CN113564318A

CN113564318A - High-frequency quenching equipment

Info

Publication number: CN113564318A
Application number: CN202110839498.0A
Authority: CN
Inventors: 李政冀
Original assignee: Taicang Fulemu Nano New Material Science & Technology Co ltd
Current assignee: Taicang Fulemu Nano New Material Science & Technology Co ltd
Priority date: 2021-07-23
Filing date: 2021-07-23
Publication date: 2021-10-29

Abstract

The invention discloses high-frequency quenching equipment in the technical field of quenching devices, which comprises a shell, wherein a feeding mechanism, a quenching mechanism, a discharging mechanism, a conveying mechanism and a quenching liquid tank which are mutually matched are arranged in the shell, the feeding mechanism consists of a driver, a precise bearing sleeve group, a screw rod, a sleeve seat, a chain plate, a guide sliding plate, a feeding clamp arm and a feeding clamp, and the feeding mechanism is arranged below the feeding clamp; the quenching mechanism is arranged on the right side of the feeding mechanism, the blanking mechanism is arranged below the quenching mechanism, the quenching liquid box is arranged below the blanking mechanism, the collecting mechanism is further arranged on the front side of the shell, one end of the conveying mechanism is arranged in the quenching liquid box, and the other end of the conveying mechanism is arranged above the collecting mechanism. The equipment is an integrated, multifunctional and electromechanical integrated machining center, the automation degree is high, manual participation is not needed in the quenching process, time and labor are saved, and the quenching machining efficiency can be improved.

Description

High-frequency quenching equipment

Technical Field

The invention relates to the technical field of quenching devices, in particular to high-frequency quenching equipment.

Background

Quenching is one of the metal heat treatment processes. The metal product is heated to a certain temperature and then put in water, oil or air for rapid cooling so as to improve the hardness and strength of the metal.

However, in the prior art, when a workpiece is quenched, a complete automatic system is not provided, and in the processes of feeding, quenching and discharging, manual operation is required, so that time and labor are wasted, the quenching processing efficiency is low, and potential safety hazards also exist.

Disclosure of Invention

The present invention has been made to solve the above problems, and an object of the present invention is to provide a high-frequency quenching apparatus.

In order to achieve the purpose, the invention provides the following technical scheme:

a high-frequency quenching device comprises a shell, wherein a feeding mechanism, a quenching mechanism, a discharging mechanism, a conveying mechanism and a quenching liquid box which are mutually matched are arranged in the shell, the feeding mechanism consists of a driver, a precision bearing sleeve set, a screw rod, a sleeve seat, a chain plate, a guide sliding plate, a feeding clamp arm and a feeding clamp, the driver is a servo motor and is arranged on the left side in the shell, the screw rod is fixedly connected to the output end of the driver, and the precision bearing sleeve set is arranged on the screw rod in a matched mode; the two chain plates are respectively arranged above and below the screw rod, the sleeve seat is matched and sleeved on the screw rod, the front side of the sleeve seat is fixedly connected with two guide sliding plates, and the two guide sliding plates are respectively arranged on the two chain plates in a sliding manner; the feeding clamp is fixedly connected with a linear motor arranged on the lower side of the sleeve seat through a feeding clamping arm; the feeding mechanism is arranged below the feeding clamp; the quenching mechanism is arranged on the right side of the feeding mechanism, the blanking mechanism is arranged below the quenching mechanism, the quenching liquid box is arranged below the blanking mechanism, the collecting mechanism is further installed on the front side of the shell, one end of the conveying mechanism is arranged in the quenching liquid box, and the other end of the conveying mechanism is arranged above the collecting mechanism.

In a further aspect: the feeding mechanism consists of two feeding plates, a stepping conveying system, a guide mechanism and two lifters, wherein the stepping conveying system is arranged on a table surface in the shell, the feeding plates are arranged on the upper side of the stepping conveying system, the guide mechanism is arranged on the left side of the stepping conveying system, and the two lifters are respectively and symmetrically arranged on the lower sides of the feeding plates; when the stepping type conveying system works, the feeding plate can be driven to move, workpieces to be grabbed on the feeding plate move to be located on the same plane with the feeding clamp, then the driver is started to drive the screw rod to rotate, the screw rod drives the sleeve seat to move rightwards under the matching effect of the guide sliding plate and the chain plate, the sleeve seat drives the feeding clamp to move rightwards through the feeding clamp arm, the feeding clamp moves to the position right above the workpieces to be grabbed, then the linear motor works to drive the feeding clamp arm to move downwards, the feeding clamp is driven to move downwards to be located on the same horizontal line with the workpieces to be grabbed, then the workpieces are grabbed immediately, the workpieces are lifted to the original position under the effect of the linear motor, and at the moment, the driver continues to work and drives the feeding clamp to convey the grabbed workpieces rightwards to the quenching mechanism.

