CN204198791U

CN204198791U - Tempering stove

Info

Publication number: CN204198791U
Application number: CN201420679129.5U
Authority: CN
Inventors: 曹伯龙
Original assignee: Ningbo Yong Fu Machinery Co Ltd
Current assignee: Ningbo Yong Fu Machinery Co Ltd
Priority date: 2014-11-14
Filing date: 2014-11-14
Publication date: 2015-03-11
Anticipated expiration: 2024-11-14

Abstract

The utility model discloses a kind of tempering stove, comprise body of heater, described body of heater hollow is provided with heating chamber, described body of heater outer side wall is provided with viewing window, described heating chamber is provided with the expansion chamber of relative heating chamber sealing, the gas that the coefficient of expansion is greater than air is filled with in described expansion chamber, described expansion chamber offers the through hole with heating chamber conducting, in described through hole, slippage is connected with expansion link, the diapire of described heating chamber has been rotatably connected revolving part, described expansion link away from one end of through hole and revolving part hinged, the utility model structure is simple, energy-conserving and environment-protective, the situation of the different positions of product can be observed from a direction.

Description

Tempering stove

Technical field

The utility model relates to a kind of equipment for Heating Processing, and more particularly, it relates to a kind of tempering stove.

Background technology

That the heating doing workpiece, material, product commonly used by the tempering stove that market uses at present, tempering stove comprises body of heater, body of heater is that hollow is provided with heating chamber, workpiece, material, product are placed in heating chamber and heat, the sidewall of body of heater is provided with viewing window, viewing window is provided with the glass of transparency and heat-proof, operator can be observed by the article of viewing window to heating, but a viewing window is difficult to the overall observation of the carrying out of product or the another side observing product, be difficult to the situation understanding product each position in heat-processed, there is the space of improvement.

Utility model content

For the deficiency that prior art exists, the purpose of this utility model is to provide a kind of tempering stove just can observed Total Product by a viewing window.

For achieving the above object, the utility model provides following technical scheme: a kind of tempering stove, comprise body of heater, described body of heater hollow is provided with heating chamber, described body of heater outer side wall is provided with viewing window, described heating chamber is provided with the expansion chamber of relative heating chamber sealing, the gas that the coefficient of expansion is greater than air is filled with in described expansion chamber, described expansion chamber offers the through hole with heating chamber conducting, in described through hole, slippage is connected with expansion link, the diapire of described heating chamber has been rotatably connected revolving part, described expansion link away from one end of through hole and revolving part hinged.

By adopting technique scheme, when tempering stove work, when starting in heating chamber to heat, because in expansion chamber, the coefficient of expansion is greater than air, in heat-processed, gas expansion speed in expansion chamber is faster than the speed of expansion of heating chamber, thus the pressure in the first chamber is greater than the pressure of the second chamber, gas push expansion link in expansion chamber is to expansion outdoor sport, expansion link promotes revolving part and rotates, even if viewer is when observing product heating state by viewing window, the angle that product is different can be observed, in revolving part rotation process, effectively make use of the heat energy produced in heat-processed in heating chamber, be the kinetic energy promoting product rotation by thermal energy, increase the utilising efficiency of the energy, do not produce the extra energy to drop into, decrease carbon emission, protect environment.

The utility model is set to further: described expansion link comprises slippage bar and motion bar, described slippage bar and motion bar hinged, described revolving part is provided with for the hinged articulated section of motion bar.

By adopting technique scheme, when expansion link is because of the gas expansion in expansion chamber, when expansion link moves in heating chamber, expansion link promotes revolving part and rotates, when revolving part turns over certain angle, the different angles that motion bar can turn over according to revolving part, rational bending is made in the position at place, coordination hinge portion, rotates so that expansion link promotes revolving part.

The utility model is set to further: the diapire of described heating chamber is fixed with turning axle, and described revolving part is rotatably connected with turning axle.

