CN210772189U

CN210772189U - Elasticity compensation type incinerator

Info

Publication number: CN210772189U
Application number: CN201921531250.2U
Authority: CN
Inventors: 马明硕
Original assignee: Jilin Institute of Chemical Technology
Current assignee: Jilin Institute of Chemical Technology
Priority date: 2019-09-16
Filing date: 2019-09-16
Publication date: 2020-06-16
Anticipated expiration: 2029-09-16

Abstract

An elastic compensation type incinerator comprises a first connecting plate, a second connecting plate, an elastic abutting assembly, an external connecting sleeve and a locking mechanism; the utility model discloses add elasticity butt subassembly, support through in the elasticity butt subassembly and press the elastomer to carry out elasticity to supporting the clamp plate and support and press, make the both sides that support the clamp plate remain throughout and carry out inseparable laminating with the lateral wall of first connecting plate and second connecting plate and be connected, when so first connecting plate and second connecting plate both sides clearance grow, support and press the both sides that the elastomer can drive at any time and support the clamp plate and remain throughout and carry out inseparable laminating with the lateral wall of first connecting plate and second connecting plate and be connected, so accomplish anastomotic elasticity compensation, it is inseparabler to connect.

Description

Elasticity compensation type incinerator

Technical Field

The utility model relates to an elasticity compensation type incinerator.

Background

At present, an incinerator is generally used for high-temperature incineration, great requirements are made on fire prevention and high-temperature resistance of the incinerator, and research on materials tends to be mature, but the structure of the incinerator is improved, the incinerator is of an integral structure and is generally integrally cast, the incinerator cannot be disassembled, inconvenience is brought to overhaul, and the casting mode is long in time, high in cost and low in efficiency; however, although the splicing type incinerator has the advantages of fast splicing on site, high working efficiency, convenient transportation and the like, gaps and deformation can be generated between the splicing parts of the incinerator once the incinerator is used for a long time, so that the inosculation between the splicing parts is poor.

Disclosure of Invention

To the weak point of above-mentioned prior art, the utility model provides a problem do: provided is an elastic force compensation type incinerator which can maintain good conformity for a long time.

In order to solve the above problem, the utility model discloses the technical scheme who takes as follows:

an elastic compensation type incinerator comprises a first connecting plate, a second connecting plate, an elastic abutting assembly, an external connecting sleeve and a locking mechanism; the first connecting plate and the second connecting plate are both arc-shaped structures; the first connecting plate and the second connecting plate are arranged in parallel relatively and form a hoop structure; the external connecting sleeve is sleeved on the outer sides of the peripheries of the first connecting plate and the second connecting plate; abutting gaps are respectively arranged between the left side and the right side of the first connecting plate and the second connecting plate; the elastic abutting assembly comprises an abutting plate, a heat insulation plate, a positioning column and an abutting elastic body; abutting pressing plates are respectively attached and installed in abutting gaps on two sides of the first connecting plate and the second connecting plate; two sides of the pressing plate are respectively attached and pressed on the side parts of the first connecting plate and the second connecting plate; the outer sides of the pressing plates are respectively provided with a heat insulation plate; a plurality of positioning columns are arranged inside the left side and the right side of the external connecting sleeve from top to bottom; the positioning columns are respectively sleeved with abutting elastic bodies; one end of the abutting elastomer elastically abuts against the inner wall of the external connecting sleeve, and the other end of the abutting elastomer elastically abuts against the outer side face of the heat insulation plate; the locking mechanism further comprises a clamping plate; clamping grooves are respectively formed in the outer parts of the front side and the rear side of the first connecting plate and the second connecting plate; one clamping plate is respectively clamped in the clamping grooves in a sliding manner; the outer end of the clamping plate is connected to the external connecting sleeve.

Furthermore, the locking mechanism also comprises a movable screw rod and a locking nut; the front side and the rear side of the external connecting sleeve are respectively provided with a plurality of through holes from top to bottom; the outer side of the clamping plate is fixedly connected with a transition plate; a plurality of movable screw rods are respectively arranged on the outer side of the transition plate from top to bottom; the movable screws distributed from top to bottom outside the transition plate respectively correspondingly penetrate through the through holes distributed from top to bottom of the external connecting sleeve; the outer ends of the movable screw rods are respectively in threaded rotary connection with a locking nut; the locking nut is rotationally pressed on the outer side surface of the external connecting sleeve.