In a further aspect: the quenching mechanism is composed of a high-frequency rotating mechanism, a damping spring, a positioning tool clamp and a positioning auxiliary tool, the positioning tool clamp is fixedly connected to the output end of the high-frequency rotating mechanism, the damping spring is arranged on the positioning tool clamp, and the positioning auxiliary tool is arranged below the positioning tool clamp; when the work piece that the pay-off clip will snatch transports to location auxiliary fixtures top, location auxiliary fixtures can the upward movement, make the work piece lower extreme be located location auxiliary fixtures, the pay-off clip loosens this moment, and move left under the effect of driver and wait to snatch a top and carry out the repetitive operation process next, location fixture clamp downstream is to the work piece upside and catch the work piece simultaneously, high frequency rotary mechanism starts immediately afterwards and drives location worker clamping fast revolution, and then drives the work piece fast revolution, thereby high temperature under the friction is on fire, and then the realization is to the quenching of work piece.

In a further aspect: the blanking mechanism comprises a first propeller, a second propeller, a blanking clamping arm and a blanking clip, the first propeller and the second propeller are connected in a matched mode, the blanking clip is connected to the movable end of the second propeller through the blanking clamping arm, and the first propeller and the second propeller can drive the blanking clip to move forwards or backwards through the blanking clamping arm; after the workpiece is quenched on the quenching mechanism, the positioning tool clamp is loosened and moves upwards to reset, the blanking clamp moves towards the workpiece under the action of the first propeller and the second propeller, the workpiece is grabbed, then the blanking clamp moves backwards to the original position under the action of the first propeller and the second propeller, the blanking clamp is loosened, and the workpiece falls into the quenching liquid tank to be cooled.

In a further aspect: the collecting mechanism is composed of a material storage box, a filter screen and a water return box, the filter screen is installed between the material storage box and the water return box, a cooled workpiece drops into the material storage box through the conveying mechanism, quenching liquid on the workpiece is dripped into the water return box through the filter screen, and the quenching liquid flows back to the quenching liquid box through a water-cooling water return device from the water return box for cyclic utilization.

In a further aspect: and a touch screen is arranged above the front side of the shell and used for controlling starting, pausing and alarming.

In a further aspect: and a synchronous motor is arranged on the lower side of the positioning auxiliary tool and used for accurately conveying the workpiece to be machined into the positioning auxiliary tool.

In a further aspect: an inductive load system is further arranged in the shell and used for controlling the starting and stopping of the driving part.

Compared with the prior art, the invention has the following beneficial effects:

1. the equipment is an integrated, multifunctional and electromechanical integrated machining center, and consists of a feeding mechanism, a quenching mechanism, a discharging mechanism, a conveying mechanism and a collecting mechanism, so that the automation degree is high, the quenching process does not need manual participation, time and labor are saved, and the quenching machining efficiency can be improved.

2. The equipment can be started up by one key through the touch screen, is convenient to operate, and has the characteristics of high precision, stable performance, high refrigeration speed, low noise, safety and reliability; the heat exchanger with unique performance can meet the requirements of industrial environment, dust resistance, oil mist resistance, corrosion resistance and small wind resistance; and the fault self-diagnosis alarm function displays the fault content through graphs and characters and sends out an alarm signal.

Drawings

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

Fig. 2 is a front view of the present invention.

Fig. 3 is a side view of the present invention.

Fig. 4 is a schematic view of the internal structure of the present invention.

Fig. 5 is a schematic structural view of a feeding mechanism in the invention.

Fig. 6 is a perspective view of a part of the structure of the feeding mechanism in the present invention.

Fig. 7 is a schematic structural diagram of the firing mechanism and the blanking mechanism in the invention.

Fig. 8 is a schematic view of the structure of the collecting mechanism of the present invention.

Fig. 9 is a schematic perspective view of the conveying mechanism and the collecting mechanism of the present invention.

