CN220972769U - Energy-saving material curing device - Google Patents

Abstract

The application relates to the technical field of energy-saving material maintenance, in particular to an energy-saving material maintenance device, which can carry out placing maintenance operation on energy-saving material test blocks with different sizes through the arrangement of an adjusting mechanism, is convenient for the placing operation of the energy-saving material test blocks through the matching of a sliding component, reduces the labor intensity of staff, prevents the energy-saving material test blocks from displacement during the maintenance operation through the operation of a limiting mechanism, influences the maintenance effect, improves the working efficiency and has higher practicability; the top of curing case has been seted up the gas vent, and it has the chamber door to articulate on the curing case, and the symmetry has been seted up a plurality of T type grooves on the curing case, and the equal fixed mounting in both ends of every placement plate has T type piece, every T type piece respectively with a plurality of T type groove sliding connection, all be provided with adjustment mechanism on every placement plate, one of them adjustment mechanism includes first screw rod, sets up flutedly on the placement plate, has fixed mounting L template on the placement plate.

Description

Energy-saving material curing device

Technical Field

The application relates to the technical field of energy-saving material maintenance, in particular to an energy-saving material maintenance device.

Background

Energy-saving materials are broadly related materials applied to energy-saving and environment-friendly industries. The energy-saving environment-friendly industry refers to industries for providing technical foundation and equipment guarantee for saving energy resources, developing circular economy and protecting environment, mainly comprises energy-saving industry, resource recycling industry and environment-friendly equipment industry, and relates to energy-saving environment-friendly technology and equipment, energy-saving products and services and the like;

The building engineering energy-saving material generally comprises wall energy-saving materials, building energy-saving glass, inorganic heat-insulating energy-saving materials, organic heat-insulating energy-saving materials, recycled aggregate concrete materials, building energy-saving phase-change materials, building energy-saving door and window materials and the like used in the building engineering, and the heat-insulating plate is a common material used in the building engineering and has the performances of moisture resistance, water resistance, fire resistance and the like. At present, in the production process of the building heat insulation material board, the building heat insulation material board is required to be placed in a curing box for curing.

In the prior art, the heat-insulating board test block is not easy to clamp and place, the heat-insulating board is easy to displace during maintenance operation, the heat-insulating board is heavy, the heat-insulating board is repeatedly taken and moved, and the working strength of workers is easy to be increased, so that an energy-saving material maintenance device is needed to improve the problems.

Disclosure of utility model

(One) solving the technical problems

Aiming at the defects of the prior art, the application provides the energy-saving material curing device which can carry out placing and curing operation on the energy-saving material test blocks with different sizes through the arrangement of the adjusting mechanism, is convenient for the placing and taking operation of the energy-saving material test blocks through the matching of the sliding components, lightens the labor intensity of workers, prevents the energy-saving material test blocks from being displaced during the curing operation through the operation of the limiting mechanism, influences the curing effect, improves the working efficiency and has higher practicability.

Technical proposal

In order to achieve the above purpose, the present application provides the following technical solutions: the energy-saving material curing device comprises a curing box and a plurality of placing plates, wherein an exhaust port is formed in the top end of the curing box, a box door is hinged to the curing box, a plurality of T-shaped grooves are symmetrically formed in the curing box, T-shaped blocks are fixedly arranged at two ends of each placing plate, and each T-shaped block is respectively connected with the T-shaped grooves in a sliding mode;

Each placing plate is provided with an adjusting mechanism, one of the adjusting mechanisms comprises a first screw rod, the placing plate is provided with a groove, two ends of the first screw rod are in rotary connection with inner walls of two ends of the groove, an L-shaped plate is fixedly installed on the placing plate, a motor is fixedly installed on the L-shaped plate, the output end of the motor is fixedly provided with a rotating shaft, a first bevel gear is fixedly installed on the rotating shaft, a second bevel gear is arranged on the first screw rod, the first bevel gear is meshed with the second bevel gear, a first limiting rod is fixedly installed in the groove, a first moving plate and a second moving plate are screwed on the first screw rod, first sliding holes are respectively formed in the first moving plate and the second moving plate, two first sliding holes are respectively in sliding connection with the first limiting rod, a plurality of sliding assemblies are respectively arranged on the first moving plate and the second moving plate, one sliding assembly comprises two fixing plates, the two fixing plates are fixedly installed on the first moving plate, and pulleys are arranged on the two fixing plates;

Each placing plate is provided with a limiting mechanism, one limiting mechanism comprises a first clamping plate, the first clamping plate penetrates through one end of the groove and is in rotary connection with the inner wall of the groove at the other end, a second screw rod is fixedly installed in the groove, a second limiting rod is screwed on the first clamping plate, a second sliding hole is formed in the second limiting rod, the second sliding hole is in sliding connection with the second limiting rod, a knob is arranged on the first clamping plate, two second clamping plates are symmetrically and fixedly installed on the inner wall of the curing box, the two second clamping plates are connected through springs, an energy-saving material test block is placed on a plurality of pulleys, a plurality of steam pipes are all installed on the outer side walls at two ends of the curing box in a communicating mode, a plurality of steam pipes at the same side are connected through connecting pipes, and one end of each connecting pipe is connected with steam equipment;

The bottom end of the curing box is provided with a moving mechanism for moving the curing box;

and each placing plate is provided with a protection mechanism for protecting the motor.

Preferably, the moving mechanism comprises four casters, and the top end of each caster is fixedly connected with the bottom end of the curing box.

Further, one of the protection mechanisms comprises a protection cover, the protection cover is fixedly arranged at the bottom end of the L-shaped plate, and the motor is located inside the protection cover.

