CN219243931U - New energy heating device - Google Patents

Abstract

The utility model provides a new forms of energy heating system, includes solar water tank, vacuum glass pipe, arc backup pad, vertical support pole, bottom rectangular plate curb plate, rotates the overcoat, middle positioning tube, rotates convex plate, cylinder, support riser, arc backup pad is connected on vertical support pole upper portion, arc backup pad has arc backup pad inside groove, solar water tank suits with arc backup pad inside groove, solar water tank laminates with arc backup pad inside groove mutually, arc backup pad passes through screw connection solar water tank, solar water tank lower part connects a plurality of vacuum glass pipes, vertical support pole lower part connection bottom rectangular plate, bottom rectangular plate right side has bottom rectangular plate curb plate, vacuum glass pipe lower part right side offsets with bottom rectangular plate curb plate, horizontal connecting rod is connected at horizontal connecting rod both ends, circular backing plate is placed subaerial, circular backing plate lower part connection circular backing plate, annular backing plate upper surface laminates with bottom rectangular plate, bottom rectangular plate rotates on annular backing plate upper portion.

Description

New energy heating device

Technical Field

The utility model relates to the field of new energy heating, in particular to a new energy heating device.

Background

The utility model provides a domestic new energy winter heating device, which is provided with a fixed bottom plate and a shell, wherein the top of the fixed bottom plate is sequentially and fixedly connected with a water tank and a solar water heater from front to back, and a partition plate is fixedly connected inside the water tank. This domestic new forms of energy heating system winter through setting up solar water heater and supplying hot water for U type pipe, hot water can stay a period in U type intraductal, make motor and flabellum can be with the abundant effluvium of the heat of hot water, and utilize the air pump to extract in the water tank air make the back flow pump to take out the hot water that the intraductal temperature of U type reduces in the water tank, can not influence the temperature in the solar water heater, make the sustainable hot water that supplies of solar water heater, and set up blast pipe intercommunication casing and air pump, air pump exhaust warm gas still can discharge indoor, make heat utilization ratio improve greatly, and the air pump during operation motor need not work, the electric energy has been practiced thrift, comparatively energy-concerving and environment-protective. However, the device fixes the solar water heater when in use, the angle of the solar water heater is inclined, and the vacuum glass tube is easy to backlight when in use, so that the use efficiency is reduced.

Disclosure of Invention

The utility model provides a new energy heating device which can ensure that a vacuum glass tube is irradiated by sunlight through a rotating device in the morning and afternoon by ensuring that the rotating angle of a rotating outer sleeve is ninety degrees.

The utility model aims at realizing the following technical scheme:

the utility model provides a new forms of energy heating system, includes solar water tank, vacuum glass pipe, arc backup pad, vertical support pole, bottom rectangular plate curb plate, rotates the overcoat, middle positioning tube, rotates convex plate, cylinder, support riser, arc backup pad is connected on vertical support pole upper portion, arc backup pad has arc backup pad inside groove, solar water tank suits with arc backup pad inside groove, solar water tank laminates with arc backup pad inside groove mutually, arc backup pad passes through screw connection solar water tank, solar water tank lower part connects a plurality of vacuum glass pipes, vertical support pole lower part connection bottom rectangular plate, bottom rectangular plate right side has bottom rectangular plate curb plate, vacuum glass pipe lower part right side offsets with bottom rectangular plate curb plate, horizontal connecting rod is connected at horizontal connecting rod both ends, circular backing plate is placed subaerial, circular backing plate lower part connection circular backing plate, annular backing plate upper surface laminates with bottom rectangular plate, bottom rectangular plate rotates on annular backing plate upper portion.

The outer sleeve is provided with an inner hole of the outer sleeve, the middle positioning cylinder is matched with the inner hole of the outer sleeve, the middle positioning cylinder is inserted into the inner hole of the outer sleeve, the middle positioning cylinder rotates in the inner hole of the outer sleeve, the upper part of the outer sleeve is provided with an upper plate of the outer sleeve, the upper surface of the upper plate of the outer sleeve is attached to the rectangular plate at the bottom, and the upper plate of the outer sleeve is connected with the rectangular plate at the bottom through a plurality of bolts.

