CN110053949B

CN110053949B - Heating furnace front end feeding device for blank

Info

Publication number: CN110053949B
Application number: CN201910445203.4A
Authority: CN
Inventors: 钱浩淼
Original assignee: Wuxi Xixi Die Forging Co ltd
Current assignee: Wuxi Xixi Die Forging Co ltd
Priority date: 2019-05-27
Filing date: 2019-05-27
Publication date: 2024-04-09
Anticipated expiration: 2039-05-27
Also published as: CN110053949A

Abstract

The invention discloses a heating furnace front-end feeding device for blanks, which comprises a stock mechanism, a feeding mechanism, a guide chute and a feeding mechanism, wherein one end of the guide chute is arranged corresponding to a heating feed port of heating furnace equipment, the other end of the guide chute is arranged corresponding to the feeding mechanism, the feed end of the feeding mechanism is communicated with the discharge end of the stock mechanism, the discharge end of the feeding mechanism is positioned above the guide chute, and the feeding mechanism intermittently conveys the blanks one by one to the guide chute; the feeding mechanism comprises a telescopic mechanism, the telescopic direction of the telescopic mechanism is the same as the length direction of the guide chute, and the telescopic rod of the telescopic mechanism reciprocally pushes the blank on the guide chute to enter the heating feed inlet, so that blank feeding can be automatically completed, and workers are prevented from being in a severe working environment.

Description

Heating furnace front end feeding device for blank

Technical Field

The invention belongs to the field of casting processing, and particularly relates to a front end feeding device of a heating furnace for a blank.

Background

In the hot forging process of cast iron materials, firstly, a blank piece is required to be placed in a heating furnace for high-temperature heating, then the blank piece is processed in a upsetting mode and the like, a furnace mouth of the heating furnace has higher temperature, a high-temperature area is formed, the working environment is very bad, and workers are very inconvenient to feed in a manual feeding mode or a clamping mode and the like, so that the production efficiency is influenced.

Disclosure of Invention

The invention aims to: in order to overcome the defects in the prior art, the invention provides the front-end feeding device of the heating furnace for the blank, which can automatically finish blank feeding and avoid that staff is in a severe working environment.

The technical scheme is as follows: in order to achieve the above purpose, the technical scheme of the invention is as follows:

the front end feeding device of the heating furnace for the blank comprises a stock mechanism, a feeding mechanism, a guide chute and a feeding mechanism, wherein one end of the guide chute is arranged corresponding to a heating feeding port of heating furnace equipment, the other end of the guide chute is arranged corresponding to the feeding mechanism, the feeding end of the feeding mechanism is communicated with the discharging end of the stock mechanism, the discharging end of the feeding mechanism is positioned above the guide chute, and the feeding mechanism intermittently conveys the blank to the guide chute one by one; the feeding mechanism comprises a telescopic mechanism, the telescopic direction of the telescopic mechanism is the same as the length direction of the guide chute, and a telescopic rod of the telescopic mechanism reciprocally pushes a blank on the guide chute to enter the heating feed inlet.

Further, feeding mechanism still includes fixed plate, connecting rod, actuating lever and travel limit switch, connecting rod parallel interval sets up in the top of telescopic link, the one end of connecting rod passes through the fixed plate sets up the tip at the telescopic link, and the other end is the free end and extends to telescopic mechanism's fixing base one side, be close to the perpendicular connecting rod of free end on the connecting rod and be provided with the actuating lever, travel limit switch sets up on the displacement route of actuating lever.

Further, the end of the telescopic rod is further provided with a push rod, the front end of the push rod is provided with a push plate, and the push plate is abutted to a blank piece on the guide chute.

Further, the feeding mechanism comprises a rotating shaft body, the rotating shaft body is of a cylindrical shaft body structure which rotates horizontally, the axial direction of the rotating shaft body is the same as the pushing direction of the feeding mechanism, the rotating shaft body is adjacently arranged above the material guide groove and is close to the outlet end of the material guide groove, the material outlet of the material storage mechanism is positioned above the rotating axis of the rotating shaft body, a plurality of material containing grooves are formed in the circumferential side wall of the rotating shaft body in a penetrating way along the axial direction, the material containing grooves are arranged in a circumferential array with the rotating axis of the rotating shaft body as the center, the cross section of the material containing grooves is of a spline-shaped structure, and the outer circle outline of the rotating shaft body is respectively arranged with the material outlet end of the material storage mechanism and the edge clearance of the notch of the material guide groove; under the rotation state of the rotating shaft body, the blank at the discharge end of the stock mechanism falls into the stock holding groove, and is displaced from high to low through the rotation of the rotating shaft body and freely falls into the stock guide groove.

