CN211273547U

CN211273547U - Use depression bar structure at car machine

Info

Publication number: CN211273547U
Application number: CN201921792735.7U
Authority: CN
Inventors: 陈煜�
Original assignee: Zhongshan Yuanlan Technology Co ltd
Current assignee: Zhongshan Yuanlan Technology Co ltd
Priority date: 2019-10-24
Filing date: 2019-10-24
Publication date: 2020-08-18
Anticipated expiration: 2029-10-24

Abstract

The utility model relates to the field of vehicle hair mechanical equipment, in particular to a pressure bar structure applied to a vehicle hair machine; comprises an assembly connecting plate and a turntable connected with the assembly connecting plate; the compression bar structure further comprises a telescopic plate; the telescopic plate is provided with strip-shaped clamping grooves; the rotary table is provided with a rotary connecting piece; the rotary connecting piece is sleeved in the clamping groove; the rotary table rotates under the action of external force to drive the rotary connecting piece to do circular motion; when the rotary connecting piece does circular motion, the rotary connecting piece moves back and forth in the clamping groove to drive the expansion plate to move up and down in an expansion mode; a compression bar transition plate is arranged on the telescopic plate, and the front end of the compression bar transition plate is fixedly connected with a compression bar; the telescopic plate can move up and down in a telescopic manner to drive the pressure rod transition plate to move up and down in a telescopic manner, so that the pressure rod can be driven to move up and down in a telescopic manner. The utility model discloses a depression bar mechanism can realize multiple flexible removal under the exogenic action, and the practicality is stronger.

Description

Use depression bar structure at car machine

Technical Field

The invention relates to the field of vehicle hair mechanical equipment, in particular to a compression bar structure applied to a vehicle hair machine.

Background

The method is an essential link in the current toy production for driving out the vehicle, particularly for driving out the vehicle for the toy head sleeve and other objects, and in the traditional vehicle, the toy head sleeve is pressed on the vehicle needle by manual operation; at present, some automatic car hair running devices are available, wherein car hair running is carried out by utilizing multi-axis rotation, but the car needle is difficult to smoothly and uniformly thread the head sleeve due to the irregular shape of the head sleeve; later, some machines are provided with a pressure rod for pressing the head cover and then performing sewing, but the existing pressure rod structures have defects, are easy to cause quality problems, are not attractive, and are in urgent need of improvement.

Disclosure of Invention

The invention aims to provide a compression bar structure applied to a car hair cutter, which is used for pressing a toy head sleeve when an object waiting for car hair is used for driving hair, so that a micro plane is formed at the part of a car needle to be threaded, the needle can be conveniently inserted, and the compression bar structure can automatically stretch and retract and is convenient to move.

The invention provides a compression bar structure applied to a vehicle engine, which comprises an assembly connecting plate and a rotary disc connected with the assembly connecting plate; the compression bar structure further comprises a telescopic plate; the telescopic plate is provided with strip-shaped clamping grooves; the rotary table is provided with a rotary connecting piece; the rotary connecting piece is sleeved in the clamping groove; the rotary table rotates under the action of external force to drive the rotary connecting piece to do circular motion; when the rotary connecting piece does circular motion, the rotary connecting piece moves back and forth in the clamping groove to drive the expansion plate to move up and down in an expansion mode;

a compression bar transition plate is arranged on the telescopic plate, and the front end of the compression bar transition plate is fixedly connected with a compression bar; the telescopic plate can move up and down in a telescopic manner to drive the pressure rod transition plate to move up and down in a telescopic manner, so that the pressure rod can be driven to move up and down in a telescopic manner.

Further, a first sliding seat is mounted at the upper end of the connecting plate, and a first guide rail bar is arranged at the lower side of the telescopic plate; the first sliding seat is buckled on the first guide rail bar and slides back and forth along the first guide rail bar.

Further, a connecting plate rack is fixedly mounted on the connecting plate, and a pressure rod rack is arranged on the lower side of the pressure rod transition plate; the telescopic plate is provided with a mounting groove; a gear is arranged between the connecting plate rack and the pressure rod rack; the gear is installed in the installation groove in a buckling mode.

Further, the compression bar rack and the compression bar transition plate are integrally formed.