Furthermore, a plurality of connecting threaded holes are respectively formed in the outer side of the transition plate from top to bottom; the movable screw is in threaded rotary connection with the connecting threaded hole.

Furthermore, the cross-sections of the clamping groove and the clamping plate are both in T-shaped structures.

Further, the first connecting plate and the second connecting plate are made of high-aluminum refractory materials.

Further, the pressing plate is made of a nickel-based alloy material.

Furthermore, the abutting elastic body is made of a titanium alloy material.

The beneficial effects of the utility model

1. The utility model discloses add elasticity butt subassembly, support through in the elasticity butt subassembly and press the elastomer to carry out elasticity to supporting the clamp plate and support and press, make the both sides that support the clamp plate remain throughout and carry out inseparable laminating with the lateral wall of first connecting plate and second connecting plate and be connected, when so first connecting plate and second connecting plate both sides clearance grow, support and press the both sides that the elastomer can drive at any time and support the clamp plate and remain throughout and carry out inseparable laminating with the lateral wall of first connecting plate and second connecting plate and be connected, so accomplish anastomotic elasticity compensation, it is inseparabler to connect.

2. The utility model discloses the joint board carries out cross-under locking through the removal screw rod that the outside distributes on the cross-under hole of outside adapter sleeve and connects, and the structure is firm, and not only so, accessible remove the screw rod and carry out the first connecting plate and the second connecting plate that the back-and-forth movement so can the different curvature radius size of adaptation on the cross-under hole of outside adapter sleeve, use more in a flexible way.

Drawings

Fig. 1 is a schematic top view of the present invention.

Fig. 2 is a schematic view of the three-dimensional structure of the clamping plate, the transition plate and the movable screw rod of the present invention.

Fig. 3 is a schematic structural view of the through holes on the external connection sleeve.

Figure 4 is an enlarged schematic view of the resilient abutment assembly.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 4, an elasticity compensation type incinerator includes a first connection plate 1, a second connection plate 2, an elastic abutting assembly 3, an external connection sleeve 5, and a locking mechanism 4. The first connecting plate 1 and the second connecting plate 2 are both arc-shaped structures; the first connecting plate 1 and the second connecting plate 2 are arranged in parallel relatively and form a hoop structure; the external connecting sleeve 5 is sleeved on the outer sides of the peripheries of the first connecting plate 1 and the second connecting plate 2; pressing gaps 6 are respectively arranged between the left side and the right side of the first connecting plate 1 and the second connecting plate 2; the elastic abutting assembly 3 comprises an abutting plate 34, a heat insulation plate 33, a positioning column 31 and an abutting elastic body 32; abutting pressing plates 34 are respectively attached and installed in the abutting gaps 6 on the two sides of the first connecting plate 1 and the second connecting plate 2; the two sides of the pressing plate 34 are respectively attached to and pressed against the side parts of the first connecting plate 1 and the second connecting plate 2; the outer sides of the abutting plates 34 are respectively provided with a heat insulation plate 33; a plurality of positioning columns 31 are arranged inside the left side and the right side of the external connecting sleeve 5 from top to bottom; the positioning columns 31 are respectively sleeved with abutting elastic bodies 32; one end of the abutting elastic body 32 elastically abuts against the inner wall of the external connecting sleeve 5, and the other end elastically abuts against the outer side surface of the heat insulation plate 33; the locking mechanism 4 further comprises a clamping plate 44; clamping grooves 21 are respectively formed in the outer parts of the front side and the rear side of the first connecting plate 1 and the second connecting plate 2; one clamping plate 44 is respectively clamped in the clamping grooves 21 in a sliding manner; the outer end of the clamping plate 44 is connected to the outer connecting sleeve 5.

As shown in fig. 1 to 4, it is further preferable that the locking mechanism 4 further includes a moving screw 41 and a locking nut 42; the front side and the rear side of the external connecting sleeve 5 are respectively provided with a plurality of through holes 51 from top to bottom; the transition plate 43 is fixedly connected to the outer side of the clamping plate 44; a plurality of movable screws 41 are respectively arranged on the outer side of the transition plate 43 from top to bottom; the movable screws 41 distributed from top to bottom outside the transition plate 43 respectively and correspondingly penetrate through the through holes 51 distributed from top to bottom outside the external connecting sleeve 5; the outer ends of the movable screw rods 41 are respectively in threaded rotary connection with locking nuts 42; the locking nut 42 is rotatably pressed against the outer side surface of the outer connecting sleeve 5. Furthermore, a plurality of connection threaded holes are respectively arranged on the outer side of the transition plate 43 from top to bottom; the movable screw rod 41 is connected with the connecting threaded hole in a threaded and rotating manner. Further, the cross sections of the clamping groove 21 and the clamping plate 44 are both in a T-shaped structure. Further, the first connecting plate 1 and the second connecting plate 2 are made of high-alumina refractory material. Further, the pressing plate 34 is made of a nickel-based alloy material. Further, the pressing elastic body 32 is made of a titanium alloy material.

