CN208976290U - Sorting unit after forge piece blank reheating heating - Google Patents

Abstract

The utility model relates to the sorting units after a kind of heating of forge piece blank reheating, comprising: the temperature detector detected to the blank of heating furnace output；The sliding plate of heating furnace output blank is received, which is equipped with first through hole and the second through-hole；First guide component is located at the front of sliding plate；Second guide component is located at the front of sliding plate, and the first passage passed through for qualified blank is formed between the second guide component and the first guide component；First driving mechanism is located at the back side of sliding plate, and the power output end of the first driving mechanism is connect after passing through first through hole with one end of the first guide component；Second driving mechanism is located at the back side of sliding plate, and the power output end of the second driving mechanism is connect after passing through the second through-hole with one end of the second guide component.The utility model can carry out automatic screening to the forge piece blank reheating after heating, to ensure the quality of forging.

Description

Sorting unit after forge piece blank reheating heating

Technical field

The utility model relates to technical field of forging, and in particular to the sorting unit after a kind of heating of forge piece blank reheating.

Background technique

Forging be it is a kind of using metal forming machinery to metal stock apply pressure, make its generate plastic deformation with obtain have one Determine the processing method of mechanical performance, certain shapes and size forging, one of the two big component parts of forging and stamping (forging and punching press).It is logical The defects of as cast condition that metal generates in smelting process is loose can be eliminated by crossing forging, optimize heterogeneous microstructure, simultaneously because protecting Complete metal streamline is deposited, the mechanical performance of forging is generally preferred over the casting of same material.

Forge piece blank reheating is heated before being forged, and heating is usually to complete in intermediate frequency furnace, after heating Forge piece blank reheating is reached by conveying mechanism and can be forged on forging equipment.Although the heating of each forge piece blank reheating is same It completes in intermediate frequency furnace, but is influenced by various factors, the temperature after leading to the heating of each section of forge piece blank reheating is not fully It is identical, than if any the temperature of blank be 500 degree, the temperature of some blanks is 550 degree etc., due to when forging and pressing to forge piece blank reheating Temperature require, only meeting forge piece blank reheating in certain temperature section just can be carried out forging and stamping, otherwise, higher or lower than this Even it is successfully also rejected product that the forge piece blank reheating of temperature range, which forges and presses, therefore how to screen the forge piece blank reheating of heating at working as Preceding problem encountered.

Summary of the invention

The purpose of the utility model is to provide the sorting units after a kind of heating of forge piece blank reheating, and the utility model can be to heating Forge piece blank reheating afterwards carries out automatic screening, to ensure the quality of forging.

Realize that the technical solution of above-mentioned purpose is as follows:

Sorting unit after forge piece blank reheating heating, comprising:

The temperature detector that the blank of heating furnace output is detected；

The sliding plate of heating furnace output blank is received, which is equipped with first through hole and the second through-hole；

First guide component, the first guide component are located at the front of sliding plate；

Second guide component, the second guide component are located at the front of sliding plate, in the second guide component and the first guide The first passage passed through for qualified blank is formed between component；

The first driving mechanism for driving the first guide component to swing when for blank temperature lower than setting temperature, first drive Motivation structure is located at the back side of sliding plate, the power output end of the first driving mechanism pass through after first through hole with the first guide component One end connection；

The second driving mechanism for driving the second guide component to swing when being higher than setting temperature for blank temperature, second drive Motivation structure is located at the back side of sliding plate, the power output end of the second driving mechanism pass through after the second through-hole with the second guide component One end connection.

The advantages of the utility model, is, when the temperature of blank meets the temperature of sets requirement, blank is reached on sliding plate Afterwards, it is moved along the first passage between the first guide component and the second guide component；When the temperature of blank is lower than set temperature When, it drives the swing of the first guide component to close first passage by the first driving mechanism, makes blank along the first guide component Direction is mobile；When the temperature of blank is higher than set temperature, the second guide component is driven to swing by the second driving mechanism First passage is closed, moves blank along the second guide component direction.In this way, will be less than or higher than set temperature Blank is sieved so that the temperature that only meets the requirements blank reach forging and stamping station, so that it is guaranteed that product quality.

Detailed description of the invention

The sorting unit and the main view after heating furnace assembly that Fig. 1 sheet is utility model；

The sorting unit and the top view after heating furnace assembly that Fig. 2 sheet is utility model；

Fig. 3 is the schematic diagram at the back side of the sorting unit of the utility model；

Fig. 4 is the state diagram that qualified blank is moved along sorting unit；

Fig. 5 is the schematic diagram moved lower than the blank of set temperature along sorting unit；

Fig. 6 is the schematic diagram moved higher than the blank of set temperature along sorting unit；

A is heating furnace, and B is blank, and C is first passage, and D is second channel, and E is third channel；

1 is temperature detector, and 2 be sliding plate, and 3 be the first guide component, 4 be the second guide component, and 5 be axis, and 6 be first Striker plate, 7 be the second striker plate, and 8 be the first driver, and 9 be the first connecting plate, and 10 be first axle, and 11 be the second driver, 12 It is the second axis for the second connecting plate, 13.

