CN201014055Y - Energy conservation type pipe bracket and mold set for heat insulation course molding - Google Patents

Abstract

The utility model relates to an energy-saving tube support and a tire mold molded by an insulating layer of the tube support. The tube comprises an upper motherboard, the insulating layer, strengthen bending nails and an upper sliding component, wherein, the base of the upper sliding is arranged on the pipe rack, forming a friction pair with thereof; the insulating layer is a composite thermal insulating material, and the upper motherboard, the insulating layer and the upper sliding component are adhered and connected together. The strengthen bending nails are fixed on the upper motherboard and/or the upper sliding component, scattered in the insulating layer and alternatively permuted; the tube support structure is characterized by simple structure, low cost and thermal insulation together with active sliding, and is widely applied. The tire mold comprises a cover board, a unit apparatus of the cover board and a fixed apparatus of the motherboard of the tube support, and the tire mold has the advantages of strong currency, easy fixation, and labor and material conservation, thereby further reducing the production cost of the tube support. The utility model can be widely applied to the suspension of a plurality of pipelines for transmitting cold and hot mediums.

Description

The loose tool tool of energy-saving conduit saddle and thermal-protective coating moulding thereof

Technical field

The utility model relates to conduit saddle, relates in particular to a kind of conduit saddle flexibly that is incubated and slides.

Background technique

Existing conduit saddle is described in 90222764.5, and this patent needs the more expensive heat insulation cushion cover of price, and the manufacturing process complexity; And for example described in 02253707.4, this patent needs the bottom that square chest, waste material are arranged.Above-mentioned two kinds of structures exist following deficiency again simultaneously: 1, vibration may cause bolt looseness.2, thermal-protective coating is not a metallic material after all, and is frangible when being subjected to radial force big.These will certainly bring potential safety hazard.

On the other hand, because the difference of line size, the difference that piping displacement requires also varies the size of conduit saddle upper plate, causes the length and width size of thermal-protective coating also to be not quite similar.So, the shaping operation of thermal-protective coating just needs to make the loose tool tool of many specifications, and a kind of thermal-protective coating demand of specification is when big, and the loose tool tool has lacked and had influence on manufacturing schedule, thereby needs to make many covers again for this reason, thereby causes the raising of cost.

Summary of the invention

In view of the above-mentioned defective of existing in prior technology, the utility model is intended to propose that a kind of structure is simpler, material is more saved, cost is cheaper and have the heat-insulation and heat-preservation function and have the conduit saddle of the flexible characteristics of sliding concurrently and have the loose tool tool of thermal-protective coating moulding of the conduit saddle of good versatility and convenient fixing.

Technical solution of the present utility model is achieved in that

A kind of energy-saving conduit saddle comprises the conduit saddle upper plate, it is characterized in that also comprising thermal-protective coating, strengthens curved nail, goes up slider; The described slider bar of going up forms a friction pair with pipe support on pipe support; Described thermal-protective coating is a compound insulating material, and upper plate, thermal-protective coating will be integral with last slider; The curved nail of described reinforcement is fixed in upper plate and/or goes up on the slider, intersperses among in the thermal-protective coating, and is staggered.

In order to increase the bearing capacity of thermal-protective coating, fixed slide plate on the slider on described, slide plate top is welded with strengthens curved nail, strengthens curved nail and intersperses among in the thermal-protective coating, and be staggered with the curved nail of reinforcement on the upper plate;

Same, described upper plate lower central is fixed with cross plate.

Described slide plate is a grooved.

For reducing friction, on pipe support, be fixed with fixed plate, install the downslide moving part on the fixed plate, last slider and downslide moving part form a friction pair.

Described upward slider and slide plate or downslide moving part and fixed plate are integrative-structures, promptly respectively at the lower surface of slide plate and/or the compound slider of upper surface of fixed plate, described slider all is a polyfluortetraethylene plate, perhaps one is polyfluortetraethylene plate, and another is the mirror finished stainless steel plate.

For radially spacing conduit saddle, also comprise two groups of bounding meanss, every group of bounding means comprises 1 riser and 1～2 reinforcement gusset, and gusset is positioned at the outside of riser and is one with the riser weldering, and two groups of bounding meanss are fixed on pipe support or the fixed plate; The central axes of described riser and pipeline, be symmetrically distributed in the both sides of central shaft, the both sides of upper plate or slide plate and and upper plate or slide plate between gapped, when the stressed generation radial displacement of pipeline, riser forms friction pair with upper plate or slide plate respectively.