Further, under the rotating action of the rotating disc, the telescopic plate can move telescopically relative to the assembly connecting plate;

the connecting plate rack is fixedly arranged on the component connecting plate and drives the gear to rotate, and the gear drives the compression bar transition plate to move in a telescopic mode.

Further, a second guide rail bar is arranged on the upper side of the telescopic plate; the lower end of the pressure lever transition plate is provided with a second sliding seat; the second sliding seat is buckled on the second guide rail bar and slides back and forth along the second guide rail bar.

Furthermore, a front baffle is arranged at the front end of the telescopic plate, a through hole is formed in the front baffle, and the pressing rod penetrates through the through hole and is connected with the pressing rod transition plate.

The compression bar mechanism comprises an assembly connecting plate and a rotary disc connected with the assembly connecting plate; the device also comprises a telescopic plate; the rotary connecting piece on the rotary disc is sleeved in the clamping groove of the component connecting plate; the rotary table rotates under the action of external force to drive the rotary connecting piece to do circular motion; when the connecting piece rotates to do circular motion, the connecting piece moves back and forth in the clamping groove to drive the expansion plate to move up and down in an expansion mode; the telescopic plate is also connected with a pressure rod, so that the pressure rod is driven to move in a telescopic way; meanwhile, racks are arranged on the component connecting plate and the telescopic plate, and a gear is arranged between the rack and the telescopic plate; the pressing rod can telescopically move relative to the component connecting plate and can also telescopically move relative to the telescopic plate simultaneously through the driving of the gear; therefore, the pressure lever mechanism can realize multiple telescopic movements under the action of external force, and has stronger practicability.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some drawings of the embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a compression bar structure applied to a hair styling machine according to the present invention;

FIG. 2 is a schematic diagram of an internal structure of a strut structure applied to a hair styling machine according to the present invention;

FIG. 3 is a schematic structural diagram of another perspective of the internal structure of the strut applied to the engine of the present invention;

FIG. 4 is a schematic structural diagram of another view of the internal structure of a strut structure for a vehicle engine according to the present invention;

FIG. 5 is an exploded view of a strut structure for a vehicle engine according to the present invention;

fig. 6 is an appearance structure diagram of the expansion plate of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Because the prop which is sent out by a vehicle generally has the appearance similar to a head cover of the head of a human body and has different surface shapes, the prop is difficult to operate when being sent out by the vehicle, and therefore, the prop is convenient to operate. The invention is provided with a pressure lever mechanism, and the pressure lever can press the tool head sleeve in motion, so that the top position of the head sleeve is pressed to form a plane position, thereby facilitating the vehicle line. Because the headgear moves at any time according to the position of the hair to be sent in the hair sending process, the needle can move up and down, and the pressure rod also needs to move up and down along with the needle.

Fig. 1 is a schematic view of an appearance structure of a strut structure applied to a hair styling machine according to the present invention; FIG. 2 is a schematic view of an internal structure of a strut structure applied to a hair styling machine according to the present invention; FIG. 3 is a schematic structural diagram of another perspective of the inner structure of the strut structure applied to the hair styling machine according to the present invention; the invention relates to a compression bar structure applied to a vehicle engine, which comprises an assembly connecting plate 1 and a rotary table 2 connected with the assembly connecting plate 1; the compression bar structure further comprises a telescopic plate 3; a strip-shaped clamping groove 31 is formed in the expansion plate 3; the rotary table is provided with a rotary connecting piece 4; the rotary connecting piece is sleeved in the clamping groove 31; the rotary table 2 rotates under the action of external force to drive the rotary connecting piece 4 to do circular motion; when the rotary connecting piece 4 does circular motion, the rotary connecting piece moves back and forth in the clamping groove 31 to drive the expansion plate 3 to move up and down in an expansion mode;

a compression bar transition plate 5 is arranged on the expansion plate 3, and a compression bar 6 is fixedly connected to the front end of the compression bar transition plate 5; the telescopic plate 3 can move up and down to drive the compression bar transition plate 5 to move up and down, so that the compression bar 6 can be driven to move up and down.

In the invention, the rotating frequency of the turntable 2 is the same as the up-and-down vibration frequency of the upper needle of the automobile engine; therefore, when the needle props against the head sleeve from bottom to top, the pressure rod just props against the head sleeve from top to bottom to form a micro plane, so that the needle can be conveniently driven; after the sewing is finished, the sewing needle moves downwards, the pressure rod moves upwards, the head sleeve moves to one position, the sewing needle and the ejector rod move towards the head sleeve again to be propped, and the next sewing needle is sewn.