Specific embodiment

The utility model is described further with reference to the accompanying drawing.

As shown in Figure 1 to Figure 3, the sorting unit after forge piece blank reheating heating, comprising: temperature detector 1, sliding plate 2, first Guide component 3, the second guide component 4, the first driving mechanism, the second driving mechanism, the first striker plate, the second striker plate, axis, under Relationship in face of every part and between them is described in detail:

As shown in Figure 1 to Figure 2, the temperature detection that temperature detector 1 carries out the blank B that heating furnace A is exported, as blank B After heating furnace A output, blank B can pass through 1 position of temperature detector, and at this moment, temperature detector 1 carries out blank B Temperature detection, temperature detector 1 preferentially use infrared sensor, and temperature detector 1 is mounted on the output of heating furnace A by bracket End.

As shown in Figure 1 to Figure 2, although being able to detect that the temperature of blank B, by temperature detector 1 in order to reality Existing automatic sorting, is also provided with controller (not shown) in the utility model, controller control the first driving mechanism or The work of second driving mechanism, controller are electrically connected with temperature detector 1, and temperature detector 1 detects that ground temperature is controlled device institute processed It receives.

The controller includes analog-digital converter, control unit, the first switch connecting with the first driving mechanism and second The analog signal of the detection of temperature detector 1 is converted to digital signal by the second switch of driving mechanism connection, analog-digital converter； Control unit will be preset at the temperature threshold in control unit with this from the digital signal of analog-digital converter and be compared, and sentence Whether the blank temperature after disconnected heating belongs to the qualified blank of forging；For example, the temperature of qualified forging is 500 ± 30 DEG C, when The temperature that temperature detector 1 detects current blank is 450 DEG C, it is clear that the temperature is lower than the qualified temperature forged, therefore, the base Material not can be carried out forging, if when the temperature that temperature detector 1 detects current blank is 550 DEG C, it is clear that the temperature is higher than qualified forging The temperature made, therefore, the blank can not be forged, and are 520 DEG C when temperature detector 1 detects the temperature of current blank, shown So, which belongs to the temperature region of qualified forging, and therefore, which is able to carry out forging.Therefore, sentencing by control unit It is disconnected, it can be deduced that whether the blank after current heating is able to carry out forging.Control unit is programmable logic controller (PLC) part, such as PLC or single-chip microcontroller.First switch is opened or closed according to the control command that control unit provides, with the work to the first driving mechanism It is controlled.Second switch is opened or closed according to the control command that control unit provides, with the work to the second driving mechanism It is controlled.

As shown in Figure 1 to Figure 3, sliding plate 2 receives the blank of heating furnace A output, and the arrangement of sliding plate 2 is one end height The other end is low, i.e., inclined arrangement states, and one end of sliding plate 2 is equipped with the axis 5, and axis 5 is hinged on the output of heating furnace A The output end at end, the opposite heating furnace A of such sliding plate 2 can be swung, so as to change the inclination angle of sliding plate 2.On sliding plate 2 Equipped with first through hole and the second through-hole.

As shown in Figures 1 to 4, the first guide component 3 is located at the front of sliding plate 2, and the second guide component 4 is located at sliding plate 2 front forms the first passage C passed through for qualified blank between the second guide component 4 and the first guide component 3；Work as base When the temperature of material B belongs to the temperature of qualified forging, blank B is slided when reaching sliding plate through first passage C.

As shown in Figure 1, Figure 2 and shown in Fig. 5, the front of sliding plate 2 is arranged in the first striker plate 6, and first striker plate 6 is positioned at the The outside of one guide component 3 is formed logical for the blank B lower than setting temperature between the first striker plate 6 and the first guide component 3 The second channel D crossed.The front of sliding plate 2 is arranged in second striker plate 7, which is located at the second guide component 4 Outside forms the third channel passed through for the blank B for being higher than setting temperature between the second striker plate 7 and the second guide component 4 E。

As shown in Figure 1, Figure 2 and shown in Fig. 5, the first driving mechanism is located at the back side of sliding plate 2, and the power of the first driving mechanism is defeated Outlet is connect after passing through the first through hole on sliding plate 2 with one end of the first guide component 3；When the temperature of blank B is lower than setting When temperature, the first driving mechanism drives the first guide component 3 to swing, so that first passage C be closed, makes to move along sliding plate 2 Dynamic blank B changes path, moves along second channel D.

As shown in figs. 1,2 and 6, the second driving mechanism is located at the back side of sliding plate 2, and the power of the second driving mechanism is defeated Outlet is connect after passing through the second through-hole on sliding plate 2 with one end of the second guide component 4；When the temperature of blank B is higher than setting When temperature, the second driving mechanism drives the second guide component 4 to swing, so that first passage C be closed, makes to move along sliding plate 2 Dynamic blank B changes path, moves along third channel E.

