CN208666517U - A kind of centralization multistage linking transmission mechanism - Google Patents

Abstract

The utility model relates to a kind of centralized multistage linking transmission mechanisms, and including main motor, shaft coupling, main shaft, guiding mechanism, conveying mechanism I and conveying mechanism II: the main motor is mounted in the fixed beam of glass conveying line by motor cabinet；The output shaft of the main motor is connect by shaft coupling with the main shaft；The main shaft passes through gear-driven assembly respectively and the guiding mechanism, conveying mechanism I and conveying mechanism II are drivingly connected.The utility model has filled up domestic technique blank, break the monopoly position of import equipment, reduce the hardware cost of glass production enterprise, reduce the production cost of glass, guarantee glass run smoothly during transportation, accurate positioning, there is good controllability simultaneously, hollow glass is enabled preferably to serve national defense construction and the national economic development.

Description

A kind of centralization multistage linking transmission mechanism

Technical field

The utility model relates to a kind of transmission mechanism, in particular to a kind of centralized multistage linking transmission mechanism.

Background technique

Currently, overseas equipment is advanced according to its theory in hollow glass processing equipment industry, and it is technologically advanced, in monopolization Status, full-automatic TPS (TPS, THERMO PLASTIC SPACER, thermoplasticity parting bead) glass glue-spreading machine is not yet completed at home Production domesticization.

In using TPS technology production hollow glass, transmission mechanism is to automate spray between manufacture two or more layers glass The key link for applying the integrated system of TPS glue has the function of transmitting glass.But existing transport mechanism structure transmission precision is not If height, especially glass are too big, due to transmit power in transport mechanism inadequate and do not have guiding role, bulky glass and transmission The frictional force of device is not easy greatly very much to be sent out, thus causes in transmit process to run unstable, position inaccurate, controllable Property difference defect.

The utility model breaks the monopoly position of import equipment, reduces glass production enterprise to fill up domestic technique blank The hardware cost of industry, reduces the production cost of glass, guarantee glass run smoothly during transportation, accurate positioning, have simultaneously There is good controllability, enables hollow glass preferably to serve national defense construction and the national economic development, therefore devise one The centralized multistage linking transmission mechanism of kind.

Utility model content

The purpose of this utility model is to provide a kind of centralized multistage linking transmission mechanisms, to fill up domestic technique sky It is white, break the monopoly position of import equipment, reduce the hardware cost of glass production enterprise, reduce the production cost of glass, guarantees Glass runs smoothly during transportation, accurate positioning, while having good controllability, enables hollow glass better Serve national defense construction and the national economic development.

To solve the above-mentioned problems, the utility model provides a kind of centralized multistage linking transmission mechanism, including main electricity Machine, shaft coupling, main shaft, guiding mechanism, conveying mechanism I and conveying mechanism II:

The main motor is mounted in the fixed beam of glass conveying line by motor cabinet；

The output shaft of the main motor is connect by shaft coupling with the main shaft；

The main shaft passes through gear-driven assembly respectively and the guiding mechanism, conveying mechanism I and conveying mechanism II drive Connection.

Preferably, a driving gear and a bevel gear I is fixedly mounted in the front and back end of the main shaft respectively:

The driving gear is engaged with a gear of gear I and one II respectively, and the gear I is fixedly mounted on a transmission shaft I, The conveying mechanism I includes driving pulley I, and the driving pulley I is fixedly and coaxially connected with the transmission shaft I；The gear II It is fixedly mounted on a transmission shaft II, the conveying mechanism II includes driving pulley II, the driving pulley II and the transmission Axis II is fixedly and coaxially connected；

The bevel gear of bevel gear I and one II engages, and the bevel gear II is fixedly mounted on a transmission shaft III, the biography Also coaxial on moving axis III that a driving pulley III is fixedly mounted, the driving pulley III is made up of a synchronous belt and driven pulley III One synchronous drive mechanism, the driven pulley III are fixedly and coaxially connected with the guiding mechanism.

It is connected preferably, the gear I and driving pulley I are rotated synchronously by flat key and transmission shaft I, and passes through locking Nut check；The gear II and driving pulley II, which are rotated synchronously by flat key and transmission shaft II, to be connected, and passes through locking screw Mother's locking；The bevel gear II and driving pulley III are rotated synchronously by flat key and transmission shaft III to be connected, and passes through locking nut Locking.

Preferably, the driving gear is respectively with II external toothing of the gear I and gear, the gear I and gear II divide Not Wei Yu the driving gear two sides.

It is the transmission shaft I, parallel with transmission shaft III with transmission shaft II and set vertically preferably, major axis horizontal setting It sets, the transmission shaft I is located at the lower section of the main shaft with transmission shaft II, and the transmission shaft III is located at the top of the main shaft.

