CN211919837U - High-efficient coal conveying belt coupler - Google Patents

Abstract

The utility model discloses a high-efficient coal conveying belt coupler, including the coupler, be provided with the axle sleeve in the coupler, and the upper end of axle sleeve is provided with first spacing jack, the left side of coupler is provided with left flange cover, and is provided with first spacing hole on the left flange cover to the left side of left flange cover is provided with plug-in components, be provided with left flange cover on the plug-in components, and the left side of plug-in components is provided with first bolt, the left side of left flange cover is provided with the driven shaft, and driven shaft and left flange cover pass through threaded connection. This high-efficient coal conveying belt coupler adopts the axle sleeve in the coupler to correspond with the plug-in components on the left flange cover and inserts and close, and first spacing hole on the left flange cover can be to corresponding with the first spacing jack on the coupler after that, can pass the through-hole on the plug-in components after that and be connected with the tongue structure of axle sleeve right-hand member, and the driven shaft just can the coupler obtain convenient spacing installation like this, and the driving shaft can carry out erection joint with the side coupler according to the aforesaid with the principle.

Description

High-efficient coal conveying belt coupler

Technical Field

The utility model relates to a coupler equipment technical field specifically is a high-efficient coal conveying belt coupler.

Background

The coal conveying mainly comprises coal unloading, coal piling, coal feeding and coal blending so as to achieve the purpose of providing coal for a coal bunker on time, the coal conveying is generally standby operation on a first road and a second road, and main operation equipment comprises: the high-efficiency coal conveying belt coupler is only the same as a coupler in belt conveying.

The high-efficient coal conveying belt coupler on the market can not be convenient when installing fix a position to lead to the inconvenient problem of coupler installation.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high-efficient coal conveying belt coupler to solve the problem that can not be convenient fix a position when installing of the high-efficient coal conveying belt coupler that provides 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 high-efficient coal conveying belt coupler, includes the coupler, be provided with the axle sleeve in the coupler, and the upper end of axle sleeve is provided with first spacing jack, the left side of coupler is provided with left flange cover, and is provided with first spacing hole on the left flange cover to the left side of left flange cover is provided with plug-in components, be provided with left flange cover on the plug-in components, and the left side of plug-in components is provided with first bolt, the left side of left flange cover is provided with the driven shaft, and driven shaft and left flange cover pass through threaded connection.

Preferably, a side coupler is arranged on the right side of the coupler, a guide hole structure is arranged in the side coupler, the guide hole structure in the side coupler corresponds to the guide hole structure on the coupler, a slot is arranged on the outer wall of the guide hole on the side coupler, and a second limiting jack is arranged at the upper end of the slot.

Preferably, the second limiting jack and the slot are of a vertical structure, and the second limiting jack corresponds to the second limiting hole.

Preferably, the right side of the side coupler is provided with a right flange sleeve, the right flange sleeve is provided with a second limiting hole, the right side of the second limiting hole is provided with a side part, and the lower end of the side part is provided with the right flange sleeve.

Preferably, the right side of the side part is provided with a second bolt, the right side of the second bolt is provided with a driving shaft, and the driving shaft is in threaded connection with the inner cavity of the right flange sleeve.

Preferably, the right flange sleeve and the left flange sleeve are identical in structure, the plug-in components and the side components on the left flange sleeve and the right flange sleeve are respectively clamped with the shaft sleeve and the slot, and through holes are formed in the side components.

Preferably, the first limiting jack and the shaft sleeve are in a vertical structure, and the first limiting jack corresponds to the first limiting hole.

Compared with the prior art, the beneficial effects of the utility model are that: this high-efficient coal conveying belt coupler adopts the axle sleeve in the coupler to correspond with the plug-in components on the left flange cover and inserts and close, and first spacing hole on the left flange cover can be to corresponding with the first spacing jack on the coupler after that, can pass the through-hole on the plug-in components after that and be connected with the tongue structure of axle sleeve right-hand member, and the driven shaft just can the coupler obtain convenient spacing installation like this, and the driving shaft can carry out erection joint with the side coupler according to the aforesaid with the principle.

Drawings

FIG. 1 is a front view of a high-efficiency coal belt coupler according to the present invention;

FIG. 2 is a side view of a right flange sleeve of the high-efficiency coal belt coupler of the present invention;

fig. 3 is a side view of the right flange sleeve of the high-efficiency coal conveying belt coupler of the utility model.

