CN220470574U - Take visual adjustment size's of scale link mechanism - Google Patents

Abstract

The utility model provides a link mechanism with scales for visually adjusting the size, which relates to the technical field of link mechanisms, wherein a cover body is arranged on the outer side of a guide seat and is of a top through structure, the problem that the existing link mechanism is mostly limited by parameters such as size adjustment through threads on two sides of two links, the adjustment is manually operated by manpower, the error is larger, the precision is not high, the normal use of the link mechanism is further influenced, the limitation problem exists, the link mechanism is driven to rotate by meshing transmission of driving teeth and guide teeth arranged on the top end of the guide seat, when the link mechanism rotates, the deflection angle of the current link mechanism can be observed in real time by synchronously utilizing scales arranged on the top end of the cover body, the subsequent adjustment is further facilitated, the link mechanism can be adjusted more conveniently by the design, the adjustment precision is more accurate, and the practical purpose is further achieved.

Description

Take visual adjustment size's of scale link mechanism

Technical Field

The utility model belongs to the technical field of link mechanisms, and particularly relates to a link mechanism with a scale for visually adjusting the size.

Background

The connecting rod mechanism is a mechanical structure for transmission, and the traditional mechanical connecting rod is mainly subjected to size adjustment through threads on two sides of two connecting rods, is limited by parameter limitations such as thread size and thread pitch, is adjusted by manual operation, has larger error and low precision, and further can influence the normal use of the connecting rod mechanism, and has limitations.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a connecting rod mechanism with scales for visually adjusting the size, which solves the problems that the prior connecting rod mechanism is mainly used for adjusting the size through threads on two sides of a two-connecting rod, is limited by parameters such as the thread size and the thread pitch, is manually operated by manpower, has larger error and low precision, and further can influence the normal use of the connecting rod mechanism, and has limitation.

The utility model discloses a purpose and an effect of a connecting rod mechanism with scales for visually adjusting the size, which are achieved by the following specific technical means:

the utility model provides a take visual adjustment size's of scale link mechanism, includes the guide holder, the main part of guide holder is circular structure, and the top of guide holder is installed and is led the tooth, and the cover body is installed in the outside of guide holder, and the cover body is the top through structure, and is annular array on the inside top end face of the cover body and be provided with the scale.

Further, the rotating shaft and the rotating disc jointly form an output structure, and output teeth are arranged on the outer side of the rotating shaft.

Further, the guide seat is installed on the top end of the rotary table, the guide seat is eccentrically installed, the rotary shaft is installed at the bottom end of the rotary table, after the belt wheel and the belt are installed, the driving mechanism outside is started to drive the belt wheel to rotate, the input shaft is driven to rotate through the transmission connection of the belt and the belt wheel, the rotary table installed on the top end of the rotary shaft is driven to rotate through the transmission connection of the input teeth installed on the outer side of the input shaft and the output teeth arranged on the outer side of the rotary shaft, and the guide seat eccentrically installed is driven to rotate through the rotary table so as to drive the connecting rod assembly installed on the top end of the rotary table to swing reciprocally, so that the mechanical transmission is realized, and the aim of being more practical is achieved.

Furthermore, the left side meshing transmission of output tooth has the input tooth, and the input tooth is installed in the outside position of input shaft, and input shaft and input tooth constitute drive structure jointly.

Further, the band pulley is installed to the outer peripheral face bottom of input shaft, input shaft and band pulley and input tooth are input structure, realize driving link assembly and rotate through the meshing transmission of driving tooth and the guide tooth that sets up in the guide seat top, and when link assembly rotates, can be synchronous utilize the scale that sets up on the cover body top to carry out real-time observation operation to current link assembly's deflection angle, and then reach the purpose of being convenient for follow-up adjustment more, this design can realize being convenient for more adjust link assembly, and the adjustment precision is more accurate, and then reaches more practical purpose.

Further, link assembly is installed on the top of guide holder, and link assembly's one side fixedly connected with baffle, and fixedly connected with support on the terminal surface of the cover body, the motor is installed on the top of cross member in the support, installs the driving tooth on the bottom output shaft of motor, and the driving tooth meshes the transmission with leading the tooth mutually, and motor and driving tooth have constituteed drive structure jointly.

