CN215750837U - Vertical hot-embedding copper nut auxiliary device - Google Patents

Abstract

The utility model discloses a vertical hot-embedded copper nut auxiliary device, which comprises: the device comprises a workbench, wherein a base is arranged on the workbench, a vertical slide rail is arranged on the base, and a vertical slide block is arranged on the vertical slide rail; an upper limiting block is installed at the other end of the vertical sliding rail, and the vertical sliding block moves up and down between the upper limiting block and the base; a horizontal sliding rail perpendicular to the vertical sliding rail is arranged on the vertical sliding rail, a horizontal sliding rail block is arranged on the horizontal sliding rail, a left limiting block and a right limiting block are respectively arranged at two ends of the horizontal sliding rail, and the horizontal sliding rail block can move left and right in a limited area formed by the left limiting block and the right limiting block; the vertical sliding block is connected with the horizontal sliding rail frame through the central bracket; the upper limiting block is provided with a telescopic pull line box, and a steel wire led out from the telescopic pull line box is connected to the vertical sliding block through a buckle and a buckle support. Through the vertical auxiliary device of restraint degree of freedom mode, solve the unstable problem of straightness that hangs down of hot embedding installation copper nut on plastic parts.

Description

Vertical hot-embedding copper nut auxiliary device

Technical Field

The utility model relates to the field of plastic product injection molding, in particular to a vertical hot-embedded copper nut auxiliary device.

Background

In the manufacturing process of plastic parts, especially plastic shells, some brass inserts, represented by nuts of various specifications, need to be embedded in the proper positions of the plastic parts through hot melting. Generally, the brass insert must be vertically embedded in a prepared bottom hole of the plastic part according to the requirement of subsequent assembly.

At present, the traditional manufacturing process is as follows: an operator holds the electric soldering iron with one hand, and uses tweezers to clamp the copper nut insert, the tweezers are used to transfer the copper nut insert to the position corresponding to the bottom hole on the plastic part, the front end of the electric soldering iron is used to prop against one end of the copper nut, the other end of the electric soldering iron is in contact with the plastic part, the copper nut is heated by the electric soldering iron, the position near the bottom hole of the plastic part in contact with the copper nut is gradually softened and melted, and then the electric soldering iron is operated to press the copper nut into the bottom hole of the plastic part.

The disadvantages of this process are: due to individual difference of operators, the verticality of holding the electric soldering iron in each operation cannot be guaranteed, the installed copper nut insert cannot meet the requirement on the verticality, difficulty is brought to subsequent installation, and even products are scrapped.

SUMMERY OF THE UTILITY MODEL

The utility model provides a vertical hot-embedded copper nut auxiliary device, which is designed based on an electric soldering iron as a hot melting tool and solves the problem of unstable verticality of hot-embedded installation of a copper nut on a plastic part by a constraint degree of freedom mode, and the details are described as follows:

a vertical hot-dipped copper nut assist device, the device comprising: a working table is arranged on the upper portion of the machine body,

the workbench is provided with a base, the base is provided with a vertical slide rail, and the vertical slide rail is provided with a vertical slide block; an upper limiting block is installed at the other end of the vertical sliding rail, and the vertical sliding block moves up and down between the upper limiting block and the base;

a horizontal sliding rail perpendicular to the vertical sliding rail is arranged on the vertical sliding rail, a horizontal sliding rail block is arranged on the horizontal sliding rail, a left limiting block and a right limiting block are respectively arranged at two ends of the horizontal sliding rail, and the horizontal sliding rail block can move in a limiting area formed by the left limiting block and the right limiting block;

the vertical sliding block is connected with the horizontal sliding rail frame through the central bracket;

the upper limiting block is provided with a telescopic pull line box, and a steel wire led out from the telescopic pull line box is connected to the vertical sliding block through a buckle and a buckle support.

And an electric soldering iron bracket and an electric soldering iron are arranged on the left limiting block. And rubber gaskets are sleeved at two ends of the horizontal sliding rail.

The technical scheme provided by the utility model has the beneficial effects that:

1. the product restrains the degree of freedom of the electric soldering iron, so that the electric soldering iron can freely translate in space, but the welding head is always vertically downward, and the precision of the hot-melting counter bore is ensured;

2. the pull force of the telescopic pull line box offsets part of the weight of the vertical sliding module, so that an operator can save more labor when moving and lifting the vertical sliding module;

3. the electric soldering iron bracket is fixed by screws, so that the electric soldering iron bracket is convenient to disassemble and replace; simple structure and easy maintenance.