In the figure: 1. driven shaft, 2, left flange cover, 3, first spacing hole, 4, coupler, 5, first spacing jack, 6, the spacing jack of second, 7, the spacing hole of second, 8, side spare, 9, first bolt, 10, plug-in components, 11, axle sleeve, 12, side coupler, 13, slot, 14, right flange cover, 15, second bolt, 16, driving shaft, 17, through-hole.

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 high-efficiency coal conveying belt coupler comprises a coupler 4, a shaft sleeve 11 is arranged in the coupler 4, the shaft sleeve 11 is arranged in the coupler 4, a side coupler 12 is arranged on the right side of the coupler 4, the coupler 4 and the side coupler 12 are connected through welding, a guide hole structure is arranged in the side coupler 12, the guide hole structure in the side coupler 12 corresponds to the guide hole structure on the coupler 4, a slot 13 is arranged on the outer wall of the guide hole on the side coupler 12, a slot 13 is arranged on the outer wall of the side coupler 12, a second limit jack 6 is arranged at the upper end of the slot 13, the structure enables the coupler 4 to correspond to a left flange sleeve 2 on the left side when the coupler 4 and the side coupler 12 are installed and connected, then the left flange sleeve 2 can be inserted into an inner cavity on the coupler 4, and a plug-in 10 can be mutually inserted with the shaft sleeve 11, then, the first bolt 9 can be inserted into the through hole 17 of the insert 10 on the shaft sleeve 11 to rotate clockwise, then the first bolt 9 can be in threaded connection with the convex groove structure at the right end of the shaft sleeve 11, and similarly, the right flange sleeve 14 and the slot 13 can be installed according to the installation steps, the second limit jack 6 and the slot 13 are in a vertical structure, and the second limit jack 6 corresponds to the second limit hole 7, the structure enables that after the left flange sleeve 2 is connected with the coupler 4, the prepared screw can be inserted into the first limit jack 5 to be in threaded connection with the first limit hole 3 for limiting, the right side of the side coupler 12 is provided with the right flange sleeve 14, the right flange sleeve 14 is provided with the second limit hole 7, the right side of the second limit hole 7 is provided with the side piece 8, the lower end of the side piece 8 is provided with the right flange sleeve 14, and the structure enables that after the side coupler 12 and the right flange sleeve 14 are in inserted connection, the structure can lead the prepared screw to be inserted into the second limit jack 6 to be in threaded connection with the second limit hole 7 for limiting, the right side of the side piece 8 is provided with a second bolt 15, the right side of the second bolt 15 is provided with a driving shaft 16, and the driving shaft 16 is in threaded connection with the inner cavity of the right flange sleeve 14, when the right flange sleeve 14 is connected with the side coupler 12, the screw can be inserted into the through hole 17 on the side piece 8 through the second bolt 15 to be in threaded connection with the convex groove structure at the left end of the slot 13, the right flange sleeve 14 and the left flange sleeve 2 have the same structure, the plug-in components 10 and the side pieces 8 on the left flange sleeve 2 and the right flange sleeve 14 are respectively clamped with the shaft sleeve 11 and the slot 13, the through hole 17 is arranged on the side piece 8, the upper end of the shaft sleeve 11 is provided with a first limit jack 5, the coupler 4 is provided with the first limit jack 5, and the shaft sleeve 11 are in a vertical structure, the first limit jack 5 corresponds to the first limit hole 3, the left side of the coupler 4 is provided with a left flange sleeve 2, the left side of the coupler 4 and the left flange sleeve 2 are mutually sleeved, the left flange sleeve 2 is provided with the first limit hole 3, the left side of the left flange sleeve 2 is provided with an insert 10, the left flange sleeve 2 and the insert 10 are connected by welding, the insert 10 is provided with the left flange sleeve 2, the left side of the insert 10 is provided with a first bolt 9, a through hole structure on the insert 10 is in threaded connection with the first bolt 9, the left side of the left flange sleeve 2 is provided with a driven shaft 1, and the driven shaft 1 and the left flange sleeve 2 are in threaded connection, the structure enables a shaft sleeve 11 in the coupler 4 to be correspondingly inserted with the insert 10 on the left flange sleeve 2, then the first limit hole 3 on the left flange sleeve 2 can correspond to the first limit jack 5 on the coupler 4, the first screw 9 can then be connected to the tongue structure at the right end of the sleeve 11 through the through-hole 17 in the insert 10, so that the driven shaft 1 can be mounted in a position-limited manner with respect to the coupling 4, and in the same way the drive shaft 16 can be mounted in connection with the side coupling 12 as described above.

