CN213382621U - Pre-buried auxiliary tool based on inserts mould automatic loading - Google Patents

Abstract

The utility model provides a pre-buried supplementary tool based on inserts mould automatic loading, at first, conveyer and supplementary tool body have been set up, supplementary tool body is installed on the conveyer, supplementary tool body includes the bottom plate, linear guide, adjustable shelf and a plurality of pre-buried reference column, the bottom plate frame is located on the conveyer, slidable mounting has the adjustable shelf on the linear guide, a plurality of pre-buried reference column fixed mounting are on the adjustable shelf, the tip location of pre-buried reference column has the pin, the end connection of manipulator has pre-buried tongs, pre-buried tongs snatchs the pin under the drive of manipulator, then with in the pin embedding mould. The utility model discloses compare in prior art and advance pre-buried inserts at supplementary tool body, practice thrift and wait for the manual pre-buried time.

Description

Pre-buried auxiliary tool based on inserts mould automatic loading

Technical Field

The utility model relates to an automatic loading of inserts mould particularly, relates to a pre-buried auxiliary tool based on inserts mould automatic loading.

Background

Injection molding is a method for producing a model of an industrial product, and the product is generally produced by using rubber injection molding and plastic injection molding, and the injection molding can be divided into injection molding press molding and die casting.

The injection mold refers to a mold manufactured through an injection molding process, such as a mold with pin inserts, during production, after the injection mold is opened, pins are manually placed into each insert mounting area one by one, and the production mode has the advantages of more time consumption, low production efficiency and difficulty in meeting the requirements of efficient production.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a pre-buried supplementary tool based on inserts mould automatic loading compares in prior art pre-buried inserts that advances on supplementary tool body, practices thrift and waits for manual pre-buried time.

For this, the utility model provides a pre-buried auxiliary jig based on inserts mould automatic loading has at first set up conveyer and auxiliary jig body, and auxiliary jig body is installed on the conveyer, and auxiliary jig body includes bottom plate, linear guide, adjustable shelf and a plurality of pre-buried reference column, and on the conveyer was located to the bottom plate frame, linear guide fixed mounting in on the bottom plate, slidable mounting has the adjustable shelf on the linear guide, a plurality of pre-buried reference column fixed mounting on the adjustable shelf, and the tip location of pre-buried reference column has the pin, and the end connection of manipulator has pre-buried tongs, and pre-buried tongs snatchs the pin under the drive of manipulator, then with in the pin embedding mould.

Furthermore, the movable frame comprises a first movable plate and a second movable plate, the first movable plate is slidably mounted on the linear guide rail, the second movable plate is fixedly connected to the first movable plate, and the embedded positioning columns are fixedly mounted on the second movable plate.

Furthermore, three pre-buried positioning columns are fixedly mounted on the second movable plate.

Furthermore, a handle is fixedly mounted on the first movable plate.

Furthermore, two opposite ends of the linear guide rail are respectively provided with a stop block.

Furthermore, pre-buried tongs include locating plate, many grab the pole and the evacuation part, and many grab the pole and all fixed mounting in the locating plate with the evacuation part.

Further, the grabbing rod is a hollow rod, the position of the first end of the hollow rod corresponds to the position of the pin, and the second end of the hollow rod is communicated with the vacuumizing part.

Further, the vacuumizing part is an air pump.

Furthermore, a plurality of positioning grooves are formed in the mold, and the pins are embedded into the positioning grooves under the driving of the manipulator.

Furthermore, a magnet is arranged in the positioning groove.

The utility model provides a pre-buried auxiliary jig based on inserts mould automatic loading has at first set up conveyer and auxiliary jig body, and the conveyer is current equipment for carry the mould, auxiliary jig body does the utility model discloses a point, it is installed on the conveyer, and on the conveyer was erect to auxiliary jig body particularly, can not be along with the mould transmits on the conveyer. The auxiliary jig body comprises a bottom plate, a linear guide rail, a movable frame and a plurality of pre-embedded positioning columns, the bottom plate is arranged on the conveyor in a support mode, the linear guide rail is fixedly installed on the bottom plate, the movable frame is slidably installed on the linear guide rail, the pre-embedded positioning columns are fixedly installed on the movable frame, pins are positioned on the pre-embedded positioning columns, in short, the auxiliary jig body is used for fixing the pre-embedded positioning columns, the positions of the positioning grooves on the positions of the pre-embedded positioning columns and the mold are in one-to-one correspondence, the pre-embedded grippers are used for grabbing the pins by the auxiliary manipulator, the positions of the plurality of grabbing rods on the pre-embedded grippers are in one-to.