Drawings

FIG. 1 is a schematic structural diagram of a vertical hot-insert copper nut auxiliary device;

fig. 2 is an exploded view of the vertical hot-inlaid copper nut auxiliary device.

In the drawings, the components represented by the respective reference numerals are listed below:

1: a work table; 2: a base;

3: a vertical slide rail; 4: a vertical slide block;

5: a central support; 6: a buckle bracket;

7: a horizontal slide rail frame; 8: a horizontal slide rail;

9: a rubber gasket; 10: a right stopper;

11: a left stop block; 12: an electric iron bracket;

13: buckling; 14: an upper limit block;

15: a retractable pull-line box; 16: an electric soldering iron.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention are described in further detail below.

A vertical hot-embedded copper nut auxiliary device, the main components of which are shown in fig. 1 and 2, the device comprises: the working table (1) is provided with a working table,

wherein, a base 2 is arranged on the workbench 1, a vertical slide rail 3 is arranged on the base 2, and a vertical slide block 4 is arranged on the vertical slide rail 3; the other end of the vertical slide rail 3 is arranged on an upper limit block 14, and the vertical slide block 4 can move up and down between the limit block 14 and the base 2.

A horizontal sliding rail 8 is vertically arranged on the vertical sliding rail 3, a horizontal sliding rail frame 7 is installed on the horizontal sliding rail 8, a left limiting block 11 and a right limiting block 10 are installed at two ends of the horizontal sliding rail 8 respectively, and the horizontal sliding rail block 7 can move left and right on the horizontal sliding rail 8.

The vertical slide 4 is connected to a horizontal slide frame 7, i.e. a vertical movement and a horizontal movement, via a central support 5.

An upper limiting block 14 is provided with a telescopic pull line box 15, and a steel wire led out from the telescopic pull line box 15 is connected to the vertical sliding block 4 through a buckle 13 and a buckle bracket 6, so that the pulling force of the telescopic pull line box 15 can act on the movement of the device in the vertical direction.

When the electric soldering iron is specifically realized, the electric soldering iron bracket 12 and the electric soldering iron 16 are installed on the left limiting block 11.

The device is described in detail as follows:

a vertical hot-setting copper nut auxiliary device, see fig. 1 and 2, comprising:

the base 2 is mounted on the worktable 1 and is fixed by four screws. Other fixing manners may also be adopted, and the embodiment of the present invention is not limited thereto.

The vertical slide rail 3 is inserted into a deep hole in the center of the base 2, and the vertical slide rail 3 is rotated to align the screw hole at the bottom of the vertical slide rail 3 with the through hole on the side surface of the base 2 and is fixed by one screw. Other fixing manners may also be adopted, and the embodiment of the present invention is not limited thereto.

The vertical sliding block 4 is sleeved into the vertical sliding rail 3, four through holes on one side of the central support 5 are aligned with four through holes of the vertical sliding block 4, two bolts are inserted from the outer side of the vertical sliding block 4 at the two through holes below, and the two bolts are fixed by two nuts. The two through holes of the snap bracket 6 are aligned with the two through holes above the central bracket 5, two bolts are inserted from the outside of the vertical slider 4 and secured with two nuts.

The four through holes of the horizontal slide rail frame 7 are aligned with the four through holes at the front end of the central support 5 to ensure that the horizontal slide rail hole is oriented in the horizontal direction, and four bolts are inserted from the outer side of the central support 5 and are fixed by four nuts.

The horizontal sliding rails 8 are sequentially inserted into sliding rail holes of the horizontal sliding rail frame 7, so that the two sliding rails are parallel and level to each other, and the four rubber gaskets 9 are respectively sleeved at two ends of the two horizontal sliding rails 8. The horizontal slide rail 8 is rotated to enable the screw holes at the two ends to be in the vertical direction, and the right limiting block 10 is sleeved at the right side end of the horizontal slide rail 8 and is fixed by one screw. The left limiting block 11 is sleeved at the left end of the horizontal sliding rail 8 and is fixed by a screw. And adjusting the rubber gasket 9 to ensure that the rubber gasket 9 is tightly attached to the right limiting block 10 and the left limiting block 11.

