CN204854249U - Stoving line - Google Patents

Abstract

The utility model provides a stoving line, includes the frame, locate conveyer belt in the frame, be used for driving the cylinder and the motor of conveyer belt motion, it cuts device and hot circulating device to be equipped with first wind in proper order along the conveyer belt direction of motion on the conveyer belt, the device is cut to second wind on hot circulating device includes insulation box and locates the box, and device formation circulation circuit is cut through insulation can and second wind to hot circulating device's hot -air. The utility model provides a stoving line can effectively reduce the energy consumption, realize the temperature to regulate and control, improve drying efficiency in real time, effectively preserve the heat source, reaches energy -concerving and environment -protective effect.

Description

A kind of drying line

Technical field

The utility model relates to a kind of drying line.

Background technology

In process of production, usually need to dry product, remove the moisture that product is unnecessary.Tradition drying line generally adopts the heater elements such as metal tube, halide torch, earthenware as pyrotoxin, and after energising, pyrotoxin heats up, thus carries out heating, drying to product.Heater element electricity-the thermal conversion efficiency such as metal tube, halide torch, earthenware that traditional handicraft adopts is low, during work, power consumption is large, causes energy loss too high, and conventional heating element heats up and cooling rate is slow, temperature can not be regulated in real time, cannot process requirements be met; Tradition drying line adopts heating, drying mode to remove product moisture, and drying mode is single, inefficiency.

Summary of the invention

For overcoming the deficiencies in the prior art and Problems existing, the utility model provides one effectively to reduce energy consumption, realizes temperature real-time monitoring, improves drying efficiency, effectively preserves thermal source, reaches the drying line of energy-conserving and environment-protective effect.

The utility model is achieved through the following technical solutions:

A kind of drying line, comprising control electronic box, frame, the conveyer belt be located in frame, for driving cylinder and the motor of conveyer belt, described conveyer belt being provided with the first wind cutting apparatus and thermocirculator successively along conveyer belt direction; Described thermocirculator comprises thermal-insulating body and is located at the second wind cutting apparatus on casing, and the hot-air of thermocirculator forms closed circuit through incubator and the second wind cutting apparatus.

The first ajutage that described first wind cutting apparatus comprises the first centrifugal blower and is connected with the first centrifugal fan air outlet, the wind otch wind butt of the first ajutage to conveyer belt plane orthogonal.

The both sides up and down of described conveyer belt are equipped with the first wind cutting apparatus, and wind incision site is relative.

The heating box that described second wind cutting apparatus comprises the second centrifugal blower, is connected with the second centrifugal fan air outlet, and the second ajutage be connected with heating box.

Described incubator is the microscler casing that two ends are provided with opening, and conveyer belt passes incubator by both ends open; Described opening is provided with height-adjustable baffle plate.

The both sides up and down at described incubator both ends open place are equipped with the second wind cutting apparatus, and the wind otch wind butt of the second ajutage is to parallel with conveyer belt and to point to incubator inner.

Described heating box inside is provided with pyrotoxin, and described pyrotoxin is nanoscale graphite heat-generating pipe.

Described control electronic box comprises time showing table, indicator lamp, ammeter, the temperature control regulator of monitoring adjustment thermocirculator, the centrifugal blower adjuster controlling first and second wind cutting apparatus wind speed, the cylinder adjuster controlling conveyer belt speed and switch.

Described conveyer belt is stainless steel guipure.

Tank is provided with below described conveyer belt.

During utility model works, product is sent to the first wind cutting apparatus through conveyer belt, and cutting principle by wind can remove product surface most of moisture; Product continues to be sent to thermocirculator, second wind cutting apparatus of thermocirculator adopts nanoscale graphite as pyrotoxin, to be heated up to heating box inside by heat exchange pattern, then hot blast is delivered in incubator, the second wind cutting apparatus at incubator two ends is all to incubator heat air delivery, therefore produce hot-air convection in incubator, product is dried further.Wind is cut and is dried combination, can improve the operating efficiency of overall drying line.Incubator both ends open is provided with baffle plate, and height of baffle plate is adjustable, therefore according to the height of product size shape controllable register, effectively can preserve thermal source, energy-conserving and environment-protective.Using nanoscale graphite heat-generating pipe as pyrotoxin, effectively energy consumption can be reduced.Nanoscale graphite heat-generating pipe electricity-thermal conversion efficiency and thermal sensitivity high, can effectively reduce energy consumption and realize temperature real-time monitoring.

Accompanying drawing explanation

Fig. 1 is overall structure schematic diagram of the present utility model.

In figure: 1-frame, 2-conveyer belt, 3-cylinder, 41-first centrifugal blower, 42-first ajutage, 51-second centrifugal blower, 52-heating box, 53-second ajutage, 54-incubator, 6-controls electronic box, 7-tank.

Detailed description of the invention

For the ease of the understanding of those skilled in the art, below in conjunction with accompanying drawing, the utility model is described in further detail.It should be pointed out that specific embodiment described herein only for explaining the utility model, and be not used in restriction the utility model.

