CN217454966U - Constant temperature heating system device for edge covering equipment - Google Patents

Abstract

The utility model relates to a bordure equipment with constant temperature heating system device, it includes air-supply line, electrical heating stick, heat preservation cavity, adds fever type cavity, hot gas outlet, and the air-supply line is installed to heat preservation cavity upper end, and a plurality of electrical heating sticks are installed to heat preservation cavity both sides, and heat preservation cavity is inside to be separated for two cavitys through a horizontal baffle, and two cavitys are last cavity and lower cavity, goes up the internal design of cavity and has continuous S type bend, and the internal design of lower cavity has a plurality of vertical baffles or a plurality of horizontal separators of saying, add fever type cavity and install in heat preservation cavity 'S below or heat preservation cavity' S one side both ends position, hot gas outlet design in one side below of fever type cavity. The advantages are that: the heat preservation cavity is ingenious in design, reasonable and compact in structure, the heat preservation cavity can effectively store heat and guarantee constant temperature, the air inlet pipe is connected with the fan, the required temperature hot air is blown during heating, and the air is stopped when the air is not used; the temperature is not too high, the service life of other components around can not be influenced, and is safe and reliable.

Description

Constant temperature heating system device for edge covering equipment

Technical Field

The utility model relates to an automotive interior spare processing field, concretely relates to equipment of borduring is with constant temperature heating system device.

Background

In the prior art, electric hot air is adopted for heating and blowing, and a long-time air heater and a heating cavity are easily damaged; the fan adopts a close-close mode to supply hot air, the temperature is not constant, the temperature can be suddenly high and low, and the accurate temperature cannot be controlled; the fan adopts the mode of blowing always, can lead to heating type cavity high temperature to outwards give off the heat, heat other components and parts near heating type cavity and lead to damaging, cause unnecessary waste.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a bordure equipment with constant temperature heating system device, design benefit, compact structure is reasonable, can save the heat, and temperature constant temperature is bloied when using, and the time spent does not stop the wind.

The technical scheme of the utility model:

a constant temperature heating system device for edge covering equipment comprises an air inlet pipe, electric heating rods, a heat preservation cavity, a heating cavity and a hot air outlet, wherein the air inlet pipe is arranged at the upper end of the heat preservation cavity which is designed into a rectangular body, a plurality of electric heating rods are arranged on two sides of the heat preservation cavity, the interior of the heat preservation cavity is divided into two cavities through a horizontal partition plate, the two cavities are an upper cavity and a lower cavity, round holes for communicating the upper cavity with the lower cavity are respectively formed in two ends of the horizontal partition plate, a continuous S-shaped bend is designed in the upper cavity, a plurality of vertical partition plates or a plurality of transverse partition plates are designed in the lower cavity, the vertical partition plates or the transverse partition plates are vertically arranged below the horizontal partition plate, a gap is reserved between the lower ends of the vertical partition plates or the transverse partition plates and the bottom of the lower cavity, the heating cavity is arranged below the heat preservation cavity or at two ends of one side of the heat preservation cavity, the lower profile design of the heating cavity is the profile design of an imitated edge covering product, the hot air outlet is designed below one side of the heating cavity, and the profile of the hot air outlet is also designed to be the edge profile design of the imitated edge covering product.

The upper part and the lower part of the heat-insulating cavity are respectively sealed by end covers, two sides of the heat-insulating cavity are respectively provided with three through holes, and an electric heating rod is arranged in each through hole; the continuous S-shaped bend comprises a plurality of left baffles and a plurality of right baffles, the left baffles and the right baffles are vertically arranged on the horizontal partition in a crossed manner, gaps are reserved between the left baffles and the right side wall of the upper cavity, and gaps are reserved between the right baffles and the left side wall of the upper cavity; a gap is reserved between the left baffle and the upper end cover of the right baffle, which correspond to the position where the heat preservation cavity is connected with the air inlet pipe, and the distance between the left baffle and the upper end cover of the heat preservation cavity is far away from the right baffle.

The upper end of the heating cavity is fixedly connected to the lower end of the heat-insulating cavity, a plurality of vent holes which are vertically corresponding and mutually communicated are respectively designed at the bottom of the heat-insulating cavity and the upper end of the heating cavity, the upper ends of the vent holes are communicated with the lower cavity, and the lower ends of the vent holes are communicated with the heating cavity; the upper end in the lower cavity is provided with a plurality of vertical partition plates.