The lower part of the middle positioning cylinder is provided with a lower plate of the middle positioning cylinder, the lower part of the rotating sleeve is provided with a lower plate of the rotating sleeve, the lower surface of the lower plate of the rotating sleeve is attached to the lower plate of the middle positioning cylinder, the lower plate of the rotating sleeve is inserted into the limiting pressing plate, the lower plate of the rotating sleeve rotates in the limiting pressing plate, the lower surface of the limiting pressing plate is attached to the lower plate of the middle positioning cylinder, the lower surface of the lower plate of the middle positioning cylinder is attached to the round backing plate, and the fixing bolts sequentially penetrate through the limiting pressing plate and the lower plate of the middle positioning cylinder to be connected with the round backing plate.

The limiting pressing plate is evenly distributed on the side of the rotating sleeve shaft, the rotating protruding plate is arranged on the outer side of the rotating sleeve, the air cylinder is connected through a first connecting shaft, the lower portion of the supporting vertical plate is connected with the round base plate, and the air cylinder is connected with the supporting vertical plate protruding plate through a second connecting shaft.

The beneficial effects are that:

1. according to the utility model, an arc-shaped supporting plate, a vertical supporting rod, a bottom rectangular plate, a transverse connecting rod and a vertical connecting rod form a supporting frame, a solar water tank is fixed on the supporting frame, a bottom rectangular plate side plate is used for preventing a vacuum glass tube from sliding on the supporting frame in new energy heating, the lower part of the annular supporting plate is fixed on a circular base plate, the annular supporting plate is used for supporting the bottom rectangular plate in an auxiliary mode, the supporting frame is prevented from being turned over or inclined due to small supporting area of the lower part when the supporting frame rotates in new energy heating, the upper plate of a rotating outer sleeve is connected with the bottom rectangular plate through a plurality of bolts, the upper part of the rotating outer sleeve is fixed below the bottom rectangular plate, a middle positioning cylinder is inserted into an inner hole of the rotating outer sleeve, and the middle positioning cylinder is used for transversely positioning the rotating outer sleeve.

2. According to the utility model, the upper surface of the lower plate of the middle positioning cylinder is attached to the lower plate of the rotating sleeve, the lower plate of the middle positioning cylinder supports the lower plate of the rotating sleeve and further supports the rotating sleeve, the limiting pressing plate is pressed on the lower plate of the rotating sleeve, the fixing bolts sequentially penetrate through the limiting pressing plate and the lower plate of the middle positioning cylinder to be connected with the circular base plate, the limiting pressing plate and the lower plate of the middle positioning cylinder are fixed on the circular base plate, the lower part of the rotating sleeve is always attached to the lower plate of the middle positioning cylinder under the condition that the rotation of the rotating sleeve is not influenced, the lower part of the supporting vertical plate is fixed on the circular base plate, the cylinder is connected with the supporting vertical plate through a connecting shaft II, the cylinder is connected with the rotating protruding plate through a connecting shaft I, and axial thrust is applied to the rotating protruding plate when the cylinder works, so that the rotating sleeve rotates, the rotating angle of the rotating sleeve is ninety degrees, and the vacuum glass tube can be ensured to be irradiated by sunlight through the rotating device in the morning and afternoon.

Drawings

Fig. 1 is a front view of a new energy heating device according to the present utility model.

Fig. 2 is a left side view of the new energy heating device according to the present utility model.

Fig. 3 is a top view of the bottom rectangular plate and the circular pad according to the present utility model.

Fig. 4 is a front cross-sectional view of the bore of the swivel housing of the present utility model.

Fig. 5 is a top view of the bore of the rotating outer sleeve according to the present utility model.

Detailed Description

The utility model is described in further detail below with reference to the drawings and examples:

example 1:

a new energy heating device, which comprises a solar water tank 01, a vacuum glass tube 02, an arc-shaped supporting plate 03, a vertical supporting rod 05, a bottom rectangular plate 06, a bottom rectangular plate side plate 07, a rotating jacket 08, a middle positioning cylinder 10, a rotating convex plate 11, a cylinder 13 and a supporting vertical plate 14, the upper part of the vertical support rod 05 is connected with an arc support plate 03, the arc support plate 03 is provided with an arc support plate inner groove 04, a solar water tank 01 is matched with the arc support plate inner groove 04, the arc support plate 03 is connected with the solar water tank 01 through screws, the lower part of the solar water tank 01 is connected with a plurality of vacuum glass tubes 02, the lower part of the vertical support rod 05 is connected with a bottom rectangular plate 06, the right side of the bottom rectangular plate 06 is provided with a bottom rectangular plate side plate 07, the right side of the lower part of the vacuum glass tube 02 is propped against the bottom rectangular plate side plate 07, the bottom rectangular plate side plate 07 is used for preventing the vacuum glass tube 02 from sliding on the support frame in new energy heating, the two ends of the transverse connection rod 21 are connected with the vertical support rod 05, the upper end and lower end of the vertical connection rod 22 are connected with the transverse connection rod 21, the arc support plate 03, the vertical support rod 05, the bottom rectangular plate 06, the transverse connection rod 21 and the vertical connection rod 22 form a support frame, the solar water tank 01 is fixed on the support frame, the circular support plate 15 is placed on the ground, the lower part of the circular support plate 23 is connected with the circular support plate 15, the lower part of the circular support plate 23 is fixed on the circular support plate 15, the upper surface of the circular support plate 23 is matched with the bottom rectangular plate 06, the support frame is prevented from turning on one's side or tilting due to the small support area of the lower part when rotating in new energy heating, and the bottom rectangular plate 06 rotates on the upper part of the annular support plate 23.

Example 2:

the rotary sleeve 08 is provided with a rotary sleeve inner hole 09, the middle positioning cylinder 10 is matched with the rotary sleeve inner hole 09, the middle positioning cylinder 10 is inserted into the rotary sleeve inner hole 09, the middle positioning cylinder 10 transversely positions the rotary sleeve 08, the middle positioning cylinder 10 rotates in the rotary sleeve inner hole 09, the upper part of the rotary sleeve 08 is provided with a rotary sleeve upper plate 16, the upper surface of the rotary sleeve upper plate 16 is jointed with a bottom rectangular plate 06, and the rotary sleeve upper plate 16 is connected with the bottom rectangular plate 06 through a plurality of bolts, so that the upper part of the rotary sleeve 08 is fixed below the bottom rectangular plate 06.

Example 3:

the lower part of the middle positioning cylinder 10 is provided with a middle positioning cylinder lower plate 20, the lower part of the rotating sleeve 08 is provided with a rotating sleeve lower plate 18, the lower surface of the rotating sleeve lower plate 18 is jointed with the middle positioning cylinder lower plate 20, the middle positioning cylinder lower plate 20 supports the rotating sleeve lower plate 18 and further supports the rotating sleeve 08, the rotating sleeve lower plate 18 is inserted into a limit pressing plate 17, the limit pressing plate 17 presses on the rotating sleeve lower plate 18, the rotating sleeve lower plate 18 rotates in the limit pressing plate 17, the lower surface of the limit pressing plate 17 is jointed with the middle positioning cylinder lower plate 20, the lower surface of the middle positioning cylinder lower plate 20 is jointed with a round backing plate 15, a fixing bolt 19 sequentially penetrates through the limit pressing plate 17 and the middle positioning cylinder lower plate 20 to be connected with the round backing plate 15, and the limit pressing plate 17 and the middle positioning cylinder lower plate 20 are fixed on the round backing plate 15, so that the lower part of the rotating sleeve 08 is jointed with the middle positioning cylinder lower plate 20 all the time under the condition that the rotation of the rotating sleeve 08 is not affected.

Example 4:

according to the utility model, the limiting pressing plates 17 are uniformly distributed on the shaft side of the rotating outer sleeve 08, the rotating convex plates 11 are arranged on the outer side of the rotating outer sleeve 08, the air cylinders 13 are connected through the first connecting shaft 12, the lower parts of the supporting vertical plates 14 are connected with the circular base plates 15, the lower parts of the supporting vertical plates 14 are fixed on the circular base plates 15, the air cylinders 13 are connected with the convex plates of the supporting vertical plates 14 through the second connecting shaft 24, and when the air cylinders 13 work, axial thrust is applied to the rotating convex plates 11, so that the rotating outer sleeve 08 rotates, the rotating angle of the rotating outer sleeve 08 is ninety degrees, and the vacuum glass tube 02 can be ensured to be irradiated by sunlight through the rotating device in the morning and afternoon.