Compared with the prior art, the utility model has the following beneficial effects:

1. after the belt pulley and the belt are installed, the belt pulley is driven to rotate through starting an external driving machine, the input shaft is driven to rotate through the transmission connection of the belt and the belt pulley, the rotating disc installed at the top end of the rotating shaft is driven to rotate through the transmission connection of the input teeth installed at the outer side of the input shaft and the output teeth arranged at the outer side of the rotating shaft, and the eccentric installed guide seat is driven to rotate through the rotating disc so as to drive the connecting rod assembly installed at the top end of the rotating disc to swing in a reciprocating mode, so that mechanical transmission is achieved, and the aim of being more practical is achieved.

2. When using, if need when adjusting the deflection angle of link assembly, can rotate the drive tooth through the motor that starts to install at the cover body and support top to realize driving link assembly and rotate through the meshing transmission of drive tooth and the guide tooth that sets up at the guide seat top, and when link assembly rotates, can be synchronous utilize the scale that sets up at the cover body top to carry out real-time observation operation to current link assembly's deflection angle, and then reach the purpose of being convenient for follow-up adjustment more, this design can realize being convenient for more adjust link assembly, and the adjustment precision is more accurate, and then reaches more practical purpose.

Drawings

Fig. 1 is a schematic view of the front side view structure of the present utility model in a disassembled state.

Fig. 2 is a schematic diagram of a side elevational view of the present utility model.

Fig. 3 is a schematic view showing the structure of the spindle to drive tooth according to the present utility model.

Fig. 4 is a schematic diagram showing the structure of the input shaft to input teeth of the present utility model.

In the figure, the correspondence between the component names and the drawing numbers is:

1. an input shaft; 2. a belt wheel; 3. an input tooth; 4. a rotating shaft; 5. an output tooth; 6. a turntable; 7. a guide seat; 8. guiding teeth; 9. a cover body; 10. a scale; 11. a connecting rod assembly; 12. a baffle; 13. a bracket; 14. a motor; 15. the teeth are driven.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples.

Examples:

as shown in fig. 1 to 4:

the utility model provides a connecting rod mechanism with scale visualization size adjustment, which comprises a guide seat 7, wherein the main body of the guide seat 7 is of a circular structure, the top end of the guide seat 7 is provided with guide teeth 8, the outer side of the guide seat 7 is provided with a cover body 9, the cover body 9 is of a top end penetrating structure, the inner top end surface of the cover body 9 is provided with scales 10 in an annular array, the top end of the guide seat 7 is provided with a connecting rod assembly 11, one side of the connecting rod assembly 11 is fixedly connected with a baffle 12, the top end surface of the cover body 9 is fixedly connected with a bracket 13, the top end of a transverse member in the bracket 13 is provided with a motor 14, the bottom end output shaft of the motor 14 is provided with driving teeth 15, the driving teeth 15 and the guide teeth 8 are meshed for transmission, the motor 14 and the driving teeth 15 form a driving structure together, after the belt wheel 2 and the belt are installed, the belt 2 is started, the other belt wheel 2 is driven to rotate through the transmission connection of the belt, the input shaft 1 is driven to rotate through the belt, the transmission connection of the belt is realized, the input teeth 3 installed on the outer side of the input shaft 1 is connected with the output teeth 5 arranged on the outer side of the rotating shaft 4, the output teeth 5 are fixedly connected with a bracket 13, the top end of the output teeth 5 is meshed with the driving teeth 15, the driving teeth 15 and the driving teeth 15 are meshed with the driving teeth 15, the driving teeth 6, the driving wheels 6 is driven by the driving wheels 6 through the belt 4 to rotate, and the driving shaft 6 is driven to rotate the rotating shaft 6, and the rotating shaft 6 through the transmission assembly is driven to rotate the driving shaft 6 through the transmission shaft 6.