The heating cavity is arranged at two ends of one side of the heat-insulating cavity, the side of the heat-insulating cavity is close to the two ends and is connected with the inner side of the heating cavity through a pipeline, one end of the pipeline is communicated with the inner side of the lower cavity, and the other end of the pipeline is communicated with one end of the inner side of the heating cavity.

The other side of the heating cavity is also provided with a heat-insulating cavity, two sides of the bottom of the lower cavity of the heat-insulating cavity are respectively connected with the other end of the inner side of the heating cavity at two sides through pipelines, and a plurality of transverse partition plates are arranged in the lower cavity of the heat-insulating cavity; the heat preservation cavity is installed in a dumping mode.

The heat preservation cavity and the heating cavity are both made of aluminum materials.

A temperature sensor is designed and installed in the heat insulation cavity; the upper end of the air inlet pipe is connected with a fan.

The heating type cavity is internally designed with a vertical rib, a transverse rib or an arc rib, and the vertical rib, the transverse rib or the arc rib is installed on the inner side wall and is left with a gap for air flow circulation between the vertical rib, the transverse rib or the arc rib and the other side wall.

The utility model has the advantages that: the heat preservation cavity is ingenious in design, reasonable and compact in structure, the heat preservation cavity can effectively store heat and guarantee constant temperature, the air inlet pipe is connected with the fan, the required temperature hot air is blown during heating, and the air is stopped when the air is not used; the temperature sensor is designed in the heat preservation cavity to effectively control the heating action of the electric heating rod, so that the temperature is ensured to be the designed heating temperature, the overhigh temperature cannot influence the service life of other surrounding components, and the heat preservation cavity is safe and reliable.

Drawings

Fig. 1 is a schematic view of the usage state of the present invention.

Fig. 2 is a perspective view of the present invention.

Fig. 3 is a vertical sectional view of fig. 2.

Fig. 4 is a longitudinal sectional view of fig. 2.

Fig. 5 is a vertical sectional view of the heating cavity installed at the lower end of the heat preservation cavity of the utility model.

Fig. 6 is a schematic view of the inner side wall of the heating chamber of fig. 5.

Fig. 7 is a schematic diagram of the inner side wall of the heating cavity of the present invention installed at the side of the heat-insulating cavity.

Fig. 8 is a transverse cross-sectional view of fig. 2.

Fig. 9 is a partial transverse cross-sectional view of fig. 2.

Fig. 10 is a schematic sectional view of the usage state of the present invention.

Detailed Description

Referring to the attached drawings 1-10, a constant temperature heating system device for edge-covering equipment comprises an air inlet pipe 1, electric heating rods 2, a heat-insulating cavity 3, a heating cavity 4 and a hot air outlet 5, wherein the air inlet pipe 1 is installed at the upper end of the heat-insulating cavity 3, the heat-insulating cavity 3 is designed to be rectangular, a plurality of electric heating rods 2 are installed on two sides of the heat-insulating cavity 3, the interior of the heat-insulating cavity 3 is divided into two cavities by a horizontal partition plate 6, the two cavities are an upper cavity 31 and a lower cavity 32, two ends of the horizontal partition plate 6 are respectively provided with a round hole 35 for communicating the upper cavity 31 with the lower cavity 32, the interior of the upper cavity 31 is designed with a continuous S-shaped curve, the lower cavity 32 is internally designed with a plurality of vertical partition plates 33 or a plurality of transverse partition plates 34, the plurality of vertical partition plates 33 or the plurality of transverse partition plates 34 are vertically installed below the horizontal partition plate 6, gaps are reserved between the lower ends of the plurality of vertical partition plates 33 or the transverse partition plates 34 and the bottom of the lower cavity 32, the heating cavity 4 is arranged below the heat preservation cavity 3 or at two ends of one side of the heat preservation cavity 3, the lower profile of the heating cavity 4 is designed to be the profile of an imitated edge-covered product, the hot air outlet 5 is designed below one side of the heating cavity 4, and the profile of the hot air outlet 5 is also designed to be the edge profile of the imitated edge-covered product.

