CN210001897U - Oil removing device for thermal treatment of mesh belt furnace - Google Patents

Abstract

The utility model discloses an kind of guipure furnace deoiling device for thermal treatment, including quenching section oil bath, material loading frame support and back end process, the inside in quenching section oil bath is provided with quenching section hoisting device, and the top of quenching section hoisting device is connected with the unloading slide to the top of unloading slide sets up the top position at rotatory centrifugal barrel, the outside of the below position on the left of rotatory centrifugal barrel is connected with the centrifugal barrel discharge gate, and the top in the rotatory centrifugal barrel outside still is connected with centrifugal barrel lamp shade, and the top of centrifugal barrel discharge gate sets up the inside at the material loading frame feed inlet, the top of material loading frame bottom plate is provided with the material loading frame upper cover plate of installation on the material loading frame support body.

Description

Oil removing device for thermal treatment of mesh belt furnace

Technical Field

The utility model relates to a fastener guipure stove heat treatment correlation technique field specifically is kind guipure stove deoiling device for heat treatment.

Background

In the process of producing fasteners, manufacturers often carry out heat treatment on products on a mesh belt furnace, so that the hardness of the fasteners reaches the standard determined by , parts of the traditional fasteners after coming out of a quenching section are conveyed to a lower process through a conveyor belt, and the quenched products need to be subjected to oil removal treatment to ensure the smooth proceeding of the subsequent process, but most of the traditional oil removal adopts a high-pressure water gun to spray on an intermediate conveying section to remove oil on the surfaces of the products, but the mode has the following defects that firstly, the effect of spraying oil by water is not ideal, secondly, the water and the oil are difficult to separate after being mixed, so that the subsequent treatment of the oil and the water has great difficulty, and the mode often causes a great amount of waste of water and the oil cannot be collected, so devices are provided for conveniently solving the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide kind guipure stove deoiling device for thermal treatment to solve the in-process that the deoiling device for thermal treatment on the present market that above-mentioned background art provided is using, the water oil is difficult to the separation, and can not cause a large amount of water waste's problem.

kind of guipure furnace deoiling device for thermal treatment, including quenching section oil bath, material loading frame support and back end process, the inside in quenching section oil bath is provided with quenching section hoisting device, and the top of quenching section hoisting device is connected with the unloading slide to the top of unloading slide sets up the top position at rotatory centrifugal barrel, the outside of the below position of rotatory centrifugal barrel is connected with centrifugal barrel discharge gate, and the top in the rotatory centrifugal barrel outside still is connected with the centrifugal barrel lamp shade, and the top of centrifugal barrel discharge gate sets up the inside at the material loading frame feed inlet, the material loading frame feed inlet sets up the right side top at the material loading frame body, and the left side top of material loading frame body is provided with the material loading frame discharge gate, and the inside bottom of material loading frame body installs the material loading frame bottom plate, the top of material loading frame bottom plate is provided with the material loading frame upper cover plate of installing on the material loading frame body, and the bottom of material loading frame body is fixed with the material loading frame support.

Preferably, the feed opening is installed to the top body of rotatory centrifugation bucket, and the top of feed opening is fixed with photoelectric sensor to the bottom of feed opening is connected with the baffle through the pivot.

Preferably, the bottom of the baffle is connected with the inner wall of the rotary centrifugal barrel through the cylinder, and the top end of the baffle is a smooth plane.

Preferably, the lowest point of the blanking slideway is positioned right above the blanking port.

Preferably, the discharge port of the centrifugal barrel is positioned right above the feed port of the feeding frame.

Preferably, the bottom end of the discharge port of the feeding frame is positioned right above the rear-section process.

Compared with the prior art, the beneficial effects of the utility model are that: this mesh belt furnace is deoiling device for heat treatment directly places the fastener in the inside of rotatory centrifugal barrel and carries out fast-speed centrifugation work of spin-drying after quenching is accomplished, reach the remaining quenching oil that removes the surface, the oil of separation can get back to the oil bath again and carry out reuse simultaneously, then the product comes out and delivers to the back end process through the conveyer, this process is compared in the original use of having saved water, the structure is simplified, and the oil of separation need not handle can reuse, zero release has been realized, and can reduce the manual work and realize the automation, reduce the workman and operate the degree of difficulty, and protected the workman healthy, workshop environment has been improved, the emission of smog has been reduced.

Drawings

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

FIG. 2 is a schematic view of the centrifugal barrel assembly of the present invention;

fig. 3 is the utility model discloses feed opening owner cuts open structure schematic diagram.

In the figure: 1. a quenching section oil pool; 2. a quenching section lifting device; 3. a blanking slideway; 4. rotating the centrifugal barrel; 401. a feeding port; 402. a baffle plate; 403. a rotating shaft; 404. a cylinder; 405. a photosensor; 5. a centrifugal barrel lampshade; 6. a discharge port of the centrifugal barrel; 7. a feeding frame body; 8. a loading frame lower supporting plate; 9. a feeding frame support; 10. a feeding hole of the feeding frame; 11. an upper cover plate of the feeding frame; 12. a discharge port of the feeding frame; 13. and (5) a subsequent step.

Detailed Description

The technical solution in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of , but not all embodiments.

