CN215046334U - Circuit breaker pre-installation carrier flow conveyor line - Google Patents

Abstract

The utility model discloses a circuit breaker preassembling carrier flow conveyor line, which comprises a linear conveying structure and a corner linking structure; the linear conveying structure comprises two guide rails, a connecting strip, a linear conveying motor and a linear conveying belt; one end parts of the two guide rails are respectively provided with a linear synchronous pulley box; a linear conveying motor is arranged between the two linear synchronous pulley boxes; the rotating shaft of the linear conveying motor is connected with the synchronizing wheels in the two linear synchronous belt wheel boxes; the linear conveyer belt is positioned on the upper end surface of the guide rail, and one end of the linear conveyer belt extends into the linear synchronous belt pulley box and is synchronously driven by a synchronous wheel in the linear synchronous belt pulley box; two conveying belts in different directions are arranged on the corner connecting structure; the linear conveying belt of the linear conveying structure is connected with the conveying belt on the corner connecting structure end to end; the guide rail of the linear conveying structure is connected with the bracket of the corner connecting structure. The utility model relates to a circuit breaker pre-installation carrier flowing water transfer chain can be used for steadily carrying circuit breaker pre-installation carrier.

Description

Circuit breaker pre-installation carrier flow conveyor line

Technical Field

The utility model relates to a circuit breaker pre-installation carrier flowing water transfer chain.

Background

The circuit breaker preassembly carrier is a carrier for preassembling internal parts of a circuit breaker, and is shown in fig. 2; when the carrier moves on the conveying line, the movement direction of the carrier is only consistent with the direction of the conveying line, and the carrier cannot deflect in situ on the conveying line, so that once the carrier deflects in situ, the positioning of an assembling mechanism is possibly deviated in the subsequent processing and assembling process, and the processing and assembling process is blocked.

In addition, in order to ensure the smooth operation of the installation process, the circuit breaker preassembly carrier is required to be ensured to always keep constant-speed and stable motion in the transportation process.

The existing common conveying line cannot meet all the requirements.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a circuit breaker pre-installation carrier flowing water transfer chain, this flowing water transfer chain have guaranteed the steady transport of circuit breaker pre-installation carrier.

In order to achieve the purpose, the technical scheme of the utility model is to design a flow conveying line of a pre-installed carrier of a circuit breaker, which comprises a linear conveying structure and a corner connecting structure;

the linear conveying structure comprises two parallel guide rails, a connecting strip for connecting the two guide rails, a linear conveying motor and a linear conveying belt; one end part of each of the two parallel guide rails is provided with a linear synchronous pulley box; a linear conveying motor is arranged between the two linear synchronous pulley boxes, and a motor body of the linear conveying motor is fixed on a guide rail on one side; the rotating shaft of the linear conveying motor is connected with synchronous wheels in two linear synchronous belt wheel boxes; the linear conveyer belt is positioned on the upper end surface of the guide rail, and one end of the linear conveyer belt extends into the linear synchronous belt pulley box and is synchronously driven by a synchronous wheel in the linear synchronous belt pulley box;

two conveying belts in different directions are arranged on the corner connecting structure;

the linear conveying belt of the linear conveying structure is connected with the conveying belt on the corner connecting structure end to end; the guide rail of the linear conveying structure is connected with the bracket of the corner connecting structure.

Furthermore, the corner connecting structure comprises a right-angle triangular support, a triangular support reinforcing plate and a motor mounting plate; the right-angle triangular support is composed of three metal components which are vertically spliced in pairs and a horizontal connecting plate; two mutually vertical metal components are horizontally arranged, the other metal component vertically downwards forms a supporting leg, and a horizontal connecting plate is connected between the two horizontally arranged metal components; the triangular support reinforcing plate covers the upper parts of the two horizontally transverse metal components, the outer side of the triangular support reinforcing plate is a right angle, and the inner side of the triangular support reinforcing plate is a smooth arc;

