CN204342907U - Shock absorber cylinder surface treatment grips mechanism - Google Patents

Abstract

The utility model discloses a kind of shock absorber cylinder surface treatment and grip mechanism, it is characterized in that: comprise a left side, right column, on a described left side, the first support bar is connected between right column, second support bar and cross bar, described first support bar and the second support bar are set in parallel in the bottom of described column, described first support bar and the second support bar are all provided with at least two strut members, described cross bar is positioned at the top of described column, described cross bar is equipped with the adjusting bolt corresponding with described strut member, oil pressure pawl is connected with in the lower end of this adjusting bolt.Its unusual effect is: structure is simple, easy to use, a corresponding oil pressure pawl of shock absorber cylinder, realize carrying out anodic oxidation treatment to shock absorber cylinder respectively, make zone of oxidation more even, effectively raise the yield rate of shock absorber cylinder, adopt oil circuit to drive simultaneously, be convenient to control.

Description

Shock absorber cylinder surface treatment grips mechanism

Technical field

The utility model relates to shock absorber cylinder technical field of surface, specifically, is that a kind of shock absorber cylinder surface treatment grips mechanism.

Background technology

Concussion when vibroshock rebounds after being mainly used to suppress spring shock-absorbing or the impact from road surface, be widely used in the field such as vehicle, lathe.But the structure special due to shock absorber cylinder and strict technical requirements, make its scrap rate remain high always.

Cause the higher reason of shock absorber cylinder condemnation factor to be mainly subsurface porosity and uneven microstructure, therefore need to carry out oxide treatment to drum surface in vibroshock production process, to reduce pore, improve the yield rate of shock absorber cylinder.

In prior art, mainly cylindrical shell collective is placed and carry out surface anodization.And cause shock absorber cylinder surface oxidation effect undesirable owing to lacking special fixed mechanism, fail effectively to improve its yield rate.

Utility model content

For the deficiencies in the prior art, the purpose of this utility model is to provide a kind of shock absorber cylinder surface treatment and grips mechanism, this mechanism carries out anodic oxidation treatment respectively by shock absorber cylinder, makes zone of oxidation even, effectively raises the yield rate of shock absorber cylinder.

For achieving the above object, the utility model is stated a kind of shock absorber cylinder surface treatment and is gripped mechanism, its key is: comprise a left side, right column, on a described left side, the first support bar is connected between right column, second support bar and cross bar, described first support bar and the second support bar are set in parallel in the bottom of described column, described first support bar and the second support bar are all provided with at least two strut members, described cross bar is positioned at the top of described column, described cross bar is equipped with the adjusting bolt corresponding with described strut member, oil pressure pawl is connected with in the lower end of this adjusting bolt, this oil pressure pawl comprises joint pin and pawl head, the upper end of described joint pin is connected with described cross bar, the lower end of described joint pin is connected with at least three described pawl heads, described pawl head is bonded with slipmat.

In concrete use procedure, first by adjusting bolt, oil pressure pawl is risen to certain altitude, the lower support that shock absorber cylinder supports is being positioned on the strut member on the first support bar and the second support bar, control oil pressure pawl to open, and the height of oil pressure pawl is regulated by adjusting bolt, the top of shock absorber cylinder can be gripped by oil pressure pawl, can be energized afterwards and oxide treatment is carried out to the surface of cylindrical shell.Mechanism structure is simple, easy to use, and a corresponding oil pressure pawl of shock absorber cylinder, realizes shock absorber cylinder to carrying out anodic oxidation treatment respectively, makes zone of oxidation more even, effectively raises the yield rate of shock absorber cylinder; Arranging slipmat can make shock absorber cylinder location more stable.

Further, the bottom of described column is provided with the first pillar and the second pillar, and described first support bar is connected with described first pillar, and described second support bar is connected with described second pillar.

Adopt said structure, make the structure of mechanism more stable, avoid the impact on shock absorber cylinder surface oxidation quality.

