CN110398153A

CN110398153A - A kind of energy-efficient melting furnace feeding assembly

Info

Publication number: CN110398153A
Application number: CN201910767677.0A
Authority: CN
Inventors: 徐洪良
Original assignee: Sichuan Zhongyou United Industrial Co Ltd
Current assignee: Sichuan Zhongyou United Industrial Co Ltd
Priority date: 2019-08-20
Filing date: 2019-08-20
Publication date: 2019-11-01
Anticipated expiration: 2039-08-20
Also published as: CN110398153B

Abstract

The present invention discloses a kind of energy-efficient melting furnace feeding assembly, it is connected to including feed hopper, with feed hopper and feed pipe that wherein one end is connected to the pot body of melting furnace and is set to the charging axle being made of on the inside of feed pipe and the inconsistent feed zone of outer diameter, the first guide section and the second guide section, one end of pot body of the feed pipe far from melting furnace is equipped with support tube, the charging axle is located at one end outer surface on the inside of feed pipe equipped with feed auger, and one end outer surface that the charging axle is located on the inside of support tube is socketed with several support guide components.Charging axle is divided into three sections by the present invention, several support guide components are matched with the first guide section and the second guide section respectively, the second oil sealing is set on the inside of the first spacer simultaneously, such set-up mode it is artificial charging axle and support guide component are divided into three parts, three parts are respectively independent and limit, guarantee that charging motor smoothly can drive charging axle to run, to guarantee the stability of charging.

Description

A kind of energy-efficient melting furnace feeding assembly

Technical field

The invention belongs to industrial chemicals manufacture fields, and in particular to a kind of energy-efficient melting furnace feeding assembly.

Background technique

Organic glass is widely applied in life.The raw material of production organic glass is usually organic glass oil.It obtains Taking the approach of organic glass oil usually has two kinds, and one is fusing petroleum, another kind is fusing waste and old organic glass.Using fusing The method that waste and old organic glass obtains organic glass oil can reduce the consumption of petroleum resources, realize the circulation of waste and old organic glass It utilizes, it has also become the important method of organic glass oil manufacture.

Recycling and the consumption that petroleum can be not only reduced using waste and old organic glass, but also waste and old organic glass may be implemented The reuse of glass meets national recovery and recycling of used resources policy.The main path that waste and old organic glass recycles is to adopt It allows waste and old organic glass to generate fusing with the method for heating, generates organic glass oil gas, generated using condensation and distillation organic Glass oil.

Melting unit is the key equipment during waste and old organic glass recycles.Currently, common melting furnace feeding assembly Charging axle rotation, then the feed auger by being set in charging axle is driven to push the product into pot body and carry out by driving assembly Fusing.But existing charging axle is generally socketed the support guides components such as bearing, oil sealing on the outside, to guarantee the steady of charging axle It is qualitative.But current support guide component is successively socketed, once one of parts damages, just influence whether entire charging axle work Make.Meanwhile existing charging axle is column, outer diameter is consistent, not formed level, and when being socketed with support guide component, support is led It is easy to happen displacement to component, to influence the stability of charging.

Summary of the invention

The technical problems to be solved by the invention are in view of the above shortcomings of the prior art, to provide a kind of energy-efficient molten Change furnace feeding assembly, by the optimization of the outer diameter to charging axle construction and the optimization to support and guiding parts installation, so that into Expect that the work of axis is more stable.

The technical scheme adopted by the invention is that: a kind of energy-efficient melting furnace feeding assembly, including feed hopper and charging The feed pipe and be set on the inside of feed pipe and inconsistent by outer diameter that bucket is connected to and wherein one end is connected to the pot body of melting furnace Feed zone, the first guide section and the second guide section composition charging axle, one end of pot body of the feed pipe far from melting furnace Equipped with support tube, the charging axle is located at one end outer surface on the inside of feed pipe equipped with feed auger, and the charging axle is located at branch One end outer surface on the inside of stay tube is socketed with several support guide components.

In one embodiment, the charging axle is driven by charging motor, and the charging motor output end passes sequentially through Feed speed reducer and charging shaft coupling and charging axis connection.

In one embodiment, the feed hopper is equipped with charging pneumatic operated valve.

In one embodiment, the charging axle includes the feed zone being set on the inside of feed pipe and is set to support tube The first guide section and the second guide section of inside, first guide section both ends are connect with feed zone and the second guide section respectively, The feed zone, the first guide section and the second guide section outer diameter are sequentially reduced.

In one embodiment, the feed auger is distributed along charging axle axis direction.

In one embodiment, the support guide component includes being set on the inside of support tube and from close to feed pipe one Hold the first spacer set gradually far from feed pipe one end, taper bearing, the second spacer, the first radial bearing, third spacer, Second radial bearing and the first oil sealing, are equipped with the second oil sealing on the inside of first spacer, first spacer, taper bearing, the Two spacers, the first radial bearing, the second radial bearing and the first oil sealing outer surface with support inside pipe wall contact, the third every Set support inside pipe wall between be equipped with gap, the taper bearing, the second spacer, the first radial bearing, third spacer, second to Mandrel, which is held, to be matched with the internal diameter of the first oil sealing with the second guide section outer diameter of charging axle, the internal diameter and charging axle of second oil sealing The first guide section outer diameter matching.

