CN212051526U - Improved structure of side door type mesh belt normalizing furnace - Google Patents

Abstract

The utility model belongs to guipure normalizing furnace field, especially, an improved structure of side door formula guipure normalizing furnace, to current side door formula guipure normalizing furnace heat loss is very fast when the material loading, and the temperature can not be invariable, has increased the problem of the heat loss of work piece, now proposes following scheme, and it includes the furnace body, the both sides of furnace body are the opening, and equal fixed mounting has heating element on the top inner wall of furnace body and the bottom inner wall, and the equal fixed mounting in both sides of furnace body has a fixed plate, and the through-hole has all been seted up to one side of two fixed plates, all rotates in two through-holes and installs the connecting rod, and the equal fixed mounting live-rollers of one end of two connecting rods, meshing have same conveying mesh belt on two live-rollers, the connecting hole has been seted up. The utility model discloses rational in infrastructure, convenient operation, this side door formula guipure normalizing furnace heat loss is less when the material loading, and the temperature can be invariable, has reduced the heat loss of work piece.

Description

Improved structure of side door type mesh belt normalizing furnace

Technical Field

The utility model relates to a guipure normalizing furnace technical field especially relates to a side door formula guipure normalizing furnace's improvement structure.

Background

The normalizing furnace is a long-strip-shaped industrial furnace, a fuel sub-high-speed burner is originally adopted in a continuous normalizing furnace for an axle of a forging and smelting workshop of a vehicle factory, the continuous normalizing furnace is mainly used for heating and forging the axle of a train and then carrying out heat treatment, and is one of main equipment of the forging and smelting workshop of the vehicle factory;

however, the heat loss of the existing side-door mesh belt normalizing furnace is fast during feeding, the temperature cannot be constant, and the heat consumption of workpieces is increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that the heat loss is fast when the side door type mesh belt normalizing furnace is used for feeding materials, the temperature can not be constant, the heat consumption of a workpiece is increased, and the improved structure of the side door type mesh belt normalizing furnace is provided.

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

an improved structure of a side-door mesh-belt normalizing furnace comprises a furnace body, wherein both sides of the furnace body are provided with openings, heating elements are fixedly arranged on the inner wall of the top and the inner wall of the bottom of the furnace body, fixed plates are fixedly arranged on both sides of the furnace body, through holes are formed in one side of each of the two fixed plates, connecting rods are rotatably arranged in the two through holes, rotating rollers are fixedly arranged at one ends of the two connecting rods, the same conveying mesh belt is meshed on the two rotating rollers, a connecting hole is formed in the furnace body, the conveying mesh belt is connected in the connecting hole, a fan is fixedly arranged at the top of the furnace body, a blowing pipe is fixedly connected to the air outlet of the fan, one end of the blowing pipe is fixedly connected in the furnace body, a connecting plate is fixedly arranged at one side of the furnace body, a, the four baffle plates are positioned at one side of the opening of the furnace body.

Preferably, a first bevel gear is fixedly mounted on one side of the rotating disc, a second bevel gear is fixedly mounted at one end of one of the two connecting rods, and fixing blocks are fixedly mounted on one sides of the fixing plate and the mounting plate.

Preferably, two fixed blocks rotate and install same dwang, and the equal fixed mounting in both ends of dwang has third bevel gear, and two third bevel gears mesh with first bevel gear and second bevel gear respectively, and the third bevel gear drives first bevel gear and rotates, and first bevel gear drives the rolling disc and rotates.

Preferably, a worm wheel is fixedly mounted at one end of the other connecting rod of the two connecting rods, a motor is fixedly mounted at one side of the fixing plate, a worm is fixedly connected to an output shaft of the motor and meshed with the worm wheel, the worm drives the worm wheel to rotate, the worm wheel drives the connecting rod to rotate, and the connecting rod drives the rotating roller to rotate.

Preferably, two fixing bases are fixedly mounted on the inner wall of the top of the connecting hole, auxiliary rollers are rotatably mounted at the bottoms of the two fixing bases, the two auxiliary rollers are in contact with the conveying net belt, and the auxiliary rollers roll when the conveying net belt moves to assist the conveying net belt to move.