By adopting technique scheme, reducing the friction between revolving part and diapire, making the more convenient rotation of revolving part, increase revolving part to the sensitivity of expansion indoor temperature change generated in case, revolving part is more easily promoted by expansion link.

The utility model is set to further: described revolving part is provided with for the hinged articulated section of motion bar, and described hinge point is in the lower surface of revolving part.

By adopting technique scheme, the lower surface of rotating part is located in articulated section, in motion bar bending process, avoids motion bar to touch product and causes blocking revolving part, and avoid motion bar to be pushed away from revolving part by product in Forging Process.

The utility model is set to further: one end that described slippage bar is positioned at expansion chamber is provided with pushing part.

By adopting technique scheme, tempering stove is in heat-processed, speed the gathering way faster than the second chamber of the supercharging of the first chamber, a pushing part is set up in the one end being positioned at expansion chamber at slippage bar, the thrust making expansion link more easily be subject to gas expansion to produce, thus expansion link more easily extends, and increases expansion link to the sensitivity of gas expansion, viewer increases the elongation of expansion link in the process of heating, so that can observe more angle when product heats in tempering stove.

The utility model is set to further: the upper surface of described revolving part is arranged with the groove that several place product.

By adopting technique scheme, by the bottom card of product is established in groove, thus can be stable product is placed on revolving part, avoid revolving part product in rotary course and produce the phenomenon of slippage or landing at revolving part end face.

Compared with prior art; the utility model structure is simple; energy-conserving and environment-protective, can observe the situation of the different positions of product, in revolving part rotation process from a direction; effectively make use of the heat energy produced in heat-processed in heating chamber; be the kinetic energy promoting product rotation by thermal energy, increase the utilising efficiency of the energy, do not produce the extra energy and drop into; decrease carbon emission, protect environment.

Accompanying drawing explanation

Fig. 1 is the perspective view 1 of the utility model tempering stove;

Fig. 2 is the perspective view 2 of tempering stove;

Fig. 3 is the structural representation of expansion link.

Accompanying drawing illustrates: 1, body of heater; 2, heating chamber; 3, viewing window; 4, revolving part; 41, articulated section; 42, turning axle; 5, expansion link; 51, slippage bar; 52, motion bar; 53, pushing part; 6, expansion chamber.

Embodiment

Referring to figs. 1 through Fig. 3, the utility model tempering stove embodiment is described further.

As shown in Figure 1, a kind of tempering stove, comprise body of heater 1, described body of heater 1 hollow is provided with heating chamber 2, described body of heater 1 outer side wall is provided with the viewing window 3 be connected with heating chamber 2, described viewing window 3 is provided with pyroceram, described heating chamber 2 is provided with the expansion chamber 6 of relative heating chamber 2 sealing, the gas that the coefficient of expansion is greater than air is filled with in described expansion chamber 6, the carbonic acid gas preferably not easily at high temperature reacted, the coefficient of expansion of air is 1.8762E-02, the coefficient of expansion of carbonic acid gas is 2.0663E-02, described expansion chamber 6 offers the through hole with heating chamber 2 conducting, in described through hole, slippage is connected with expansion link 5, be provided with refractory seals part in described through hole to seal the gap between expansion link 5 and through hole, as adopted Graphite pad, fire resistant resin glue etc., the diapire of described heating chamber 2 has been rotatably connected revolving part 4, described revolving part 4 is in collar plate shape, more product can be put, described expansion link 5 away from one end of through hole and revolving part 4 hinged, when tempering stove work, when starting to heat in heating chamber 2, because the carbon dioxide expanded coefficient in expansion chamber 6 is greater than air, in heat-processed, carbon dioxide expanded speed in expansion chamber 6 is faster than the speed of expansion of air in heating chamber 2, thus the gas push expansion link 5 in expansion chamber 6 moves outside expansion chamber 6, expansion link 5 promotes revolving part 4 and rotates, even if viewer is when observing product heating state by viewing window 3, the angle that product is different can be observed, in revolving part 4 rotation process, effectively make use of the heat energy produced in heat-processed in heating chamber 2, be the kinetic energy promoting product rotation by thermal energy, increase the utilising efficiency of the energy, do not produce the extra energy to drop into, decrease carbon emission, protect environment, described expansion link 5 comprises slippage bar 51 and motion bar 52, described slippage bar 51 and motion bar 52 hinged, described revolving part 4 is provided with for the hinged articulated section 41 of motion bar 52, when expansion link 5 is because of the gas expansion in expansion chamber 6, when expansion link 5 moves in heating chamber 2, expansion link 5 promotes revolving part 4 and rotates, when revolving part 4 turns over certain angle, the different angles that motion bar 52 can turn over according to revolving part 4, rational bending is made in the position at place, coordination hinge portion 41, rotate so that expansion link 5 promotes revolving part 4, the upper surface of described revolving part 4 is arranged with the groove that several place product, by the bottom card of product is established in groove, thus can be stable product is placed on revolving part 4, avoid revolving part 4 product in rotary course and produce the phenomenon of slippage or landing at revolving part 4 end face.