In one embodiment, the support tube is equipped with close to one end outer surface of feed pipe and is socketed on its outer surface Terminal pad, the support tube are connect by terminal pad with feed pipe.

In one embodiment, the support tube both ends are respectively equipped with the first graphite packing and the second graphite packing.

In one embodiment, the first graphite packing includes that middle part is provided with and leads with the first guide section matched first To hole the first graphite disk body and be set to that the several and support tube of the close support tube one end of the first graphite disk body connect first Joining of graphite protrusion.

In one embodiment, the second graphite packing includes that middle part is provided with and leads with the second guide section matched second To hole the second graphite disk body and be set to that the several and support tube of the close support tube one end of the second graphite disk body connect second Joining of graphite protrusion.

The beneficial effects of the present invention are: charging axle is divided into feed zone, the first guide section and the second guide section and outer diameter Different, several support guide components are matched with the first guide section and the second guide section respectively, while the second oil sealing is set to the On the inside of one spacer, charging axle and support guide component are divided into three parts by such set-up mode, and three parts are respectively independent And limit, guarantee that charging motor smoothly can drive charging axle to run, to guarantee the stability of charging.

Detailed description of the invention

Fig. 1 is schematic structural view of the invention；

Fig. 2 is charging axle structural schematic diagram of the present invention；

Fig. 3 is support tube of the present invention and support guide modular construction schematic diagram；

Fig. 4 is the first graphite plate root structural schematic diagram of the invention；

Fig. 5 is the second graphite plate root structural schematic diagram of the invention.

In figure: 1, feed hopper；2, feed pipe；3, charging axle；4, support tube；5, feed auger；6, charging motor；7, it feeds Speed reducer；8, shaft coupling is fed；9, pneumatic operated valve is fed；10, the first spacer；11, taper bearing；12, the second spacer；13, first Radial bearing；14, third spacer；15, the second radial bearing；16, the first oil sealing；17, the second oil sealing；18, terminal pad；19, One graphite packing；20, the second graphite packing；31, feed zone；32, the first guide section；33, the second guide section；191, the first guiding Hole；192, the first graphite disk body；193, the first joining of graphite protrusion；201, the second pilot hole；202, the second graphite disk body；203, Second joining of graphite protrusion.

Specific embodiment

Invention is further described in detail below in conjunction with the accompanying drawings and the specific embodiments.

As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4 and Fig. 5, a kind of energy-efficient melting furnace feeding assembly, including feed hopper 1, with The feed pipe 2 and be set on the inside of feed pipe 2 and equal by outer diameter that feed hopper 1 is connected to and wherein one end is connected to the pot body of melting furnace The charging axle 3 of inconsistent feed zone 31, the first guide section 32 and the second guide section 33 composition, the feed pipe 2 is far from fusing One end of the pot body of furnace is equipped with support tube 4, and one end outer surface that the charging axle 3 is located at 2 inside of feed pipe is equipped with feed auger 5, one end outer surface that the charging axle 3 is located at 4 inside of support tube is socketed with several support guide components.

In the present embodiment, the charging axle 3 is driven by charging motor 6, and 6 output end of charging motor passes sequentially through charging Speed reducer 7 and charging shaft coupling 8 are connect with charging axle 3.

In the present embodiment, the feed hopper 1 is equipped with charging pneumatic operated valve 9.

In the present embodiment, the charging axle 3 includes being set to the feed zone 31 of 2 inside of feed pipe and being set to support tube 4 The first guide section 32 and the second guide section 33 of inside, 32 both ends of the first guide section are oriented to feed zone 31 and second respectively Section 33 connects, and the feed zone 31, the first guide section 32 and 33 outer diameter of the second guide section are sequentially reduced.

In the present embodiment, the feed auger 5 is distributed along 3 axis direction of charging axle.In one embodiment, the branch Support guiding parts includes being set to 4 inside of support tube and setting gradually from close to 2 one end of feed pipe to far from 2 one end of feed pipe First spacer 10, taper bearing 11, the second spacer 12, the first radial bearing 13, third spacer 14, the second radial bearing 15 and One oil sealing 16 is equipped with the second oil sealing 17, first spacer 10, taper bearing 11, the second spacer on the inside of first spacer 10 12, the first radial bearing 13, the second radial bearing 15 and 16 outer surface of the first oil sealing are contacted with 4 inner wall of support tube, and described Gap is equipped between 4 inner wall of three spacers 14 and support tube.

In the present embodiment, the taper bearing 11, the second spacer 12, the first radial bearing 13, third spacer 14, second to Mandrel hold 15 and first the internal diameter of oil sealing 16 matched with 33 outer diameter of the second guide section of charging axle 3, second oil sealing 17 it is interior Diameter is matched with the outer diameter of the first guide section 32 of charging axle 3.

