CN218583759U - Partition type electric kiln for producing sintered sand for real stone paint - Google Patents

Abstract

The utility model discloses a real stone paint is with sintered sand production subregion formula electric kiln, belong to subregion formula electric kiln field, including the preheater, the heating furnace, cooling furnace and heat transfer device, the preheater is installed to the upper end of heating furnace, its lower extreme installation cooling furnace, heat transfer device runs through the preheater in proper order, heating furnace and cooling furnace, heat transfer device includes the rotating electrical machines, the rotation axis, rotating vane, helical blade, cooling conversion system and hand brake, the rotation that the rotating electrical machines drove rotating vane makes the object stirring in preheater and the cooling furnace abundant, make in-furnace object and upper heat conduction pipe contact fully heated of preheater, the high temperature object contact fully realizes quick heat dissipation in lower floor's heat pipe and the cooling furnace, helical design of helical blade makes the object stirring in the heating furnace more abundant, make electromagnetic induction coil heating efficiency improve, thermodetector realizes the temperature control in the heating furnace, the hand brake realizes that the object is from the preheater to the heating furnace, the position conversion of heating furnace to the cooling furnace.

Description

Partition type electric kiln for producing sintered sand for real stone paint

Technical Field

The utility model belongs to subregion formula electric kiln field, more specifically relates to a real stone is sintered sand production subregion formula electric kiln for lacquer.

Background

The stone-like paint is a decoration material prepared from natural stone powder with various colors, has the characteristics of fire resistance, water resistance, acid and alkali resistance, pollution resistance, no toxicity, no odor, strong bonding force, fastness and the like, can effectively prevent the corrosion of the outside severe environment to the building, and prolongs the service life of the building.

In the sintering sand production process for real mineral varnish, through the kiln heating, with the inorganic pigment sintering in the surface of natural sand, traditional coal-fired kiln or electrical heating kiln, the structure is comparatively simple, natural sand is through the heating, after the sintering, just can get into next process after the cooldown that need stew, influence the production progress, traditional mode is through taking out the grit raw materials after will parch earlier and placing in a certain place, the purpose of cooling is realized to the mode of blowing through a plurality of fans, this kind of mode not only cooling rate is slow, and occupation space, when the raw materials is not cooled down the process, cause the idle waste of factory building space.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved by the utility model

The utility model aims to solve the problem that the cooling speed is slow after the sintered sand for the stone paint is taken out, and the space utilization rate of a factory building is low.

2. Technical scheme

In order to achieve the above purpose, the utility model provides a technical scheme does:

the utility model discloses a real stone paint is with sintered sand production subregion formula electric kiln, including the preheater, the heating furnace, cooling furnace and heat transfer device, the preheater is installed to the upper end of heating furnace, its lower extreme installation cooling furnace, heat transfer device runs through the preheater in proper order, heating furnace and cooling furnace, heat transfer device includes the rotating electrical machines, the rotation axis, rotating vane, helical blade, cooling conversion system and hand brake, the upper end at the preheater is installed to the rotating electrical machines, the rotation axis is connected to its output, the rotation axis is located the central point of electric cellar for storing things stove and puts, the preheater is run through in proper order to the rotation axis, heating furnace and cooling furnace, rotating vane and helical blade install on the rotation axis, cooling conversion system installs in electric cellar for storing things stove one side, the hand brake is installed at the preheater, on heating furnace and the cooling furnace.

Preferably, the cooling conversion system includes upper heat pipe, lower floor's heat pipe, the heat conduction connecting pipe, upper water tank connecting pipe, lower floor's water tank connecting pipe, storage water tank and water pump, upper heat pipe is installed in the inside of preheater, its position is in rotating vane's top, lower floor's heat pipe is installed in the inside of cooler, its position is in rotating vane's top, upper heat pipe and lower floor's heat pipe all design have about two interfaces, the right interface of upper heat pipe is connected to the upper end of heat conduction connecting pipe, the right interface of lower floor's heat pipe is connected to its lower extreme, the left interface of upper heat pipe is connected to the upper end of upper water tank connecting pipe, the storage water tank is connected to its lower extreme, the left interface of lower floor's heat pipe is connected to the front end of lower floor's water tank connecting pipe, the storage water tank is connected to its rear end, the water pump is installed on lower floor's water tank connecting pipe.