Notations for reference numerals: 1. a housing; 2. a touch screen; 3. a feeding mechanism; 31. a driver; 32. a precision bearing sleeve set; 33. a screw rod; 34. a sleeve seat; 35. a chain plate; 36. a guide slide plate; 37. a feeding clamping arm; 38. a feeding clamp; 4. a feeding mechanism; 41. feeding plates; 42. a step-by-step transport system; 43. a guide mechanism; 44. a lifter; 5. a quenching mechanism; 51. a high-frequency rotating mechanism; 52. a damping spring; 53. positioning and clamping; 54. positioning an auxiliary tool; 6. a blanking mechanism; 61. a first propeller; 62. a second propeller; 63. blanking clamping arms; 64. blanking clips; 7. a transport mechanism; 8. a collection mechanism; 81. a material storage box; 82. a filter screen; 83. returning to a water tank; 9. and a quenching liquid box.

Detailed Description

The present invention will be described in detail with reference to the following embodiments, wherein like or similar elements are designated by like reference numerals throughout the several views, and wherein the shape, thickness or height of the various elements may be expanded or reduced in practice. The examples are given solely for the purpose of illustration and are not intended to limit the scope of the invention. Any obvious modifications or variations can be made to the present invention without departing from the spirit or scope of the present invention.

Referring to fig. 1 to 9, in the embodiment of the present invention, a high-frequency quenching apparatus includes a housing 1, a feeding mechanism 3, a feeding mechanism 4, a quenching mechanism 5, a blanking mechanism 6, a conveying mechanism 7, and a quenching liquid tank 9, which are mutually matched, are disposed inside the housing 1, the feeding mechanism 3 is composed of a driver 31, a precision bearing set 32, a lead screw 33, a sleeve seat 34, a chain plate 35, a guide sliding plate 36, a feeding clamp arm 37, and a feeding clamp 38, the driver 31 is a servo motor and is mounted on the left side inside the housing 1, the lead screw 33 is fixedly connected to an output end of the driver 31, and the precision bearing set 32 is mounted on the lead screw 33 in a matching manner; the two chain plates 35 are respectively arranged above and below the screw rod 33, the sleeve seat 34 is sleeved on the screw rod 33 in a matching manner, the front side of the sleeve seat is fixedly connected with two guide sliding plates 36, and the two guide sliding plates 36 are respectively arranged on the two chain plates 35 in a sliding manner; the feeding clamp 38 is fixedly connected with a linear motor arranged on the lower side of the sleeve seat 34 through a feeding clamping arm 37; the feeding mechanism 4 is arranged below the feeding clamp 38; quenching mechanism 5 sets up in feeding mechanism 3 right-hand, unloading mechanism 6 sets up in quenching mechanism 5 below, quenching liquid case 9 sets up in unloading mechanism 6 below, collecting mechanism 8 is still installed to casing 1 front side, the one end of transport mechanism 7 sets up in quenching liquid case 9, and the other end sets up in collecting mechanism 8's top.

Further, the feeding mechanism 4 is composed of two feeding plates 41, a stepping conveying system 42, a guiding mechanism 43 and a lifter 44, the stepping conveying system 42 is installed on the table inside the housing 1, the feeding plates 41 are installed on the upper side of the stepping conveying system 42, the guiding mechanism 43 is installed on the left side of the stepping conveying system 42, and the two lifters 44 are respectively and symmetrically installed on the lower sides of the feeding plates 41; when the stepping conveying system 42 works, the feeding plate 41 can be driven to move, so that a workpiece to be grabbed on the feeding plate 41 moves to be positioned on the same plane as the feeding clamp 38, then the driver 31 is started to drive the screw rod 33 to rotate, the screw rod 33 drives the sleeve seat 34 to move rightwards under the matching action of the guide sliding plate 36 and the chain plate 35, the sleeve seat 34 drives the feeding clamp 38 to move rightwards through the feeding clamp arm 37, so that the feeding clamp 38 moves to be right above the workpiece to be grabbed, then the linear motor works to drive the feeding clamp arm 37 to move downwards, further the feeding clamp 38 is driven to move downwards to be positioned on the same horizontal line as the workpiece to be grabbed, then the workpiece is grabbed at once by the sleeve seat 28, and then the workpiece is lifted to the original position under the action of the linear motor, at the moment, the driver 31 continues to work, and the feeding clamp 38 is driven to convey the grabbed workpiece to the right to the quenching mechanism 5.