Further, the number of described strut member is 12, and is evenly distributed on described first support bar and the second support bar.

Further, the number of described oil pressure pawl is six, and six oil pressure pawls are evenly distributed on described cross bar.

Unusual effect of the present utility model is: structure is simple, easy to use, and a corresponding oil pressure pawl of shock absorber cylinder, realizes carrying out anodic oxidation treatment to shock absorber cylinder respectively, makes zone of oxidation more even, effectively raises the yield rate of shock absorber cylinder.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the close-up schematic view of A in Fig. 1.

Embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model and principle of work are described in further detail.

As Figure 1-Figure 2, a kind of shock absorber cylinder surface treatment grips mechanism, comprise a left side, right column 1, on a described left side, the first support bar 2 is connected between right column 1, second support bar 3 and cross bar 4, described first support bar 2 and the second support bar 3 are set in parallel in the bottom of described column 1, described first support bar 2 and the second support bar 3 are all provided with at least two strut members 5, described cross bar 4 is positioned at the top of described column 1, described cross bar 4 is equipped with the adjusting bolt 6 corresponding with described strut member 5, adjusting knob is connected with in the upper end of this adjusting bolt 6, described adjusting bolt 6 lower end be connected with oil pressure pawl 7, this oil pressure pawl 7 comprises joint pin 7a and pawl head 7b, the upper end of described joint pin 7a is connected with described cross bar 4, the lower end of described joint pin 7a is connected with three described pawl head 7b, described pawl head 7b is bonded with slipmat 7c.

It can also be seen that from Fig. 1, the bottom of described column 1 is provided with the first pillar and the second pillar, and described first support bar 2 is connected with described first pillar, and described second support bar 3 is connected with described second pillar.

In this example, the number of described strut member 5 is 12, and is evenly distributed on described first support bar 2 and the second support bar 3; The number of described oil pressure pawl 7 is six, and six oil pressure pawls 7 are evenly distributed on described cross bar 4.

In use, first by adjusting bolt 6, oil pressure pawl 7 is risen to certain altitude, the lower support that shock absorber cylinder supports is being positioned on the strut member 5 on the first support bar 2 and the second support bar 3, then control oil pressure pawl 7 to open, and the height of oil pressure pawl 7 is regulated by adjusting bolt 6, the top of shock absorber cylinder can be gripped by oil pressure pawl 7, can be energized afterwards and oxide treatment is carried out to the surface of cylindrical shell.

Claims (4)

1. a shock absorber cylinder surface treatment grips mechanism, it is characterized in that: comprise a left side, right column (1), on a described left side, the first support bar (2) is connected between right column (1), second support bar (3) and cross bar (4), described first support bar (2) and the second support bar (3) are set in parallel in the bottom of described column (1), described first support bar (2) with the second support bar (3) are all provided with at least two strut members (5), described cross bar (4) is positioned at the top of described column (1), described cross bar (4) is equipped with the adjusting bolt (6) corresponding with described strut member (5), oil pressure pawl (7) is connected with in the lower end of this adjusting bolt (6), this oil pressure pawl (7) comprises joint pin (7a) and pawl head (7b), the upper end of described joint pin (7a) is connected with described cross bar (4), the lower end of described joint pin (7a) is connected with at least three described pawl heads (7b), described pawl head (7b) is bonded with slipmat (7c).

2. shock absorber cylinder surface treatment according to claim 1 grips mechanism, it is characterized in that: the bottom of described column (1) is provided with the first pillar and the second pillar, described first support bar (2) is connected with described first pillar, and described second support bar (3) is connected with described second pillar.

3. shock absorber cylinder surface treatment according to claim 1 grips mechanism, it is characterized in that: the number of described strut member (5) is 12, and be evenly distributed on described first support bar (2) with on the second support bar (3).

4. shock absorber cylinder surface treatment according to claim 1 grips mechanism, it is characterized in that: the number of described oil pressure pawl (7) is six, and six oil pressure pawls (7) are evenly distributed on described cross bar (4).