CN214812517U - Cooling structure of vibrating screen synchronizing box - Google Patents

Abstract

The utility model discloses a synchronous case cooling structure of shale shaker, including shale shaker assembly, base, the synchronous case of triaxial and the synchronous case of two axles, the shale shaker assembly passes through the shale shaker support to be fixed, and the shale shaker support is connected the position with the shale shaker assembly and installs damping spring, the base is fixed in the side of shale shaker assembly, and the generator installs at the base upper surface through first mount, the synchronous case of triaxial passes through the second mount to be fixed at the base upper surface, and the rim plate of generator output shaft passes through the belt and is connected with the rim plate of the synchronous case of triaxial, and the synchronous case of triaxial and eccentric shaft connection simultaneously, the synchronous case of two axles passes through the second mount to be fixed at the base upper surface, and the synchronous case of two axles is connected with the eccentric shaft, and the synchronous case of two axles passes through transmission shaft fixed connection with the synchronous case of three axles simultaneously. This synchronous case cooling structure of shale shaker can reduce the fault rate of shale shaker, improves the life of shale shaker.

Description

Cooling structure of vibrating screen synchronizing box

Technical Field

The utility model relates to a synchronous case equipment technical field of shale shaker specifically is a synchronous case cooling structure of shale shaker.

Background

According to the development of the market, the larger the vibrating screen is, and in order to meet the requirement of the exciting force of the vibrating screen, the vibrating screen with a double-shaft structure is designed, and a synchronous box is connected with an eccentric shaft, so that the synchronous exciting of double shafts is met, and the exciting forces are consistent; due to high-speed operation, the synchronous box also generates heat, and the problem of oil temperature rise occurs.

Therefore, the cooling structure of the synchronous box of the vibrating screen is improved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a shale shaker synchronization box cooling structure 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 synchronous case cooling structure of shale shaker, includes shale shaker assembly, base, the synchronous case of triaxial and the synchronous case of two axles, the shale shaker assembly is fixed through the shale shaker support, and the shale shaker support is connected the position installation damping spring with the shale shaker assembly, the base is fixed in the side of shale shaker assembly, and the generator installs at the base upper surface through first mount, the synchronous case of triaxial passes through the second mount to be fixed at the base upper surface, and the rim plate of generator output shaft passes through the belt and is connected with the rim plate of the synchronous case of triaxial, and the synchronous case of triaxial is connected with the eccentric shaft simultaneously, the synchronous case of two axles passes through the second mount to be fixed at the base upper surface, and the synchronous case of two axles is connected with the eccentric shaft, and the synchronous case of two axles passes through transmission shaft fixed connection with the synchronous case of three axles simultaneously.

Preferably, the base is in the one end installation generator that is close to the shale shaker assembly discharge gate, and the first mount of fixed generator is Λ shape design.

Preferably, the front ends of the three-shaft synchronous box and the two-shaft synchronous box are fixedly connected through a transmission shaft, the two ends of the transmission shaft are provided with fan blades, and the transmission shaft and the fan blades are combined together to form an I-shaped structure.

Preferably, the rear ends of the three-axis synchronous box and the two-axis synchronous box are collecting grooves, the upper ends of the collecting grooves are locked by hollow bolts and nuts, meanwhile, the three-axis synchronous box is connected with a first oil delivery copper pipe and locks the hollow bolts, the other end of the first oil delivery copper pipe is fixed at the front-end gear of the three-axis synchronous box, the two-axis synchronous box is connected with a second oil delivery copper pipe and locks the hollow bolts, and the other end of the second oil delivery copper pipe is fixed at the front-end gear of the two-axis synchronous box.

Preferably, the three-axis synchronous box is fixed on one side, close to the generator, of the upper surface of the base through a second fixing frame, the two-axis synchronous box is fixed on one side, far away from the generator, of the upper surface of the base through a second fixing frame, and the second fixing frame is in a concave design.

Preferably, the wheel disc connected with the generator and the three-shaft synchronous box is provided with three grooves which can be simultaneously connected with three belts.

Preferably, the three damping springs are in one group, and the damping springs are symmetrically distributed at the connecting positions of the vibrating screen supports at the two sides of the vibrating screen assembly.

Compared with the prior art, the beneficial effects of the utility model are that: according to the cooling structure of the vibrating screen synchronizing box, gear oil splashed by gear movement is collected and then lubricated for the gear at the front end of the synchronizing box along the copper pipe, and the synchronizing box also has the cooling effect along with the flowing of the gear oil; the fan blades are arranged at the front end of the synchronous box, and rotate at a high speed along with the synchronous box, so that the effect of cooling the synchronous box is achieved, the failure rate of the vibrating screen is effectively reduced, and the service life of the vibrating screen is prolonged.