a triangular motor mounting plate is arranged on one corner of the horizontal connecting plate on the diagonal line of the included angle of the two horizontally transverse metal components; a motor is arranged below the motor mounting plate; synchronous pulley boxes are arranged on the horizontal connecting plates on the two sides of the motor mounting plate and on the end parts of the two horizontally transverse metal members; the synchronous pulley boxes at the end parts of the horizontal transverse metal members positioned at the same side are arranged opposite to the synchronous pulley boxes on the horizontal connecting plate to form a pair of synchronous pulley box groups; the two groups of synchronous belt pulley boxes positioned on the two sides of the horizontal connecting plate are mutually vertical; a motor rotating shaft of the motor penetrates through one group of synchronous pulley boxes, a driving pulley is arranged on the motor rotating shaft of the motor, a driven rotating shaft is arranged between the other group of synchronous pulley boxes, and a driven pulley is arranged on the driven rotating shaft; the lower surface of the horizontal connecting plate is provided with a diversion belt wheel, the upper surface of the horizontal connecting plate is provided with an arc-shaped groove, a belt is sequentially sleeved on the driving belt wheel, the driven belt wheel and the diversion belt wheel, and the belt positioned above the horizontal connecting plate is embedded into the arc-shaped groove on the upper surface of the horizontal connecting plate; the inner wall of the arc-shaped groove is provided with a roller; and a conveying belt which can be synchronously driven by a synchronous wheel in the synchronous pulley box is arranged above the synchronous pulley box.

Furthermore, the ends of a horizontal transverse metal member of the two corner connecting structures are connected to form an S-shaped or C-shaped structure.

Furthermore, a linear conveying structure is connected between the end parts of one horizontally transverse metal component of the two corner connecting structures; the end part of the other end of one horizontally transverse metal member of the two corner connecting structures is respectively connected with a linear conveying structure, so that an S-shaped or C-shaped structure is formed.

Furthermore, a plurality of corner connection structures and linear conveying structures are alternately connected to form a circulating and sealed conveying line.

The utility model has the advantages and the beneficial effects that: the utility model relates to a circuit breaker pre-installation carrier flowing water transfer chain can be used for steadily carrying circuit breaker pre-installation carrier for circuit breaker pre-installation carrier can not take place to block up the obstructed condition emergence in turning linking structure department.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic diagram of a circuit breaker pre-load carrier.

Fig. 3 is a schematic diagram of a linear transport structure and a corner joining structure.

Fig. 4 is a schematic oblique top view of the present invention.

Fig. 5 is a schematic side view of the present invention.

Fig. 6 is a schematic bottom view of the present invention.

Detailed Description

The following description will further describe embodiments of the present invention with reference to the accompanying drawings and examples. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

Example (b):

as shown in fig. 3 to 6, a flow line conveying line for a circuit breaker pre-assembly carrier includes a linear conveying structure and a corner connecting structure a;

the linear conveying structure comprises two parallel guide rails 14, a connecting strip for connecting the two guide rails 14, a linear conveying motor 15 and a linear conveying belt 17; one end parts of two parallel guide rails 14 are respectively provided with a linear synchronous pulley box 16; a linear conveying motor 15 is arranged between the two linear synchronous pulley boxes 16, and a motor body of the linear conveying motor 15 is fixed on a guide rail 14 on one side; the rotating shaft of the linear conveying motor 15 is connected with synchronous wheels in two linear synchronous pulley boxes 16; the linear conveyer belt 17 is positioned on the upper end surface of the guide rail 14, and one end of the linear conveyer belt 17 extends into the linear synchronous pulley box 16 and is synchronously driven by a synchronous pulley in the linear synchronous pulley box 16;

the corner connecting structure A is provided with two conveying belts 11 with different directions;

the linear conveyer belt 17 of the linear conveying structure is connected with the conveyer belt 11 on the corner connecting structure A end to end; the guide rails 14 of the linear transport structure are connected to the legs of the corner engaging structure.

