CN218478814U - Heating plate anodic oxidation hoist device for CVD - Google Patents

Abstract

The utility model discloses a CVD is with hot plate anodic oxidation hoist device, including titanium alloy panel and T shape hanger, the front end side welding of titanium alloy panel has the titanium alloy strip, and the cross section of two titanium alloy strips forms the I shape around and the titanium alloy panel, and the left end of titanium alloy panel has the hanger through the bolt fastening, and hanger left end middle part is equipped with movable groove, the engaging lug at T shape hanger right-hand member middle part is through round pin axle swing joint in movable groove. The utility model discloses the bottom card of hot plate for CVD is on T shape hanger, and the left and right sides of CVD with the hot plate is hugging closely the interior side surface of titanium alloy panel for two titanium alloy strips on the titanium alloy panel are terminal surface clamp around with CVD with the hot plate presss from both sides tightly, makes T shape hanger, titanium alloy panel and titanium alloy strip firmly fix CVD with the hot plate like this, makes CVD with the difficult pine of hot plate take off, improves the security of CVD with hot plate hoist and mount.

Description

Heating plate anodic oxidation hoist device for CVD

Technical Field

The utility model relates to a hoist device technical field specifically is a hot plate anodic oxidation hoist device for CVD.

Background

When the heating plate for CVD is used for anodic oxidation, the heating plate for CVD needs to be hoisted by adopting a hoisting device, but the existing hoisting device is complex in structure, complicated in assembly among components, and infirm in fixation of the heating plate for CVD, so that the heating plate for CVD is easy to loosen, fall and low in use safety, and therefore the heating plate anodic oxidation hoisting device for CVD is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a CVD is with hot plate anodic oxidation hoist device to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a CVD is with hot plate anodic oxidation hoist device, includes titanium alloy panel and T shape hanger, the front end side welding of titanium alloy panel has the titanium alloy strip, and the titanium alloy panel forms the I-shaped with the cross section of two titanium alloy strips around with, and the left end of titanium alloy panel has the hanger through the bolt fastening, and hanger left end middle part is equipped with the activity groove, the engaging lug at T shape hanger right-hand member middle part passes through round pin axle swing joint in the activity inslot.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses simple structure, the aggregate erection between each part is simple and convenient, the bottom card of CVD with the hot plate is on T shape hanger, and the left and right sides of CVD with the hot plate is hugging closely the inboard surface of titanium alloy panel, make two titanium alloy strips on the titanium alloy panel with CVD with the hot plate front and back terminal surface clamp tight, make T shape hanger, titanium alloy panel and titanium alloy strip firmly fix CVD with the hot plate like this, make CVD with the hot plate difficult pine take off, improve the security of CVD with hot plate hoist and mount.

Drawings

FIG. 1 is a schematic view of the overall three-dimensional structure of the present invention;

fig. 2 is an exploded schematic view of the titanium alloy plate, the hanging head and the T-shaped hanger of the present invention.

In the figure: 1. a titanium alloy sheet; 2. a long hole; 3. a titanium alloy strip; 4. positioning holes; 5. a pin shaft; 6. hanging a head; 7. a T-shaped hanger; 8. connecting lugs; 9. a movable groove; 10. inserting slots; 11. a bolt; 12. and fixing the through hole.

Detailed Description

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

Referring to fig. 1-2, the present invention provides a technical solution: a heating plate anodic oxidation hoisting device for CVD comprises a titanium alloy plate 1 and a T-shaped hanger 7, wherein four long holes 2 and a positioning hole 4 are machined in the center line of the titanium alloy plate 1, and the positioning hole 4 is located in the middle of the four long holes 2.

The titanium alloy plate is characterized in that a titanium alloy strip 3 is welded on the side edge of the front end of the titanium alloy plate 1, the cross sections of the titanium alloy plate 1 and the front and rear titanium alloy strips 3 form an I shape, and a hanging head 6 is fixed at the left end of the titanium alloy plate 1 through a bolt 11;

four fixing through holes 12 are processed at the left end of the titanium alloy plate 1, a slot 10 for inserting the left end of the titanium alloy plate 1 is arranged at the right end of the hanging head 6, and a bolt 11 is screwed on the hanging head 6 and penetrates through the corresponding fixing through holes 12.

