CN212024351U - Steel wire winding mechanism for forming synchronous belt - Google Patents

Abstract

The utility model discloses a hold-in range steel wire winding mechanism for shaping, including first bottom plate (1), second bottom plate (2), switching-over wheel mounting panel (3), headstock base (4), headstock (5), servo motor (6), a steel wire section of thick bamboo (7) and be used for counter weight mechanism (8) that the steel wire tightened up, counter weight mechanism (8) are including supporting riser (9), switching-over pulley (10), first feed rod subassembly (11) and balancing weight (12), be provided with lead screw guide spare (13) on first bottom plate (1), second bottom plate (2) set up on lead screw guide spare (13) so that the second bottom plate follows linear motion, switching-over wheel mounting panel (3), second feed rod subassembly (14) and headstock base (4) have been arranged on second bottom plate (2). The utility model discloses a hold-in range steel wire winding mechanism for shaping, structural design is reasonable, and the structure is exquisite, and operating stability is good.

Description

Steel wire winding mechanism for forming synchronous belt

Technical Field

The utility model relates to a hold-in range production technical field, concretely relates to hold-in range is steel wire winding mechanism for shaping.

Background

The present synchronous belt uses steel wire rope as strong force layer, and is covered with polyurethane or chloroprene rubber ring belt, and integrates the advantages of belt transmission, chain transmission and synchronous belt transmission, and when it is rotated, it utilizes the toothed belt and toothed groove of wheel to make engagement to transfer power, so that its transmission ratio is accurate, counter shaft action force is small, structure is compact, and the synchronous belt is oil-resistant, wear-resisting, and ageing-resisting, and can obtain constant speed ratio, transmission is stable, noise for absorbing vibration is small, transmission ratio range is large, and it can be extensively used in various transmission machines. In the production process of the synchronous belt, the synchronous belt is generally manufactured by a synchronous belt forming machine, and the production process comprises the processes of arranging wires, applying compression glue and the like.

In the prior art, the steel wire winding device in the production process of the synchronous belt has the defects of unreasonable structural design, poor stability, occupied space and the like. Therefore, it is necessary for those skilled in the art to develop a new wire winding mechanism for forming a synchronous belt.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a steel wire winding mechanism for forming a synchronous belt.

In order to achieve the purpose of the utility model, the utility model provides a technical scheme as follows: a steel wire winding mechanism for forming a synchronous belt comprises a first bottom plate, a second bottom plate, a reversing wheel mounting plate, a main shaft box base, a main shaft box, a servo motor, a steel wire cylinder and a counterweight mechanism for tightening the steel wire, wherein the counterweight mechanism comprises a supporting vertical plate, a reversing pulley, a first feed rod assembly and a counterweight block, a lead screw guide rail is arranged on the first bottom plate, the second bottom plate is arranged on the lead screw guide rail so as to enable the second bottom plate to move along a straight line, the reversing wheel mounting plate, the second feed rod assembly and the main shaft box base are arranged on the second bottom plate, a slidable support is adapted on the second feed rod assembly, a reel for tightening the steel wire is arranged on the support, the main shaft box base is provided with the main shaft box, one end of the main shaft box is adapted and connected with the servo motor, and the other end of the, be provided with the guide pulley group that is used for the steel wire to turn to on the switching-over wheel mounting panel, a second bottom plate side is provided with and is used for the tensile counter weight mechanism of balanced steel wire, the switching-over pulley sets up in supporting riser upper portion, first polished rod subassembly sets up in supporting riser lower part, and the adaptation is equipped with the slidable balancing weight on the first polished rod subassembly, be connected with the balancing weight through a haulage rope through the switching-over pulley on the support.

Preferably, a first limit switch and a second limit switch are respectively arranged at two ends of the second optical lever assembly, the first limit switch and the second limit switch are both electrically connected with the servo motor, and the first limit switch and the second limit switch are both used for detecting the position of the support so as to control the rotating speed of the servo motor.

Based on the technical scheme, compared with the prior art, the utility model have following technical advantage:

the utility model discloses a hold-in range steel wire winding mechanism for shaping, structural design is reasonable, and the structure is exquisite, does not account for the place, and operating stability is good.

Drawings

Fig. 1 is the structure schematic diagram of the steel wire winding mechanism for forming the synchronous belt of the utility model.

In the figure: 1. the novel hydraulic drive mechanism comprises a first base plate, 2, a second base plate, 3, a reversing wheel mounting plate, 4, a main shaft box base, 5, a main shaft box, 6, a servo motor, 7, a steel wire cylinder, 8, a counterweight mechanism, 9, a supporting vertical plate, 10, a reversing pulley, 11, a first polish rod assembly, 12, a counterweight block, 13, a lead screw guide rail assembly, 14, a second polish rod assembly, 15, a support, 16, a reel, 17, a guide wheel assembly, 18, a first limit switch and 19, a second limit switch.