This, the support tube 4 is equipped with the terminal pad 18 for being socketed on its outer surface, institute close to one end outer surface of feed pipe 2 Support tube 4 is stated to connect by terminal pad 18 with feed pipe 2.

In the present embodiment, 4 both ends of support tube are respectively equipped with the first graphite packing 19 and the second graphite packing 20.

In the present embodiment, the first graphite packing 19 includes that middle part is provided with and matched first guiding of the first guide section 32 The first graphite disk body 192 in hole 191 and be set to the first graphite disk body 192 close to 4 one end of support tube several and support tube 4 connect The the first joining of graphite protrusion 193 connect.

In the present embodiment, the second graphite packing 20 includes that middle part is provided with and matched second guiding of the second guide section 33 The second graphite disk body 202 in hole 201 and be set to the second graphite disk body 202 close to 4 one end of support tube several and support tube 4 connect The the second joining of graphite protrusion 203 connect.

Charging axle 3 is divided into feed zone 31, the first guide section 32 and the second guide section 33 to the present invention and outer diameter is different, number A support guide component is matched with the first guide section 32 and the second guide section 33 respectively, at the same the second oil sealing 17 be set to first every Charging axle 3 and support guide component are divided into three parts by 10 inside of set, such set-up mode, three parts respectively it is independent with Limit guarantees that charging motor 6 can smoothly drive charging axle 3 to run, to guarantee the stability of charging.

A specific embodiment of the invention above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously Limitations on the scope of the patent of the present invention therefore cannot be interpreted as.It should be pointed out that for those of ordinary skill in the art For, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to guarantor of the invention Protect range.

Claims

1. a kind of energy-efficient melting furnace feeding assembly, it is characterised in that: be connected to including feed hopper, with feed hopper and wherein one end It the feed pipe that is connected to the pot body of melting furnace and is set on the inside of feed pipe and by the inconsistent feed zone of outer diameter, the first guiding The charging axle of section and the second guide section composition, one end of pot body of the feed pipe far from melting furnace are equipped with support tube, it is described into Expect that one end outer surface of the axle position on the inside of feed pipe is equipped with feed auger, the charging axle is located at one end appearance on the inside of support tube Surface cover is connected to several support guide components.

2. a kind of energy-efficient melting furnace feeding assembly according to claim 1, it is characterised in that: the charging axle by into Expect motor driven, the charging motor output end passes sequentially through charging speed reducer and charging shaft coupling and charging axis connection.

3. a kind of energy-efficient melting furnace feeding assembly according to claim 1, it is characterised in that: set on the feed hopper There is charging pneumatic operated valve.

4. a kind of energy-efficient melting furnace feeding assembly according to claim 1, it is characterised in that: the charging axle includes The feed zone being set on the inside of feed pipe and the first guide section and the second guide section that are set on the inside of support tube, described first leads Connect respectively with feed zone and the second guide section to section both ends, the feed zone, the first guide section and the second guide section outer diameter according to Secondary reduction.

5. a kind of energy-efficient melting furnace feeding assembly according to claim 1, it is characterised in that: the feed auger edge The distribution of charging axle axis direction.

6. a kind of energy-efficient melting furnace feeding assembly according to claim 1, it is characterised in that: the support guide portion Part includes being set on the inside of support tube and from close to feed pipe one end to the first spacer, the cone set gradually far from feed pipe one end Spend bearing, the second spacer, the first radial bearing, third spacer, the second radial bearing and the first oil sealing, the first spacer inside Equipped with the second oil sealing, first spacer, taper bearing, the second spacer, the first radial bearing, the second radial bearing and the first oil Envelope outer surface with support inside pipe wall contact, the third spacer and support inside pipe wall between be equipped with gap, the taper bearing, Second guiding of the second spacer, the first radial bearing, third spacer, the internal diameter of the second radial bearing and the first oil sealing and charging axle Section outer diameter matching, the outer diameter of the first guide section of the internal diameter and charging axle of second oil sealing match.

7. a kind of energy-efficient melting furnace feeding assembly according to claim 1, it is characterised in that: the support tube is close One end outer surface of feed pipe is equipped with the terminal pad for being socketed on its outer surface, and the support tube is connected by terminal pad and feed pipe It connects.

8. a kind of energy-efficient melting furnace feeding assembly according to claim 7, it is characterised in that: the support tube both ends It is respectively equipped with the first graphite packing and the second graphite packing.

9. a kind of energy-efficient melting furnace feeding assembly according to claim 8, it is characterised in that: first graphite plate Root includes that middle part is provided with and the first graphite disk body of matched first pilot hole of the first guide section and is set to the first graphite disk body The first joining of graphite protrusion that several and support tube close to support tube one end is connect.

10. a kind of energy-efficient melting furnace feeding assembly according to claim 8, it is characterised in that: second graphite Packing includes that middle part is provided with and the second graphite disk body of matched second pilot hole of the second guide section and is set to the second graphite plate The second joining of graphite protrusion that several and support tube of the body close to support tube one end is connect.