CN109611651A - A kind of heat transfer pipeline energy-saving support - Google Patents

Abstract

The present invention provides a kind of heat transfer pipeline energy-saving support.The heat transfer pipeline energy-saving support includes upper cover plate, lower cover plate, fixed mechanism, energy-saving mechanism, card slot, sealing mechanism and supporting mechanism, and the fixed mechanism is set on the opposite flank of the upper cover plate of the arc-shaped structure in side, the lower cover plate of the arc-shaped structure in side；The energy-saving mechanism is installed on the inner sidewall of the upper cover plate, the lower cover plate, and the energy-saving mechanism includes fixed strip and severe dimension plate；The sealing mechanism is sticked in the card slot of the upper cover board ends, and the sealing mechanism is sticked in the card slot of the lower cover board ends；The supporting mechanism is rotationally connected with the side wall of the lower cover plate.Heat transfer pipeline energy-saving support provided by the invention reduces support and heat distribution pipeline contact area, reduce absorption of the support to heat transfer pipeline heat, the heat insulation effect of heat transfer pipeline is improved, it is energy saving, heat distribution pipeline joint can be fixed.

Description

A kind of heat transfer pipeline energy-saving support

Technical field

The present invention relates to heat transfer pipeline support technical field more particularly to a kind of heat transfer pipeline energy-saving supports.

Background technique

Heat distribution pipeline is the one kind for belonging to pressure pipeline, is mainly used for heating, ventilation, idle call vapour, industrial gas, heating power It is that the medium temperature that it is conveyed is high, pressure is big, flow velocity is fast that the medium of pipeline, which has the characteristics of hot water and two kinds of steam, heat distribution pipeline, Biggish expansive force and impact force can be brought to pipeline at runtime.

But since existing thermal pipe is all by the fixed plate and heating power of two side semicircular in shape structures in support Conveyance conduit carries out comprehensive contact and realizes fixation, since the area that two fixed plates are contacted with heat transfer pipeline is larger, Heat transfer pipeline is fixed while support siphons away the heat of heat transfer pipeline, and energy loss is caused to lead to heat insulation effect It reduces, and it is all that heat transfer pipeline surface is fixed that existing heat distribution pipeline support is most of, junction all passes through Connector is connected and fixed, and fixed effect is poor.

Therefore, it is necessary to provide a kind of new heat transfer pipeline energy-saving support solution above-mentioned technical problem.

Summary of the invention

The technical problem to be solved by the present invention is to provide a kind of absorptions for reducing support to heat transfer pipeline heat, improve The heat insulation effect of heat transfer pipeline, it is energy saving, it can to the heat transfer pipeline section that heat distribution pipeline joint is fixed It can support.

In order to solve the above technical problems, heat transfer pipeline energy-saving support provided by the invention includes: upper cover plate, lower cover Plate, fixed mechanism, energy-saving mechanism, card slot, sealing mechanism and supporting mechanism, the fixed mechanism are set to the arc-shaped structure in side The upper cover plate, the arc-shaped structure in side the lower cover plate opposite flank, the upper cover plate and the lower cover plate pass through institute Fixed mechanism is stated to be fixedly connected；The energy-saving mechanism is installed on the inner sidewall of the upper cover plate, the lower cover plate, the energy-saving machine Structure includes fixed strip and severe dimension plate, the upper cover plate, the lower cover plate the relatively equidistant welded section of inner sidewall in being inverted loudspeaker The fixed strip of shape structure, the side positioned at the upper cover plate, several fixed strips of the lower cover plate inner sidewall are solid Surely the severe dimension plate of cross section structure triangular in shape is connected；The card slot is opened in the both ends of the upper cover plate, the lower cover The both ends of plate；The sealing mechanism is sticked in the card slot of the upper cover board ends, the sealing mechanism be sticked in it is described under The card slot at cover board both ends；The supporting mechanism is rotationally connected with the side wall of the lower cover plate.