Preferably, the preheating furnace is internally provided with a rotating blade and an upper layer heat conduction pipe, and the cooling furnace is internally provided with a rotating blade and a lower layer heat conduction pipe.

Preferably, the heating furnace comprises an inner heat-preservation furnace, an inductance coil, an outer heat-preservation furnace and a temperature detector, wherein the inductance coil is spirally wound on the outer surface of the inner heat-preservation furnace and is positioned in the outer heat-preservation furnace, a spiral blade is arranged in the inner heat-preservation furnace, and three temperature detectors are arranged on the inner wall of the inner heat-preservation furnace from top to bottom.

Preferably, the hand brake comprises a pull handle, a fan-shaped baffle, a sealing guide rail and a fixing shaft, the pull handle penetrates through the sealing guide rail to be connected with the fan-shaped baffle, the rear end of the fan-shaped baffle is connected with the fixing shaft, the sealing guide rail is installed on the outer side of the furnace body, and the hand brake is installed at four positions on the two ends of the preheating furnace and the cooling furnace.

3. Advantageous effects

Adopt the technical scheme provided by the utility model, compare with prior art, have following beneficial effect:

(1) The utility model discloses a real stone paint is with sintered sand production subregion formula electric kiln passes through medium water through the high temperature of cooling conversion system in with the cooling furnace and transmits to the preheating furnace in, realizes the energy conversion of high temperature object, and the sintered sand rapid cooling in the cooling furnace must realize high temperature reuse, energy saving at one stroke.

(2) The utility model discloses a real stone paint is with sintered sand production subregion formula electric kiln, the design through rotating vane and helical blade in the stove is under rotating electrical machines's drive for the sintered sand stirring in each layer stove is abundant, and it is even to reach the heat absorption, and is heat-conduction quick.

Drawings

Fig. 1 is the schematic diagram of the three-isometric view of the zoned electric kiln for producing sintered sand for stone-like paint of the utility model.

Fig. 2 is the structural schematic diagram of the heat conversion device of the zoned electric kiln for producing sintered sand for real stone paint of the utility model.

Fig. 3 is the structural schematic diagram of the cooling conversion system of the partitioned electric kiln for producing sintered sand for stone-like paint of the utility model.

Fig. 4 is the left side view structure diagram of the sintering sand production zoned electric kiln for real stone paint of the utility model.

Fig. 5 is a schematic structural diagram of the hand brake of the zoned electric kiln for producing sintered sand for real mineral varnish.

FIG. 6 is the structural schematic diagram of the heat-insulating inner furnace of the zoned electric kiln for producing sintered sand for stone-like paint of the present invention.

The reference numbers in the schematic drawings illustrate:

100. preheating a furnace; 200. heating furnace; 300. a cooling furnace; 400. a heat conversion device;

410. a rotating electric machine; 420. a rotating shaft; 430. a rotating blade; 440. a helical blade; 450. cooling the conversion system; 460. a hand brake;

451. an upper layer heat conduction pipe; 452. a lower layer heat conduction pipe; 453. a heat-conducting connecting pipe; 454. an upper water tank connecting pipe; 455. a lower water tank connecting pipe; 456. a water storage tank; 457. a water pump;

210. a heat preservation inner furnace; 220. an inductor coil; 230. a heat preservation external furnace; 240. a temperature detector;

461. pulling a handle; 462. a fan-shaped baffle plate; 463. sealing the guide rail; 464. and fixing the shaft.

Detailed Description

In order to facilitate understanding of the invention, the invention will be described more fully hereinafter with reference to the accompanying drawings, in which several embodiments of the invention are shown, but which can be embodied in many different forms and are not limited to the embodiments described herein, but which are provided so as to render the disclosure of the invention more thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present; when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may be present; the terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs; the terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention; as used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Example 1