The utility model discloses elasticity butt subassembly 3 has been add, support through among the elasticity butt subassembly 3 and press elastomer 32 to carry out elasticity to supporting clamp plate 34 and support and press, make the both sides that support clamp plate 34 remain throughout and carry out inseparable laminating with the lateral wall of first connecting plate 1 and second connecting plate 2 and be connected, so when first connecting plate 1 and 2 both sides of second connecting plate support and press 6 grow in clearance, support and press elastomer 32 can drive the both sides that support clamp plate 34 throughout and keep carrying out inseparable laminating with the lateral wall of first connecting plate 1 and second connecting plate 2 and be connected, so accomplish the elasticity compensation of coincide nature, it is inseparabler to connect. The utility model discloses the removal screw rod 41 that joint board 44 distributes through the outside carries out cross-under locking on the cross-under hole 51 of outside adapter sleeve and connects, and the structure is firm, and moreover, accessible removes screw rod 41 and carries out the back-and-forth movement so can the different curvature radius size of adaptation first connecting plate 1 and second connecting plate 2 on the cross-under hole 51 of outside adapter sleeve 5, uses more flexibility. The utility model discloses first connecting plate 1 is the same with second connecting plate 2's structure.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An elastic compensation type incinerator is characterized by comprising a first connecting plate, a second connecting plate, an elastic abutting component, an external connecting sleeve and a locking mechanism; the first connecting plate and the second connecting plate are both arc-shaped structures; the first connecting plate and the second connecting plate are arranged in parallel relatively and form a hoop structure; the external connecting sleeve is sleeved on the outer sides of the peripheries of the first connecting plate and the second connecting plate; abutting gaps are respectively arranged between the left side and the right side of the first connecting plate and the second connecting plate; the elastic abutting assembly comprises an abutting plate, a heat insulation plate, a positioning column and an abutting elastic body; abutting pressing plates are respectively attached and installed in abutting gaps on two sides of the first connecting plate and the second connecting plate; two sides of the pressing plate are respectively attached and pressed on the side parts of the first connecting plate and the second connecting plate; the outer sides of the pressing plates are respectively provided with a heat insulation plate; a plurality of positioning columns are arranged inside the left side and the right side of the external connecting sleeve from top to bottom; the positioning columns are respectively sleeved with abutting elastic bodies; one end of the abutting elastomer elastically abuts against the inner wall of the external connecting sleeve, and the other end of the abutting elastomer elastically abuts against the outer side face of the heat insulation plate; the locking mechanism further comprises a clamping plate; clamping grooves are respectively formed in the outer parts of the front side and the rear side of the first connecting plate and the second connecting plate; one clamping plate is respectively clamped in the clamping grooves in a sliding manner; the outer end of the clamping plate is connected to the external connecting sleeve.

2. The elasticity compensated incinerator of claim 1 wherein said locking mechanism further includes a moving screw and a locking nut; the front side and the rear side of the external connecting sleeve are respectively provided with a plurality of through holes from top to bottom; the outer side of the clamping plate is fixedly connected with a transition plate; a plurality of movable screw rods are respectively arranged on the outer side of the transition plate from top to bottom; the movable screws distributed from top to bottom outside the transition plate respectively correspondingly penetrate through the through holes distributed from top to bottom of the external connecting sleeve; the outer ends of the movable screw rods are respectively in threaded rotary connection with a locking nut; the locking nut is rotationally pressed on the outer side surface of the external connecting sleeve.

3. The incinerator of claim 2, wherein the transition plate is provided with a plurality of connecting screw holes from top to bottom; the movable screw is in threaded rotary connection with the connecting threaded hole.

4. The incinerator of claim 2, wherein the clip groove and the clip plate are T-shaped in cross section.

5. The incinerator of claim 1, wherein the first and second connection plates are made of high alumina refractory.

6. The incinerator of claim 1, wherein the pressure plate is made of a nickel-based alloy material.

7. The incinerator of claim 1, wherein the compression elastomer is made of titanium alloy material.