CN201071345Y - Grain material vibrating cooler - Google Patents

Abstract

The utility model provides a granular material vibration cooler, which comprises a ventilating mechanism. A material cooling chamber and a vibrating mechanism are permanently arranged on a pedestal. The material cooling chamber is provided with a feed inlet and an air outlet in the upper part and a discharge port in the lower part. The two corresponding side walls of the material cooling chamber are provided with an air inlet, respectively. The air inlets are connected with air pipes. The ventilating mechanism is arranged inside the material cooling chamber, and is provided with a plate and frame type framework and a certain quantity of air troughs. The openings of the air troughs face downwards. The air troughs are of two layers; are arranged in a parallel and staggered way; pass through and are fixed on the plate and frame-type framework. Both ends of the air troughs are dead against the air inlets and are communicated with the air pipes. The plate and frame-type framework threads through the two side walls of the material cooling chamber through connecting pieces, and is connected with the vibrating mechanism. The granular material vibration cooler cools high temperature material, in particular compound fertilizers, well and intensively by adopting the combination of cold blast of vibration. The granular materials are not hardened easily, and the utility model can be promoted and applied conveniently.

Description

Granule material vibration cooling machine

One, technical field

The utility model is a kind of cooling apparatus of granule materials, be applicable to grain, chemical industry, etc. the cooling of industry after granulating.

Two, background technology

For example in the production process of composite fertilizer, need carry out batch mixing, modified make spherical, carry out drying then. because higher moisture content is contained in globular composite fertilizer, need in 60～80 ℃ high temperature kiln, just can reach the requirement of water content below 5% after dry for some time, in this process, carry out chemical reaction simultaneously again.Composite fertilizer behind the heat drying must cool off.Harden otherwise will produce at once, cause follow-up clothing, spraying, packing process to carry out.The composite fertilizer that temperature is too high can not standing storage, otherwise can produce serious hardening, and uses for friend peasant and causes difficulty.The composite fertilizer that applies the farmland is difficult for decomposing, and influences absorbing of farm crop, and the usefulness of composite fertilizer can not get performance.

Traditional composite fertilizer's method of cooling is to adopt multistage rotating cylinder to cool off, but cooling performance is not ideal.Under summer high-temperature high humidity weather condition, cool off halfway composite fertilizer and very easily harden, even produce liquefaction, bring very big loss to production firm.

Three, utility model content

The purpose of this utility model is in order to address the above problem, to propose a kind of cooler that can further reduce temperature of charge, improve material fluidity, raise the efficiency.

Content of the present utility model is: a kind of granule material vibration cooling machine, contain ventilating mechanisms, and material cooling room, vibrating mechanism are fixedly mounted on the pedestal; Described material cooling room top is provided with opening for feed, air outlet, and the bottom is provided with discharge port, is equipped with blast inlet on two corresponding sidewalls of material cooling room, and described blast inlet connects blast pipe; Described ventilating mechanisms is installed in the material cooling room, and the wind groove of sheet frame skeleton and some amount is housed; Described wind channel opening down, the wind groove is at least two-layer, parallel being staggered passed and is fixed on the described sheet frame skeleton; Described wind groove two ends are communicated with over against blast inlet and with blast pipe; Described sheet frame skeleton passes the material cooling room by web member two side is connected with vibrating mechanism.

Be connected sealing with the flexible materials layering between the material cooling room sidewall around all wind groove ends and the blast inlet; Be connected sealing with flexible material layer between described web member and the material cooling room sidewall.

The cross section of described wind groove is a hollow gable shape, or is the hollow ellipse arc, or is the hollow parabolic arc, or is three-pointed hollow star.

Be evenly equipped with pore or air cleft on the described wind groove.

The top of described material cooling room is provided with service ports, and guardrail.

Described discharge port is two identical throat structures, is provided with discharging in the inside of discharge port and dredges structure, and it is subtriangular that structure is dredged in this discharging, leaves the blanking slit between its lower edge and the discharge port sidewall.

Described vibrating mechanism is to be arranged symmetrically in two the sidewall outsides corresponding with the material cooling room.

Described vibrating mechanism contains vibrating motor, and the bottom is provided with spring and spring guide pillar; Vibrating mechanism is placed on the pedestal.

The beneficial effects of the utility model

1, the mode of this granule material vibration cooling machine by utilizing cold wind and vibration to combine cooled off high-temperature material; Can make the granule materials internal and external temperature even, and in the process of vibration, improve cooling-down effect and do not produce and harden.

2, all adopt elastomeric layer to be connected between the sidewall of the sheet frame skeleton of the ventilating mechanisms of this granule material vibration cooling machine and ventilation slot and material cooling room, realize good sealing, avoid material from leakage.

3, the material cooling room top of this granule material vibration cooling machine is provided with service ports, and guardrail, the inspection and maintenance in the process easy to use.