Drawings

FIG. 1 is a front view of the structure of the present invention;

FIG. 2 is a schematic top view of the structure of the present invention;

FIG. 3 is an enlarged schematic view of the A position of the structure chart 2 of the present invention

Fig. 4 is a schematic structural diagram of the present invention.

In the figure: 1. a shaker assembly; 2. a shaker support; 3. a generator; 4. a first oil conveying copper pipe; 5. a triaxial synchronization box; 6. a drive shaft; 7. a fan blade; 8. a second oil conveying copper pipe; 9. a biaxial synchronous box; 10. a damping spring; 11. a wheel disc; 12. a first fixing frame; 13. a belt; 14. a hollow bolt; 15. a second fixing frame; 16. a base; 17. a nut; 18. an eccentric shaft.

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. 1-3, the present invention provides a technical solution: a cooling structure of a vibrating screen synchronous box comprises a vibrating screen assembly 1, a base 16, a three-axis synchronous box 5 and a two-axis synchronous box 9, wherein the vibrating screen assembly 1 is fixed through a vibrating screen support 2, damping springs 10 are installed at the connecting part of the vibrating screen support 2 and the vibrating screen assembly 1, three damping springs 10 form a group, and four groups of damping springs 10 are symmetrically distributed at the connecting part of the vibrating screen support 2 at two sides of the vibrating screen assembly 1; the base 16 is fixed on the side surface of the vibrating screen assembly 1, the generator 3 is installed at one end, close to the discharge port of the vibrating screen assembly 1, of the base 16, and the first fixing frame 12 for fixing the generator 3 is designed in an inverted V shape; the generator 3 is arranged on the upper surface of a base 16 through a first fixing frame 12, the three-shaft synchronous box 5 is fixed on the upper surface of the base 16 through a second fixing frame 15, a wheel disc 11 connected with an output shaft of the generator 3 is connected with the wheel disc 11 of the three-shaft synchronous box 5 through a belt 13, and the wheel disc 11 connected with the generator 3 and the three-shaft synchronous box 5 is provided with three grooves which can be simultaneously connected with three belts 13; meanwhile, the three-shaft synchronous box 5 is connected with an eccentric shaft 18, the two-shaft synchronous box 9 is fixed on the upper surface of a base 16 through a second fixing frame 15, the two-shaft synchronous box 9 is connected with the eccentric shaft 18, meanwhile, the front ends of the three-shaft synchronous box 5 and the two-shaft synchronous box 9 are fixedly connected through a transmission shaft 6, fan blades 7 are installed at two ends of the transmission shaft 6, and the transmission shaft 6 and the fan blades 7 are combined together to form an I-shaped structure; the rear ends of the three-axis synchronous box 5 and the two-axis synchronous box 9 are collecting tanks, the upper ends of the collecting tanks are locked by hollow bolts 14 and nuts 17, holes are formed in the upper ends of the collecting tanks, meanwhile, the three-axis synchronous box 5 is connected with a first oil delivery copper pipe 4 and locks the hollow bolts 14, the other end of the first oil delivery copper pipe 4 is fixed at a gear at the front end of the three-axis synchronous box 5, the two-axis synchronous box 9 is connected with a second oil delivery copper pipe 8 and locks the hollow bolts 14, and the other end of the second oil delivery copper pipe 8 is fixed at a gear at the front end of the two-axis synchronous box 9; the triaxial synchronous box 5 is fixed on one side of the upper surface of the base 16 close to the generator 3 through the second fixing frame 15, the biaxial synchronous box 9 is fixed on one side of the upper surface of the base 16 far away from the generator 3 through the second fixing frame 15, and the second fixing frame 15 is designed in a concave shape.

As shown in fig. 1, the front ends of the three-axis synchronous box 5 and the two-axis synchronous box 9 are fixedly connected through the transmission shaft 6, and along with the high-speed rotation of the three-axis synchronous box 5 and the two-axis synchronous box 9, the fan blades 7 installed at the two ends of the transmission shaft 6 and the transmission shaft 6 rotate together at high speed, so that the fan blades 7 play a role in cooling the three-axis synchronous box 5 and the two-axis synchronous box 9.

As shown in fig. 2, the rear ends of the three-axis synchronous box 5 and the two-axis synchronous box 9 are used as collecting grooves, meanwhile, the upper ends of the three-axis synchronous box 5 and the two-axis synchronous box 9 are provided with holes and are respectively connected and locked by a first oil copper pipe 4 and a second oil copper pipe 8, the gear oil splashed by the gear movement is collected and then respectively lubricated for the front-end gears of the three-axis synchronous box 5 and the two-axis synchronous box 9 along the first oil copper pipe 4 and the second oil copper pipe 8, and along with the flowing of the gear oil, the three-axis synchronous box 5 and the two-axis synchronous box 9 also play a role in cooling.