In order to improve the action effect of the quenching mechanism 5, the quenching mechanism 5 comprises a high-frequency rotating mechanism 51, a damping spring 52, a positioning tool clamp 53 and a positioning auxiliary tool 54, wherein the positioning tool clamp 53 is fixedly connected to the output end of the high-frequency rotating mechanism 51, the damping spring 52 is arranged on the positioning tool clamp 53, and the positioning auxiliary tool 54 is arranged below the positioning tool clamp 53; when the feeding clamp 38 conveys the grabbed workpiece to the position above the auxiliary positioning tool 54, the auxiliary positioning tool 54 moves upwards, so that the lower end of the workpiece is positioned in the auxiliary positioning tool 54, the feeding clamp 38 is loosened at the moment, the workpiece moves leftwards under the action of the driver 31 to the next position above the workpiece to be grabbed to perform a repeated operation process, meanwhile, the positioning tool clamp 53 moves downwards to the upper side of the workpiece to grab the workpiece, then the high-frequency rotating mechanism 51 is immediately started to drive the positioning tool clamp 53 to rotate quickly, further, the workpiece is driven to rotate quickly, and therefore, the workpiece is ignited at high temperature under friction, and further, the workpiece is quenched.

Further, the blanking mechanism 6 comprises a first propeller 61, a second propeller 62, a blanking clamp arm 63 and a blanking clip 64, the first propeller 61 and the second propeller 62 are connected in a matching manner, the blanking clip 64 is connected to the movable end of the second propeller 62 through the blanking clamp arm 63, and the first propeller 61 and the second propeller 62 can drive the blanking clip 64 to advance or retreat through the blanking clamp arm 63; after the workpiece is quenched on the quenching mechanism 5, the positioning tool clamp 53 is loosened and moves upwards to reset, the blanking clamp 64 moves towards the workpiece under the action of the first propeller 61 and the second propeller 62, then the workpiece is grabbed, the blanking clamp 64 moves backwards to the original position under the action of the first propeller 61 and the second propeller 62, the blanking clamp 64 is loosened at the moment, and then the workpiece falls into the quenching liquid tank 9 to be cooled.

In order to make the work piece be convenient for collect after the cooling, collect mechanism 8 and constitute by stock box 81, filter screen 82 and return water tank 83, filter screen 82 installs between stock box 81 and return water tank 83, and the work piece after the cooling drops to stock box 81 through transport mechanism 7's transport, and the quenching liquid on the work piece passes through filter screen 82 and drips into return water tank 83 to from returning water tank 83 through water-cooling return device backward flow to quenching liquid tank 9 in carry out cyclic utilization.

Further, a touch screen 2 is arranged above the front side of the shell 1 and used for controlling starting, pausing and alarming.

In order to enable the positioning auxiliary tool 54 to accurately receive the workpiece, a synchronous motor is arranged at the lower side of the positioning auxiliary tool 54 and used for accurately feeding the workpiece to be processed into the positioning auxiliary tool 54.

Further, an inductive load system is further disposed in the housing 1 to control the start and stop of the driving component.

The working principle of the invention is as follows:

when the invention is used, firstly, a workpiece is prepared on the feeding plate 41, then the device is started through the touch screen 2, the stepping type conveying system 42 drives the feeding plate 41 to move, so that the workpiece to be grabbed on the feeding plate 41 moves to be positioned on the same plane with the feeding clamp 38, then the driver 31 is started to drive the screw rod 33 to rotate, the screw rod 33 drives the sleeve seat 34 to move rightwards under the matching action of the sleeve seat 34 and the chain plate 35, the sleeve seat 34 drives the feeding clamp 38 to move rightwards through the feeding clamp arm 37, so that the feeding clamp 38 moves to be positioned right above the workpiece to be grabbed, then the linear motor works to drive the feeding clamp arm 37 to move downwards, so as to drive the feeding clamp 38 to move downwards to be positioned on the same horizontal line with the workpiece to be grabbed, then the workpiece is grabbed by the feeding clamp 28 immediately, then the workpiece is lifted to the original position under the action of the linear motor, at the moment, the driver 31 continues to work, so as to drive the feeding clamp 38 to convey the grabbed workpiece to the right above the positioning auxiliary tool 54, at the moment, the positioning auxiliary tool 54 moves upwards to enable the lower end of the workpiece to be positioned in the positioning auxiliary tool 54, the feeding clamp 38 is loosened and moves leftwards to the upper side of the next workpiece to be grabbed under the action of the driver 31 to perform a repeated operation process, meanwhile, the positioning tool clamp 53 moves downwards to the upper side of the workpiece to grab the workpiece, then the high-frequency rotating mechanism 51 is started immediately to drive the positioning tool clamp 53 to rotate quickly and further drive the workpiece to rotate quickly, so that high-temperature ignition is generated under friction, further quenching of the workpiece is realized, after the workpiece is quenched on the quenching mechanism 5, the positioning tool clamp 53 is loosened and moves upwards to reset, the blanking clamp 64 moves towards the workpiece under the action of the first propeller 61 and the second propeller 62 to grab the workpiece, then the blanking clamp 64 moves backwards to the original position under the action of the first propeller 61 and the second propeller 62, at this moment, the blanking clamp 64 is loosened, the workpiece falls into the quenching liquid tank 9 to be cooled, the cooled workpiece falls into the storage tank 81 through the conveying of the conveying mechanism 7, the quenching liquid on the workpiece drips into the water return tank 83 through the filter screen 82, and flows back into the quenching liquid tank 9 from the water return tank 83 through the water-cooling water return device to be recycled, the whole process is performed in a circulating and reciprocating mode, and the machining efficiency can be improved.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The high-frequency quenching equipment comprises a shell (1) and is characterized in that a feeding mechanism (3), a feeding mechanism (4), a quenching mechanism (5), a discharging mechanism (6), a conveying mechanism (7) and a quenching liquid box (9) which are matched with each other are arranged inside the shell (1), the feeding mechanism (3) consists of a driver (31), a precision bearing sleeve set (32), a lead screw (33), a sleeve seat (34), a chain plate (35), a guide sliding plate (36), a feeding clamping arm (37) and a feeding clamp (38), the driver (31) is a servo motor and is arranged on the left side inside the shell (1), the lead screw (33) is fixedly connected to the output end of the driver (31), and the precision bearing sleeve set (32) is arranged on the lead screw (33) in a matching manner; the two chain plates (35) are respectively arranged above and below the screw rod (33), the sleeve seat (34) is sleeved on the screw rod (33) in a matching manner, the front side of the sleeve seat is fixedly connected with two guide sliding plates (36), and the two guide sliding plates (36) are respectively arranged on the two chain plates (35) in a sliding manner; the feeding clamp (38) is fixedly connected with a linear motor arranged on the lower side of the sleeve seat (34) through a feeding clamping arm (37); the feeding mechanism (4) is arranged below the feeding clamp (38); quenching mechanism (5) set up in feeding mechanism (3) right-hand, unloading mechanism (6) set up in quenching mechanism (5) below, quenching liquid case (9) set up in unloading mechanism (6) below, collecting mechanism (8) are still installed to casing (1) front side, the one end of transport mechanism (7) sets up in quenching liquid case (9), and the other end sets up in the top of collecting mechanism (8).

2. The induction hardening apparatus according to claim 1, wherein the feeding mechanism (4) is composed of a feeding plate (41), a step-by-step conveying system (42), a guide mechanism (43), and an elevator (44), the step-by-step conveying system (42) is installed on a table surface inside the housing (1), the feeding plate (41) is installed on the upper side of the step-by-step conveying system (42), the guide mechanism (43) is installed on the left side of the step-by-step conveying system (42), and the elevators (44) are two and symmetrically installed on the lower sides of the feeding plate (41).

3. The high-frequency quenching equipment according to claim 1, wherein the quenching mechanism (5) is composed of a high-frequency rotating mechanism (51), a damping spring (52), a positioning tool clamp (53) and a positioning auxiliary tool (54), the positioning tool clamp (53) is fixedly connected to the output end of the high-frequency rotating mechanism (51), the damping spring (52) is arranged on the positioning tool clamp (53), and the positioning auxiliary tool (54) is arranged below the positioning tool clamp (53).

4. The high-frequency quenching equipment according to claim 1, wherein the blanking mechanism (6) comprises a first propeller (61), a second propeller (62), a blanking clamping arm (63) and a blanking clamp (64), the first propeller (61) is connected with the second propeller (62) in a matching way, and the blanking clamp (64) is connected with the movable end of the second propeller (62) through the blanking clamping arm (63).

5. The induction hardening apparatus according to claim 1, wherein the collecting mechanism (8) is constituted by a stock tank (81), a filter screen (82), and a return tank (83), the filter screen (82) being installed between the stock tank (81) and the return tank (83).

6. The induction hardening apparatus according to claim 1, wherein a touch panel (2) is provided above a front side of the housing (1).

7. The induction hardening apparatus according to claim 3, wherein a synchronous motor is provided on the lower side of the positioning auxiliary tool (54).

8. The induction hardening apparatus according to claim 1, wherein an inductive load system for controlling start and stop of a driving part is further provided in the housing (1).