Preferably, the conveying mechanism I further includes driven pulley I, between the driving pulley I and the driven pulley I It is sequentially connected by transmission belt I.

Preferably, the conveying mechanism II further includes driven pulley II, the driving pulley II and the driven pulley II Between be sequentially connected by transmission belt II.

Compared with prior art, there are following technical effects for the utility model:

The utility model has filled up domestic technique blank, breaks the monopoly position of import equipment, reduces glass production enterprise Hardware cost, reduce the production cost of glass, protected by the interaction of guiding mechanism, conveying mechanism I and conveying mechanism II Card glass runs smoothly during transportation, accurate positioning, while having good controllability, enables hollow glass more preferable Serve national defense construction and the national economic development.

Detailed description of the invention

It, below will be to required in embodiment description in order to illustrate more clearly of the technical solution of the utility model embodiment The attached drawing used is briefly described, it is therefore apparent that and the drawings in the following description are merely some embodiments of the present invention, For those skilled in the art, without creative efforts, other be can also be obtained according to these attached drawings Attached drawing.In attached drawing:

Fig. 1 is a kind of main view of the centralized multistage linking transmission mechanism of alternative embodiment of the utility model；

Fig. 2 is a kind of top view of the centralized multistage linking transmission mechanism of alternative embodiment of the utility model；

Fig. 3 is a kind of right view of the centralized multistage linking transmission mechanism of alternative embodiment of the utility model；.

Specific embodiment

Centralized multistage linking transmission mechanism provided by the utility model is carried out below with reference to Fig. 1 to Fig. 3 detailed Description, the present embodiment are implemented under premised on technical solutions of the utility model, give detailed embodiment and tool The operating process of body, but the protection scope of the utility model is not limited to the following embodiments, and those skilled in the art are not changing In the range of the spirit of the present invention and content, can it be modified and be polished.

Fig. 1 to Fig. 3, a kind of centralization multistage linking transmission mechanism are please referred to, this transmission mechanism is applied in TPS glass glue-spreading In machine, in the present embodiment, transmission mechanism includes main motor 4, shaft coupling 6, main shaft 7, guiding mechanism 3, conveying mechanism I 1 and defeated Send mechanism II 2:

The main motor 4 is mounted in the fixed beam of glass conveying line by motor cabinet 5, and motor cabinet 5 passes through several interior six Angle screw is fastened in fixed beam；

The output shaft of the main motor 4 is connect by shaft coupling 6 with the main shaft 7, with the rotation of driving spindle 7；

The main shaft 7 passes through gear-driven assembly and the guiding mechanism 3, conveying mechanism I 1 and conveying mechanism II 2 respectively It is drivingly connected.

As one embodiment, a driving gear 8 and a bevel gear I 9 is fixedly mounted in the front and back end of the main shaft 7 respectively, In the present embodiment, main shaft 7 drives driving gear 8 and bevel gear I 9 to rotate synchronously by flat key respectively, and passes through locking nut Locking:

The driving gear 8 is engaged with a gear I 10 and a gear II 11 respectively, in the present embodiment, the driving tooth For wheel 8 respectively with II 11 external toothing of the gear I 10 and gear, the gear I 10 and gear II 11 are located at the driving tooth The two sides of wheel 8, gear I 10 and gear II 11 rotate synchronously in the same direction；

The gear I 10 is fixedly mounted on a transmission shaft I 12, and the conveying mechanism I 1 includes driving pulley I 101, actively Belt wheel I 101 is fixedly and coaxially connected with the transmission shaft I 12, and the transmission shaft I 12 is by power transmission to conveying mechanism I 1；It is described Gear II 11 is fixedly mounted on a transmission shaft II 13, and the conveying mechanism II 2 includes driving pulley II 201, driving pulley II 201 are fixedly and coaxially connected with the transmission shaft II 13, and the transmission shaft II 13 is by power transmission to conveying mechanism II 2；Conveyer Structure I 1 and conveying mechanism II 2 in the same direction and move synchronously.

II 14 external toothing of the bevel gear I 9 and a bevel gear, the bevel gear II 14 are fixedly mounted on a transmission shaft III 15 On, also coaxial on the transmission shaft III 15 that a driving pulley III 16 is fixedly mounted, the driving pulley III 16 passes through a synchronous belt 17 constitute a synchronous drive mechanism, the driven pulley III 18 and the coaxial fixed company of the guiding mechanism 3 with driven pulley III 18 It connects.