Compared with the prior art, the beneficial effects of the utility model reside in that:

(1) according to the scheme, the worm is driven to rotate by the motor, the worm wheel drives the connecting rod to rotate, the connecting rod drives the rotating roller to rotate, the conveying mesh belt can drive the conveying position of the machined part, the machined part is conveyed to the feeding hole of the furnace body, the other connecting rod drives the second bevel gear to rotate, the third bevel gear drives the rotating rod to rotate, and the rotating rod drives the other third bevel gear to rotate;

(2) according to the scheme, the third bevel gear drives the first bevel gear to rotate, the rotating disc drives the plurality of blocking pieces to rotate, the blocking pieces and the rotating roller synchronously and reversely rotate during transportation of the workpiece, the blocking pieces can block the feeding port of the furnace body, the workpiece is inserted among the four blocking pieces to be transported, and the fan drives the blowing pipe to blow air to the feeding port of the furnace body, so that heat in the furnace body can be prevented from flowing out;

the utility model discloses rational in infrastructure, convenient operation, this side door formula guipure normalizing furnace heat loss is less when the material loading, and the temperature can be invariable, has reduced the heat loss of work piece.

Drawings

Fig. 1 is a schematic view of a front view structure provided by the present invention;

fig. 2 is a schematic structural view of part a of the present invention;

fig. 3 is a schematic structural diagram of part B of the present invention.

In the figure: 1. a furnace body; 2. a heating element; 3. a fixing plate; 4. a rotating roller; 5. a conveying mesh belt; 6. connecting holes; 7. an auxiliary roller; 8. a fan; 9. a blowpipe; 10. mounting a plate; 11. rotating the disc; 12. a baffle plate; 13. a first bevel gear; 14. a second bevel gear; 15. rotating the rod; 16. a third bevel gear; 17. a worm gear; 18. a motor; 19. a worm.

Detailed Description

The technical solutions 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 the present invention, not all embodiments.

Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The use of "first," "second," and similar terms in the description and in the claims does not indicate any order, quantity, or importance, but rather is used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one.

Referring to fig. 1-3, an improved structure of a side-door mesh belt normalizing furnace comprises a furnace body 1, wherein both sides of the furnace body 1 are open, heating elements 2 are fixedly arranged on the inner wall of the top and the inner wall of the bottom of the furnace body 1, fixed plates 3 are fixedly arranged on both sides of the furnace body 1, through holes are formed in one side of each of the two fixed plates 3, connecting rods are rotatably arranged in the two through holes, rotating rollers 4 are fixedly arranged at one ends of the two connecting rods, the same conveying mesh belt 5 is meshed on the two rotating rollers 4, a connecting hole 6 is formed in the furnace body 1, the conveying mesh belt 5 is connected in the connecting hole 6, a fan 8 is fixedly arranged on the top of the furnace body 1, a blowing pipe 9 is fixedly connected on the air outlet of the fan 8, one end of the blowing pipe 9 is fixedly connected in the furnace body 1, a rotating disc 11 is rotatably mounted on one side of the mounting plate 10, four blocking pieces 12 are fixedly connected to the rotating disc 11, and the four blocking pieces 12 are located on one side of the opening of the furnace body 1.

In this embodiment, a first bevel gear 13 is fixedly mounted on one side of the rotating disc 11, a second bevel gear 14 is fixedly mounted on one end of one of the two connecting rods, and fixing blocks are fixedly mounted on one sides of the fixing plate 3 and the mounting plate 10.

In this embodiment, the same rotating rod 15 is rotatably installed on the two fixing blocks, third bevel gears 16 are fixedly installed at two ends of the rotating rod 15, the two third bevel gears 16 are respectively engaged with the first bevel gear 13 and the second bevel gear 14, the third bevel gear 16 drives the first bevel gear 13 to rotate, and the first bevel gear 13 drives the rotating disc 11 to rotate.

In this embodiment, one end of the other of the two connecting rods is fixedly provided with a worm wheel 17, one side of the fixing plate 3 is fixedly provided with a motor 18, an output shaft of the motor 18 is fixedly connected with a worm 19, the worm 19 is meshed with the worm wheel 17, the worm 19 drives the worm wheel 17 to rotate, the worm wheel 17 drives the connecting rod to rotate, and the connecting rod drives the rotating roller 4 to rotate.

In this embodiment, two fixing bases are fixedly mounted on the inner wall of the top of the connecting hole 6, the bottom of each fixing base is rotatably mounted with an auxiliary roller 7, the two auxiliary rollers 7 are both in contact with the conveying mesh belt 5, and the auxiliary rollers 7 roll when the conveying mesh belt 5 moves, so as to assist the movement of the conveying mesh belt 5.