Preferably, the fixed mechanism includes the first fixed plate, bolt and the second fixed plate, and the upper cover plate is close to described First fixed plate of the opposite welding arc-shaped structure in side in the side wall edge of lower cover plate, the lower cover plate is close to described the Second fixed plate of the opposite welding arc-shaped structure in side in the side wall edge of one fixed plate, first fixed plate and institute The second fixed plate is stated to be fixedly connected by several bolts.

Preferably, the sealing mechanism includes the first rubber slab, four retainer rings, the second rubber slab, latch, seal groove and four A snap ring, the inside of the card slot of the upper cover board ends are connected together snap ring described in two of them respectively, are located on described The retainer ring of arc-shaped structure is welded at the top of the snap ring of cover board one end, positioned at the card of the upper cover plate other end The retainer ring of the arc-shaped structure of the ground welding of ring, positioned at the fixed company of the inner sidewall of the retainer ring of the upper cover board ends Connect second rubber slab of arc-shaped structure, the ground edge of one of them second rubber slab and another described the The top surface edge of two rubber slabs is equipped with several latches in triangular prism shaped structure, described in the lower cover board ends The inside of card slot is connected together snap ring described in another two, and top, the bottom positioned at the snap ring of the lower cover board ends are opposite Retainer ring described in another two is welded, is fixedly connected with first rubber positioned at the inner sidewall of the retainer ring of the lower cover board ends Plate, wherein the top edge of first rubber slab, another first rubber slab bottom edge at open up it is described close Sealing groove, the latch are sticked in the inside of the seal groove.

Preferably, the supporting mechanism include fixing seat, shaft, connecting column, screw rod, attachment base, rotational pin, movable plate, And chassis, the welding fixing seat at the side wall half of the lower cover plate, the connecting column pass through shaft rotation company It is connected to the inside of the fixing seat, the bottom thread of the connecting column connects the screw rod, described in the bottom welding of the screw rod Attachment base, the movable plate of bottom opening are rotationally connected with the bottom of the attachment base by the rotational pin, and top is in arc The bottom welded section of the movable plate of shape structure is in the chassis of inverse-T-shaped structure.

Preferably, the inner sidewall that the width of first rubber slab and second rubber slab is greater than the retainer ring arrives The distance between the upper cover plate, described lower cover plate inner sidewall, the diameter phase of first rubber slab and second rubber slab Deng.

Preferably, the upper cover plate is equal with the internal diameter of the lower cover plate, and the fixing seat is to the lower cover board ends Be equidistant.

Compared with the relevant technologies, heat transfer pipeline energy-saving support provided by the invention is had the following beneficial effects:

The present invention provides a kind of heat transfer pipeline energy-saving support, and the side wall of the upper cover plate and the lower cover plate is in arc Shape structure, and the upper cover plate and the lower cover plate pass through cross after first fixed plate and second fixed plate fixation The rounded structure in section realizes the fixed support to two heat distribution pipeline joints, the upper cover plate and the lower cover plate Inner sidewall is equidistantly fixedly connected with the fixed strip, and the fixed strip is fixedly connected with cross section at three away from one end of the upper cover plate The severe dimension plate of angular structure, an another aspect reduce the area contacted with heat distribution pipeline, the loss of heat are avoided to cause The heat insulation effect of heat distribution pipeline reduces, energy saving.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of preferred embodiment of heat transfer pipeline energy-saving support provided by the invention；

Fig. 2 is upper cover plate shown in FIG. 1, lower cover plate, energy-saving mechanism connection schematic diagram；

Fig. 3 is the portion A shown in FIG. 1 enlarged diagram；

Fig. 4 is upper cover plate shown in Fig. 3, severe dimension plate and sealing mechanism connection schematic diagram.