Please refer to fig. 1-3, the utility model provides technical solutions, deoiling device for mesh belt furnace thermal treatment, including quenching section oil bath 1, quenching section hoisting device 2, unloading slide 3, rotatory centrifugal barrel 4, feed opening 401, baffle 402, pivot 403, cylinder 404, photoelectric sensor 405, centrifugal barrel lamp shade 5, centrifugal barrel discharge gate 6, loading frame support 7, loading frame bottom plate 8, loading frame support 9, loading frame feed inlet 10, loading frame upper cover plate 11, loading frame discharge gate 12 and back end process 13, the inside of quenching section oil bath 1 is provided with quenching section hoisting device 2, and the top of quenching section hoisting device 2 is connected with unloading slide 3, and the top of unloading slide 3 sets up the top position at rotatory centrifugal barrel 4, the outside of the position below the top of rotatory centrifugal barrel 4 is connected with centrifugal barrel discharge gate 6, and the top of the outside of rotatory centrifugal barrel 4 still is connected with centrifugal barrel lamp shade 5, and the top of barrel discharge gate 6 sets up the inside of loading frame feed inlet 10, loading frame 10 sets up the right side of feed inlet 7, and the top of loading frame 7 is connected with centrifugal barrel discharge gate 6, and the top of loading frame 7 is provided with centrifugal barrel discharge gate on the bottom plate 7, the loading frame support has the bottom plate 7, there is provided with unloading frame upper support and there is provided with unloading frame upper support plate 8.

Feed opening 401 is installed to the top body of rotatory centrifuging barrel 4, and the top of feed opening 401 is fixed with photoelectric sensor 405 to the bottom of feed opening 401 is connected with baffle 402 through pivot 403, and the bottom of baffle 402 is connected with the inner wall of rotatory centrifuging barrel 4 through cylinder 404, and the top of baffle 402 is smooth plane, conveniently carries out automatic equivalent unloading work, and degree of automation is high.

The lowest point of the discharging slideway 3 is positioned right above the discharging port 401, the discharging port 6 of the centrifugal barrel is positioned right above the feeding port 10 of the feeding frame, and the bottom end of the discharging port 12 of the feeding frame is positioned right above the rear-section working procedure 13, so that the accurate discharging work of products is facilitated, and the discharging deviation phenomenon can not occur.

When the oil removing device for mesh belt furnace heat treatment is used, firstly, fasteners quenched through a quenching section oil pool 1 are conveyed to the top end through a quenching section lifting device 2, then the fasteners with higher temperature fall above a blanking slideway 3, the fasteners are stacked above a baffle 402 at the top end of a blanking port 401 above a rotary centrifugal barrel 4, then after the fasteners above the whole baffle 402 are stacked to -determined height, a photoelectric sensor 405 senses the height of the stacked fasteners, and then signals are transmitted to a PLC control system, the PLC control system controls an air cylinder 404 to be started, the air cylinder 404 is started to drive the baffle 402 to rotate under the action of a rotating shaft 403, after the whole baffle 402 rotates -determined angle, the stacked fasteners enter the rotary centrifugal barrel 4, then the rotary centrifugal barrel 4 rotates to carry out high-speed centrifugation on the fastener products with higher temperature, the effect of removing residual quenching oil on the surface is achieved, finally, the PLC control system controls the top end of a discharging port 6 of the detailed barrel to be opened, so that the products fall into a feeding port 10 of an upper feeding rack through the centrifugal barrel, and then the finished product rack reaches the technical specifications of a material rack after the subsequent processing procedure of a material rack, which is described in the prior art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. The oil removing device for the mesh belt furnace heat treatment comprises a quenching section oil pool (1), a feeding frame support (9) and a rear section process (13), and is characterized in that a quenching section lifting device (2) is arranged inside the quenching section oil pool (1), the top end of the quenching section lifting device (2) is connected with a discharging slide way (3), the top end of the discharging slide way (3) is arranged at the top end of a rotary centrifugal barrel (4), the outer side of the lower position of the rotary centrifugal barrel (4) is connected with a centrifugal barrel discharge hole (6), the upper side of the outer side of the rotary centrifugal barrel (4) is further connected with a centrifugal barrel lampshade (5), the top end of the centrifugal barrel discharge hole (6) is arranged inside a feeding hole (10), the feeding hole (10) is arranged at the right top end of the feeding frame body (7), the left top end of the feeding frame body (7) is provided with a feeding frame discharge hole (12), the inner bottom end of the feeding frame body (7) is provided with a feeding frame lower support plate (8), the feeding frame (7) is arranged above the feeding frame support (7), and the feeding frame (7) is fixed at the bottom of the feeding frame body (7).
2. 2. The oil removing device for kinds of mesh belt furnace heat treatment according to claim 1, wherein a feed opening (401) is installed at the top end of the rotary centrifugal barrel (4), a photoelectric sensor (405) is fixed at the top end above the feed opening (401), and the bottom of the feed opening (401) is connected with the baffle (402) through a rotating shaft (403).
3. 3. The oil removing device for kinds of mesh belt furnace heat treatment according to claim 2, wherein the bottom of the baffle plate (402) is connected with the inner wall of the rotary centrifugal barrel (4) through the cylinder (404), and the top end of the baffle plate (402) is a smooth plane.
4. 4. The oil removing device for kinds of mesh belt furnace heat treatment according to claim 2, wherein the lowest point of the blanking slideway (3) is located right above the blanking port (401).
5. 5. The oil removing device for kinds of mesh belt furnace heat treatment according to claim 1, wherein the discharge port (6) of the centrifugal barrel is located right above the feed port (10) of the feeding frame.
6. 6. The oil removing device for kinds of mesh belt furnace heat treatment according to claim 1, wherein the bottom end of the discharge port (12) of the feeding frame is located right above the rear stage process (13).

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