In the present embodiment, gear I 10 and driving pulley I 101, which are rotated synchronously by flat key and transmission shaft I 12, connects, And it is locked by locking nut；Gear II 11 and driving pulley II 201, which are rotated synchronously by flat key and transmission shaft II 13, to be connected, And it is locked by locking nut；Bevel gear II 14 and driving pulley III 16 are rotated synchronously by flat key and transmission shaft III 15 to be connected, And it is locked by locking nut.

In the present embodiment, the main shaft 7 is horizontally disposed, the transmission shaft I 12 and transmission shaft II 13, transmission shaft III 15 Three is parallel and is vertically arranged, and the transmission shaft I 12 is located at the lower section of the main shaft 7, the transmission shaft III with transmission shaft II 13 15 are located at the top of the main shaft 7, and the guiding mechanism 3 is located at the top of driven pulley III 18.

In the present embodiment, the conveying mechanism I 1 further includes driven pulley I 103, the driving pulley I 101 with it is described It is sequentially connected between driven pulley I 103 by transmission belt I 102.

The conveying mechanism II 2 further includes driven pulley II 203, the driving pulley II 201 and the driven pulley II It is sequentially connected between 203 by transmission belt II 202.

As shown in Figure 1, when the present embodiment is in use, glass is transmitted from conveying mechanism I 1 to II 2 direction of conveying mechanism, conveying Mechanism I 1 is synchronized with the movement with conveying mechanism II 2, and guiding mechanism 3 plays guiding role, direction of rotation and glass to glass Conveying direction it is consistent.In the present embodiment, conveying mechanism I 1 is synchronized with the movement with conveying mechanism II 2, and guiding mechanism 3 has Guiding role, so that glass runs smoothly in transmission process, accurate positioning, has good controllability.

Disclosed above is only the specific embodiment of the application, and however, this application is not limited to this, any this field Technical staff can think variation, should all fall in the protection domain of the application.

Claims (7)

1. a kind of centralization multistage linking transmission mechanism, which is characterized in that including main motor, shaft coupling, main shaft, guiding mechanism, Conveying mechanism I and conveying mechanism II:

The main motor is mounted in the fixed beam of glass conveying line by motor cabinet；

The output shaft of the main motor is connect by shaft coupling with the main shaft；

The main shaft passes through gear-driven assembly respectively and the guiding mechanism, conveying mechanism I and conveying mechanism II are drivingly connected.

2. a kind of centralized multistage linking transmission mechanism as described in claim 1, which is characterized in that the front and back end of the main shaft A driving gear and a bevel gear I are fixedly mounted respectively:

The driving gear is engaged with a gear of gear I and one II respectively, and the gear I is fixedly mounted on a transmission shaft I, described Conveying mechanism I includes driving pulley I, and the driving pulley I is fixedly and coaxially connected with the transmission shaft I；The gear II is fixed It is mounted on a transmission shaft II, the conveying mechanism II includes driving pulley II, the driving pulley II and the transmission shaft II It is fixedly and coaxially connected；

The bevel gear of bevel gear I and one II engages, and the bevel gear II is fixedly mounted on a transmission shaft III, the transmission shaft Also coaxial on III that a driving pulley III is fixedly mounted, the driving pulley III is made up of together a synchronous belt and driven pulley III Transmission mechanism is walked, the driven pulley III is fixedly and coaxially connected with the guiding mechanism.

3. a kind of centralized multistage linking transmission mechanism as claimed in claim 2, which is characterized in that the gear I and active Belt wheel I is rotated synchronously by flat key and transmission shaft I and is connected, and is locked by locking nut；The gear II and driving pulley II rotates synchronously connection by flat key and transmission shaft II, and passes through locking nut and lock；The bevel gear II and driving pulley III rotates synchronously connection by flat key and transmission shaft III, and passes through locking nut and lock.

4. a kind of centralized multistage linking transmission mechanism as claimed in claim 2, which is characterized in that the driving gear difference With II external toothing of the gear I and gear, the gear I and gear II are located at the two sides of the driving gear.

5. a kind of centralized multistage linking transmission mechanism as claimed in claim 2, which is characterized in that the major axis horizontal is set It sets, the transmission shaft I, parallel with transmission shaft III with transmission shaft II and be vertically arranged, the transmission shaft I is located at institute with transmission shaft II The lower section of main shaft is stated, the transmission shaft III is located at the top of the main shaft.

6. a kind of centralized multistage linking transmission mechanism as claimed in claim 2, which is characterized in that the conveying mechanism I is also Including driven pulley I, it is sequentially connected between the driving pulley I and the driven pulley I by transmission belt I.

7. a kind of centralized multistage linking transmission mechanism as claimed in claim 2, which is characterized in that the conveying mechanism II is also Including driven pulley II, it is sequentially connected between the driving pulley II and the driven pulley II by transmission belt II.