The corner connecting structure A comprises a right-angle triangular support 3, a triangular support reinforcing plate 1 and a motor mounting plate 2; the right-angle triangular support 3 is composed of three metal components which are vertically spliced in pairs and a horizontal connecting plate; two mutually vertical metal components are horizontally arranged, the other metal component vertically downwards forms a supporting leg, and a horizontal connecting plate is connected between the two horizontally arranged metal components; the triangular support reinforcing plate 1 covers the upper parts of the two horizontally transverse metal components, the outer side of the triangular support reinforcing plate 1 is a right angle, and the inner side of the triangular support reinforcing plate is a smooth arc;

a triangular motor mounting plate 2 is arranged on one corner of the horizontal connecting plate on the diagonal line of the included angle of the two horizontally transverse metal components; a motor 4 is arranged below the motor mounting plate 2; synchronous pulley boxes 10 are arranged on the horizontal connecting plates on the two sides of the motor mounting plate 2 and the end parts of the two horizontally transverse metal members; the synchronous pulley boxes 10 at the end parts of the horizontal transverse metal members positioned at the same side are arranged opposite to the synchronous pulley boxes 10 on the horizontal connecting plate to form a pair of synchronous pulley box groups; the two groups of synchronous belt pulley boxes positioned on the two sides of the horizontal connecting plate are mutually vertical; a motor rotating shaft 5 of the motor 4 penetrates through one synchronous pulley box group, a driving pulley 6 is arranged on the motor rotating shaft 5 of the motor 4, a driven rotating shaft 7 is arranged between the other synchronous pulley box group, and a driven pulley 8 is arranged on the driven rotating shaft 7; the lower surface of the horizontal connecting plate is provided with a diversion belt wheel 13, the upper surface of the horizontal connecting plate is provided with an arc-shaped groove, a belt 9 is sequentially sleeved on the driving belt wheel 6, the driven belt wheel 8 and the diversion belt wheel 13, and the belt 9 positioned above the horizontal connecting plate is embedded into the arc-shaped groove on the upper surface of the horizontal connecting plate; the inner wall of the arc-shaped groove is provided with a roller 12; a conveying belt 11 which can be synchronously driven by a synchronous wheel in the synchronous pulley box 10 is arranged above the synchronous pulley box 10.

The ends of one horizontal transverse metal member of the two corner connecting structures A are connected to form an S-shaped or C-shaped structure.

A linear conveying structure is connected between the end parts of one horizontally transverse metal member of the two corner connecting structures A; the end part of the other end of one horizontally transverse metal member of the two corner connecting structures A is respectively connected with a linear conveying structure, so that an S-shaped or C-shaped structure is formed.

The two structures can form a circuit breaker carrier flow line which is closed in a circulating mode as shown in the figure 1 through end-to-end connection. Fig. 2 shows a carrier for pre-assembling internal parts of the circuit breaker; when in use, the two ends of the carrier are respectively placed on the linear conveyer belts 17 at the two ends of the linear conveying structure; the linear conveying motor 15 drives the linear conveying belt 17; the linear conveyer belt 17 drives the carrier to move forwards, and when the carrier passes through the corner connecting structure A, the motor 4 drives the driving belt wheel 6 and a synchronizing wheel in a synchronizing belt wheel box group coaxial with the driving belt wheel 6; so that the conveyor belt 11 of that side is driven; meanwhile, the driving belt wheel 6 drives the driven belt wheel 8 through the belt 9, and the synchronous wheels in the synchronous belt wheel box group coaxial with the driven belt wheel 8 are driven by the driven belt wheel 8, so that the conveying belt 11 on the side is driven; the materials or carriers on the conveying belt 11 on one side move forwards under the driving of the driving force, and when passing through the center of the horizontal connecting plate, the occupied area is small, and the materials or carriers rapidly pass through the smooth arc-shaped part on the inner side of the triangular support reinforcing plate 1; and then the conveying belt 11 on the other side provides the driving force for driving the materials or the carriers forwards.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the technical principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (5)

