CN214039563U - Rotatable type semi-shielding thermal shock sintering resistance furnace - Google Patents

Abstract

The utility model discloses a rotatable formula partly shelters from thermal shock sintering resistance furnace relates to resistance furnace technical field, for solving current patent number 201420540521.1 case outside motor and connecting rod and carry out power transmission's mechanism on, transmits through the belt, and this mode belt directly exposes outside, has the problem of safe not enough with the kinetic energy loss. All be provided with the column foot around the terminal surface under the thermal shock sintering resistance furnace main part, and the column foot is provided with four, the lower terminal surface of thermal shock sintering resistance furnace main part is provided with the unloading box, and unloading box and thermal shock sintering resistance furnace main part fixed connection, the unloading box is provided with the cavity in the second, the preceding terminal surface of cavity in the second is provided with the front cover baffle, the preceding terminal surface of front cover baffle is provided with grips the piece, the up end of thermal shock sintering resistance furnace main part is provided with operating device, and operating device and thermal shock sintering resistance furnace main part fixed connection.

Description

Rotatable type semi-shielding thermal shock sintering resistance furnace

Technical Field

The utility model relates to a resistance furnace technical field specifically is a rotatable formula partly shelters from thermal shock sintering resistance furnace.

Background

The resistance furnace is an industrial furnace which heats a workpiece or a material by heating an electric heating element or a heating medium in the furnace by using current. The electric resistance furnace is used for heating before metal forging, heating by metal heat treatment, brazing, sintering in powder metallurgy, roasting and annealing of glass ceramics, melting of low-melting-point metal, drying of sand molds and paint film layers and the like in the mechanical industry. The electric resistance furnace is an electric furnace using joule heat generated by passing an electric current through a conductor as a heat source. The resistance furnace uses electricity as a heat source, converts electric energy into heat energy through an electric heating element, and heats metal in the furnace. The electric resistance furnace has high thermal efficiency which can reach 50-80% and has easy control of thermal regulation, good working condition and long service life of the furnace body, is suitable for heating workpieces with strict requirements, but has high power consumption and cost. Resistance furnaces are classified into radiant resistance furnaces and convection resistance furnaces in a heat transfer manner. The radiant resistance furnace is mainly used for radiation heat transfer.

However, the prior patent No. 201420540521.1 discloses that the belt is directly exposed outside and the belt is not safe enough and has a problem of kinetic energy loss, when the belt is used for transmission in a mechanism for power transmission between an external motor and a connecting rod; therefore, the existing requirements are not met, and a rotatable semi-shielding thermal shock sintering resistance furnace is provided for the requirements.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a rotatable formula partly shelters from thermal shock sintering resistance furnace to solve the current patent number 201420540521.1 case that proposes in the above-mentioned background art and carry out power transmission outside on motor and connecting rod carry out the mechanism, transmit through the belt, and this mode belt directly exposes outside, has the problem of safe not enough with the kinetic energy loss.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a rotatable formula partly shelters from thermal shock sintering resistance furnace, includes thermal shock sintering resistance furnace main part, all be provided with the column foot around the terminal surface under the thermal shock sintering resistance furnace main part, and the column foot is provided with four, the lower terminal surface of thermal shock sintering resistance furnace main part is provided with the unloading box, and unloading box and thermal shock sintering resistance furnace main part fixed connection, the unloading box is provided with cavity in the second, the preceding terminal surface of cavity is provided with the front cover baffle in the second, the preceding terminal surface of front cover baffle is provided with grips the piece, the up end of thermal shock sintering resistance furnace main part is provided with operating device, and operating device and thermal shock sintering resistance furnace main part fixed connection, operating device's rear end is provided with heat dissipation mechanism, the rear end face of thermal shock sintering resistance furnace main part is provided with the electric wire input.

Preferably, two adjustable speed motors are arranged on two sides of the thermal shock sintering resistance furnace body and penetrate through and extend into the thermal shock sintering resistance furnace body.