Detailed Description

The invention is further explained below with reference to the drawings and examples.

As shown in fig. 1, a steel wire winding mechanism for forming a synchronous belt comprises a first base plate 1, a second base plate 2, a reversing wheel mounting plate 3, a main spindle box base 4, a main spindle box 5, a servo motor 6, a steel wire cylinder 7 and a counterweight mechanism 8 for tightening steel wires, wherein the counterweight mechanism 8 ensures constant tightening force of the steel wires, the counterweight mechanism 8 comprises a supporting vertical plate 9, a reversing pulley 10, a first feed rod assembly 11 and a counterweight block 12, a lead screw guide rail member 13 is arranged on the first base plate 1, the second base plate 2 is arranged on the lead screw guide rail member 13 so as to enable the second base plate to move along a straight line, the reversing wheel mounting plate 3, the second feed rod assembly 14 and the main spindle box base 4 are arranged on the second base plate 2, a slidable support 15 is adapted to the second feed rod assembly 14, a reel 16 for tightening the steel wires is arranged on the support 15, the main spindle box base 4 is provided with the main spindle, 5 one end of headstock and 6 adapter coupling of servo motor, 5 other ends of headstock and 7 adapter coupling of a steel wire section of thick bamboo, be provided with the guide pulley group 17 that is used for the steel wire to turn to on the switching-over wheel mounting panel 3, 2 one side ends of second bottom plate are provided with and are used for balanced steel wire tensile counter weight mechanism 8, switching-over pulley 10 sets up in 9 upper portions of supporting riser, first feed rod subassembly 11 sets up in 9 lower parts of supporting riser, and the adaptation is equipped with slidable balancing weight 12 on the first feed rod subassembly 11, be connected with balancing weight 12 through a haulage rope through switching-over pulley 10 on the support 15. The wire is led out from the wire drum 7, one end of which is wound on a reel 16 and turned by a guide pulley group 17.

The two ends of the second optical lever assembly 14 are respectively provided with a first limit switch 18 and a second limit switch 19, the first limit switch 18 and the second limit switch 19 are both electrically connected with the servo motor 6, and the first limit switch 18 and the second limit switch 19 are both used for detecting the position of the support 15 so as to control the rotating speed of the servo motor 6.

The foregoing is illustrative and explanatory of the invention and is not intended to limit the advantages attainable thereby, and it is within the scope of the present application to practice the invention with simple modifications to the structure and/or one or more of the advantages achieved in some embodiments.

Claims (2)

1. The utility model provides a hold-in range shaping is with steel wire winding mechanism which characterized in that: comprises a first bottom plate (1), a second bottom plate (2), a reversing wheel mounting plate (3), a main shaft box base (4), a main shaft box (5), a servo motor (6), a steel wire cylinder (7) and a counterweight mechanism (8) for tightening a steel wire, wherein the counterweight mechanism (8) comprises a supporting vertical plate (9), a reversing pulley (10), a first feed rod component (11) and a counterweight block (12), a lead screw guide rail part (13) is arranged on the first bottom plate (1), the second bottom plate (2) is arranged on the lead screw guide rail part (13) so as to enable the second bottom plate to move along a straight line, the reversing wheel mounting plate (3), the second feed rod component (14) and the main shaft box base (4) are arranged on the second bottom plate (2), a slidable support (15) is assembled on the second feed rod component (14), and a reel (16) for tightening the steel wire is arranged on the support (15), be provided with headstock (5) on headstock base (4), headstock (5) one end and servo motor (6) adaptation connection, headstock (5) other end and wire section of thick bamboo (7) adaptation connection, be provided with guide pulley group (17) that are used for the steel wire to turn to on reversing wheel mounting panel (3), second bottom plate (2) one side end is provided with and is used for balancing the tensile counter weight mechanism (8) of steel wire, switching-over pulley (10) set up in supporting riser (9) upper portion, first feed rod subassembly (11) set up in supporting riser (9) lower part, and adaptation is equipped with slidable balancing weight (12) on first feed rod subassembly (11), be connected with balancing weight (12) through a haulage rope through switching-over pulley (10) on support (15).

2. The wire winding mechanism for forming the synchronous belt according to claim 1, wherein: the two ends of the second light bar component (14) are respectively provided with a first limit switch (18) and a second limit switch (19), the first limit switch (18) and the second limit switch (19) are electrically connected with the servo motor (6), and the first limit switch (18) and the second limit switch (19) are used for detecting the position of the support (15) so as to control the rotating speed of the servo motor (6).

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