The screw hole of the electric soldering iron support 12 is aligned with the through hole of the left limiting block 11, the through hole for fixing the electric soldering iron on the electric soldering iron support 12 is kept in the vertical direction, and the electric soldering iron is fixed by one screw.

The buckle 13 is placed on the upper surface of the buckle support 6, so that the screw hole of the buckle support 13 is aligned with the through hole of the buckle support 6 and is fixed by one screw.

The upper limit block 14 is sleeved at the top end of the vertical slide rail 3, and the screw hole of the upper limit block 14 is adjusted to be aligned with the screw hole at the upper end of the vertical slide block 3 and is fixed by a screw.

The box body of the telescopic terminal box 15 is mounted on a screw hole on the front surface of the upper limit block 14 by a screw, the steel wire of the telescopic terminal box 15 is pulled down, and the retaining ring (namely the buckle at the tail end of the steel wire) and the buckle 13 are interlocked.

The tightness state of each screw, bolt and nut is inspected, vertical slider 4, slip and rotatory horizontal slide rail 8 reciprocate, the stability of inspection whole spare part. If no problem exists, lubricating oil is smeared on the vertical slide rail 3 and the horizontal slide rail 8, and the electric soldering iron 16 is fixed on the electric soldering iron bracket 12.

The verticality of the electric soldering iron 16 is adjusted and checked so that the welding head can always keep a vertically downward state when in work.

When the vertical type hot-embedding copper nut auxiliary device is used for installing the copper nut, firstly, a plastic part is placed on a workbench to electrify an electric soldering iron 16, when a head to be soldered reaches a required temperature, an operator holds the left limiting block 11 or the electric soldering iron bracket 12 of the vertical type hot-embedding copper nut auxiliary device with one hand to move the position of the electric soldering iron 16, and at the moment, the vertical sliding block 4 and the horizontal sliding rail 8 synchronously move or rotate to meet the moving requirement of the electric soldering iron 16.

The vertical descending of the electric soldering iron 16 is manually controlled, the pulling force provided by the telescopic pull line box 15 can help an operator to control the position of the electric soldering iron 16 in the vertical direction more laborsavingly, the copper nut is fixed at the position of the bottom hole of the plastic part by using tweezers on one hand, the front end of the electric soldering iron abuts against one end of the copper nut, the copper nut is heated by the electric soldering iron, the position near the bottom hole of the plastic part contacted with the copper nut is gradually softened and melted, then the left limiting block 11 or the electric soldering iron is operated to directly press the copper nut into the bottom hole of the plastic part 12, after the installation work of the copper nut is completed, the electric soldering iron 16 is powered off, and then the electric soldering iron 16 is moved to a special placing groove.

In the embodiment of the present invention, except for the specific description of the model of each device, the model of other devices is not limited, as long as the device can perform the above functions.

Those skilled in the art will appreciate that the drawings are only schematic illustrations of preferred embodiments, and the above-described embodiments of the present invention are merely provided for description and do not represent the merits of the embodiments.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (3)

1. The utility model provides a vertical hot embedding copper nut auxiliary device which characterized in that, the device includes: a working table is arranged on the upper portion of the machine body,

the workbench is provided with a base, the base is provided with a vertical slide rail, and the vertical slide rail is provided with a vertical slide block; an upper limiting block is installed at the other end of the vertical sliding rail, and the vertical sliding block moves up and down between the upper limiting block and the base;

a horizontal sliding rail perpendicular to the vertical sliding rail is arranged on the vertical sliding rail, a horizontal sliding rail block is arranged on the horizontal sliding rail, a left limiting block and a right limiting block are respectively arranged at two ends of the horizontal sliding rail, and the horizontal sliding rail block moves left and right in a limiting area formed by the left limiting block and the right limiting block;

the vertical sliding block is connected with the horizontal sliding rail frame through the central bracket;

the upper limiting block is provided with a telescopic pull line box, and a steel wire led out from the telescopic pull line box is connected to the vertical sliding block through a buckle and a buckle support.

2. The vertical hot-embedding copper nut auxiliary device as claimed in claim 1, wherein an electric soldering iron bracket and an electric soldering iron are mounted on the left limiting block.

3. The vertical hot-embedded copper nut auxiliary device as claimed in claim 1, wherein rubber washers are sleeved on two ends of the horizontal slide rail.

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