Preferably, the preceding terminal surface of thermal shock sintering resistance furnace main part is provided with overhauls the baffle, overhauls the baffle and passes through hexagonal rivet and thermal shock sintering resistance furnace main part threaded connection, and hexagonal rivet is provided with four, the inside of overhauing the baffle is provided with the baffle, the baffle passes through rotatory axis body and overhauls the baffle and rotates and be connected, the inside of baffle is provided with observation window, the preceding terminal surface of overhauing the baffle is provided with the rotation hand wheel.

Preferably, the front end face of the operating mechanism is provided with a display screen, one side of the display screen is provided with two operation indicating lamps, one side of each operation indicating lamp is provided with an operation key, and the operation keys are provided with a plurality of operation keys.

Preferably, the inside of thermal shock sintering resistance furnace main part is provided with first interior cavity, the second dead lever that the inside of first interior cavity set up, and second dead lever and thermal shock sintering resistance furnace main part fixed connection, the both sides of thermal shock sintering resistance furnace main part inner wall all are provided with power take off end, and power take off end is provided with two, two power take off end all runs through and extends to adjustable speed motor's inside, the inside of first interior cavity is provided with the heat-generating body, the heat-generating body passes through electric wire and operating device electric connection.

Preferably, the upper end of second dead lever is provided with second electric telescopic handle, and the one end of second electric telescopic handle runs through and extends to the inside of second dead lever, second electric telescopic handle's up end is provided with places the mesa, two one side of power take off end all is provided with the connection body of rod, and connects the body of rod and be provided with two one side of connecting the body of rod outer wall is provided with first dead lever, the one end of first dead lever is provided with first electric telescopic handle, and the one end of first electric telescopic handle runs through and extends to the inside of first dead lever.

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

1. the utility model discloses a directly with adjustable speed motor setting in thermal shock sintering resistance furnace main part, through to adjustable speed motor adjustment, timely act on the body of rod, reduce this structure and pass through belt transmission, act on the instability on the body of rod, played better protection effect to the drive structure, also strengthened the device's security performance simultaneously.

2. Through the first fixed rod and the second electric telescopic rod which are arranged, the device can adjust the height and the width of the shielding element according to the size of the materials placed inside in time, and therefore the general usability of the sintering resistance furnace is improved.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a schematic side view of the present invention;

in the figure: 1. sintering the resistance furnace body by thermal shock; 2. a column shoe; 3. an operating mechanism; 4. a display screen; 5. an operation indicator light; 6. operating a key; 7. a speed adjustable motor; 8. a maintenance baffle; 9. a hexagonal rivet; 10. a baffle plate; 11. an observation window; 12. a rotating shaft body; 13. rotating a hand wheel; 14. a blanking box body; 15. a cover baffle; 16. a holding block; 17. a first inner cavity; 18. a power output end; 19. connecting the rod body; 20. a first fixing lever; 21. a first electric telescopic rod; 22. a second fixing bar; 23. a second electric telescopic rod; 24. placing a table top; 25. a second inner cavity; 26. a leak hole; 27. a heating element; 28. an electric wire; 29. a heat dissipation mechanism; 30. and a wire input end.

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.

Referring to fig. 1-3, the present invention provides an embodiment: a rotatable type semi-shielding thermal shock sintering resistance furnace comprises a thermal shock sintering resistance furnace body 1, column bases 2 are arranged on the periphery of the lower end face of the thermal shock sintering resistance furnace body 1, the number of the column bases 2 is four, a blanking box body 14 is arranged on the lower end face of the thermal shock sintering resistance furnace body 1, the blanking box body 14 is fixedly connected with the thermal shock sintering resistance furnace body 1, the blanking box body 14 is provided with a second inner cavity 25, a front end face of the second inner cavity 25 is provided with a cover baffle plate 15, a front end face of the cover baffle plate 15 is provided with a holding block 16, an operating mechanism 3 is arranged on the upper end face of the thermal shock sintering resistance furnace body 1, the operating mechanism 3 is fixedly connected with the thermal shock sintering resistance furnace body 1, the rear end of the operating mechanism 3 is provided with a heat dissipation mechanism 29, the heat dissipation mechanism 29 is arranged, so that the device can be cooled fastest when not used, the rear end face of the thermal shock sintering resistance furnace body 1 is provided with a wire input end 30.

