CN210945684U - Telescopic lifting mechanism for steel wire water-bath heating treatment - Google Patents

Abstract

The utility model discloses a telescopic elevating system for steel wire water bath heating process relates to metal heat treatment technical field, including supporting platform, slide bar assembly, flexible subassembly and blowing platform, slide bar assembly's one end is installed in one side of supporting platform, and its other end is connected to flexible subassembly and is used for realizing blowing platform's horizontal migration, flexible subassembly's upper end is connected with slide bar assembly, and its lower extreme is connected with blowing platform and realizes reciprocating of blowing platform with the help of drive mechanism, the utility model discloses a slide bar assembly of independent side position need not be with the help of truss and relevant electric block, has improved the flexibility that this device arranged, can arrange multiunit the device in limited space to realize large batch water bath heating demand. And set up a plurality of connecting holes that are used for the drainage at rectangular frame's lateral wall to accelerate the peripheral water velocity of steel wire, improve heat transfer efficiency.

Description

Telescopic lifting mechanism for steel wire water-bath heating treatment

Technical Field

The utility model belongs to the technical field of metal heat treatment, concretely relates to telescopic elevating system for steel wire water bath heating handles.

Background

The metal water bath heat treatment is a process of putting a metal workpiece in a certain medium, heating to a proper temperature, keeping the temperature for a certain time, cooling in different media at different speeds, and controlling the material performance of the metal workpiece by changing the surface or internal structure of the metal material.

At present, the steel wire is when water bath thermal treatment, generally with the help of the material frame with its whole hoist and mount to carry out the water bath heating in the water bath pond, this kind of mode needs to be implemented with the help of the truss, nevertheless receives the space limited in the workshop, the truss itself volume is big again, hardly arranges a plurality ofly, so can't satisfy large batch water bath treatment demand, and current water bath heating process is stood, because the water mobility of material frame week side is poor, so heat transfer efficiency is low, it is long to heat up the time consuming, whole production efficiency has been influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a telescopic elevating system for steel wire water bath heating process to solve the above-mentioned defect that leads to among the prior art.

A telescopic lifting mechanism for steel wire water bath heating treatment comprises a supporting platform, a sliding rod assembly, a telescopic assembly and a material placing platform, wherein one end of the sliding rod assembly is mounted on one side of the supporting platform, the other end of the sliding rod assembly is connected to the telescopic assembly and used for achieving horizontal movement of the material placing platform, the upper end of the telescopic assembly is connected with the sliding rod assembly, the lower end of the telescopic assembly is connected with the material placing platform, and the material placing platform is moved up and down by means of a traction mechanism;

the blowing platform includes rectangular frame, bearing pole and buffering subassembly, and rectangular frame's upper end is connected with flexible subassembly, the bearing pole has a plurality of and equidistance to set up on rectangular frame's inner wall, buffering subassembly installation is in rectangular frame's both sides and is used for realizing the buffering of rectangular frame when whereabouts to water bath bottom of the pool face, and rectangular frame's lateral wall is equipped with a plurality of connecting holes that are used for installing the pipeline.

Preferably, the slide bar assembly comprises a first-stage slide bar and a second-stage slide bar, one end of the first-stage slide bar is fixedly connected with the supporting platform, the first-stage slide bar is further connected to a slide rail on the second-stage slide bar in a sliding mode, and the tail end of the second-stage slide bar is connected with the telescopic assembly.

Preferably, flexible subassembly includes pipy one-level telescopic link, second grade telescopic link, tertiary telescopic link and level four telescopic link, and one-level telescopic link, second grade telescopic link, tertiary telescopic link and level four telescopic link from supreme the cup jointing in proper order and can mutual slip down, and the level four telescopic link of the top is connected to the second grade slide bar, and the one-level telescopic link of bottom is connected to rectangular frame and the junction of the two still is connected to drive mechanism.

Preferably, the traction mechanism comprises a traction rope and a winding wheel, the lower end of the traction rope is connected to the joint of the first-stage telescopic rod and the rectangular frame and is located in the telescopic assembly, the other end of the traction rope penetrates through the telescopic assembly and a threading channel in the second-stage sliding rod and is connected to the winding wheel, and the winding wheel is installed at the bottom of the supporting platform.

Preferably, the buffering subassembly includes mobile jib, bracing piece, side connecting plate and torsional spring, the mobile jib is fixed in on the rectangular frame, the one end of side connecting plate rotate connect in the tip of mobile jib and with torsional spring coupling, the other end fixed connection of side connecting plate to bracing piece, the side connecting plate is the arc.