The working principle is as follows: when the high-efficiency coal conveying belt coupler is used, whether parts of the device are damaged or not firmly connected is firstly checked, the device is used after the parts are checked to be correct, when the coupler 4 and the side coupler 12 are connected with the driven shaft 1 and the driving shaft 16, the prepared driven shaft 1 and the inner cavity of the left flange sleeve 2 are in threaded connection, then the plug-in 10 on the left flange sleeve 2 and the shaft sleeve 11 on the coupler 4 are correspondingly plugged, then the first bolt 9 is inserted into the through hole 17 on the plug-in 10 and is in threaded rotary connection with the convex groove structure at the right end of the shaft sleeve 11, then the prepared screw is inserted into the first limiting insertion hole 5 and is in threaded connection with the first limiting hole 3 for limiting, so that the coupler 4 and the driven shaft 1 are conveniently installed through the left flange sleeve 2, and then the driving shaft 16 and the inner cavity of the right flange sleeve 14 are in threaded connection, then the right flange sleeve 14 is inserted into the inner cavity of the side coupler 12, then the side member 8 on the outer wall of the right flange sleeve 14 can be mutually inserted into the slot 13, and then the second bolt 15 penetrates through the slot 13 to be combined with the convex groove at the left end of the slot 13 to form threaded connection, so that the side coupler 12 and the driving shaft 16 can be conveniently installed, and the working principle of the high-efficiency coal conveying belt coupler is realized.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (7)

1. An efficient coal conveying belt coupler comprises a coupler (4), and is characterized in that: be provided with axle sleeve (11) in coupler (4), and the upper end of axle sleeve (11) is provided with first spacing jack (5), the left side of coupler (4) is provided with left flange cover (2), and is provided with first spacing hole (3) on left flange cover (2) to the left side of left flange cover (2) is provided with plug-in components (10), be provided with left flange cover (2) on plug-in components (10), and the left side of plug-in components (10) is provided with first bolt (9), the left side of left flange cover (2) is provided with driven shaft (1), and driven shaft (1) and left flange cover (2) pass through threaded connection.

2. A high efficiency coal belt coupling as claimed in claim 1, wherein: the right side of the coupler (4) is provided with a side coupler (12), a guide hole structure is arranged in the side coupler (12), the guide hole structure in the side coupler (12) corresponds to the guide hole structure on the coupler (4), a slot (13) is arranged on the outer wall of the guide hole on the side coupler (12), and the upper end of the slot (13) is provided with a second limiting jack (6).

3. A high efficiency coal belt coupling as claimed in claim 2, wherein: the second limiting insertion hole (6) and the slot (13) are of a vertical structure, and the second limiting insertion hole (6) corresponds to the second limiting hole (7).

4. A high efficiency coal belt coupling as claimed in claim 2, wherein: the right side of the side coupler (12) is provided with a right flange sleeve (14), a second limiting hole (7) is formed in the right flange sleeve (14), a side piece (8) is arranged on the right side of the second limiting hole (7), and the lower end of the side piece (8) is provided with the right flange sleeve (14).

5. The high efficiency coal belt coupler as set forth in claim 4, wherein: the right side of the side piece (8) is provided with a second bolt (15), the right side of the second bolt (15) is provided with a driving shaft (16), and the driving shaft (16) is in threaded connection with the inner cavity of the right flange sleeve (14).

6. The high efficiency coal belt coupler as set forth in claim 4, wherein: the right flange sleeve (14) and the left flange sleeve (2) are identical in structure, the plug-in piece (10) and the side piece (8) on the left flange sleeve (2) and the right flange sleeve (14) are respectively clamped with the shaft sleeve (11) and the slot (13) mutually, and the side piece (8) is provided with a through hole (17).

7. A high efficiency coal belt coupling as claimed in claim 1, wherein: the first limiting insertion hole (5) and the shaft sleeve (11) are of a vertical structure, and the first limiting insertion hole (5) corresponds to the first limiting hole (3).

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