CN218232574U - High heat transfer energy-saving type wire rod phosphorization furnace - Google Patents

Abstract

The utility model discloses a high heat transfer energy-saving type wire rod phosphorization furnace relates to the phosphorization furnace field. Including the stove outer covering, fixed mounting has the stove courage in the stove outer covering, installs thermal-insulated cotton between stove courage and the stove outer covering, and stove outer covering fixed surface installs the power supply terminal, and stove outer covering one side fixed mounting has recovery mechanism, and recovery mechanism includes recovery pipeline, pipeline interface, piston, business turn over opening and the holding vessel body, and actuating mechanism is including butt joint screw, butt joint base, installation screw, installation base and hydraulic cylinder. The liquid level height of phosphating solution can flow into the storage tank body through the recovery pipeline after continuously rising, prevent that the phosphating solution in the furnace courage from spilling over, can start hydraulic cylinder after taking out the wire rod disc simultaneously, the piston can up-move after starting hydraulic cylinder, phosphating solution in the storage tank body can follow newly flowing into the furnace courage after the piston up-moves, thereby reduce the waste of phosphating solution, thermal loss can be reduced to the thermal-insulated cotton in the furnace courage outside simultaneously, play the effect of festival efficiency.

Description

High heat transfer energy-saving type wire rod phosphorization furnace

Technical Field

The utility model relates to a bonderizing furnace field, in particular to energy-conserving type of wire rod bonderizing furnace of high heat transfer.

Background

The phosphating treatment of the wire rod disk in the wire rod wire drawing industry is very common in application, before wire rod disk drawing, the disk enters phosphating solution, a layer of phosphating film can be generated on the surface of the wire rod, preparation is made for the next saponification process, and the surface of the wire rod after saponification has a coating grinding layer with high lubricity and corrosion resistance, so that wire rod drawing is facilitated, the loss of a mold in the production process is reduced, and the product quality is improved. The publication number CN213232491U discloses a wire phosphating furnace, which is uniformly heated, high in heat transfer efficiency, small in heat storage capacity, good in heat insulation effect and remarkable in energy-saving effect by a method of arranging a heating element between a furnace liner and a furnace lining. However, the phosphating furnace has certain disadvantages when being used, in order to accelerate the working efficiency, the staff can place an excessive wire rod disc in the furnace pipe, the liquid level height of phosphating solution can continuously rise after the excessive disc is placed in the furnace pipe, and the risk of overflow exists.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a high energy-conserving type of wire rod bonderizing furnace that conducts heat can effectively solve the problem of mentioning in the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a high heat transfer energy-saving type wire rod bonderizing furnace, includes the stove outer covering, fixed mounting has the stove courage in the stove outer covering, install thermal-insulated cotton between stove courage and the stove outer covering, stove outer covering fixed surface installs the power supply terminal, stove outer covering one side fixed mounting has recovery mechanism, recovery mechanism includes recovery pipeline, pipeline interface, piston, business turn over opening and the storage tank body, storage tank body fixed mounting is in stove outer covering one side, storage tank body upper end edge has seted up the pipeline interface, connect the recovery pipeline in the pipeline interface, store the internal movable mounting of jar and have the piston, storage tank body bottom has seted up business turn over opening, storage tank body bottom is located business turn over opening department fixed mounting has actuating mechanism, actuating mechanism includes butt joint screw, butt joint base, installation screw, installation base and hydraulic cylinder, installation base fixed mounting is in storage tank body bottom, installation base edge has seted up the installation screw, installation base intermediate position fixed mounting has hydraulic cylinder, hydraulic cylinder's upper end fixed mounting has the butt joint base, butt joint base has seted up the butt joint screw in butt joint base edge.

Furthermore, the edge of the upper end of the furnace pipe is provided with a butt joint, and the recovery pipeline is communicated with the furnace pipe through the butt joint.

Furthermore, one end of the recovery pipeline is connected and communicated with the furnace pipe, the other end of the recovery pipeline is communicated with the storage tank body through a pipeline interface, and the output end of the hydraulic oil cylinder extends into the storage tank body through the access opening.

Further, screws are arranged in the butt joint screw hole and the mounting screw hole, the mounting base is fixed to the bottom of the storage tank body through the screws, and the butt joint base is fixed to the piston through the screws.