Therefore, compared with the prior art, the utility model has the following advantages:

1. the embedding machine embeds the inserts in advance, so that the time for waiting manual embedding is saved;

2. the enterprise cost is reduced: the productivity can be improved, and the method is suitable for mass production;

3. the production efficiency is improved: the high-degree automatic program can be continuously operated, and compared with the manual operation, the automatic program is not influenced by factors such as environment, emotion and the like, and the production efficiency is high;

4. the optimized production process comprises the following steps: the production flow of the whole process is stable, the management is convenient, the product quality can be effectively improved, and the product consistency is improved;

5. the maintenance cost is saved: the whole quality of equipment is reliable and stable, and the later stage maintenance debugging of being convenient for.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 is a schematic structural view of a pre-buried auxiliary fixture based on automatic loading of an insert mold according to an embodiment of the present invention;

fig. 2 is the embodiment of the utility model provides a pair of embedded auxiliary tool's based on inserts mould automatic loading's schematic structure.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

The first embodiment is as follows:

referring to fig. 1 to 2, this embodiment provides an embedded auxiliary fixture based on inserts mould automatic loading, conveyer 1 and auxiliary fixture body 2 have first been set up, auxiliary fixture body 2 is installed on conveyer 1, auxiliary fixture body 2 includes bottom plate 21, linear guide 22, adjustable shelf 23 and a plurality of pre-buried reference column 24, bottom plate 21 erects on conveyer 1, linear guide 22 fixed mounting is on bottom plate 21, slidable mounting has adjustable shelf 23 on linear guide 22, a plurality of pre-buried reference column 24 fixed mounting is on adjustable shelf 23, the tip location of pre-buried reference column 24 has pin 241, the end connection of manipulator 3 has pre-buried tongs 4, pre-buried tongs 4 snatchs pin 241 under manipulator 3's drive, then with pin 241 embedding in the mould 5.

With continued reference to fig. 1 to 2, the movable frame 23 includes a first movable plate and a second movable plate, the first movable plate is slidably mounted on the linear guide 22, the second movable plate is fixedly connected to the first movable plate, the plurality of pre-embedded positioning pillars 24 are fixedly mounted on the second movable plate, three pre-embedded positioning pillars 24 are fixedly mounted on the second movable plate, a handle 231 is fixedly mounted on the first movable plate, two stoppers 221 are respectively mounted at two opposite ends of the linear guide 22, the pre-embedded gripper 4 includes a positioning plate 41, a plurality of gripping rods 42 and a vacuum part 43, the plurality of gripping rods 42 and the vacuum part 43 are fixedly mounted on the positioning plate 41, the gripping rods 42 are hollow rods, a first end of each hollow rod is corresponding to a position of the pin 241, a second end of each hollow rod is communicated with the vacuum part 43, the vacuum part 43 is a air pump, the mold 5 is provided with a plurality of positioning slots 51, the pin 241 is embedded in the positioning slots 51 under, a magnet is installed in the positioning groove 51.

The utility model provides a pre-buried auxiliary jig based on inserts mould automatic loading has at first set up conveyer and auxiliary jig body, and the conveyer is current equipment for carry the mould, auxiliary jig body does the utility model discloses a point, it is installed on the conveyer, and on the conveyer was erect to auxiliary jig body particularly, can not be along with the mould transmits on the conveyer. The auxiliary jig body comprises a bottom plate, a linear guide rail, a movable frame and a plurality of pre-embedded positioning columns, the bottom plate is arranged on the conveyor in a support mode, the linear guide rail is fixedly installed on the bottom plate, the movable frame is slidably installed on the linear guide rail, the pre-embedded positioning columns are fixedly installed on the movable frame, pins are positioned on the pre-embedded positioning columns, in short, the auxiliary jig body is used for fixing the pre-embedded positioning columns, the positions of the positioning grooves on the positions of the pre-embedded positioning columns and the mold are in one-to-one correspondence, the pre-embedded grippers are used for grabbing the pins by the auxiliary manipulator, the positions of the plurality of grabbing rods on the pre-embedded grippers are in one-to.

The utility model discloses a theory of operation does: the movable frame sends the pin on the embedded positioning column to the grabbing rod on the embedded gripper through the linear guide rail, and the embedded gripper adsorbs the pin and then embeds the pin into the positioning groove of the mold. The movable frame can move on the linear guide rail through manual pushing and pulling, and can also move on the linear guide rail through motor driving. A more detailed explanation is made here as to how the pre-buried gripper picks up the pin: the pre-buried tongs includes the locating plate, many grab poles and air pump, many grab poles and the all fixed mounting of air pump on the locating plate, grab the pole and be hollow rod, the position of the first end of hollow rod corresponds the position of pin, and the second end of hollow rod communicates in the air pump, the air pump starts when the first end of hollow rod is gone into to the pin card, the inside vacuum of hollow rod and then adsorb the pin, close the air pump after the constant head tank of mould is gone into to the pin card, no longer the vacuum in the hollow rod, the pin adsorbs in the constant head tank under the effect of magnet in the constant head tank promptly.

The manipulator mentioned in the above is the existing equipment, the working principle of which is not explained, and the main improvement lies in the pre-buried gripping hand installed on the manipulator, which plays a role of assisting the manipulator to grab the pin.