Example 5:

the utility model comprises the following steps: the method comprises the steps of firstly connecting the upper end and the lower end of a vertical supporting rod 05 with an arc supporting plate 03 and a bottom rectangular plate 06, connecting the two ends of a transverse connecting rod 21 with the vertical supporting rod 05, connecting the upper end and the lower end of a vertical connecting rod 22 with the transverse connecting rod 21, inserting a middle positioning cylinder 10 into a rotating outer sleeve inner hole 09, connecting a rotating outer sleeve upper plate 16 with the bottom rectangular plate 06 through a plurality of bolts, inserting a rotating outer sleeve lower plate 18 into a limiting pressing plate 17, sequentially penetrating a fixing bolt 19 through the limiting pressing plate 17 and the middle positioning cylinder lower plate 20 to be connected with a circular base plate 15, connecting the lower part of a supporting vertical plate 14 with the circular base plate 15, connecting a cylinder 13 with the supporting vertical plate 14 through a second connecting shaft 24, and connecting the cylinder 13 with a rotating convex plate 11 through a first connecting shaft 12.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, and it should be noted that it is possible for those skilled in the art to make several improvements and modifications without departing from the technical principle of the present utility model, and these improvements and modifications should also be regarded as the protection scope of the present utility model.

Claims (4)

1. A new energy heating device is characterized by comprising a solar water tank (01), a vacuum glass tube (02), an arc-shaped supporting plate (03), a vertical supporting rod (05), a bottom rectangular plate (06), a bottom rectangular plate side plate (07), a rotary jacket (08), a middle positioning cylinder (10), a rotary convex plate (11), an air cylinder (13) and a supporting vertical plate (14), wherein the upper part of the vertical supporting rod (05) is connected with the arc-shaped supporting plate (03), the arc-shaped supporting plate (03) is provided with an arc-shaped supporting plate inner groove (04), the solar water tank (01) is matched with the arc-shaped supporting plate inner groove (04), the arc-shaped supporting plate (03) is connected with the solar water tank (01) through screws, the lower part of the solar water tank (01) is connected with a plurality of vacuum glass tubes (02), the lower part of the vertical supporting rod (05) is connected with the bottom rectangular plate (06), the right side plate (07) of the bottom rectangular plate is arranged on the right side of the bottom rectangular plate (06), the right side of the vacuum glass tube (02) is abutted against the bottom rectangular plate side plate (07), two ends of a transverse connecting rod (21) are connected with the vertical supporting rod (05), two ends of the vertical connecting rod (22) are connected with the upper end and lower end of the transverse connecting rod (21) and are placed on the transverse base plate (15), the lower part of the annular supporting plate (23) is connected with the circular backing plate (15), the upper surface of the annular supporting plate (23) is attached to the bottom rectangular plate (06), and the bottom rectangular plate (06) rotates on the upper part of the annular supporting plate (23).

2. The new energy heating device as claimed in claim 1, wherein the rotary jacket (08) has a rotary jacket inner hole (09), the middle positioning cylinder (10) is adapted to the rotary jacket inner hole (09), the middle positioning cylinder (10) is inserted into the rotary jacket inner hole (09), the middle positioning cylinder (10) rotates in the rotary jacket inner hole (09), the rotary jacket (08) has a rotary jacket upper plate (16) at the upper part, the upper surface of the rotary jacket upper plate (16) is attached to the bottom rectangular plate (06), and the rotary jacket upper plate (16) is connected with the bottom rectangular plate (06) through a plurality of bolts.

3. The new energy heating device of claim 2, wherein the lower part of the middle positioning cylinder (10) is provided with a middle positioning cylinder lower plate (20), the lower part of the rotating sleeve (08) is provided with a rotating sleeve lower plate (18), the lower surface of the rotating sleeve lower plate (18) is jointed with the middle positioning cylinder lower plate (20), the rotating sleeve lower plate (18) is inserted into the limiting pressing plate (17), the rotating sleeve lower plate (18) rotates in the limiting pressing plate (17), the lower surface of the limiting pressing plate (17) is jointed with the middle positioning cylinder lower plate (20), the lower surface of the middle positioning cylinder lower plate (20) is jointed with the round backing plate (15), the fixing bolts (19) sequentially penetrate through the limiting pressing plate (17) and the middle positioning cylinder lower plate (20) to be connected with the round backing plate (15), and the limiting pressing plate (17) are uniformly distributed on the shaft side of the rotating sleeve (08).

4. A new energy heating device according to claim 3 is characterized in that a rotary convex plate (11) is arranged on the outer side of the rotary sleeve (08), an air cylinder (13) is connected with the rotary convex plate through a first connecting shaft (12), the lower portion of the supporting vertical plate (14) is connected with a circular base plate (15), and the air cylinder (13) is connected with the convex plate of the supporting vertical plate (14) through a second connecting shaft (24).

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