Referring to fig. 1 to 6, the zoned electric kiln for producing sintered sand for natural stone paint of the present embodiment includes a preheating furnace 100, a heating furnace 200, a cooling furnace 300, and a heat conversion device 400, the preheating furnace 100 is installed at the upper end of the heating furnace 200, the cooling furnace 300 is installed at the lower end of the heating furnace, the heat conversion device 400 sequentially penetrates through the preheating furnace 100, the heating furnace 200, and the cooling furnace 300, the heat conversion device 400 includes a rotating motor 410, a rotating shaft 420, a rotating blade 430, a helical blade 440, a cooling conversion system 450, and a hand brake 460, the rotating motor 410 is installed at the upper end of the preheating furnace 100, the output end of the rotating motor is connected to the rotating shaft 420, the rotating shaft 420 is located at the center of the electric kiln, the rotating shaft 420 sequentially penetrates through the preheating furnace 100, the heating furnace 200, and the cooling furnace 300, the rotating blade 430 and the helical blade 440 are installed on the rotating shaft 420, the cooling conversion system is installed at one side of the electric kiln, and the hand brake 460 is installed on the preheating furnace 100, the heating furnace 200, and the cooling furnace 300.

Above design, the rotation that rotating electrical machines 410 drove rotating vane 430 makes the object stirring in preheater 100 and the cooling furnace 300 abundant, make object and upper heat pipe 451 contact fully heated in the preheater 100, the high temperature object contact fully realizes quick heat dissipation in lower floor's heat pipe 452 and the cooling furnace 300, the spiral design of helical blade 440 makes the object stirring in heating furnace 200 more abundant, make electromagnetic induction coil heating efficiency improve, thermodetector 240 detects the heating of temperature control electromagnetic induction coil, realize the temperature control in heating furnace 200, hand brake 460 realizes the object from preheater 100 to heating furnace 200, heating furnace 200 is to the position conversion of cooling furnace 300.

In this embodiment, the cooling conversion system 450 includes an upper heat pipe 451, a lower heat pipe 452, a heat pipe connection tube 453, an upper tank connection tube 454, a lower tank connection tube 455, a water storage tank 456, and a water pump 457, the upper heat pipe 451 is installed inside the preheating furnace 100 and located above the rotary blade 430, the lower heat pipe is installed inside the cooling furnace 300 and located above the rotary blade 430, the upper heat pipe 451 and the lower heat pipe 452 are both designed with a left port and a right port, the upper end of the heat pipe connection tube 453 is connected to the right port of the upper heat pipe 451, the lower end of the heat pipe connection tube 453 is connected to the left port of the upper heat pipe 451, the upper end of the upper tank connection tube 454 is connected to the right port of the lower heat pipe 452, the lower end of the upper tank connection tube 454 is connected to the water storage tank 456, the water pump 457 is installed on the lower tank connection tube 455, the water pump 457 operates to transfer water in the water storage tank 456 to the lower heat pipe 452, the water storage tank 452 absorbs heat and transfers the heat to the preheating furnace 100 through the heat pipe 453, and the preheating furnace 100, and the water storage tank connection tube 454 circulates the cooling medium to the water storage tank 300.

In this embodiment, the internally mounted of preheating furnace 100 has rotating vane 430 and upper heat pipe 451, the internally mounted of cooling furnace 300 has rotating vane 430 and lower floor's heat pipe 452, the design of this structure, upper heat pipe 451 realizes the heat dissipation because of the difference in temperature, the object in the rotatory messenger preheating furnace 100 of rotating vane 430 is heated evenly, lower floor's heat pipe 452 absorbs the heat of the high temperature object in cooling furnace 300 through water circulation, rotating vane 430 makes the object heat dissipation in cooling furnace 300 accelerate.

In this embodiment, the heating furnace 200 includes an inner heat-preserving furnace 210, an inductance coil 220, an outer heat-preserving furnace 230 and a temperature detector 240, the inductance coil 220 is spirally wound on the outer surface of the inner heat-preserving furnace 210 and is positioned inside the outer heat-preserving furnace 230, a helical blade 440 is installed inside the inner heat-preserving furnace 210, and three temperature detectors 240 from top to bottom are installed on the inner wall of the inner heat-preserving furnace.

In this embodiment, the hand brake 460 includes a pull handle 461, a sector baffle 462, a sealing guide 463 and a fixing shaft 464, the pull handle 461 passes through the sealing guide 463 and is connected with the sector baffle 462, the fixing shaft 464 is connected with the rear end of the sector baffle 462, the sealing guide 463 is installed outside the furnace body, the hand brake 460 is installed at four positions at both ends of the preheating furnace 100 and the cooling furnace 300, the design of the structure, the pull handle 461 moves back and forth in the sealing guide 463, the sector baffle 462 is driven to rotate around the fixing shaft 464, opening and closing are realized, and the communication between charging, discharging and each layer of furnace is realized through the opening and closing of the hand brake 460.