Figure label: 1, upper cover plate, 2, lower cover plate, 3, card slot, 4, sealing mechanism, the 41, first rubber slab, 42, retainer ring, 43, the second rubber slab, 44, latch, 45, seal groove, 46, snap ring, 5, fixed mechanism, the 51, first fixed plate, 52, bolt, 53, Second fixed plate, 6, supporting mechanism, 61, fixing seat, 62, shaft, 63, connecting column, 64, screw rod, 65, attachment base, 66, rotation Pin, 67, movable plate, 68, chassis, 7, energy-saving mechanism, 71, fixed strip, 72, severe dimension plate.

Specific embodiment

The invention will be further described with embodiment with reference to the accompanying drawing.

Please refer to Fig. 1, Fig. 2, Fig. 3 and Fig. 4, wherein figure Fig. 1 is heat transfer pipeline energy-saving branch provided by the invention A kind of structural schematic diagram of preferred embodiment of seat；Fig. 2 is upper cover plate shown in FIG. 1, lower cover plate, energy-saving mechanism connection signal Figure；Fig. 3 is the portion A shown in FIG. 1 enlarged diagram；Fig. 4 is upper cover plate shown in Fig. 3, severe dimension plate and sealing mechanism connection signal Figure.Heat transfer pipeline energy-saving support includes: upper cover plate 1, lower cover plate 2, fixed mechanism 5, energy-saving mechanism 7, card slot 3, sealer Structure 4 and supporting mechanism 6, the upper cover plate 1 are fixedly connected with the lower cover plate 2 by the fixed mechanism 5, the energy-saving mechanism 7 are set to the inner sidewall of the upper cover plate 1 with the lower cover plate 2, the card slot 3 be opened in the upper cover plate 1 both ends, it is described under The both ends of cover board 2, the sealing mechanism 4 are sticked in the card slot 3 of the upper cover plate 1,2 both ends of the lower cover plate, the branch Support mechanism 6 is installed on the bottom of the lower cover plate 2.

In the specific implementation process, as depicted in figs. 1 and 2, the fixed mechanism 5 is set to the described of the arc-shaped structure in side Upper cover plate 1, the arc-shaped structure in side the lower cover plate 2 opposite flank, the upper cover plate 1 passes through institute with the lower cover plate 2 Fixed mechanism 5 is stated to be fixedly connected；The energy-saving mechanism 7 is installed on the inner sidewall of the upper cover plate 1, the lower cover plate 2, the section Energy mechanism 7 includes fixed strip 71 and severe dimension plate 72, the relatively equidistant welded section of inner sidewall of the upper cover plate 1, the lower cover plate 2 In be inverted flared structure the fixed strip 71, positioned at the upper cover plate 1,2 inner sidewall of the lower cover plate it is several described solid The side for determining item 71 is fixedly connected with the severe dimension plate 72 of cross section structure triangular in shape；The card slot 3 is opened on described The both ends of cover board 1, the lower cover plate 2 both ends；The sealing mechanism 4 is sticked in the card slot 3 at 1 both ends of upper cover plate, The sealing mechanism 4 is sticked in the card slot 3 at 2 both ends of lower cover plate；The supporting mechanism 6 is rotationally connected with the lower cover The side wall of plate 2.

With reference to shown in Fig. 1, Fig. 2 and Fig. 3, the fixed mechanism 5 includes the first fixed plate 51, bolt 52 and the second fixed plate 53, the upper cover plate 1 is fixed close to described the first of the opposite welding arc-shaped structure in side in the side wall edge of the lower cover plate 2 Plate 51, the lower cover plate 2 is close to described in the opposite welding arc-shaped structure in side in the side wall edge of first fixed plate 51 Second fixed plate 53, first fixed plate 51 are fixedly connected with second fixed plate 53 by several bolts 52, will First fixed plate 51 is opposite with second fixed plate 53 to contradict the package realized to heat distribution pipeline, passes through the bolt The fixation realized to heat distribution pipeline is fixed in 52 pairs of first fixed plates 51 and second fixed plate 53.