As shown in Figure 2, turning axle 42 has been abutted between described revolving part 4 and the diapire of well heater, described articulated section 41 is positioned at the below of revolving part 4, when avoiding revolving part 4 to rotate, diapire that is direct and heating chamber 2 rubs, make the more convenient rotation of revolving part 4, articulated section 41 is located at below rotating part, in motion bar 52 bending process, avoid motion bar 52 to touch product to cause blocking revolving part 4, and avoid motion bar 52 to be pushed away from revolving part 4 by product in Forging Process.

As shown in Figure 3, one end that described slippage bar 51 is positioned at expansion chamber 6 is provided with pushing part 53, tempering stove is in heat-processed, speed the gathering way faster than the second chamber of the supercharging of the first chamber, a pushing part 53 is set up in the one end being positioned at expansion chamber 6 at slippage bar 51, the thrust making expansion link 5 more easily be subject to gas expansion to produce, thus expansion link 5 more easily extends, increase the sensitivity of expansion link 5 pairs of gas expansion, viewer increases the elongation of expansion link 5 in the process of heating, so that can observe more angle when product heats in tempering stove.

The above is only preferred implementation of the present utility model, protection domain of the present utility model be not only confined to above-described embodiment, and all technical schemes belonged under the utility model thinking all belong to protection domain of the present utility model.It should be pointed out that for those skilled in the art, do not departing from the some improvements and modifications under the utility model principle prerequisite, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims

1. a tempering stove, comprises body of heater, and described body of heater hollow is provided with heating chamber, and described body of heater outer side wall is provided with viewing window, it is characterized in that:

Described heating chamber is provided with the expansion chamber of relative heating chamber sealing, is filled with the gas that the coefficient of expansion is greater than air in described expansion chamber;

Described expansion chamber offers the through hole with heating chamber conducting, and in described through hole, slippage is connected with expansion link, and the diapire of described heating chamber has been rotatably connected revolving part, described expansion link away from one end of through hole and revolving part hinged.

2. tempering stove according to claim 1, is characterized in that: described expansion link comprises slippage bar and motion bar, described slippage bar and motion bar hinged.

3. tempering stove according to claim 1, is characterized in that: the diapire of described heating chamber is fixed with turning axle, and described revolving part is rotatably connected with turning axle.

4. the tempering stove according to claim 1 or 3, is characterized in that: described revolving part is provided with for the hinged articulated section of motion bar, and described hinge point is in the lower surface of revolving part.

5. tempering stove according to claim 4, is characterized in that: the upper surface of described revolving part is arranged with the groove that several place product.

6. tempering stove according to claim 1, is characterized in that: one end that described slippage bar is positioned at expansion chamber is provided with pushing part.