Further, the stock mechanism comprises a feeding chute body, two ends of the length direction of the feeding chute body are arranged in an opening mode, and a feeding end to a discharging end of the feeding chute body are arranged in a manner of being inclined from top to bottom.

Further, the discharge end of the feeding chute body is provided with a counter-pressure plate, the counter-pressure plate is parallel to the bottom wall of the chute, and the length value of the counter-pressure plate in the length direction of the feeding chute body is larger than the diameter value of at least two blanks.

Further, the device also comprises a first baffle plate and a second baffle plate, wherein the bottom end of the first baffle plate is arranged on the guide chute, the other end of the first baffle plate extends upwards obliquely to the upper part of the rotating shaft body, and the top end interval of the first baffle plate is arranged above the rotating shaft body loaded with the blank; the bottom of second baffle sets up on the baffle box, just the other end of second baffle upwards extends to the excircle wall body that the clearance was in the axis of rotation body, just the top of second baffle is not higher than the central axis of rotation body.

The beneficial effects are that: according to the invention, a certain number of blanks are stored in advance through the stock mechanism, the blank cylinder feeding mechanism sequentially and intermittently transfers the blanks into the guide groove, and the blanks transferred into the guide groove are pushed to the heating feeding port of the heating furnace through the feeding mechanism.

Drawings

FIG. 1 is a schematic perspective view of the overall structure of the present invention;

FIG. 2 is a side view of the overall structure of the present invention;

FIG. 3 is a partial schematic view of the feed structure of the present invention;

FIG. 4 is a front view of the overall structure of the present invention;

FIG. 5 is a schematic view of a semi-sectional structure in the A-A direction of the present invention.

Detailed Description

The invention will be further described with reference to the accompanying drawings.

As shown in fig. 1 to fig. 4, a feeding device at the front end of a heating furnace for a blank comprises a stock mechanism, a feeding mechanism 7, a guide chute 4 and a feeding mechanism, wherein the guide chute 4 is of a V-shaped chute body structure and is fixed below a heating feed port 1a of the heating furnace 1, one end of the guide chute 4 is arranged corresponding to the heating feed port 1a of the heating furnace equipment 1, the other end of the guide chute 4 is arranged corresponding to the feeding mechanism, the feeding end of the feeding mechanism 7 is communicated with the discharging end of the stock mechanism, the discharging end of the feeding mechanism 7 is positioned above the guide chute 4, the guide chute 4 intermittently conveys blanks 10 one by one, and the blanks 10 are cylindrical rod cast iron; the feeding mechanism comprises a telescopic mechanism 2, the telescopic mechanism 2 is a telescopic cylinder or a telescopic oil cylinder, the telescopic direction of the telescopic mechanism 2 is the same as the length direction of the guide chute 4, and a telescopic rod 3 of the telescopic mechanism 2 reciprocally pushes a blank 10 on the guide chute 4 to enter the heating feed inlet 1a. Through stock mechanism deposit the blank of a certain amount in advance, blank section of thick bamboo feed mechanism is intermittently transported in proper order in the baffle box, and blank rethread feeding mechanism after transporting to in the baffle box carries out the propelling movement to the heating feed inlet of heating furnace, and the labour of liberation workman of this process very big degree, and can be automatic accomplish blank pay-off, avoid the staff to be in among the abominable operational environment to promote work efficiency.