As shown in fig. 3, 5, 8 and 9, the heat-insulating cavity 3 is sealed up and down by end covers 30, two sides of the heat-insulating cavity 3 are respectively provided with three through holes, and each through hole is internally provided with an electric heating rod 2; the continuous S-shaped curve comprises a plurality of left baffles 311 and a plurality of right baffles 312, the left baffles 311 and the right baffles 312 are vertically arranged on the horizontal partition plate 6 in a crossed manner, a gap is reserved between the left baffles 311 and the right side wall of the upper cavity 31, and a gap is reserved between the right baffles 312 and the left side wall of the upper cavity 31; and a gap is reserved between the left baffle 311 and the right baffle 312 corresponding to the position where the heat-preservation cavity 3 is connected with the air inlet pipe 1 and the upper end cover of the heat-preservation cavity 3. The design of continuous S type bend and two upper and lower cavitys can effectively keep warm, store the heat, can reach the predicted temperature after the circulation after the entering of external wind moreover, guarantee the constancy of temperature.

As shown in fig. 3, 5 and 6, the upper end of the heating cavity 4 is fixedly connected to the lower end of the thermal insulation cavity 3, a plurality of vent holes 7 which are corresponding up and down and are communicated with each other are respectively designed at the bottom of the thermal insulation cavity 3 and the upper end of the heating cavity 4, the upper ends of the vent holes 7 are communicated with the lower cavity 32, and the lower ends of the vent holes 7 are communicated with the heating cavity 4; the upper end of the interior of the lower cavity 32 is designed with a plurality of vertical partition plates 33. A round hole is designed in the middle of the inner side wall of the heating cavity 4 below, an auxiliary electric heating rod 40 is installed in the round hole, the constant temperature in the heating cavity at the lower end is ensured, and a plurality of vertical ribs 42 are designed above the inner wall at the round hole and can store heat well.

Referring to fig. 3 and 5, the heating cavity 4 is installed at two end positions of one side of the heat-insulating cavity 3, the side of the heat-insulating cavity 3 close to the two end positions is respectively connected with the inner side of the heating cavity 4 through a pipeline 8, one end of the pipeline 8 is communicated with the inner side of the lower cavity 32, and the other end of the pipeline 8 is communicated with one end of the inner side of the heating cavity 4.

As shown in fig. 2, 3 and 8, the other side of the heating cavity is also designed with a heat-insulating cavity 3, two sides of the bottom of the lower cavity 32 of the heat-insulating cavity 3 are respectively connected to the other end of the inner side of the heating cavity at two sides through a pipeline 8, and a plurality of transverse partition plates 34 are designed in the lower cavity 32 of the heat-insulating cavity 3; the heat preservation cavity 3 is installed in a dumping mode.

The heat preservation cavity 3 and the heating cavity 4 are both made of aluminum materials. The heat insulation board 9 is designed outside the heat insulation cavity body, can be used for preventing heat from radiating outwards, and can also have the heat insulation effect.

A temperature sensor is designed and installed in the heat insulation cavity 3; the upper end of the air inlet pipe 1 is connected with a fan. As shown in fig. 6 and 7, the heating cavity is designed with a vertical rib 41, a horizontal rib 42 or an arc rib 43, the vertical rib, the horizontal rib or the arc rib is installed on the inner side wall and a gap for air flow circulation is reserved between the vertical rib, the horizontal rib or the arc rib and the other side wall, and the vertical rib, the horizontal rib or the arc rib guides the air flow and stores heat.

The utility model discloses during the use, at first, open the electrical heating rod and heat the heat preservation cavity, heat to the temperature of settlement, the fan begins to blow to the heat preservation cavity through the air-supply line, the air current is from getting into the upper chamber of heat preservation cavity, flow to both sides through continuous S type bend, get into the lower cavity of below from the round hole of horizontal baffle both sides, the rethread carries out the cloth wind through a plurality of vertical baffles, get into the interior of the heated cavity of below through the air vent of below, the interior of heated cavity flows and blows off steam through the steam outlet, the outlet temperature is about 50 degrees centigrade lower than the temperature of settlement in the heat preservation cavity, can accurate control epidermis and skeleton heating temperature through this difference in temperature; the heating cavity is arranged below the heat-insulating cavity, the heating cavities can be designed on two sides according to actual needs, hot air flow of the lower cavity of the heat-insulating cavity is blown to the inside of the heating cavity on the side edge through a pipeline, and then is blown out from a hot air outlet on the lower part; the utility model also provides two heat preservation cavities, and simultaneously supplies hot air to the heating cavities at the sides to ensure constant temperature; the utility model provides a constant temperature heating system device for equipment of borduring, show in the drawing, the side heating type cavity inboard of both sides is installed on the frame 10 of the pre-compaction mould of the centre top of equipment of borduring 100 through slider slide rail structure 22, the cylinder is installed in the middle of frame 10 and the side heating type cavity inboard of both sides is connected through connecting plate 21 in the cylinder 20 upper end, the frame 10 both sides correspond connecting plate 21 design and have the waist shape hole 24 that supplies the connecting plate oscilaltion, the whole constant temperature heating system device for equipment of borduring of cylinder 20 control slides from top to bottom, then descend when needs heating, then rise when not needing.