As shown in Figure 1, a kind of drying line, comprise and control electronic box 6, frame 1, the conveyer belt 2 be located in frame, for the cylinder 3 that drives conveyer belt 2 to move and motor, it is characterized in that: described conveyer belt 2 is provided with the first wind cutting apparatus and thermocirculator successively along conveyer belt direction; Described thermocirculator comprises incubator 54 and is located at the second wind cutting apparatus on thermal-insulating body, and the hot-air of thermocirculator forms closed circuit through incubator 54 and the second wind cutting apparatus.

The first ajutage 42 that described first wind cutting apparatus comprises the first centrifugal blower 41 and is connected with the first centrifugal blower 41 air outlet, the wind otch wind butt of the first ajutage 42 to conveyer belt 2 plane orthogonal, the ajutage that described first wind cutting apparatus comprises centrifugal blower and is connected with centrifugal fan air outlet, wind butt to conveyer belt plane orthogonal.The both sides up and down of described conveyer belt 2 are equipped with the first wind cutting apparatus, and wind incision site is relative.Described conveyer belt 2 is stainless steel guipure, product sends to the position of the first wind cutting apparatus through stainless steel guipure, the high-speed air flow be subject to perpendicular to product surface on product two sides impacts, and the most of moisture of product surface is removed rapidly, and moisture drops to the tank 7 below conveyer belt.

The heating box 52 that described second wind cutting apparatus comprises the second centrifugal blower 51, is connected with the second centrifugal blower 51 air outlet, and the second ajutage 53 be connected with heating box 52.Described incubator 54 is provided with the microscler casing of opening for two ends, conveyer belt 2 by both ends open through incubator; Described opening is provided with height-adjustable baffle plate.The both sides up and down at described incubator 54 both ends open place are equipped with the second wind cutting apparatus, and the wind otch wind butt of the second ajutage 53, to parallel with conveyer belt 2 and to point to incubator 54 inner, forms the convection current of incubator inner air.Described heating box 52 inside is provided with pyrotoxin, and described pyrotoxin is nanoscale graphite heat-generating pipe.Product completes oven dry by hot-air convection after arriving incubator 54 in incubator 54; Product after having dried, then be delivered to discharging opening by stainless steel guipure, drying work completes.The effective conversion ratio of nanoscale graphite heat-generating pipe electricity-Re and thermal sensitivity high, effectively can reduce energy consumption and realize temperature real-time monitoring.

Described control electronic box 6 comprises time showing table, indicator lamp, ammeter, the temperature control regulator of monitoring adjustment thermocirculator, the centrifugal blower adjuster controlling first and second wind cutting apparatus wind speed, the cylinder adjuster controlling conveyer belt speed and switch.In the course of the work, control electronic box 6 can many-sided regulate and control drying line duty.

The content mentioned in above-described embodiment is not to restriction of the present utility model, and under the prerequisite not departing from inventive concept of the present utility model, any apparent replacement is all within protection domain of the present utility model.

Claims (10)

1. a drying line, comprise frame (1), the conveyer belt (2) be located in frame, for the cylinder (3) that drives conveyer belt (2) to move and motor, to it is characterized in that: described conveyer belt (2) is provided with the first wind cutting apparatus and thermocirculator successively along conveyer belt direction; Described thermocirculator comprises incubator (54) and is located at the second wind cutting apparatus on thermal-insulating body, and the hot-air of thermocirculator forms closed circuit through incubator (54) and the second wind cutting apparatus.

2. drying line according to claim 1, it is characterized in that: the first ajutage (42) that described first wind cutting apparatus comprises the first centrifugal blower (41) and is connected with the first centrifugal blower (41) air outlet, the wind otch wind butt of the first ajutage (42) to conveyer belt (2) plane orthogonal.

3. drying line according to claim 2, is characterized in that: the both sides up and down of described conveyer belt (2) are equipped with the first wind cutting apparatus, and wind incision site is relative.

4. drying line according to claim 1, it is characterized in that: the heating box (52) that described second wind cutting apparatus comprises the second centrifugal blower (51), is connected with the second centrifugal blower (51) air outlet, and the second ajutage (53) be connected with heating box (52).

5. drying line according to claim 4, is characterized in that: described incubator (54) is provided with the microscler casing of opening for two ends, conveyer belt (2) by both ends open through incubator; Described opening is provided with height-adjustable baffle plate.

6. drying line according to claim 5, it is characterized in that: the both sides up and down at described incubator (54) both ends open place are equipped with the second wind cutting apparatus, the wind otch wind butt of the second ajutage (53) is to parallel with conveyer belt (2) and to point to incubator (54) inner.

7. drying line according to claim 6, is characterized in that: described heating box (52) inside is provided with pyrotoxin, and described pyrotoxin is nanoscale graphite heat-generating pipe.

8. the drying line according to claim 3 or 7, it is characterized in that: described drying line also comprises control electronic box (6), described control electronic box comprises time showing table, indicator lamp, ammeter, the temperature control regulator of monitoring adjustment thermocirculator, the centrifugal blower adjuster controlling first and second wind cutting apparatus wind speed, the cylinder adjuster controlling conveyer belt speed and switch.

9. drying line according to claim 8, is characterized in that: described conveyer belt (2) is stainless steel guipure.

10. drying line according to claim 9, is characterized in that: described conveyer belt (2) below is provided with tank (7).