With reference to shown in Fig. 1, Fig. 3 and Fig. 4, the sealing mechanism 4 includes the first rubber slab 41, four retainer rings 42, the second rubbers The inside of offset plate 43, latch 44, seal groove 45 and four snap rings 46, the card slot 3 at 1 both ends of upper cover plate engages company respectively Snap ring 46 described in two of them are connect, the institute of arc-shaped structure is welded positioned at the top of the snap ring 46 of described 1 one end of upper cover plate Retainer ring 42 is stated, positioned at the retainer ring 42 of the arc-shaped structure of ground welding of the snap ring 46 of 1 other end of upper cover plate, position It is fixedly connected with second rubber slab 43 of arc-shaped structure in the inner sidewall of the retainer ring 42 at 1 both ends of upper cover plate, The ground edge of one of them second rubber slab 43 and the top surface edge of the second rubber slab 43 described in another are equipped with Several latches 44 in triangular prism shaped structure, the inside positioned at the card slot 3 at 2 both ends of lower cover plate are connected together separately Two snap rings 46, positioned at top, the bottom of the snap ring 46 at 2 both ends of lower cover plate, opposite weld is blocked described in another two Circle 42, the inner sidewall positioned at the retainer ring 42 at 2 both ends of lower cover plate is fixedly connected with first rubber slab 41, wherein institute It states the top edge of the first rubber slab 41, open up the seal groove at the bottom edge of another first rubber slab 41 45, the latch 44 is sticked in the inside of the seal groove 45, and the upper cover plate 1 will be described with the fixed completion of the lower cover plate 2 Snap ring 46 is sticked in the inside of the card slot 3, realizes first rubber slab 41, second rubber slab 43 to heat distribution pipeline With the sealing of the upper cover plate 1, the lower cover plate 2, by the inside that the latch 44 is sticked in the seal groove 45 realize by The connection of first rubber slab 41 and second rubber slab 43, avoids entering the wind.

Refering to what is shown in Fig. 1, the supporting mechanism 6 includes fixing seat 61, shaft 62, connecting column 63, screw rod 64, attachment base 65, rotational pin 66, movable plate 67 and chassis 68, the welding fixing seat 61, institute at the side wall half of the lower cover plate 2 The inside that connecting column 63 is rotationally connected with the fixing seat 61 by the shaft 62 is stated, the bottom thread of the connecting column 63 connects The screw rod 64 is connect, the attachment base 65 is welded in the bottom of the screw rod 64, and the movable plate 67 of bottom opening passes through described Rotational pin 66 is rotationally connected with the bottom of the attachment base 65, and the bottom welding of the movable plate 67 of the arc-shaped structure in top is cut Face is in the chassis 68 of inverse-T-shaped structure, rotates the screw rod 64 and realizes the height for adjusting and fixing to the lower cover plate 2, can The lower cover plate 2 is fixed according to different landform, thus fixed heat distribution pipeline.

With reference to shown in Fig. 1, Fig. 3 and Fig. 4, the width of first rubber slab 41 and second rubber slab 43 is greater than The inner sidewall of the retainer ring 42 is to the distance between the upper cover plate 1,2 inner sidewall of the lower cover plate, first rubber slab 41 It is equal with the diameter of second rubber slab 43, first rubber slab 41 and second rubber slab 43 are increased to thermal pipe The sealing in road, increases heat insulation effect.

Refering to what is shown in Fig. 1, the upper cover plate 1 is equal with the internal diameter of the lower cover plate 2, and the fixing seat 61 is under described 2 both ends of cover board are equidistant, and are made the fixing seat 61 to the support effect of the lower cover plate 2, are protected heat distribution pipeline.