As shown in fig. 2 and fig. 3, the feeding mechanism further comprises a fixing plate 15, a connecting rod 8, a driving rod 11 and a travel limit switch 9, parallel spacing between the connecting rods 8 is arranged above the telescopic rod 3 and the telescopic mechanism 2, one end of the connecting rod 8 is fixedly arranged at the end part of the telescopic rod 3 through the fixing plate 15, the other end is a free end and extends to one side of a fixing seat of the telescopic mechanism 2, the connecting rod 8 is provided with the driving rod 11 close to a vertical connecting rod at the free end, the driving rod 11 and the connecting rod 8 synchronously displace along with telescopic motion of the telescopic rod 3, and the travel limit switch 9 is arranged on a displacement path of the driving rod 11. When the telescopic rod 3 stretches forwards to push the blank 10, the driving rod follows the displacement, when the driving pipe touches the travel limit switch 9, the telescopic rod starts to retract, and when the telescopic rod 3 completely retracts, the telescopic oil cylinder is driven again to act, so that the telescopic rod is pushed out and repeatedly moved, and the telescopic rod reciprocates. The oil cylinder is further provided with a guide plate 13, the guide plate 13 is provided with a guide groove 14 for guiding the displacement of the connecting rod, the end part of the telescopic rod 3 is further provided with a push rod 5, the front end of the push rod 5 is provided with a push plate 16, and the push plate 16 is abutted to the blank 10 on the guide groove 4. Because the temperature of the heating feed inlet of the heating furnace is higher, the damage of high temperature to the telescopic rod mechanism can be avoided and the service life of the telescopic rod mechanism can be prolonged by additionally adding the push rod 5.

As shown in fig. 4 and fig. 5, the feeding mechanism includes a rotating shaft body 21, the rotating shaft body 21 is a cylindrical shaft body structure that rotates horizontally, the axial direction of the rotating shaft body 21 is the same as the pushing direction of the feeding mechanism, the rotating shaft body 21 is adjacently disposed above the discharge end of the guide chute 4 and is close to the outlet end of the guide chute 4, the discharge port of the storage mechanism is located above the rotation axis of the rotating shaft body 21, a plurality of material containing grooves 22 are axially and continuously disposed on the circumferential side wall of the rotating shaft body 21, the material containing grooves 22 are semi-cylindrical grooves with outward openings, which are matched with the outer circumferential outline of the blank 10, and a plurality of material containing grooves 22 are disposed in a circumferential array with the rotation axis of the rotating shaft body 21 as the center, so as to form a spline-shaped structure in cross section, the outer circumferential outline of the rotating shaft body 21 is respectively disposed with the discharge end of the storage mechanism and the edge gap of the guide chute 4, so that blanks 10 can fall into each material containing groove, the rotating shaft body is guided by the guide chute 4, and the rotating shaft body is slowly rotated from the high to the low, the blank 2 falls into the guide chute 4 from the high position to the high position of the guide chute 22 via the blank 10, and the blank 2 freely moves from the high position to the rotation position of the blank 22 in the groove 4.

The stock mechanism includes feeding cell body 6, and the feeding cell body is the U type groove, the both ends of feeding cell body 6 length direction are the opening setting, the feed end of feeding cell body 6 is for following the slope setting from top to bottom to the discharge end to do benefit to the blank and remove to feeding mechanism 7 under the effect of dead weight, the discharge end of feeding cell body 6 is provided with back pressure plate 12, back pressure plate 12 is on a parallel with tank bottom wall setting, just back pressure plate 12 is greater than the diameter value of at least two blanks 10 at feeding cell body length direction's length value, in order to avoid a plurality of blanks 10 to pile up at the discharge gate of feeding cell body 6, and can also prevent through back pressure plate 12 that blank 10 from the exit upwarp, guarantee its area between back pressure plate 12 and the feeding cell body 6 to in the steady entering flourishing material recess 22.

The device further comprises a first baffle plate 23 and a second baffle plate 24, wherein the bottom end of the first baffle plate 23 is arranged on the guide chute 4, the other end of the first baffle plate 23 extends upwards obliquely to the upper part of the rotating shaft body 21, and the top end interval of the first baffle plate 23 is arranged above the rotating shaft body loaded with the blank; the bottom of second baffle 24 sets up on baffle box 4, just the other end of second baffle 24 upwards extends to the excircle wall body that the clearance was in axis of rotation body 21, just the top of second baffle 24 is not higher than the central axis of rotation body 21, can effectually guarantee through first baffle 24 and second baffle 24 that the blank on the axis of rotation body can enter into the baffle box in, avoids its outwards popping out.