Therefore, compared with the prior art, the utility model has the following advantages:

1. the embedding machine embeds the inserts in advance, so that the time for waiting manual embedding is saved;

2. the enterprise cost is reduced: the productivity can be improved, and the method is suitable for mass production;

3. the production efficiency is improved: the high-degree automatic program can be continuously operated, and compared with the manual operation, the automatic program is not influenced by factors such as environment, emotion and the like, and the production efficiency is high;

4. the optimized production process comprises the following steps: the production flow of the whole process is stable, the management is convenient, the product quality can be effectively improved, and the product consistency is improved;

5. the maintenance cost is saved: the whole quality of the equipment is stable and reliable, and the later maintenance and debugging are facilitated;

6. the manipulator vacuum adsorbs the insert, and when the manipulator grabs a product, the pin is placed in the mold cavity, so that the action is reduced, and the time is saved;

7. magnetic force is absorbed in the die cavity, so that the insert after vacuum release can be absorbed and fixed in the die cavity.

Example two:

referring to fig. 1 to fig. 2, the second embodiment of the present invention provides a pre-buried auxiliary fixture based on automatic loading of an insert mold, and the present embodiment further makes the following technical solutions as improvements on the basis of the above embodiments: in the first embodiment, the movable frame sends the pins on the embedded positioning columns to the grabbing rod positions on the embedded grippers through the linear guide rails, the linear guide rails are omitted in the first embodiment, namely the movable frame is in a fixed state, the manipulator sends the embedded grippers to the movable frame to adsorb the pins, and compared with the first embodiment, parts are reduced, and cost is reduced.

Example three:

referring to fig. 1 to fig. 2, the third embodiment of the present invention provides a pre-buried auxiliary fixture based on automatic loading of an insert mold, and the present embodiment further makes the following technical solutions as improvements on the basis of the above embodiments: in the first embodiment, the number and size of the pre-embedded positioning columns 24 and the grabbing bars 42 are not limited, and in fact, the number of the pre-embedded positioning columns and the grabbing bars need to be selected according to the number of the positioning grooves 51, and the size of the pre-embedded positioning columns and the grabbing bars need to be selected according to the depth of the positioning grooves 51.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. The embedded auxiliary jig based on automatic loading of the insert mold is characterized by comprising a conveyor (1) and an auxiliary jig body (2), wherein the auxiliary jig body (2) is installed on the conveyor (1), the auxiliary jig body (2) comprises a bottom plate (21), a linear guide rail (22), a movable frame (23) and a plurality of embedded positioning columns (24), the bottom plate (21) is erected on the conveyor (1), the linear guide rail (22) is fixedly installed on the bottom plate (21), the movable frame (23) is installed on the linear guide rail (22) in a sliding mode, the embedded positioning columns (24) are fixedly installed on the movable frame (23), pins (241) are positioned at the end portions of the embedded positioning columns (24), an embedded gripper (4) is connected to the end portion of a manipulator (3), and the embedded gripper (4) grips the pins (241) under the driving of the manipulator (3), the pin (241) is then inserted into a mold (5).

2. The embedded auxiliary tool based on automatic loading of insert molds as claimed in claim 1, wherein the movable frame (23) comprises a first movable plate and a second movable plate, the first movable plate is slidably mounted on the linear guide rail (22), the second movable plate is fixedly connected to the first movable plate, and the plurality of embedded positioning pillars (24) are fixedly mounted on the second movable plate.

3. The embedded auxiliary tool based on automatic loading of insert molds as claimed in claim 2, wherein the second movable plate is fixedly mounted with three embedded positioning pillars (24).

4. The embedded auxiliary tool based on automatic loading of insert molds according to claim 2, wherein the first movable plate is fixedly provided with a handle (231).

5. The embedded auxiliary tool based on automatic filling of insert molds as claimed in claim 4, wherein the two opposite ends of the linear guide rail (22) are respectively provided with a stop block (221).

6. The embedded auxiliary tool based on automatic filling of insert molds as claimed in claim 1, wherein the embedded gripper (4) comprises a positioning plate (41), a plurality of gripping rods (42) and a vacuum part (43), and the gripping rods (42) and the vacuum part (43) are both fixedly mounted on the positioning plate (41).

7. The embedding auxiliary jig based on automatic loading of insert molds as claimed in claim 6, wherein the grabbing rod (42) is a hollow rod, a first end of the hollow rod is located corresponding to the position of the pin (241), and a second end of the hollow rod is connected to the vacuum-pumping unit (43).

8. The embedded auxiliary tool based on automatic filling of insert molds as claimed in claim 6 or 7, wherein the vacuum-pumping part (43) is an air pump.

9. The embedded auxiliary tool based on the automatic loading of the insert mold as claimed in claim 1, wherein the mold (5) is provided with a plurality of positioning grooves (51), and the pin (241) is driven by the manipulator (3) to be embedded into the positioning grooves (51).

10. The embedded auxiliary tool based on automatic loading of insert molds as claimed in claim 9, wherein the positioning groove (51) is installed with a magnet.

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