The working principle of heat transfer pipeline energy-saving support provided by the invention is as follows:

The upper cover plate 1 and the lower cover plate 2 of the arc-shaped structure of side wall are sticked in two heat distribution pipelines relatively and connect first At head, the inside that first fixed plate 51 extends to second fixed plate 53 is connected with 52 fixed thread of bolt, it is real First fixed plate 51 is showed and the upper cover plate 1 is fixed on thermal pipe with the lower cover plate 2 with second fixed plate 53 The surface in road solves the drawback that two traditional heat distribution pipeline junctions can not be fixed, by the upper cover plate 1 with it is described under Positioned at the section structure triangular in shape of the upper cover plate 1 and 2 inner sidewall of lower cover plate while cover board 2 is fixed on heat distribution pipeline The severe dimension plate 72 heat distribution pipeline is contradicted, on the one hand realize the fixation to heat distribution pipeline, on the other hand reduce The area contacted with heat distribution pipeline avoids the loss of heat that the heat insulation effect of heat distribution pipeline is caused to reduce, energy saving；Then, The retainer ring 42 is sticked in the inside of four card slots 3 by the retainer ring 42, further realizes first rubber Offset plate 41 is bonded with second rubber slab 43 with the side wall of heat distribution pipeline, afterwards can some by the first rubber slab 41 and described the Two rubber slabs 43 are fixed together by the latch 44 with the seal groove 45, realize to be located at the upper cover plate 1 with The sealing of heat distribution pipeline between the lower cover plate 2, reduces the loss of heat；It will finally, rotating the screw rod 64 according to landform The chassis 68 is screwed in ground, due to passing through 62 turns of the shaft between the connecting column 63 and the lower cover plate 2 Dynamic connection, comprehensive the lower cover plate 2 can be fixed, to realize the fixed support to people's heat distribution pipeline.

Compared with the relevant technologies, heat transfer pipeline energy-saving support provided by the invention is had the following beneficial effects:

The present invention provides a kind of heat transfer pipeline energy-saving support, and the side wall of the upper cover plate 1 and the lower cover plate 2 is in Arcuate structure, and the upper cover plate 1 and the lower cover plate 2 pass through first fixed plate 51 and second fixed plate 53 Circular in cross-section structure after fixation, realizes the fixed support to two heat distribution pipeline joints, the upper cover plate 1 with it is described The inner sidewall of lower cover plate 2 is equidistantly fixedly connected with the fixed strip 71, and the fixed strip 71 is fixed away from one end of the upper cover plate 1 Cross section is connected into the severe dimension plate 72 of triangular structure, an another aspect reduces the area contacted with heat distribution pipeline, keeps away The loss for exempting from heat causes the heat insulation effect of heat distribution pipeline to reduce, energy saving.

The above description is only an embodiment of the present invention, is not intended to limit the scope of the invention, all to utilize this hair Equivalent structure or equivalent flow shift made by bright specification and accompanying drawing content is applied directly or indirectly in other relevant skills Art field, is included within the scope of the present invention.

Claims (6)

1. a kind of heat transfer pipeline energy-saving support characterized by comprising

Upper cover plate (1)；

Lower cover plate (2)；Fixed mechanism (5), the fixed mechanism (5) are set to the upper cover plate (1) of the arc-shaped structure in side, side The opposite flank of the lower cover plate (2) of the arc-shaped structure in face, the upper cover plate (1) pass through described solid with the lower cover plate (2) Determine mechanism (5) to be fixedly connected；

Energy-saving mechanism (7), the energy-saving mechanism (7) is installed on the inner sidewall of the upper cover plate (1), the lower cover plate (2), described Energy-saving mechanism (7) includes fixed strip (71) Ji Kewei plate (72), and the upper cover plate (1), the inner sidewall of the lower cover plate (2) are opposite Equidistant welded section is located at the upper cover plate (1), the lower cover plate (2) in the fixed strip (71) for being inverted flared structure The side of several fixed strips (71) of inner sidewall is fixedly connected with the severe dimension plate (72) of cross section structure triangular in shape；

Card slot (3), the card slot (3) are opened in the both ends at the both ends of the upper cover plate (1), the lower cover plate (2)；

Sealing mechanism (4), the sealing mechanism (4) are sticked in the card slot (3) at the upper cover plate (1) both ends, the sealing Mechanism (4) is sticked in the card slot (3) at the lower cover plate (2) both ends；

Supporting mechanism (6), the supporting mechanism (6) are rotationally connected with the side wall of the lower cover plate (2).