For safety, described conduit saddle also comprise be positioned at upper plate lower central position and perpendicular to upper plate vertically with the steel plate of the staggered welding of vertical axial, described steel plate is positioned at the inside of thermal-protective coating and bonds together with thermal-protective coating.In the case, radially bounding means can form friction pair with the grooved slide plate.

A kind of forming moulding bed tool of making described conduit saddle thermal-protective coating is characterized in that it comprises coaming plate, coaming plate composite set; Described coaming plate composite set comprises the fixedly frid that is positioned at the vertical welding with coaming plate of coaming plate one end and the fixed plate of split; The band of a coaming plate is fixing vertical placement the in relevant position of frid end of nothing of frid end and another coaming plate fixedly, and with bolt and nut described fixed plate is pressed into the vertical fixing that fixed groove forms two coaming plates; Four coaming plates in twos as above-mentioned method screw thread be fixedly connected and form one and enclose frame;

Described loose tool tool also comprises conduit saddle upper plate fixing device, and described fixing device comprises the fixing frame that is formed by the pressure strip of band screw and gusset welding, the clamping plate of band screw and the backing plate of tying with the clamping plate weldering; Described backing plate is close with conduit saddle upper plate thickness; Before the pouring heat insulating layer, pressure strip and clamping plate sandwich conduit saddle upper plate, three's bolted on connection, backing plate are sandwiched between clamping plate and the pressure strip and the corresponding outside of conduit saddle upper plate.

The offside of relative screw is fixedly connected with the torsional stop that welds with clamping plate on the described clamping plate.

The outside of described coaming plate is welded with positioning plate, and the lower end of described positioning plate protrudes in the coaming plate lower edge.

Described coaming plate is a plastic board, preferably polyfluortetraethylene plate; Also the metal coaming plate be can adopt, then one deck plastic board, preferably polyfluortetraethylene plate are stained with in the inboard of metal coaming plate.

Compared with prior art, the beneficial effects of the utility model are conspicuous: energy-conservation conduit saddle disclosed in this invention has insulation and slip flexible characteristic concurrently, and it is simple in structure, material is saved, with low cost, be applicable to a usefulness of hanging of carrying cold and hot medium pipeline, it is not only applicable to horizontal pipeline, is equally applicable to standpipe and bend pipe.The forming moulding bed tool highly versatile of disclosed conduit saddle thermal-protective coating, convenient fixing, labor and material saving, thus cost of production is reduced greatly.

Description of drawings

9 in the utility model accompanying drawing, wherein

Fig. 1 is the structural representation of existing conduit saddle commonly used;

Fig. 2 is the structural representation of embodiment 1 sliding-type conduit saddle I of the present utility model;

Fig. 3 is the structural representation of embodiment 2 sliding-type conduit saddle II of the present utility model;

Fig. 4 is the structural representation of the radially limit-type conduit saddle I of embodiment 3 of the present utility model;

Fig. 5 is the structural representation of the radially limit-type conduit saddle II of embodiment 4 of the present utility model;

Fig. 6 is the plan view of the loose tool tool of conduit saddle thermal-protective coating moulding;

Fig. 7 is the plan view of Fig. 6.

Among the figure, 1, the steel plate of vertical axial under vertically the steel plate 12, upper plate under conduit saddle upper plate 2, thermal-protective coating 3, the reinforcement gusset 11 of strengthening curved nail 4, slide plate 5, the riser 10 of going up slider 6, downslide moving part 7, fixed plate 8, pipe support 9, bounding means, bounding means, the upper plate;

13, coaming plate 14, fixedly frid 15, fixed plate 16, gusset 17, pressure strip 18, clamping plate 19, torsional stop 20, backing plate 21, positioning plate 22, plastic board 23, cross plate.

Embodiment

Now in conjunction with the accompanying drawings the utility model is further described:

Embodiment 1: sliding-type conduit saddle I

As shown in Figure 2, described sliding-type conduit saddle I by the thermal-protective coating under conduit saddle upper plate 1, the upper plate 2, go up slider 5, constitute with 3 of the curved nails of conduit saddle upper plate welding.Described conduit saddle upper plate, thermal-protective coating and go up the slider three and be connected as a single entity, thermal-protective coating is a composite heat-insulating layer, and last slider is a corrosion resistant plate, and then it was gone up welding and bent and follow closely 3 this moment, and was staggered with curved nail on the upper plate; Last slider also can be a teflon.Last slider 5 directly constitutes friction pair with pipe support 8.