4, be provided with discharging in the discharge port of this granule material vibration cooling machine and dredge structure, be convenient to the outflow of granule materials, be difficult for causing granule materials, caking hoarding that throat structure goes out.

5, described ventilation slot is provided with pore or air cleft, can further improve mixing of cold air and granule materials, thereby improve cooling performance further.

Four, description of drawings

Fig. 1 looks one of TV structure synoptic diagram for the left side of this granule material vibration cooling machine

Fig. 2 is the structural representation of facing of this granule material vibration cooling machine

Fig. 3 looks two of TV structure synoptic diagram for the left side of this granule material vibration cooling machine

Fig. 4 looks three of TV structure synoptic diagram for the left side of this granule material vibration cooling machine

Fig. 5 looks four of TV structure synoptic diagram for the left side of this granule material vibration cooling machine

Fig. 6 faces one of structural representation for ventilation slot

Fig. 7 faces two of structural representation for ventilation slot

Fig. 8 is the left TV structure synoptic diagram of Fig. 6 or Fig. 7

Five, embodiment

Embodiment one: referring to Fig. 1, Fig. 2, a kind of granule material vibration cooling machine, contain ventilating mechanisms, material cooling room 1, vibrating mechanism are fixedly mounted on the pedestal 12, described material cooling room 1 top is provided with opening for feed 3, air outlet 2, the bottom is provided with discharge port 11, be equipped with blast inlet 16 on two corresponding sidewalls of material cooling room 1, described blast inlet 16 connects blast pipe 18; Described ventilating mechanisms is installed in the material cooling room 1, contains the wind groove 15 of sheet frame skeleton 17, some amount; Described wind groove 15 openings down, wind groove 15 is at least two-layer, at least two described sheet frame skeletons 17 are passed and be fixed on to parallel being staggered; Described wind groove 15 two ends are communicated with over against blast inlet 16 and with blast pipe 18; Described sheet frame skeleton 17 passes material cooling room 1 by web member 13 two side is connected with vibrating mechanism; Be connected sealing with flexible material layer 19 between the material cooling room sidewall around all wind groove 15 terminations and the blast inlet 16; Be connected sealing with flexible material layer 6 between described web member 13 and material cooling room 1 sidewall; The cross section of described wind groove 15 is a hollow gable shape, and the top of described material cooling room 1 is provided with service ports 4, and guardrail 5; Described discharge port 11 is two identical throat structures, is provided with discharging in the inside of discharge port 11 and dredges structure 10, and this discharging is dredged structure 10 for subtriangular, leaves the blanking slit between its lower edge and discharge port 11 sidewalls; Described vibrating mechanism is outside two row's difference symmetric arrangement, two sidewalls corresponding with the material cooling room; Described vibrating mechanism contains vibrating motor 14, and the bottom is provided with spring 7 and spring guide pillar 8; Vibrating mechanism is placed on the fore-set 9 of pedestal.

During use blast pipe is connected air-supply arrangement, vibrating motor connects electric control system, should guarantee acting in agreement of all vibrating motors in the use.

Embodiment two: referring to Fig. 2, Fig. 3, embodiment two and embodiment one are basic identical, the representative same meaning that number in the figure is identical, and something in common does not repeat, and difference is that the cross section of the wind groove 15 described in the embodiment two is that hollow is parabola shaped.

Embodiment three: referring to Fig. 2, Fig. 4, embodiment three and embodiment one are basic identical, the representative same meaning that number in the figure is identical, and something in common does not repeat, and difference is that the cross section of the ventilation slot 15 described in the embodiment three is the hollow ellipse arc.

Embodiment four: referring to Fig. 2, Fig. 5, embodiment four and embodiment one are basic identical, the representative same meaning that number in the figure is identical, and something in common does not repeat, and difference is that the cross section of the wind groove 15 described in the embodiment four is a three-pointed hollow star.

