the installation groove of the mold for the injection molding machine in the second embodiment, the discharge port is communicated with the branch runner of the mold for the injection molding machine;

in an alternative embodiment, the runner module 2 is further provided with a second guiding device for cooperating with the first guiding device of the mold frame for injection molding machine in the first embodiment, or for cooperating with the first guiding device of the mold for injection molding machine in the second embodiment. Preferably, the second guiding means is a guiding projection; or, the second guiding device is a guiding groove.

The runner module 2 is further provided with a second positioning device, which is used for being matched with the first positioning device of the mold frame for the injection molding machine in the first embodiment, or used for being matched with the first positioning device of the mold for the injection molding machine in the second embodiment. The second positioning device is a clamping groove; or, the second positioning device is a buckle.

The second positioning means and the second guiding means may have various structures, and may be the same as those described in the first embodiment and the second embodiment.

The above description is only a preferred embodiment of the application and is illustrative of the principles of the technology employed. It will be understood by those skilled in the art that the scope of the present invention is not limited to the specific combination of the above-mentioned features, but also covers other embodiments formed by any combination of the above-mentioned features or their equivalents without departing from the spirit of the present invention. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.

Claims (27)

1. A mold frame for an injection molding machine, comprising:

the die carrier comprises a die carrier body, wherein a mounting groove is formed in the die carrier body;

the runner module is detachably arranged in the mounting groove and is provided with a feeding port and a discharging port; wherein,

a branch flow passage communicated with the mounting groove is further formed on the die carrier, and the branch flow passage is structured as follows: when the runner module is installed in the installation groove, the branch runner is communicated with the discharge hole of the runner module.

2. The mold frame for injection molding machines according to claim 1,

the die carrier further comprises a branch flow channel module, wherein the branch flow channel module is formed on the die carrier body, and the branch flow channel is formed on the branch flow channel module.

3. The mold frame for injection molding machine according to claim 2,

and the branch flow channel is vertical to the flow channel module at the position where the branch flow channel is communicated with the flow channel module.

4. The mold frame for injection molding machine according to claim 2,

and taking the direction of the runner module installed in the installation groove as a first direction, and inclining the branch runner relative to the first direction at the position where the branch runner is communicated with the runner module.

5. The mold frame for injection molding machines according to claim 1,

a first guide device is arranged in the mounting groove;

and a second guide device matched with the first guide device is arranged on the flow channel module.

6. The mold frame for injection molding machines according to claim 5,

the first guide device is a guide groove, and the second guide device is a guide bulge; or,

the first guide device is a guide protrusion, and the second guide device is a guide groove.

7. The mold frame for injection molding machines according to claim 1,

a first positioning device is arranged in the mounting groove;

and a second positioning device matched with the first positioning device is arranged on the flow channel module.

8. The mold frame for injection molding machines according to claim 7,

the first positioning device is a buckle, and the second positioning device is a clamping groove; or,

the first positioning device is a clamping groove, and the second positioning device is a buckle.

9. Mold frame for injection molding machines according to any of claims 1 to 8,

the die carrier for the injection molding machine is composed of a first die carrier plate and a second die carrier plate, grooves are formed in the mutually facing sides of the first die carrier plate and the second die carrier plate respectively, and the grooves are spliced into the mounting grooves.

10. Mold frame for injection molding machines according to any of claims 1 to 8,

the die carriers for the injection molding machine are respectively provided with branch runners at two sides back to back and communicated with the discharge port.

11. A mold for an injection molding machine, comprising:

the die comprises a die body, wherein a mounting groove is formed in the die body;

the runner module is detachably arranged in the mounting groove and is provided with a feeding port and a discharging port; wherein,

a branch flow passage communicating with the mounting groove is further formed on the mold, and the branch flow passage is configured to: when the runner module is installed in the installation groove, the branch runner is communicated with the discharge hole of the runner module.

12. The mold for injection molding machine according to claim 11,

the mold further comprises a branch runner module, wherein the branch runner module is formed on the mold body, and the branch runner is formed on the branch runner module.

13. The mold for injection molding machine according to claim 12,

and the branch flow channel is vertical to the flow channel module at the position where the branch flow channel is communicated with the flow channel module.

14. The mold for injection molding machine according to claim 12,

and taking the direction of the runner module installed in the installation groove as a first direction, and inclining the branch runner relative to the first direction at the position where the branch runner is communicated with the runner module.

15. The mold for injection molding machine according to claim 11,

a first guide device is arranged in the mounting groove;

and a second guide device matched with the first guide device is arranged on the flow channel module.

16. The mold for injection molding machine according to claim 15,

the first guide device is a guide groove, and the second guide device is a guide bulge; or,

the first guide device is a guide protrusion, and the second guide device is a guide groove.

17. The mold for injection molding machine according to claim 11,

a first positioning device is arranged in the mounting groove;

and a second positioning device matched with the first positioning device is arranged on the flow channel module.

18. The mold for injection molding machine according to claim 17,

the first positioning device is a buckle, and the second positioning device is a clamping groove; or,

the first positioning device is a clamping groove, and the second positioning device is a buckle.

19. The mold for injection molding machine according to any one of claims 11 to 18,

the die carrier for the injection molding machine is composed of a first die plate and a second die plate, grooves are formed in the mutually facing sides of the first die plate and the second die plate respectively, and the grooves are spliced to form the mounting grooves.

20. The mold for injection molding machine according to any one of claims 11 to 18,

the two sides of the mold for the injection molding machine, which are back to back, are respectively provided with a branch flow passage which is communicated with the discharge hole.

21. An injection molding machine is characterized in that,

the method comprises the following steps: a mold frame for injection molding machine of any one of claims 1 to 10; or,

the method comprises the following steps: a mold for injection molding machine according to any one of claims 11 to 20.

22. A runner module for an injection molding machine is characterized in that,

the runner module is provided with a feeding port and a discharging port, and the runner module is detachably arranged in the mounting groove of the die carrier for the injection molding machine of any one of claims 1 to 10, or the runner module is detachably arranged in the mounting groove of the die carrier for the injection molding machine of any one of claims 11 to 20.

23. The runner module for an injection molding machine according to claim 22,

the runner module is provided with at least one discharge hole;

when the runner module is arranged in the mounting groove of the die carrier for the injection molding machine as claimed in any one of claims 1 to 10, the discharge port is communicated with a branch runner of the die carrier for the injection molding machine;

when the runner module is mounted in the mounting groove of the mold for injection molding machine according to any one of claims 11 to 20, the discharge port communicates with a branch runner of the mold for injection molding machine.

24. The runner module for an injection molding machine according to claim 22,

the runner module is further provided with a second guide device for cooperating with the first guide device of the mold frame for the injection molding machine according to claim 5, or for cooperating with the first guide device of the mold for the injection molding machine according to claim 15.

25. The runner module for an injection molding machine according to claim 24,

the second guide device is a guide bulge; or, the second guiding device is a guiding groove.

26. The runner module for an injection molding machine according to claim 22,

the runner module is further provided with a second positioning device, which is used for being matched with the first positioning device of the mold frame for the injection molding machine of claim 7, or used for being matched with the first positioning device of the mold for the injection molding machine of claim 17.

27. The runner module for an injection molding machine according to claim 26,

the second positioning device is a clamping groove; or, the second positioning device is a buckle.