1. The utility model provides a circuit breaker pre-installation carrier flowing water transfer chain which characterized in that: comprises a linear conveying structure and a corner connecting structure;

the linear conveying structure comprises two parallel guide rails, a connecting strip for connecting the two guide rails, a linear conveying motor and a linear conveying belt; one end part of each of the two parallel guide rails is provided with a linear synchronous pulley box; a linear conveying motor is arranged between the two linear synchronous pulley boxes, and a motor body of the linear conveying motor is fixed on a guide rail on one side; the rotating shaft of the linear conveying motor is connected with synchronous wheels in two linear synchronous belt wheel boxes; the linear conveyer belt is positioned on the upper end surface of the guide rail, and one end of the linear conveyer belt extends into the linear synchronous belt pulley box and is synchronously driven by a synchronous wheel in the linear synchronous belt pulley box;

two conveying belts in different directions are arranged on the corner connecting structure;

the linear conveying belt of the linear conveying structure is connected with the conveying belt on the corner connecting structure end to end; the guide rail of the linear conveying structure is connected with the bracket of the corner connecting structure.

2. The circuit breaker preassembly carrier flow line as set forth in claim 1, wherein: the corner connecting structure comprises a right-angle triangular support, a triangular support reinforcing plate and a motor mounting plate; the right-angle triangular support is composed of three metal components which are vertically spliced in pairs and a horizontal connecting plate; two mutually vertical metal components are horizontally arranged, the other metal component vertically downwards forms a supporting leg, and a horizontal connecting plate is connected between the two horizontally arranged metal components; the triangular support reinforcing plate covers the upper parts of the two horizontally transverse metal components, the outer side of the triangular support reinforcing plate is a right angle, and the inner side of the triangular support reinforcing plate is a smooth arc;

a triangular motor mounting plate is arranged on one corner of the horizontal connecting plate on the diagonal line of the included angle of the two horizontally transverse metal components; a motor is arranged below the motor mounting plate; synchronous pulley boxes are arranged on the horizontal connecting plates on the two sides of the motor mounting plate and on the end parts of the two horizontally transverse metal members; the synchronous pulley boxes at the end parts of the horizontal transverse metal members positioned at the same side are arranged opposite to the synchronous pulley boxes on the horizontal connecting plate to form a pair of synchronous pulley box groups; the two groups of synchronous belt pulley boxes positioned on the two sides of the horizontal connecting plate are mutually vertical; a motor rotating shaft of the motor penetrates through one group of synchronous pulley boxes, a driving pulley is arranged on the motor rotating shaft of the motor, a driven rotating shaft is arranged between the other group of synchronous pulley boxes, and a driven pulley is arranged on the driven rotating shaft; the lower surface of the horizontal connecting plate is provided with a diversion belt wheel, the upper surface of the horizontal connecting plate is provided with an arc-shaped groove, a belt is sequentially sleeved on the driving belt wheel, the driven belt wheel and the diversion belt wheel, and the belt positioned above the horizontal connecting plate is embedded into the arc-shaped groove on the upper surface of the horizontal connecting plate; the inner wall of the arc-shaped groove is provided with a roller; and a conveying belt which can be synchronously driven by a synchronous wheel in the synchronous pulley box is arranged above the synchronous pulley box.

3. The circuit breaker preassembly carrier flow line as set forth in claim 2, wherein: the ends of one horizontal transverse metal component of the two corner connecting structures are connected to form an S-shaped or C-shaped structure.

4. The circuit breaker preassembly carrier flow line as set forth in claim 2, wherein: a linear conveying structure is connected between the end parts of one horizontally transverse metal component of the two corner connecting structures; the end part of the other end of one horizontally transverse metal member of the two corner connecting structures is respectively connected with a linear conveying structure, so that an S-shaped or C-shaped structure is formed.

5. The circuit breaker preassembly carrier flow line as set forth in claim 2, wherein: the conveying lines are connected alternately through a plurality of corner connecting structures and linear conveying structures to form a circulating closed conveying line.

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