2. heat transfer pipeline energy-saving support according to claim 1, which is characterized in that the fixed mechanism (5) includes First fixed plate (51), bolt (52) and the second fixed plate (53), side wall of the upper cover plate (1) close to the lower cover plate (2) First fixed plate (51) of the opposite welding arc-shaped structure in side in edge, the lower cover plate (2) are solid close to described first Second fixed plate (53) of the opposite welding arc-shaped structure in side in the side wall edge of fixed board (51), first fixed plate (51) it is fixedly connected with second fixed plate (53) by several bolts (52).

3. heat transfer pipeline energy-saving support according to claim 1, which is characterized in that the sealing mechanism (4) includes First rubber slab (41), four retainer rings (42), the second rubber slab (43), latch (44), seal groove (45) and four snap rings (46), The inside of the card slot (3) at upper cover plate (1) both ends is connected together snap ring described in two of them (46) respectively, is located at described The retainer ring (42) of arc-shaped structure is welded at the top of the snap ring (46) of upper cover plate (1) one end, is located at the upper cover plate (1) retainer ring (42) of the arc-shaped structure of ground welding of the snap ring (46) of the other end is located at the upper cover plate (1) two The inner sidewall of the retainer ring (42) at end is fixedly connected with second rubber slab (43) of arc-shaped structure, described in one of them It is in three that the ground edge of second rubber slab (43) and the top surface edge of another second rubber slab (43), which are equipped with several, The latch (44) of prismatic structures, the inside for being located at the card slot (3) at the lower cover plate (2) both ends are connected together another two A snap ring (46) is located at the opposite welding another two institute in top, bottom of the snap ring (46) at the lower cover plate (2) both ends Retainer ring (42) are stated, the inner sidewall for being located at the retainer ring (42) at the lower cover plate (2) both ends is fixedly connected with first rubber Plate (41), wherein the bottom edge of the top edge of first rubber slab (41), another first rubber slab (41) Place opens up the seal groove (45), and the latch (44) is sticked in the inside of the seal groove (45).

4. heat transfer pipeline energy-saving support according to claim 1, which is characterized in that the supporting mechanism (6) includes Fixing seat (61), shaft (62), connecting column (63), screw rod (64), attachment base (65), rotational pin (66), movable plate (67) and bottom Disk (68), the welding fixing seat (61) at the side wall half of the lower cover plate (2), the connecting column (63) passes through described Shaft (62) is rotationally connected with the inside of the fixing seat (61), and the bottom thread of the connecting column (63) connects the screw rod (64), the attachment base (65) is welded in the bottom of the screw rod (64), and the movable plate (67) of bottom opening is turned by described Dynamic pin (66) is rotationally connected with the bottom of the attachment base (65), the bottom weldering of the movable plate (67) of the arc-shaped structure in top Connect the chassis (68) that section is in inverse-T-shaped structure.

5. heat transfer pipeline energy-saving support according to claim 3, which is characterized in that first rubber slab (41) with the width of second rubber slab (43) be greater than the retainer ring (42) inner sidewall to the upper cover plate (1), it is described under The distance between cover board (2) inner sidewall, first rubber slab (41) are equal with the diameter of second rubber slab (43).

6. heat transfer pipeline energy-saving support according to claim 4, which is characterized in that the upper cover plate (1) with it is described The internal diameter of lower cover plate (2) is equal, and the fixing seat (61) being equidistant to the lower cover plate (2) both ends.