Embodiment five: referring to Fig. 1, Fig. 2, Fig. 5, Fig. 7, a kind of granule material vibration cooling machine among the figure, contain ventilating mechanisms, material cooling room 1, vibrating mechanism be fixedly mounted on pedestal 12 on, described material cooling room 1 top is provided with opening for feed 3, air outlet 2, the bottom is provided with discharge port 11, is equipped with blast inlet 16 on two corresponding sidewalls of material cooling room 1, and described blast inlet 16 connects blast pipe 18; Described ventilating mechanisms is installed in the material cooling room 1, contains the wind groove 15 of sheet frame skeleton 17, some amount; Described wind groove 15 openings down, wind groove 15 is at least two-layer, at least two described sheet frame skeletons 17 are passed and be fixed on to parallel being staggered; Described wind groove 15 two ends are communicated with over against blast inlet 16 and with blast pipe 18; Described sheet frame skeleton 17 passes material cooling room 1 by web member 13 two side is connected with vibrating mechanism; Be connected sealing with flexible material layer 19 between material cooling room 1 sidewall around all wind groove 15 terminations and the blast inlet 16; Be connected sealing with flexible material layer 6 between described web member 13 and material cooling room 1 body wall; The cross section of described wind groove 15 is a hollow gable shape; Be evenly equipped with pore 15-1 on the described wind groove 15; The top of described material cooling room 1 is provided with service ports 4, and guardrail 5; Described discharge port 11 is two identical throat structures, is provided with discharging in the inside of discharge port 11 and dredges structure 10, and this discharging is dredged structure 10 for subtriangular, leaves the blanking slit between its lower edge and discharge port 11 sidewalls; Described vibrating mechanism is outside two row's difference symmetric arrangement, two sidewalls corresponding with material cooling room 1 body; Described vibrating mechanism contains vibrating motor 14, and the bottom is provided with spring 7 and spring guide pillar 8; Vibrating mechanism is placed on the fore-set 9 of pedestal.

During use air intake duct is connected air-supply arrangement, vibrating motor connects electric control system, should guarantee acting in agreement of all vibrating motors in the use.

Embodiment six: referring to Fig. 2, Fig. 3, embodiment six and embodiment five are basic identical, the representative same meaning that number in the figure is identical, and something in common does not repeat, and difference is that hollow is parabola shaped for the cross section of the wind groove 15 described in the embodiment six.

Embodiment seven: referring to Fig. 2, Fig. 4, embodiment seven and embodiment five are basic identical, the representative same meaning that number in the figure is identical, and something in common does not repeat, and difference is the hollow ellipse arc for the cross section of the wind groove 15 described in the embodiment seven.

Embodiment eight: basic identical referring to Fig. 1, Fig. 2, Fig. 6, Fig. 7 embodiment eight and embodiment five, and the representative same meaning that number in the figure is identical, something in common does not repeat, and difference is for being evenly equipped with air cleft 15-2 on the wind groove 15 described in embodiment.

Embodiment nine: referring to Fig. 2, Fig. 3, embodiment nine and embodiment eight are basic identical, the representative same meaning that number in the figure is identical, and something in common does not repeat, and difference is that hollow is parabola shaped for the cross section of the wind groove 15 described in the embodiment nine.

Embodiment ten: referring to Fig. 2, Fig. 4, embodiment ten and embodiment eight are basic identical, the representative same meaning that number in the figure is identical, and something in common does not repeat, and difference is the hollow ellipse arc for the cross section of the wind groove 15 described in the embodiment ten.

Claims (8)

1. a granule material vibration cooling machine contains ventilating mechanisms, and material cooling room, vibrating mechanism are fixedly mounted on the pedestal; Described material cooling room top is provided with opening for feed, air outlet, and the bottom is provided with discharge port; It is characterized in that: be equipped with blast inlet on two corresponding sidewalls of material cooling room, described blast inlet connects blast pipe; Described ventilating mechanisms is installed in the material cooling room, and the wind groove of sheet frame skeleton and some amount is housed; Described wind channel opening down, the wind groove is at least two-layer, parallel being staggered passed and is fixed on the described sheet frame skeleton; Described wind groove two ends are communicated with over against blast inlet and with blast pipe; Described sheet frame skeleton passes the material cooling room by web member two side is connected with vibrating mechanism.

2. granule material vibration cooling machine according to claim 1 is characterized in that: be connected sealing with the flexible materials layering between the material cooling room sidewall around all wind groove ends and the blast inlet; Be connected sealing with flexible material layer between described web member and the material cooling room sidewall.

3. granule material vibration cooling machine according to claim 1 is characterized in that: the cross section of described wind groove is a hollow gable shape, or is the hollow ellipse arc, or is the hollow parabolic arc, or is three-pointed hollow star.

4. granule material vibration cooling machine according to claim 1 is characterized in that: be evenly equipped with pore or air cleft on the described wind groove.

5. granule material vibration cooling machine according to claim 1 is characterized in that: the top of described material cooling room is provided with service ports, and guardrail.

6. granule material vibration cooling machine according to claim 1, it is characterized in that: described discharge port is two identical throat structures, be provided with discharging in the inside of discharge port and dredge structure, it is subtriangular that structure is dredged in this discharging, leaves the blanking slit between its lower edge and the discharge port sidewall.

7. according to the described granule material vibration cooling machine of the arbitrary claim of claim 1 to 6, it is characterized in that: described vibrating mechanism is to be arranged symmetrically in two the sidewall outsides corresponding with the material cooling room.

8. granule material vibration cooling machine according to claim 7 is characterized in that: described vibrating mechanism contains vibrating motor, and the bottom is provided with spring and spring guide pillar; Vibrating mechanism is placed on the pedestal.

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