The foregoing is only a preferred embodiment of the invention, it being noted that: it will be apparent to those skilled in the art that various modifications and adaptations can be made without departing from the principles of the present invention, and such modifications and adaptations are intended to be comprehended within the scope of the invention.

Claims

1. The utility model provides a heating furnace front end material feeding unit of blank, its characterized in that: the automatic feeding device comprises a storage mechanism, a feeding mechanism (7), a guide chute (4) and a feeding mechanism, wherein one end of the guide chute (4) is arranged corresponding to a heating feed inlet (1 a) of heating furnace equipment (1), the other end of the guide chute is arranged corresponding to the feeding mechanism, the feed end of the feeding mechanism is communicated with the discharge end of the storage mechanism, the discharge end of the feeding mechanism is positioned above the guide chute (4), and the feeding mechanism (7) intermittently conveys blanks (10) to the guide chute (4) one by one; the feeding mechanism comprises a telescopic mechanism (2), the telescopic direction of the telescopic mechanism (2) is the same as the length direction of the guide chute (4), and a telescopic rod (3) of the telescopic mechanism (2) reciprocally pushes a blank (10) on the guide chute (4) to enter the heating feed inlet (1 a);

the feeding mechanism comprises a rotating shaft body (21), the rotating shaft body (21) is of a cylindrical shaft body structure which rotates horizontally, the axial direction of the rotating shaft body (21) is the same as the pushing direction of the feeding mechanism, the rotating shaft body (21) is adjacently arranged above the guide chute (4) and is close to the outlet end of the guide chute (4), the discharge hole of the storage mechanism is positioned above the rotating shaft body (21), a plurality of material containing grooves (22) are formed in the circumferential side wall of the rotating shaft body (21) in a penetrating way along the axial direction, the material containing grooves (22) are arranged in a circumferential array by taking the rotating shaft body (21) as the center, the cross section of the material containing grooves is of a spline structure, and the outer circle outline of the rotating shaft body (21) is respectively arranged with the discharge end of the storage mechanism and the edge clearance of the notch of the guide chute (4); in the rotating state of the rotating shaft body (21), a blank (10) at the discharge end of the stock mechanism falls into the stock accommodating groove (22), is displaced from high to low through the rotation of the rotating shaft body (21), and freely falls into the stock guide (4);

the material storage mechanism comprises a feeding chute body (6), wherein two ends of the feeding chute body (6) in the length direction are provided with openings, and the feeding end to the discharging end of the feeding chute body (6) are obliquely arranged from top to bottom;

the discharge end of the feeding chute body (6) is provided with a counter-pressure plate (12), the counter-pressure plate (12) is arranged parallel to the bottom wall of the chute, and the length value of the counter-pressure plate (12) in the length direction of the feeding chute body is larger than the diameter value of at least two blanks (10);

the novel blank forming machine further comprises a first baffle (23) and a second baffle (24), wherein the bottom end of the first baffle (23) is arranged on the guide chute (4), the other end of the first baffle (23) extends obliquely upwards to the position above the rotating shaft body (21), and the top end interval of the first baffle (23) is arranged above the rotating shaft body loaded with the blank; the bottom of the second baffle (24) is arranged on the guide chute (4), the other end of the second baffle (24) extends upwards to an outer circular wall body which is spaced from the rotating shaft body (21), and the top end of the second baffle (24) is not higher than the central axis of the rotating shaft body (21).

2. The heating furnace front end feeding device for a blank according to claim 1, wherein: feeding mechanism still includes fixed plate (15), connecting rod (8), actuating lever (11) and travel limit switch (9), connecting rod (8) parallel interval sets up the top at telescopic link (3), the one end of connecting rod (8) is passed through fixed plate (15) set up the tip at telescopic link (3), and the other end is the free end and extends to fixing base one side of telescopic machanism (2), be close to free end perpendicular connecting rod on connecting rod (8) and be provided with actuating lever (11), travel limit switch (9) set up on the displacement route of actuating lever (11).

3. The heating furnace front end feeding device for a blank according to claim 1, wherein: the end of the telescopic rod (3) is further provided with a push rod (5), the front end of the push rod (5) is provided with a push plate (16), and the push plate (16) is abutted to a blank (10) on the guide chute (4).