Embodiment 2: sliding-type conduit saddle II

As shown in Figure 3, described another kind of sliding-type conduit saddle II is on the basis of above-mentioned sliding-type conduit saddle I, increased the fixed plate 7 that links with pipe support 8 on the pipe support 8 and on fixed plate 7 with the downslide moving part 6 that fixedly links.Slider 5 and 6 constitutes friction pairs, is the bearing capacity that increases thermal-protective coating, in the lower central fixed-site of upper plate cross plate is arranged, and increase certain thickness slide plate 4 on slider 5, has curved nail 3 on the slide plate 4.Slide plate 4 fixes with the welding all around of last slider 5 or adhesion is fixed.Slider 5 and 6 can all be a polyfluortetraethylene plate, can also be a polyfluortetraethylene plate, and another is the mirror finished stainless steel plate.When can adopting the form of the compound one of steel plate during for corrosion resistant plate, slider substitutes slide plate 4 and the last slider 5 that split production connects firmly again, and same, can adopt the form of the compound one of steel plate to substitute split production and fixed plate 7 that connects firmly and downslide moving part 6.Curved nail 3 on upper plate 1 and the slide plate 4 is staggeredly arranged.The thermal-protective coating of being made by compound insulating material 2 is cast into one with base plate 1, slide plate 4, curved nail 3.This is a kind of insulation that is applicable to, pipeline axial and the conduit saddle of slip is radially all arranged.

Embodiment 3: radially limit-type conduit saddle I

Be the conduit saddle that radially spacing requirement is arranged as shown in Figure 4.Can establish 2 groups of bounding meanss (fastener) in the position near conduit saddle base plate 1 in conduit saddle upper plate 1 both sides, be welded by 1 riser 9 and 1～2 reinforcement gusset 10, be fixed on the pipe support 8 or be welded on the fixed plate 7, the upper end of this bounding means exceeds suitable height than conduit saddle upper plate 1.At this moment, slide plate 5 is narrower than conduit saddle upper plate 1.

Embodiment 4: radially limit-type conduit saddle II

Be the another kind of limit method that the conduit saddle of radially spacing requirement is arranged as shown in Figure 5, adopt and embodiment 3 described in bounding means each fixes one near the both sides of grooved slide plate 4 with the bounding means of spline structure, means of fixation is with embodiment's 3 bounding meanss.In the bigger occasion of radial force, can be in 1 time center portion of conduit saddle base plate perpendicular to this conduit saddle upper plate 1 lower central position perpendicular to upper plate vertically with the steel plate 12,13 of the staggered welding of vertical axial; This moment, the height of bounding means can shorten, and the width of grooved slide plate 4 should be greater than conduit saddle upper plate 1, and this moment, bounding means and grooved slide plate formed a friction pair.

The utility model is equally applicable to the suspension and support of standpipe and elbow form.

Specifying of the loose tool tool of thermal-protective coating moulding described in the utility model is as follows:

Fig. 6 and shown in Figure 7 is the structural representation of described loose tool tool: it by with level four coaming plates 13 of thermal-protective coating, interconnect and form with 14, four fixed plates 15 of fixedly frid of coaming plate 13 vertical welding and corresponding bolts, nut, pad.Fixedly the groove depth of frid 14 should be less than the thickness of coaming plate 13.

When adopting the vibration casting, for fixing, be welded with in the outside of every block of coaming plate 13 and be used for the loose tool tool and be fixed to two gussets 16 and a pressure strip 17 on the conduit saddle upper plate 1, pressure strip is welded to two gussets and coaming plate and forms fixing frame, below pressure strip 17, be provided with split clamping plate 18.Have bolt hole on pressure strip 17 and the clamping plate 18, be welded with the backing plate 20 identical or close with conduit saddle base plate 1 thickness on the clamping plate 18, during use, conduit saddle is inverted, conduit saddle upper plate 1 inserts between pressure strip 17 and the clamping plate 18.Backing plate 20 is placed the outside, tighten the bolt on it then, nut and pad can be realized fixing.

For quick location, can be welded with one in the outside of 4 coaming plates 13 to several positioning plates 21, this positioning plate 21 directly is attached to getting final product of conduit saddle upper plate 1 all around during use.

Construction for convenience prevents clamping plate 18 rotations, is welded with torsional stop 19 outside the bolt hole on every clamping plate 18.This torsional stop 19 leaves suitable gap near a side of coaming plate 13, and the thickness of torsional stop 19 is slightly less than backing plate 20.

In order to improve the degree of finish after thermal-protective coating 2 moulding, coaming plate 13 can adopt plastic board, polyfluortetraethylene plate preferably, if adopt sheet metal, and can be at the sticking one deck plastic board 22 in the inboard of coaming plate 13, preferably adhesive aggregation tetrafluoroethylene plate.

In order to be applicable to wideer scope, fixing frame is answered the Off center welding.

Make several groups of requirements that can satisfy all size that vary in size on complying with.