Further, the hydraulic oil cylinder is installed at the bottom of the storage tank body through an installation base, and the piston is installed at the upper end of the hydraulic oil cylinder through a butt joint base.

Further, the butt joint port on the furnace pipe and the pipeline joint port on the storage tank body are in the same horizontal position.

Compared with the prior art, the utility model discloses following beneficial effect has:

after placing excessive wire rod disc in the stove courage liquid level height of phosphating solution can continuously rise, can flow into the holding vessel body through the recovery pipeline after the liquid level height of phosphating solution continuously rises, prevent that the phosphating solution in the stove courage from spilling over, can start hydraulic cylinder after taking out the wire rod disc simultaneously, the piston can up-motion after starting hydraulic cylinder, phosphating solution in the holding vessel body will follow newly flowing in the stove courage after the piston up-motion, thereby reduce the waste of phosphating solution, thermal-insulated cotton in the stove courage outside can reduce thermal loss simultaneously, play the effect of economizing the efficiency.

Drawings

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

FIG. 2 is a schematic view of the recycling mechanism of the present invention;

fig. 3 is a schematic view of the driving mechanism of the present invention.

In the figure: 1. heat insulation cotton; 2. a power supply terminal; 3. a furnace pipe; 4. a furnace shell; 5. a recovery mechanism; 501. a recovery pipeline; 502. a pipe interface; 503. a piston; 504. entering and exiting the gap; 505. a storage tank body; 6. a drive mechanism; 601. butting screw holes; 602. butting a base; 603. mounting a screw hole; 604. installing a base; 605. a hydraulic cylinder.

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 to fig. 3, the high heat transfer energy-saving type wire material phosphating furnace comprises a furnace shell 4, a furnace container 3 is fixedly installed in the furnace shell 4, heat insulation cotton 1 is installed between the furnace container 3 and the furnace shell 4, a power supply terminal 2 is fixedly installed on the surface of the furnace shell 4, a recovery mechanism 5 is fixedly installed on one side of the furnace shell 4, a driving mechanism 6 is fixedly installed at the position, located at an inlet/outlet opening 504, of the bottom of a storage tank body 505, a butt joint on the furnace container 3 and a pipeline connector 502 on the storage tank body 505 are located at the same horizontal position, heat loss can be reduced through the heat insulation cotton 1 on the outer side of the furnace container 3, and an energy saving effect is achieved.

4 one side fixed mounting of stove outer covering has recovery mechanism 5, recovery mechanism 5 includes recovery tube 501, pipe connection 502, piston 503, business turn over opening 504 and the storage tank body 505, storage tank body 505 fixed mounting is in 4 one sides of stove outer covering, pipe connection 502 has been seted up to storage tank body 505 upper end edge, pipe connection 502 in-connection has recovery tube 501, movable mounting has piston 503 in the storage tank body 505, business turn over opening 504 has been seted up to storage tank body 505 bottom, the liquid level height of phosphorization liquid can continuously rise after arranging excessive wire rod disc in stove courage 3, the liquid level height of phosphorization liquid can flow into storage tank body 505 through recovery tube 501 after continuously rising, thereby prevent that the phosphorization liquid in the stove courage 3 from overflowing.

The bottom of the storage tank body 505 is fixedly provided with a driving mechanism 6 at the position of the access opening 504, the driving mechanism 6 comprises a butt joint screw hole 601, a butt joint base 602, a mounting screw hole 603, a mounting base 604 and a hydraulic oil cylinder 605, the mounting base 604 is fixedly arranged at the bottom of the storage tank body 505, the edge of the mounting base 604 is provided with the mounting screw hole 603, the middle position of the mounting base 604 is fixedly provided with the hydraulic oil cylinder 605, the upper end of the hydraulic oil cylinder 605 is fixedly provided with the butt joint base 602, the edge of the butt joint base 602 is provided with the butt joint screw hole 601, the hydraulic oil cylinder 605 can be started after a wire rod disc is taken out, a piston 503 can move upwards after the hydraulic oil cylinder 605 is started, and phosphorization liquid in the storage tank body 505 can flow into the furnace container 3 from the beginning after the piston 503 moves upwards, so that waste of the phosphorization liquid is reduced.