In order to facilitate telescopic movement, a first sliding seat 331 is installed at the upper end of the connecting plate 1, and a first guide rail bar 321 is arranged at the lower side of the telescopic plate 3; the first sliding seat 331 is fastened to the first guide rail bar 321 and slides back and forth along the first guide rail bar 321.

In the invention, a connecting plate rack 7 is fixedly arranged on the connecting plate 1, and a pressure lever rack 51 is arranged on the lower side of the pressure lever transition plate 5; illustratively, the strut rack 51 is integrally formed with the strut transition plate 5; the strut rack 51 may also be a separate component mounted to the underside of the strut transition plate 5.

The telescopic plate 3 is provided with a mounting groove 34; a gear 8 is arranged between the connecting plate rack 7 and the pressure rod rack 51; the gear 8 is snap-fitted in the mounting groove 34.

The connecting plate rack 7 is fixedly arranged on the connecting plate, and the gear is buckled on the expansion plate; therefore, under the rotation action of the turntable 2, when the expansion plate 3 moves telescopically relative to the component connecting plate 1, the connecting plate rack 7 fixedly mounted on the component connecting plate 1 drives the gear 8 to rotate, and the rotating gear 8 drives the compression rod rack 51 on the compression rod transition plate 5 to move telescopically.

In order to facilitate moving and stretching, a second guide rail bar 322 is arranged on the upper side of the stretching plate 3; the lower end of the pressure lever transition plate 5 is provided with a second sliding seat 332; the second sliding seat 332 is snapped on the second guide rail bar 322 and slides back and forth along the second guide rail bar 322.

Therefore, in the invention, the telescopic plate moves telescopically relative to the component connecting plate, so that the pressure rod arranged on the telescopic plate moves along with the movement of the telescopic plate; meanwhile, the pressure lever transition plate can also move in a telescopic way relative to the telescopic plate, and drives the pressure lever to also move in a telescopic way relative to the telescopic plate.

In a preferable design, a front baffle is arranged at the front end of the telescopic plate 3, a through hole 35 is formed in the front baffle, and the compression bar 6 penetrates through the through hole and is connected with the compression bar transition plate 5.

The above description is only exemplary of the present invention and should not be taken as limiting the invention, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A compression bar structure applied to a vehicle engine comprises an assembly connecting plate and a rotary disc connected with the assembly connecting plate; the method is characterized in that: the compression bar structure further comprises a telescopic plate; the telescopic plate is provided with strip-shaped clamping grooves; the rotary table is provided with a rotary connecting piece; the rotary connecting piece is sleeved in the clamping groove; the rotary table rotates under the action of external force to drive the rotary connecting piece to do circular motion; when the rotary connecting piece does circular motion, the rotary connecting piece moves back and forth in the clamping groove to drive the expansion plate to move up and down in an expansion mode;

2. The strut structure according to claim 1, wherein a first sliding seat is installed at an upper end of the connecting plate, and a first guide rail bar is provided at a lower side of the telescopic plate; the first sliding seat is buckled on the first guide rail bar and slides back and forth along the first guide rail bar.

3. The compression bar structure according to claim 1 or 2, wherein a connecting plate rack is fixedly mounted on the connecting plate, and a compression bar rack is arranged on the lower side of the compression bar transition plate; the telescopic plate is provided with a mounting groove; a gear is arranged between the connecting plate rack and the pressure rod rack; the gear is installed in the installation groove in a buckling mode.

4. The strut structure of claim 3, wherein said strut rack is integrally formed with said strut transition plate.

5. The strut structure as in claim 3, wherein said expansion plate is telescopically movable relative to said module connecting plate under the rotation of said rotary plate;

6. The strut structure according to claim 5, wherein said upper side of said extension plate is provided with a second guide rail bar; the lower end of the pressure lever transition plate is provided with a second sliding seat; the second sliding seat is buckled on the second guide rail bar and slides back and forth along the second guide rail bar.

7. The compression bar structure according to claim 1, wherein a front baffle is arranged at the front end of the expansion plate, a through hole is arranged on the front baffle, and the compression bar passes through the through hole and is connected with the compression bar transition plate.