As shown in figs. 1,2 and 6, it is equipped with to receive from second channel in the side of sliding plate 2 and slides the first material that D goes out blank Basket (not shown) is equipped with reception in the other side of sliding plate 2 and skids off the second charging basket of blank (in figure not from third channel E It shows).I.e. lower than the blank B of set temperature automatically into the first charging basket, and it is higher than the blank B of set temperature automatically into arriving Second charging basket.

As shown in figure 3, the first driving mechanism includes the first driver 8, the first connecting plate 9, first axle 10, the first driver 8 be linear actuator, and the first driver 8 preferentially uses cylinder, and the first driver 8 can also use hydraulic cylinder or motor-driven Screw body.One end of first connecting plate 9 is connect with the output end of the first driver 8, and one end of the first axle 10 connects with first The other end of fishplate bar 9 connects, and the other end of first axle 10 is connect with the first guide component 3.When first driver 8 works, driving The movement of first connecting plate 9, the first connecting plate 9 pushes first axle 10 to rotate, to make the first guide component 3 with the first axis connection First passage C is closed in swing, can only be along the sliding D of second channel after the blank B lower than set temperature is reached on sliding plate 2 It is mobile.

As shown in figure 3, the second driving mechanism includes the second driver 11, the second connecting plate 12, the second axis 13, the second driving Device 11 is linear actuator, and the second driver 11 preferentially uses cylinder, and the second driver 11 can also use hydraulic cylinder or motor The screw body of driving.One end of second connecting plate 12 is connect with the output end of the second driver 11, one end of second axis 13 It is connect with the other end of the second connecting plate 12, the other end of the second axis 13 is connect with the second guide component 4.Second driver, 11 work When making, driving the second connecting plate 12 movement, the second connecting plate 12 pushes the rotation of the second axis 13, to make the with the second axis connection Third channel E is closed in the swing of two guide components 4, can only be along after the blank B for being higher than set temperature is reached on sliding plate 2 The sliding E of third channel is mobile.

When the first driver 8 and the second driver 11 are using cylinder or hydraulic cylinder, first switch and the second switch is used Solenoid valve.

The utility model is not limited to above embodiment, such as temperature detector 1 can also use following form

Temperature detector 1 is made of temperature sensor and display, when temperature of the temperature sensor to the blank detected It is shown by display, at this moment worker can be intuitive to see the temperature of blank, judge whether the temperature of blank B belongs to conjunction The forging temperature of lattice, to decide whether to manually control the first driving mechanism or the work of the second driving mechanism.

Claims (9)

1. the sorting unit after forge piece blank reheating heating characterized by comprising

The temperature detector that the blank of heating furnace output is detected；

The sliding plate of heating furnace output blank is received, which is equipped with first through hole and the second through-hole；

First guide component, the first guide component are located at the front of sliding plate；

Second guide component, the second guide component are located at the front of sliding plate, in the second guide component and the first guide component Between form the first passage that passes through for qualified blank；

The first driving mechanism for driving the first guide component to swing when for blank temperature lower than setting temperature, first driving machine Structure is located at the back side of sliding plate, the one end of the power output end of the first driving mechanism after first through hole with the first guide component

Connection；

The second driving mechanism for driving the second guide component to swing when being higher than setting temperature for blank temperature, second driving machine Structure is located at the back side of sliding plate, the one end of the power output end of the second driving mechanism after the second through-hole with the second guide component Connection.

2. the sorting unit according to claim 1, which is characterized in that further include:

It is arranged in positive first striker plate of sliding plate, which is located at the outside of the first guide component, in first gear The second channel for passing through lower than the blank of setting temperature is formed between flitch and the first guide component；

It is arranged in positive second striker plate of sliding plate, which is located at the outside of the second guide component, in second gear The third channel passed through for the blank for being higher than setting temperature is formed between flitch and the second guide component.

3. the sorting unit according to claim 2, which is characterized in that further include:

Receive the first charging basket that blank is skidded off from second channel；

Receive the second charging basket that blank is skidded off from third channel.

4. the sorting unit according to claim 1, which is characterized in that further include: for being hinged on heating furnace output end Axis, the axis connection is in one end of sliding plate.

5. according to claim 1 to sorting unit described in one of 4, which is characterized in that first driving mechanism includes:

First driver；

First connecting plate, one end of first connecting plate are connect with the output end of the first driver；

First axle, one end of the first axle are connect with the other end of the first connecting plate, the other end of first axle and the first guide portion Part connection.

6. the sorting unit according to claim 5, which is characterized in that the first driver is linear actuator.

7. according to claim 1 to sorting unit described in one of 4, which is characterized in that second driving mechanism includes:

Second driver；

Second connecting plate, one end of second connecting plate are connect with the output end of the second driver；

Second axis, one end of second axis are connect with the other end of the second connecting plate, the other end of the second axis and the second guide portion Part connection.

8. the sorting unit according to claim 7, which is characterized in that the second driver is linear actuator.

9. according to claim 1 to sorting unit described in one of 4, which is characterized in that further include: the first driving mechanism of control Or second driving mechanism work controller, controller connects with temperature detector electrical.