The middle part of the left end of the hanging head 6 is provided with a movable groove 9, and the connecting lug 8 at the middle part of the right end of the T-shaped hanging tool 7 is movably connected in the movable groove 9 through a pin shaft 5.

Specifically, when the titanium alloy plate is used, a titanium alloy Ti TA0 plate (namely, the titanium alloy plate 1) is fixed in a machining center, and the front surface of the titanium alloy plate is subjected to surface milling;

turning and fixing the titanium alloy plate 1, and performing face milling to a target thickness;

processing four long holes 2 and a positioning hole 4 at the central line of the titanium alloy plate 1;

four fixing through holes (namely fixing through holes 12) are processed at one side end part of the titanium alloy plate 1;

two titanium alloy plates are fixed in a processing center, two sides are milled to reach the target thickness, and a titanium alloy strip 3 is processed;

welding two processed titanium alloy strips 3 with two sides of a hanging rod (namely a titanium alloy plate 1), wherein the cross section of each titanium alloy strip forms an I shape;

taking a titanium alloy base material, and processing the titanium alloy base material into a hanging head 6;

manufacturing a matched titanium alloy bolt (namely the bolt 11) and a matched nut;

fixing a 6061 aluminum alloy base material in a machining center, and performing face milling on two faces to reach a target thickness;

processing a 6061 aluminum alloy base material into a T shape to obtain a T-shaped hanger 7;

the T-shaped hanger 7, the hanging head 6 and the hanging rod (namely the titanium alloy plate 1) are assembled by using titanium alloy bolts (namely bolts 11).

Arranging two groups of hanging rods on the left side and the right side, enabling a T-shaped hanger 7 on the titanium alloy plate 1 to be positioned at the bottom of the T-shaped hanger, and connecting a positioning hole 4 on the titanium alloy plate 1 with a rotating shaft to movably connect the rotating shaft on a support;

then the bottom of the heating plate for CVD is clamped on the T-shaped hanger 7, and the left side and the right side of the heating plate for CVD are tightly attached to the inner side surface of the titanium alloy plate 1, so that the front end face and the rear end face of the heating plate for CVD are clamped by the two titanium alloy strips 3 on the titanium alloy plate 1.

Because the left end of the titanium alloy plate 1 is fixed with the hanging head 6 through the bolt 11, the right end of the hanging head 6 is provided with the slot 10 for inserting the left end of the titanium alloy plate 1, and the bolt 11 is in bolt connection with the hanging head 6 and penetrates through the corresponding fixed through hole 12, the connection between the titanium alloy plate 1 and the hanging head 6 is firm and stable;

because the middle part of the left end of the hanging head 6 is provided with a movable groove 9, the connecting lug 8 at the middle part of the right end of the T-shaped hanging tool 7 is movably connected in the movable groove 9 through a pin shaft 5. Therefore, the T-shaped hanging tool 7 can rotate by an angle after being connected with the hanging head 6.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (3)

1. The utility model provides a CVD is with hot plate anodic oxidation hoist device, includes titanium alloy panel (1) and T shape hanger (7), its characterized in that: the front end side of the titanium alloy plate (1) is welded with the titanium alloy strips (3), the cross sections of the titanium alloy plate (1) and the front and back titanium alloy strips (3) form an I shape, a hanging head (6) is fixed at the left end of the titanium alloy plate (1) through a bolt (11), a movable groove (9) is formed in the middle of the left end of the hanging head (6), and a connecting lug (8) in the middle of the right end of the T-shaped hanging tool (7) is movably connected into the movable groove (9) through a pin shaft (5).

2. The heating plate anodic oxidation lifting device for CVD according to claim 1, wherein: four long holes (2) and a positioning hole (4) are machined in the middle line of the titanium alloy plate (1), and the positioning hole (4) is located in the middle of the four long holes (2).

3. The heating plate anodic oxidation lifting device for CVD according to claim 1, wherein: four fixing through holes (12) are processed at the end part of the left side of the titanium alloy plate (1), a slot (10) used for inserting the left end of the titanium alloy plate (1) is formed in the right end of the hanging head (6), and a bolt (11) is in threaded connection with the hanging head (6) and penetrates through the corresponding fixing through holes (12).

Images