The utility model has the advantages that: the sliding rod assembly at the independent side position is adopted, a truss and a related electric hoist are not needed, the flexibility of arrangement of the device is improved, and a plurality of groups of the device can be arranged in a limited space, so that the requirement of large-batch water bath heating is met. In addition, in order to improve the heat transfer efficiency, a plurality of connecting holes for drainage are formed in the side wall of the rectangular frame, and a water source can be continuously introduced into the inner side of the rectangular frame by means of a pipeline so as to accelerate the water flow speed around the steel wire and achieve the expected effect. The haulage rope of this scheme adopts hidden design, and the haulage rope need not expose outside, can avoid the structural interference that probably brings the corruption and the haulage rope of haulage rope.

Drawings

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

Fig. 2 is a schematic view of the connection between the middle traction mechanism and the sliding rod assembly and the telescopic assembly of the present invention.

The device comprises a supporting platform 1, a sliding rod assembly 2, a first-level sliding rod 21, a second-level sliding rod 22, a telescopic assembly 3, a first-level telescopic rod 31, a second-level telescopic rod 32, a third-level telescopic rod 33, a fourth-level telescopic rod 34, a discharging platform 4, a rectangular frame 41, a supporting rod 42, a connecting hole 43, a buffer assembly 5, a main rod 51, a supporting rod 52, a side connecting plate 53, a torsion spring 6, a traction mechanism 7, a traction rope 71 and a winding wheel 72.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in fig. 1 and 2, a telescopic lifting mechanism for steel wire water bath heating treatment comprises a supporting platform 1, a slide bar assembly 2, a telescopic assembly 3 and a material placing platform 4, wherein one end of the slide bar assembly 2 is installed at one side of the supporting platform 1, the other end of the slide bar assembly 2 is connected to the telescopic assembly 3 and used for realizing horizontal movement of the material placing platform 4, the upper end of the telescopic assembly 3 is connected with the slide bar assembly 2, the lower end of the telescopic assembly 3 is connected with the material placing platform 4 and realizes up-and-down movement of the material placing platform 4 by means of a traction mechanism 7;

blowing platform 4 includes rectangular frame 41, bearing rod 42 and buffering subassembly 5, and rectangular frame 41's upper end is connected with flexible subassembly 3, bearing rod 42 has a plurality of and the equidistance sets up on rectangular frame 41's inner wall, buffering subassembly 5 installs in rectangular frame 41's both sides and is used for realizing rectangular frame 41 the buffering when whereabouts to water bath bottom of the pool, and rectangular frame 41's lateral wall is equipped with a plurality of connecting holes 43 that are used for installing the pipeline. The pipe is generally a hose and is always connected to the connection hole 43 to follow the rectangular frame 41. The emptying platform 4 adopts a hollow structure design, so that the contact area between the periphery of the steel wire and water can be increased to the maximum extent, and the heat transfer efficiency is improved.

In this embodiment, the slide bar assembly 2 includes a first-stage slide bar 21 and a second-stage slide bar 22, one end of the first-stage slide bar 21 is fixedly connected to the supporting platform 1, the first-stage slide bar 21 is further slidably connected to a slide rail on the second-stage slide bar 22, and the tail end of the second-stage slide bar 22 is connected to the telescopic assembly 3. The secondary slide bar 22 may be additionally positioned to be pulled over the bath by means of a robotic arm located opposite the secondary slide bar.

In this embodiment, the telescopic assembly 3 includes a tubular one-level telescopic rod 31, a two-level telescopic rod 32, a three-level telescopic rod 33 and a four-level telescopic rod 34, the one-level telescopic rod 31, the two-level telescopic rod 32, the three-level telescopic rod 33 and the four-level telescopic rod 34 are sequentially sleeved from bottom to top and can slide with each other, the four-level telescopic rod 34 at the top is connected to the two-level sliding rod 22, the one-level telescopic rod 31 at the bottom is connected to the rectangular frame 41, and the connection between the two is further connected.

In this embodiment, the traction mechanism 7 includes a traction rope 71 and a winding wheel 72, the lower end of the traction rope 71 is connected to the connection point of the first-stage telescopic rod 31 and the rectangular frame 41 and is located in the telescopic assembly 3, the other end of the traction rope 71 passes through the telescopic assembly 3 and the threading channel in the second-stage sliding rod 22 and is connected to the winding wheel 72, and the winding wheel 72 is installed at the bottom of the supporting platform 1.

In this embodiment, the damping assembly 5 includes a main rod 51, a support rod 52, a side connection plate 53 and a torsion spring 6, the main rod 51 is fixed on the rectangular frame 41, one end of the side connection plate 53 is rotatably connected to the end of the main rod 51 and connected to the torsion spring 6, the other end of the side connection plate 53 is fixedly connected to the support rod 52, and the side connection plate 53 is arc-shaped. When the rectangular frame 41 falls, the support rod 52 first contacts the bottom of the water bath and is buffered by the torsion spring 6 until the rectangular frame 41 falls into the bottom of the water bath and is stably placed.