Further, but the both sides of thermal shock sintering resistance furnace main part 1 all are provided with speed regulating motor 7, and speed regulating motor 7 is provided with two, and two speed regulating motor 7 all run through and extend the inside of thermal shock sintering resistance furnace main part 1, and speed regulating motor 7's setting can directly carry out the rotational speed adjustment to the inside mechanism that shelters from of the device.

Further, the preceding terminal surface of thermal shock sintering resistance furnace main part 1 is provided with overhauls baffle 8, overhaul baffle 8 through hexagonal rivet 9 and thermal shock sintering resistance furnace main part 1 threaded connection, and hexagonal rivet 9 is provided with four, the inside of overhauing baffle 8 is provided with baffle 10, baffle 10 rotates with overhauing baffle 8 through rotatory axis body 12 and is connected, the inside of baffle 10 is provided with observation window 11, the preceding terminal surface of overhauing baffle 8 is provided with rotation hand wheel 13, the setting of rotatory axis body 12, it is comparatively convenient to make baffle 10 rotate and open.

Further, the preceding terminal surface of operating device 3 is provided with display screen 4, and one side of display screen 4 is provided with operation pilot lamp 5, and operation pilot lamp 5 is provided with two, and one side of two operation pilot lamps 5 is provided with operation button 6, and operation button 6 is provided with a plurality of, the setting of display screen 4 for the inside data condition of the device directly shows through numerical value.

Further, the inside of thermal shock sintering resistance furnace main part 1 is provided with first interior cavity 17, the second dead lever 22 of the inside setting of first interior cavity 17, and second dead lever 22 and thermal shock sintering resistance furnace main part 1 fixed connection, the both sides of 1 inner wall of thermal shock sintering resistance furnace main part all are provided with power take off 18, and power take off 18 is provided with two, two power take off 18 all run through and extend to adjustable speed motor 7's inside, the inside of first interior cavity 17 is provided with heat-generating body 27, heat-generating body 27 passes through electric wire 28 and 3 electric connection of operating device, heat-generating body 27 carries out the heat source and supplies with.

Further, the upper end of second dead lever 22 is provided with second electric telescopic handle 23, and the one end of second electric telescopic handle 23 runs through and extends to the inside of second dead lever 22, the up end of second electric telescopic handle 23 is provided with places mesa 24, one side of two power take off ends 18 all is provided with the connection body of rod 19, and connection body of rod 19 is provided with two, one side of two connection body of rod 19 outer walls is provided with first dead lever 20, the one end of first dead lever 20 is provided with first electric telescopic handle 21, and the one end of first electric telescopic handle 21 runs through and extends to the inside of first dead lever 20, the setting of second electric telescopic handle 23, make this height of placing mesa 24 can adjust.