The working principle is as follows: when the cooling structure of the vibrating screen synchronous box is used, the generator 3 is started, the wheel disc 11 connected with the output shaft of the generator 3 is connected to the wheel disc 11 of the three-shaft synchronous box 5 through the belt 13, the front ends of the three-shaft synchronous box 5 and the two-shaft synchronous box 9 are fixedly connected through the transmission shaft 6, so that the three-shaft synchronous box 5 is firstly driven to operate, then the two-shaft synchronous box 9 is driven through the transmission shaft 6, the three-shaft synchronous box 5 and the two-shaft synchronous box 9 are connected with the eccentric shaft 18, then the eccentric shaft 18 is driven to rotate, finally the vibrating screen assembly 1 fixed through the vibrating screen support 2 runs completely, in the process of complete running of the machine, the fan blades 7 arranged at the two ends of the transmission shaft 6 rotate together with the transmission shaft 6 so as to cool the three-shaft synchronous box 5 and the two-shaft synchronous box 9, the rear ends of the three-shaft synchronous box 5 and the two-shaft synchronous box 9 serve as collecting grooves, and the gear oil splashed by gear motion is collected along the first oil copper pipe 4 and the second oil copper pipe 8 for the three shafts and the same as the same shaft The front end gears of the step box 5 and the two-shaft synchronous box 9 are lubricated, and the three-shaft synchronous box 5 and the two-shaft synchronous box 9 also have the effect of cooling along with the flowing of gear oil; the whole process of the vibrating screen synchronous box cooling structure is the whole process.

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 (7)

1. The utility model provides a synchronous case cooling structure of shale shaker, includes shale shaker assembly (1), base (16), synchronous case of triaxial (5) and two synchronous cases of axle (9), its characterized in that: the vibrating screen assembly (1) is fixed through a vibrating screen bracket (2), a damping spring (10) is arranged at the connecting part of the vibrating screen bracket (2) and the vibrating screen assembly (1), the base (16) is fixed on the side surface of the vibrating screen assembly (1), the generator (3) is arranged on the upper surface of the base (16) through the first fixing frame (12), the three-axis synchronous box (5) is fixed on the upper surface of the base (16) through a second fixing frame (15), and a wheel disc (11) connected with the output shaft of the generator (3) is connected with the wheel disc (11) of the triaxial synchronous box (5) through a belt (13), meanwhile, the three-axis synchronous box (5) is connected with an eccentric shaft (18), the two-axis synchronous box (9) is fixed on the upper surface of the base (16) through a second fixing frame (15), the two-axis synchronous box (9) is connected with the eccentric shaft (18), meanwhile, the two-axis synchronous box (9) is fixedly connected with the three-axis synchronous box (5) through a transmission shaft (6).

2. The cooling structure of the vibrating screen synchronizing box according to claim 1, characterized in that: the base (16) is in the one end installation generator (3) that is close to shale shaker assembly (1) discharge gate, and first mount (12) of fixed generator (3) are Λ shape design.

3. The cooling structure of the vibrating screen synchronizing box according to claim 1, characterized in that: the front ends of the three-axis synchronous box (5) and the two-axis synchronous box (9) are fixedly connected through a transmission shaft (6), fan blades (7) are installed at two ends of the transmission shaft (6), and the transmission shaft (6) and the fan blades (7) are combined together to form an I-shaped structure.

4. The cooling structure of the vibrating screen synchronizing box according to claim 1, characterized in that: the rear end of triaxial synchronous case (5) and two synchronous cases (9) is the collecting vat, and hollow bolt (14) and nut (17) lock the upper end trompil of collecting vat, and triaxial synchronous case (5) are connected and are locked hollow bolt (14) with first oil delivery copper pipe (4) simultaneously, and the other end of first oil delivery copper pipe (4) is fixed in triaxial synchronous case (5) front end gear department, and two synchronous cases (9) are connected and are locked hollow bolt (14) with second oil delivery copper pipe (8), and the other end of second oil delivery copper pipe (8) is fixed in two synchronous case (9) front end gear department.

5. The cooling structure of the vibrating screen synchronizing box according to claim 1, characterized in that: the three-axis synchronous box (5) is fixed on one side, close to the generator (3), of the upper surface of the base (16) through a second fixing frame (15), the two-axis synchronous box (9) is fixed on one side, far away from the generator (3), of the upper surface of the base (16) through the second fixing frame (15), and the second fixing frame (15) is designed in a concave shape.

6. The cooling structure of the vibrating screen synchronizing box according to claim 1, characterized in that: a wheel disc (11) connected with the generator (3) and the triaxial synchronous box (5) is provided with three grooves and is simultaneously connected with three belts (13).

7. The cooling structure of the vibrating screen synchronizing box according to claim 1, characterized in that: the three damping springs (10) are in a group, and the damping springs (10) are symmetrically distributed on two sides of the vibrating screen assembly (1) in four groups.

Images