The working process and principle are as follows: first, bundles of steel wires are placed on the rectangular frame 41. The secondary slide bar 22 is pulled to the outside to a designated position by the aid of the mechanical arm, the winding wheel 72 is started and paid off at the moment to match the movement of the secondary slide bar 22, then the winding wheel 72 continues to pay off, and the telescopic assembly 3 gradually extends and unfolds until the rectangular frame 41 is stably placed at the bottom of the water bath. Then hot water in a water bath, namely a water source, is introduced into the pipeline, so that the flow of water on the peripheral side of the steel wire is accelerated, and the heat transfer efficiency is improved. And after the specified time is reached, moving the rectangular frame 41 in the reverse direction, and finally taking out the steel wire.

The utility model discloses a slide bar assembly 2 of independent side position need not improve the flexibility that this device arranged with the help of truss and relevant electric block, can arrange multiunit the device in limited space to realize large batch water-bath heating demand. Moreover, in order to improve the heat transfer efficiency, a plurality of connection holes 43 for drainage are provided on the side wall of the rectangular frame 41, and a water source can be continuously introduced into the inner side of the rectangular frame 41 by means of a pipeline to accelerate the water flow velocity around the steel wire, thereby achieving the desired effect. The haulage rope 71 of this scheme adopts hidden design, and haulage rope 71 need not expose outside, can avoid the structural interference that probably brings to the corruption of haulage rope 71 and haulage rope 71.

It will be appreciated by those skilled in the art that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of the invention or which are equivalent to the scope of the invention are embraced by the invention.

Claims (5)

1. The telescopic lifting mechanism for the steel wire water bath heating treatment is characterized by comprising a supporting platform (1), a slide bar assembly (2), a telescopic assembly (3) and a material placing platform (4), wherein one end of the slide bar assembly (2) is installed on one side of the supporting platform (1), the other end of the slide bar assembly is connected to the telescopic assembly (3) and used for achieving horizontal movement of the material placing platform (4), the upper end of the telescopic assembly (3) is connected with the slide bar assembly (2), the lower end of the telescopic assembly is connected with the material placing platform (4) and achieves up-and-down movement of the material placing platform (4) by means of a traction mechanism (7);

blowing platform (4) include rectangular frame (41), bearing rod (42) and buffering subassembly (5), and the upper end and the flexible subassembly (3) of rectangular frame (41) are connected, bearing rod (42) have a plurality of and the equidistance set up on the inner wall of rectangular frame (41), buffering subassembly (5) are installed in the both sides of rectangular frame (41) and are used for realizing rectangular frame (41) the buffering when whereabouts to the water bath bottom surface, and the lateral wall of rectangular frame (41) is equipped with a plurality of connecting holes (43) that are used for the installation pipeline.

2. The telescopic lifting mechanism for the water bath heating treatment of the steel wire according to claim 1, is characterized in that: slide bar subassembly (2) include one-level slide bar (21) and second grade slide bar (22), the one end and supporting platform (1) fixed connection of one-level slide bar (21), and one-level slide bar (21) still sliding connection is on the slide rail on second grade slide bar (22), and the end and the flexible subassembly (3) of second grade slide bar (22) are connected.

3. The telescopic lifting mechanism for the water bath heating treatment of the steel wire according to claim 2, is characterized in that: flexible subassembly (3) include pipy one-level telescopic link (31), second grade telescopic link (32), tertiary telescopic link (33) and level four telescopic link (34), and supreme cup jointing and mutual slip are in proper order down followed to one-level telescopic link (31), second grade telescopic link (32), tertiary telescopic link (33) and level four telescopic link (34), and level four telescopic link (34) of the top are connected to second grade slide bar (22), and one-level telescopic link (31) of bottom are connected to rectangular frame (41) and the junction of the two still is connected to drive mechanism (7).

4. The telescopic lifting mechanism for the water bath heating treatment of the steel wire according to claim 3, is characterized in that: traction mechanism (7) include haulage rope (71) and take-up pulley (72), and the lower extreme of haulage rope (71) is connected to the junction of one-level telescopic link (31) and rectangular frame (41) and is located telescopic component (3), and the other end of haulage rope (71) passes telescopic component (3) and the threading passageway in second grade slide bar (22) and is connected to take-up pulley (72), take-up pulley (72) are installed in the bottom of supporting platform (1).

5. The telescopic lifting mechanism for the water bath heating treatment of the steel wire according to claim 4, is characterized in that: buffer unit (5) include mobile jib (51), bracing piece (52), side connecting plate (53) and torsional spring (6), mobile jib (51) are fixed in on rectangular frame (41), the one end of side connecting plate (53) is rotated and is connected in the tip of mobile jib (51) and is connected with torsional spring (6), and the other end fixed connection of side connecting plate (53) is to bracing piece (52), and side connecting plate (53) are the arc.

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