The above-mentioned embodiments only express a certain implementation manner of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention; it should be noted that, for those skilled in the art, without departing from the concept of the present invention, several variations and modifications can be made, which all fall within the protection scope of the present invention; therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (5)

1. The utility model provides a real stone is sectional type electric kiln of sintered sand production for lacquer which characterized in that: including preheater (100), heating furnace (200), cooling furnace (300) and heat transfer device (400), preheater (100) is installed to the upper end of heating furnace (200), and cooling furnace (300) is installed to its lower extreme, heat transfer device (400) runs through preheater (100), heating furnace (200) and cooling furnace (300) in proper order, heat transfer device (400) includes rotating electrical machines (410), rotation axis (420), rotating vane (430), helical blade (440), cooling conversion system (450) and hand floodgate (460), rotating electrical machines (410) are installed in the upper end of preheater (100), and rotation axis (420) is connected to its output, rotation axis (420) are located the central point of electric cellar stove and put, rotation axis (420) run through preheater (100), heating furnace (200) and cooling furnace (300) in proper order, rotating vane (430) and helical blade (440) are installed on rotation axis (420), cooling conversion system (450) are installed in electric cellar stove one side, hand floodgate (460) are installed on preheater (100), heating furnace (200) and cooling furnace (300).

2. The partition type electric kiln for producing the sintered sand for the stone-like paint as claimed in claim 1, which is characterized in that: the cooling conversion system (450) comprises an upper layer heat pipe (451), a lower layer heat pipe (452), a heat pipe connecting pipe (453), an upper layer water tank connecting pipe (454), a lower layer water tank connecting pipe (455), a water storage tank (456) and a water pump (457), wherein the upper layer heat pipe (451) is installed inside the preheating furnace (100) and is located above the rotating blades (430), the lower layer heat pipe (452) is installed inside the cooling furnace (300) and is located above the rotating blades (430), the upper layer heat pipe (451) and the lower layer heat pipe (452) are both designed with a left interface and a right interface, the upper end of the heat pipe connecting pipe (453) is connected with the right interface of the upper layer heat pipe (451), the lower end of the heat pipe connecting pipe (452) is connected with the right interface of the lower layer heat pipe (452), the upper end of the upper layer water tank connecting pipe (454) is connected with the left interface of the upper layer heat pipe (451), the lower end of the upper layer water tank connecting pipe (456) is connected with the lower end of the upper layer heat pipe (455), the front end of the lower layer water tank connecting pipe (455) is connected with the left interface of the lower layer heat pipe (452), the water storage tank (456), and the water pump (457) is installed on the lower layer water tank connecting pipe (455).

3. The partition type electric kiln for producing the sintered sand for the stone-like paint as claimed in claim 1, which is characterized in that: the preheating furnace (100) is internally provided with a rotating blade (430) and an upper layer heat-conducting pipe (451), and the cooling furnace (300) is internally provided with a rotating blade (430) and a lower layer heat-conducting pipe (452).

4. The partition type electric kiln for producing the sintered sand for the stone-like paint as claimed in claim 1, which is characterized in that: heating furnace (200) are stove (210), inductance coil (220), the outer stove (230) and thermodetector (240) keep warm in keeping warm, inductance coil (220) are the surface of heliciform winding stove (210) in keeping warm, and its position is in the inside of the outer stove (230) of keeping warm, the internally mounted of stove (210) has helical blade (440) in keeping warm, and its interior wall mounting has three thermodetectors (240) of top-down.

5. The partition type electric kiln for producing sintered sand for real stone paint as claimed in claim 1, which is characterized in that: the hand brake (460) comprises a pull handle (461), a fan-shaped baffle (462), a sealing guide rail (463) and a fixing shaft (464), wherein the pull handle (461) penetrates through the sealing guide rail (463) to be connected with the fan-shaped baffle (462), the rear end of the fan-shaped baffle (462) is connected with the fixing shaft (464), the sealing guide rail (463) is installed on the outer side of the furnace body, and the hand brake (460) is installed at four positions on the total of two ends of the preheating furnace (100) and the cooling furnace (300).

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