Claims (8)

1. A constant temperature heating system device for edge covering equipment is characterized by comprising an air inlet pipe, electric heating rods, a heat preservation cavity, a heating cavity and a hot air outlet, wherein the air inlet pipe is installed at the upper end of the heat preservation cavity, the heat preservation cavity is designed into a rectangular body, a plurality of electric heating rods are installed at two sides of the heat preservation cavity, the interior of the heat preservation cavity is divided into two cavities through a horizontal partition plate, the two cavities are an upper cavity and a lower cavity, round holes for communicating the upper cavity with the lower cavity are respectively formed in two ends of the horizontal partition plate, a continuous S-shaped bend is designed in the upper cavity, a plurality of vertical partition plates or a plurality of transverse partition plates are designed in the lower cavity, a plurality of vertical partition plates or a plurality of transverse partition plates are vertically installed below the horizontal partition plate, a gap is reserved between the lower ends of the vertical partition plates or the plurality of transverse partition plates and the bottom of the lower cavity, the heating cavity is installed below the heat preservation cavity or at two ends of one side of the heat preservation cavity, the lower profile design of the heating cavity is the profile design of an imitated edge-covered product, the hot air outlet is designed below one side of the heating cavity, and the profile of the hot air outlet is also designed to be the edge profile design of the imitated edge-covered product.

2. The constant-temperature heating system device for the edge-covering equipment according to claim 1, wherein the upper and lower parts of the heat-insulating cavity are respectively sealed by end covers, three through holes are respectively formed in two sides of the heat-insulating cavity, and an electric heating rod is installed in each through hole; the continuous S-shaped bend comprises a plurality of left baffles and a plurality of right baffles, the left baffles and the right baffles are vertically arranged on the horizontal partition in a crossed manner, gaps are reserved between the left baffles and the right side wall of the upper cavity, and gaps are reserved between the right baffles and the left side wall of the upper cavity; and a gap is reserved between the left baffle plate and the upper end cover of the right baffle plate, which correspond to the position where the heat-preservation cavity is connected with the air inlet pipe, and the distance from the left baffle plate to the right baffle plate to the heat-preservation cavity.

3. The constant-temperature heating system device for the edge-covering equipment according to claim 1, wherein the upper end of the heating cavity is fixedly connected to the lower end of the heat-insulating cavity, a plurality of vent holes which are corresponding up and down and are communicated with each other are respectively designed at the bottom of the heat-insulating cavity and the upper end of the heating cavity, the upper ends of the vent holes are communicated with the lower cavity, and the lower ends of the vent holes are communicated with the heating cavity; the upper end in the lower cavity is provided with a plurality of vertical partition plates.

4. The constant-temperature heating system device for the taping device according to claim 1, wherein the heating cavity is installed at both ends of one side of the heat-insulating cavity, the side of the heat-insulating cavity near both ends is connected to the inner side of the heating cavity through a pipeline, one end of the pipeline is communicated with the inner side of the lower cavity, and the other end of the pipeline is communicated with one end of the inner side of the heating cavity.

5. The constant-temperature heating system device for the edge-covering equipment according to claim 4, wherein a heat-insulating cavity is also designed on the other side of the heating cavity, two sides of the bottom of the lower cavity of the heat-insulating cavity are respectively connected with the other end of the inner side of the heating cavity on the two sides through pipelines, and a plurality of transverse partition plates are designed in the lower cavity of the heat-insulating cavity; the heat preservation cavity is installed in a dumping mode.

6. The constant-temperature heating system device for the edge covering equipment according to claim 1, wherein the heat-preservation cavity and the heating cavity are both made of aluminum materials.

7. The constant-temperature heating system device for the edge-covering equipment according to claim 1, wherein a temperature sensor is designed and installed in the heat-insulating cavity; the upper end of the air inlet pipe is connected with a fan.

8. The constant-temperature heating system device for the edge covering equipment as claimed in claim 1, wherein a vertical rib, a horizontal rib or an arc rib is designed inside the heating cavity, the vertical rib, the horizontal rib or the arc rib is installed on the inner side wall, and a gap for air flow circulation is reserved between the vertical rib, the horizontal rib or the arc rib and the other side wall.

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