In this embodiment, the staff checks each component to ensure that the component can be used after no error, the electrical components appearing in the document are electrically connected with an external master controller and 220V commercial power, and the master controller can be a conventional known device for controlling a computer, etc., a motor 18 drives a worm 19 to rotate, the worm 19 drives a worm wheel 17 to rotate, the worm wheel 17 drives a connecting rod to rotate, the connecting rod drives a rotating roller 4 to rotate, the rotating roller 4 drives a conveying mesh belt 5 to move, the conveying mesh belt 5 can drive a conveying position of a workpiece, the workpiece is conveyed to a feeding port of a furnace body 1, meanwhile, another connecting rod drives a second bevel gear 14 to rotate, the second bevel gear 14 drives a third bevel gear 16 to rotate, the third bevel gear 16 drives a rotating rod 15 to rotate, the rotating rod 15 drives another third bevel gear 16 to rotate, the third bevel gear 16 drives a first bevel, first bevel gear 13 drives rolling disc 11 and rotates, and rolling disc 11 drives a plurality of separation blades 12 and rotates, and the machined part is in the transportation separation blade 12 with the synchronous antiport of live-rollers 4, and separation blade 12 can block the pan feeding mouth of furnace body 1, and does not influence normal transportation machined part, and the machined part alternates transports between four separation blades 12, and fan 8 drives blowing pipe 9 and bloies the pan feeding mouth of furnace body 1, can prevent that the heat in the furnace body 1 from flowing out, the utility model discloses rational in infrastructure, convenient operation, this side door formula guipure normalizing furnace heat loss is less when the material loading, and the temperature can be invariable, has reduced the heat consumption of work piece.

The utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the description with the record of drawing of description, and the concrete connection mode of each part all adopts conventional means such as ripe bolt, rivet, welding among the prior art, and machinery, part and equipment all adopt prior art, and conventional model, including circuit connection adopts conventional connection mode among the prior art, does not detailed here again.

Claims (5)

1. An improved structure of a side-door mesh-belt normalizing furnace comprises a furnace body (1) and is characterized in that both sides of the furnace body (1) are provided with openings, heating elements (2) are fixedly arranged on the inner walls of the top and the bottom of the furnace body (1), fixed plates (3) are fixedly arranged on both sides of the furnace body (1), through holes are formed in one sides of the two fixed plates (3), connecting rods are rotatably arranged in the two through holes, rotating rollers (4) are fixedly arranged at one ends of the two connecting rods, the same conveying mesh belt (5) is meshed on the two rotating rollers (4), a connecting hole (6) is formed in the furnace body (1), the conveying mesh belt (5) is connected in the connecting hole (6), a fan (8) is fixedly arranged at the top of the furnace body (1), a blowing pipe (9) is fixedly connected on the air outlet of the fan (8), and one end of the blowing pipe (9) is fixedly, one side fixed mounting of furnace body (1) has the connecting plate, and the bottom fixed mounting of connecting plate has mounting panel (10), and one side of mounting panel (10) is rotated and is installed rolling disc (11), and four separation blades (12) of fixedly connected with are gone up in rolling disc (11), and four separation blades (12) are located furnace body (1) open-ended one side.

2. The improved structure of the side door type mesh belt normalizing furnace as claimed in claim 1, wherein a first bevel gear (13) is fixedly installed at one side of the rotating disc (11), a second bevel gear (14) is fixedly installed at one end of one of the two connecting rods, and fixed blocks are fixedly installed at one sides of the fixed plate (3) and the mounting plate (10).

3. The improved structure of the side door type mesh belt normalizing furnace as claimed in claim 2, wherein the two fixed blocks are rotatably provided with the same rotating rod (15), both ends of the rotating rod (15) are fixedly provided with third bevel gears (16), and the two third bevel gears (16) are respectively engaged with the first bevel gear (13) and the second bevel gear (14).

4. The improved structure of the side door type mesh belt normalizing furnace as claimed in claim 1, wherein one end of the other connecting rod of the two connecting rods is fixedly provided with a worm wheel (17), one side of the fixed plate (3) is fixedly provided with a motor (18), an output shaft of the motor (18) is fixedly connected with a worm (19), and the worm (19) is meshed with the worm wheel (17).

5. The improved structure of the side door type mesh belt normalizing furnace as claimed in claim 1, wherein two fixed seats are fixedly arranged on the inner wall of the top of the connecting hole (6), auxiliary rollers (7) are rotatably arranged at the bottoms of the two fixed seats, and the two auxiliary rollers (7) are contacted with the conveying mesh belt (5).

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