The working principle is as follows: during the use, will need to be placed at placing table surface 24 by the processing material, when starting to operate, adjust the temperature variation of the inside heat-generating body 27 of thermal shock sintering resistance furnace main part 1 through operating device 3, open adjustable speed motor 7, make the rotational speed direct action of adjustable speed motor 7 the inside connecting rod body 19, rotation through connecting rod body 19, drive inside first electric telescopic handle 21 and carry out half shelters from the thermal shock, and the first dead lever 20 and the first electric telescopic handle 21 that set up are flexible, can let this half shelter from the component and carry out timely adjustment according to the size of material, let the material homoenergetic of different volumes put into the resistance furnace smoothly.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a rotatable formula partly shelters from thermal shock sintering resistance furnace, includes thermal shock sintering resistance furnace main part (1), its characterized in that: the periphery of the lower end surface of the thermal shock sintering resistance furnace main body (1) is provided with column feet (2), four column feet (2) are arranged, a blanking box body (14) is arranged on the lower end surface of the thermal shock sintering resistance furnace main body (1), and the blanking box body (14) is fixedly connected with the thermal shock sintering resistance furnace main body (1), the blanking box body (14) is provided with a second inner cavity (25), the front end surface of the second inner cavity (25) is provided with a cover baffle (15), the front end surface of the cover baffle (15) is provided with a holding block (16), the upper end surface of the thermal shock sintering resistance furnace body (1) is provided with an operating mechanism (3), and the operating mechanism (3) is fixedly connected with the thermal shock sintering resistance furnace main body (1), the rear end of the operating mechanism (3) is provided with a heat dissipation mechanism (29), and the rear end face of the thermal shock sintering resistance furnace main body (1) is provided with a wire input end (30).

2. The rotatable semi-shielded thermal shock sintering resistance furnace of claim 1, wherein: the two sides of the thermal shock sintering resistance furnace main body (1) are provided with two speed-adjustable motors (7), and the two speed-adjustable motors (7) penetrate through and extend into the thermal shock sintering resistance furnace main body (1).

3. The rotatable semi-shielded thermal shock sintering resistance furnace of claim 1, wherein: the utility model discloses a thermal shock sintering resistance furnace, including thermal shock sintering resistance furnace main part (1), the preceding terminal surface of thermal shock sintering resistance furnace main part (1) is provided with overhauls baffle (8), overhaul baffle (8) through hexagonal rivet (9) and thermal shock sintering resistance furnace main part (1) threaded connection, and hexagonal rivet (9) are provided with four, the inside of overhauing baffle (8) is provided with baffle (10), baffle (10) rotate with overhauing baffle (8) through rotatory axis body (12) and are connected, the inside of baffle (10) is provided with observation window (11), the preceding terminal surface of overhauing baffle (8) is provided with rotates hand wheel (13).

4. The rotatable semi-shielded thermal shock sintering resistance furnace of claim 1, wherein: the front end face of the operating mechanism (3) is provided with a display screen (4), one side of the display screen (4) is provided with two operation indicating lamps (5), one side of each operation indicating lamp (5) is provided with an operation key (6), and the operation keys (6) are provided with a plurality of.

5. The rotatable semi-shielded thermal shock sintering resistance furnace of claim 1, wherein: the inside of thermal shock sintering resistance furnace main part (1) is provided with first interior cavity (17), second dead lever (22) that the inside of first interior cavity (17) set up, and second dead lever (22) and thermal shock sintering resistance furnace main part (1) fixed connection, the both sides of thermal shock sintering resistance furnace main part (1) inner wall all are provided with power take off (18), and power take off (18) are provided with two, two power take off (18) all run through and extend to the inside of adjustable speed motor (7), the inside of first interior cavity (17) is provided with heat-generating body (27), heat-generating body (27) are through electric wire (28) and operating device (3) electric connection.

6. The rotatable semi-shielded thermal shock sintering resistance furnace of claim 5, wherein: the upper end of second dead lever (22) is provided with second electric telescopic handle (23), and the one end of second electric telescopic handle (23) runs through and extends to the inside of second dead lever (22), the up end of second electric telescopic handle (23) is provided with places mesa (24), two one side of power take off end (18) all is provided with the link body (19), and link body (19) are provided with two, two one side of link body (19) outer wall is provided with first dead lever (20), the one end of first dead lever (20) is provided with first electric telescopic handle (21), and the one end of first electric telescopic handle (21) runs through and extends to the inside of first dead lever (20).

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