It should be noted that, the utility model relates to a high heat transfer energy-saving type wire rod phosphating furnace, when the in-service use, can arrange excessive wire rod disc in stove courage 3, because stove courage 3 upper end edge has seted up the butt joint mouth, recovery pipeline 501 communicates with stove courage 3 through the butt joint mouth, recovery pipeline 501 one end is connected and is communicated with stove courage 3, the recovery pipeline 501 other end communicates with storage tank body 505 through pipeline interface 502, then the liquid level of phosphating solution can continuously rise after arranging excessive wire rod disc in stove courage 3, can flow into storage tank body 505 through recovery pipeline 501 after the liquid level of phosphating solution continuously rises, thereby prevent that the phosphating solution in the stove courage 3 from overflowing, can start hydraulic cylinder 605 after taking out the wire rod disc, because all be equipped with screw thread 605 in butt joint screw hole 601 and the installation screw hole 603, installation base 604 passes through the screw thread to be fixed in storage tank body 505 bottom, butt joint base 602 passes through the installation base 604 and installs in storage tank body 505 bottom, piston 503 passes through the butt joint base 602 and installs in hydraulic cylinder 605 upper end, then the piston 503 can go up again after the motion, thereby the waste of phosphating solution can be gone up from storage tank body 3 in the waste.

Finally, it should be noted that: 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 described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A high heat transfer energy-saving type wire rod phosphorization furnace is characterized in that: the heat insulation structure comprises a furnace shell (4), a furnace container (3) is fixedly installed in the furnace shell (4), heat insulation cotton (1) is installed between the furnace container (3) and the furnace shell (4), a power supply terminal (2) is fixedly installed on the surface of the furnace shell (4), a recovery mechanism (5) is fixedly installed on one side of the furnace shell (4), the recovery mechanism (5) comprises a recovery pipeline (501), a pipeline interface (502), a piston (503), an in-and-out opening (504) and a storage tank body (505), the storage tank body (505) is fixedly installed on one side of the furnace shell (4), the pipeline interface (502) is arranged at the edge of the upper end of the storage tank body (505), the recovery pipeline (501) is connected in the pipeline interface (502), the piston (503) is movably installed in the storage tank body (505), the in-and-out opening (504) is arranged at the bottom of the storage tank body (505), a driving mechanism (6) is fixedly installed at the position, located at the in-out opening (504), of the bottom of the storage tank body (505), the driving mechanism (6) comprises a butt joint screw hole (601), a butt joint base (602), an installation screw hole (603), an installation base (604) and a hydraulic oil cylinder (604) and a storage tank body (604) is fixedly installed at the bottom of the storage tank body (604), the edge of the mounting base (604) is provided with a mounting screw hole (603), a hydraulic oil cylinder (605) is fixedly mounted in the middle of the mounting base (604), the upper end of the hydraulic oil cylinder (605) is fixedly provided with a butt joint base (602), and the edge of the butt joint base (602) is provided with a butt joint screw hole (601).

2. The high heat transfer energy-saving wire rod phosphorization furnace of claim 1, characterized in that: the edge of the upper end of the furnace pipe (3) is provided with a butt joint, and the recovery pipeline (501) is communicated with the furnace pipe (3) through the butt joint.

3. The high heat transfer energy-saving wire rod phosphating furnace as claimed in claim 2, characterized in that: one end of the recovery pipeline (501) is connected and communicated with the furnace pipe (3), the other end of the recovery pipeline (501) is communicated with the storage tank body (505) through a pipeline connector (502), and the output end of the hydraulic oil cylinder (605) extends into the storage tank body (505) through an inlet and outlet opening (504).

4. The high heat transfer energy-saving wire rod phosphorization furnace of claim 3, characterized in that: screws are arranged in the butt joint screw hole (601) and the mounting screw hole (603), the mounting base (604) is fixed to the bottom of the storage tank body (505) through the screws, and the butt joint base (602) is fixed to the piston (503) through the screws.

5. The high heat transfer energy-saving wire rod phosphorization furnace of claim 4, characterized in that: the hydraulic oil cylinder (605) is installed at the bottom of the storage tank body (505) through an installation base (604), and the piston (503) is installed at the upper end of the hydraulic oil cylinder (605) through a butt joint base (602).

6. The high heat transfer energy-saving wire rod phosphorization furnace of claim 5, characterized in that: the butt joint on the furnace pipe (3) and the pipeline joint (502) on the storage tank body (505) are in the same horizontal position.

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