Claims (13)

1. an energy-saving conduit saddle comprises conduit saddle upper plate (1), it is characterized in that also comprising thermal-protective coating (2), strengthens curved nail (3), goes up slider (5); Described slider (5) seat of going up forms a friction pair with pipe support (8) on pipe support (8); Described thermal-protective coating (2) is a compound insulating material, and upper plate, thermal-protective coating and last slider fuse; The curved nail of described reinforcement (3) is fixed in upper plate and/or goes up on the slider, intersperses among in the thermal-protective coating (2), and is staggered.

2. energy-saving conduit saddle according to claim 1, it is characterized in that slide plate (4) is arranged on last slider (5), slide plate (4) and last slider (5) fixed connection, slide plate (4) top is welded with strengthens curved nail (3), strengthen curved nail and intersperse among in the thermal-protective coating, and be staggered with the curved nail of reinforcement on the upper plate.

3. energy-saving conduit saddle according to claim 2 is characterized in that described upper plate (1) lower central is fixed with cross plate (23).

4. energy-saving conduit saddle according to claim 2 is characterized in that described slide plate is a grooved.

5. according to claim 1,2 or 3 described energy-saving conduit saddles, it is characterized in that being fixed with fixed plate (7) on the pipe support (8), install downslide moving part (6) on the fixed plate (7), downslide moving part (6) forms a friction pair with last slider (5).

6. energy-saving conduit saddle according to claim 5, it is characterized in that the described slider (5) of going up is integrative-structure with slide plate (4) or downslide moving part (6) with fixed plate (7), promptly respectively at the lower surface of slide plate (4) and/or the compound slider of upper surface (5 or 6) of fixed plate (7), described slider all is a polyfluortetraethylene plate, perhaps one is polyfluortetraethylene plate, and another is the mirror finished stainless steel plate.

7. according to claim 1,2,3 or 4 described energy-saving conduit saddles, it is characterized in that also comprising two groups of bounding meanss, every group of bounding means comprises 1 riser (9) and 1～2 reinforcement gusset (10), gusset is positioned at the outside of riser and is one with the riser weldering, and two groups of bounding meanss are fixed on pipe support (8) or the fixed plate (7); The central axes of described riser and pipeline, be symmetrically distributed in the both sides of central shaft, be positioned at upper plate (1) or slide plate (4) both sides and and upper plate or slide plate between gapped, when the stressed generation radial displacement of pipeline, riser forms friction pair with upper plate (1) or slide plate (4) respectively.

8. energy-saving conduit saddle according to claim 7, it is characterized in that also comprising be positioned at upper plate lower central position and perpendicular to upper plate vertically with the steel plate (11 of the staggered welding of vertical axial, 12), described steel plate is positioned at the inside of thermal-protective coating and bonds together with thermal-protective coating.

9. a forming moulding bed tool of making conduit saddle thermal-protective coating as claimed in claim 1 is characterized in that it comprises coaming plate (13), coaming plate composite set;

Described coaming plate composite set comprises the fixedly frid (14) that is positioned at the vertical welding with coaming plate of coaming plate one end and the fixed plate (15) of split; The band of a coaming plate is fixing vertical placement the in relevant position of frid end of nothing of frid end and another coaming plate fixedly, and with bolt and nut described fixed plate is pressed into the vertical fixing that fixed groove forms two coaming plates; Four coaming plates in twos as above-mentioned method screw thread be fixedly connected and form one and enclose frame.

10. loose tool tool according to claim 9, it is characterized in that also comprising conduit saddle upper plate fixing device, described fixing device comprises the fixing frame that is formed by the pressure strip (17) of band screw and gusset (16) welding, the clamping plate (18) of band screw and the backing plate of tying with the clamping plate weldering (20); Described backing plate (20) is close with conduit saddle upper plate (1) thickness; Before the pouring heat insulating layer, pressure strip and clamping plate sandwich conduit saddle upper plate, three's bolted on connection, backing plate are sandwiched between clamping plate and the pressure strip and the corresponding outside of conduit saddle upper plate.

11. loose tool tool according to claim 10 is characterized in that the offside of the last relative screw of described clamping plate (18) is fixedly connected with the torsional stop (19) that welds with clamping plate.

12. according to claim 9,10 or 11 described loose tool tools, it is characterized in that the outside of described coaming plate is welded with positioning plate (21), the lower end of described positioning plate (21) protrudes in coaming plate (13) lower edge.

13., it is characterized in that described coaming plate is the metal coaming plate, and be stained with one deck plastic board (22) in the inboard of metal coaming plate according to claim 9,10 or 11 described loose tool tools.

Images