Wherein, the guide seat 7 is installed on the top of carousel 6, and the guide seat 7 is eccentric installation, pivot 4 has been installed to the bottom of carousel 6, output structure has been constituteed jointly to pivot 4 and carousel 6, and output tooth 5 is installed in the outside of pivot 4, when using, if need adjust the deflection angle of link assembly 11, can rotate drive through the motor 14 of starting to install at cover body 9 and support 13 top, and realize driving link assembly 11 through the meshing transmission of drive tooth 15 and the guide tooth 8 that sets up on the guide seat 7 top, and when link assembly 11 rotates, can be synchronous utilize the scale 10 that sets up on cover body 9 top to carry out real-time observation operation to the deflection angle of current link assembly 11, and then reach the purpose of being convenient for follow-up adjustment more, this design can realize being convenient for more link assembly 11 to adjust, and the adjustment precision is more accurate, and then reach more practical purpose.

The left side meshing transmission of output tooth 5 has input tooth 3, and input tooth 3 installs in the outside position of input shaft 1, and input shaft 1 and input tooth 3 have formed drive structure jointly, and band pulley 2 is installed to input shaft 1's outer peripheral face bottom, and input shaft 1 and band pulley 2 and input tooth 3 are input structure.

Specific use and action of the embodiment:

when the device is used, when the link mechanism needs to be installed and used, the input shaft 1 can be installed into the fixed base by utilizing the bearing installed on the outer side of the input shaft, and the belt wheel 2 installed at the bottom end of the input shaft 1 can be synchronously connected with an external belt;

after the belt wheel 2 and the belt are installed, the belt wheel 2 at the other position is driven to rotate by starting an external driving machine, the input shaft 1 is driven to rotate by the transmission connection of the belt and the belt wheel 2, the rotary table 6 installed at the top end of the rotary shaft 4 is driven to rotate by the transmission connection of the input teeth 3 installed at the outer side of the input shaft 1 and the output teeth 5 arranged at the outer side of the rotary shaft 4, and the eccentric installed guide seat 7 is driven to rotate by the rotary table 6 so as to drive the connecting rod assembly 11 installed at the top end of the rotary table 6 to swing in a reciprocating manner, so that mechanical transmission is realized, and further the purpose of being more practical is achieved;

and when using, if need when adjusting the deflection angle of link assembly 11, can rotate drive tooth 15 through the motor 14 that starts to install on cover body 9 and support 13 top to realize driving link assembly 11 and rotate through the meshing transmission of drive tooth 15 and the guide tooth 8 that sets up on the guide seat 7 top, and when link assembly 11 rotates, can be synchronous utilize the scale 10 that sets up on cover body 9 top to carry out real-time observation operation to the deflection angle of current link assembly 11, and then reach the purpose of being convenient for follow-up adjustment more, this design can realize being convenient for more and adjust link assembly 11, and the adjustment precision is more accurate, and then reaches more practical purpose.

Claims (5)

1. A take visual adjustment size's of scale link mechanism, its characterized in that: including guide (7), the main part of guide (7) is circular structure, and guide tooth (8) are installed on the top of guide (7), and cover body (9) are installed in the outside of guide (7), and cover body (9) are top through structure, and are annular array on the inside up end of cover body (9) and be provided with scale (10), link assembly (11) are installed on the top of guide (7), one side fixedly connected with baffle (12) of link assembly (11), and fixedly connected with support (13) on the up end of cover body (9), motor (14) are installed on the top of transverse member in support (13), install driving tooth (15) on the bottom output shaft of motor (14), and driving tooth (15) and guide tooth (8) mesh transmission, motor (14) and driving tooth (15) have constituteed driving structure jointly.

2. A graduated visual resizing linkage as defined in claim 1, wherein: the guide seat (7) is arranged at the top end of the rotary table (6), the guide seat (7) is eccentrically arranged, and the rotary shaft (4) is arranged at the bottom end of the rotary table (6).

3. A graduated visual resizing linkage as defined in claim 2, wherein: the rotating shaft (4) and the rotating disc (6) form an output structure together, and output teeth (5) are arranged on the outer side of the rotating shaft (4).

4. A graduated visual resizing linkage as in claim 3, wherein: the left side meshing transmission of output tooth (5) has input tooth (3), and input tooth (3) are installed in the outside position of input shaft (1), and input shaft (1) and input tooth (3) have formed the drive structure jointly.

5. A graduated visual resizing linkage as defined in claim 4 wherein: the pulley (2) is installed at the bottom end of the outer peripheral surface of the input shaft (1), and the input shaft (1), the pulley (2) and the input teeth (3) are of an input structure.