Still further, two handles are symmetrically and fixedly arranged on each placing plate.

On the basis of the scheme, the box door is communicated with an observation window.

Further, every all fixed mounting has the steady block on the L template, has all seted up the rotation hole on every steady block, and the axis of rotation rotates with the rotation hole and is connected.

Advantageous effects

Compared with the prior art, the application provides an energy-saving material curing device, which has the following beneficial effects:

This energy-conserving material curing means, according to the size of energy-conserving material test block, adjust the distance of first movable plate and second movable plate, through the starter motor, drive the axis of rotation by the motor and carry out rotatory operation, drive first bevel gear and rotatory operation when the axis of rotation is rotatory, mesh through first bevel gear and second bevel gear, and then drive second bevel gear and first screw rod and carry out rotatory operation, thereby make first movable plate and second movable plate carry out the removal operation on first screw rod, thereby drive a plurality of pulleys and remove the operation, place energy-conserving material test block on a plurality of pulleys, through rotatory knob, make the second gag lever post carry out the removal operation on first splint under the spacing of second screw rod, one end and the second splint contact of energy-conserving material test block when promoting the operation through first splint to energy-conserving material test block, make two springs carry out compression operation, carry out spacing operation to energy-conserving material test block through the elasticity of two springs self and the cooperation of first splint, carry out labor operation to energy-conserving material test block through the cooperation of vapor pipe and connecting pipe, thereby accomplish the maintenance to energy-conserving material test block, can not carry out the operation to energy-conserving material test block through adjusting mechanism setting up the energy-conserving material test block and can carry out the removal operation on the energy-conserving material test block, the effect is high performance is realized through the maintenance mechanism, the effect is improved, the maintenance efficiency is realized through the maintenance test block is convenient for the maintenance operation is realized, the test block is put down through the energy-conserving material test block has been put down.

Drawings

FIG. 1 is a schematic diagram of an axial structure of the present application;

FIG. 2 is a schematic diagram of the connection structure of the T-shaped groove and the T-shaped block of the application;

FIG. 3 is a schematic view of the connection structure of the first screw and the first and second moving plates according to the present application;

FIG. 4 is an enlarged schematic view of the portion A of FIG. 3 according to the present application;

fig. 5 is a schematic view showing a coupling structure of the engagement of the first bevel gear and the second bevel gear according to the present application.

The reference numerals in the drawings: 1. a curing box; 2. a door; 3. a T-shaped groove; 4. placing a plate; 5. a T-shaped block; 6. an L-shaped plate; 7. a motor; 8. a rotating shaft; 9. a first bevel gear; 10. a first screw; 11. a second bevel gear; 12. a first stop lever; 13. a first moving plate; 14. a second moving plate; 15. a fixing plate; 16. a pulley; 17. a first clamping plate; 18. a second screw; 19. a second limit rod; 20. a knob; 21. a second clamping plate; 22. a spring; 23. an energy-saving material test block; 24. a vapor tube; 25. a connecting pipe; 26. casters; 27. a protective cover; 28. a handle; 29. an observation window; 30. a stabilizing plate.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Examples

Referring to fig. 1-3, an energy-saving material curing device comprises a curing box 1 and a plurality of placing plates 4, wherein an exhaust port is formed in the top end of the curing box 1, a box door 2 is hinged to the curing box 1, a plurality of T-shaped grooves 3 are symmetrically formed in the curing box 1, T-shaped blocks 5 are fixedly arranged at two ends of each placing plate 4, and each T-shaped block 5 is respectively connected with the plurality of T-shaped grooves 3 in a sliding mode.

Referring to fig. 2-5, each placement plate 4 is provided with an adjusting mechanism, one of the adjusting mechanisms comprises a first screw rod 10, the placement plate 4 is provided with a groove, two ends of the first screw rod 10 are rotatably connected with inner walls of two ends of the groove, the placement plate 4 is fixedly provided with an L-shaped plate 6, a motor 7 is fixedly arranged on the L-shaped plate 6, the output end of the motor 7 is fixedly provided with a rotating shaft 8, the motor 7 is used for driving the rotating shaft 8 to rotate, a first bevel gear 9 is fixedly arranged on the rotating shaft 8, the rotating shaft 8 rotates and simultaneously drives the first bevel gear 9 to rotate, the first screw rod 10 is provided with a second bevel gear 11, the first bevel gear 9 and the second bevel gear 11 are meshed, the second bevel gear 11 and the first screw rod 10 are driven to rotate through the meshing of the first bevel gear 9 and the second bevel gear 11, a first limiting rod 12 is fixedly arranged in the groove, a first moving plate 13 and a second moving plate 14 are screwed on the first screw rod 10, first sliding plates 13 and second sliding plates 14 are respectively arranged on the first screw rod 10, first sliding plates 13 and the second sliding plates 14 are respectively provided with first sliding plates 16, two sliding plates 15 are respectively arranged on the first sliding plates 13 and the second sliding plates 14, and two sliding plates 15 are respectively fixed on the first sliding plates 13 and the sliding plates 15 respectively.

Referring to fig. 2, fig. 3 and fig. 5, each placing plate 4 is provided with a limiting mechanism, one limiting mechanism comprises a first clamping plate 17, the first clamping plate 17 penetrates through one end of a groove and is in rotary connection with the inner wall of the groove at the other end, a second screw rod 18 is fixedly installed in the groove, a second limiting rod 19 is screwed on the first clamping plate 17, a second sliding hole is formed in the second limiting rod 19, the second sliding hole is in sliding connection with the second limiting rod 19, a knob 20 is arranged on the first clamping plate 17, two second clamping plates 21 are symmetrically and fixedly installed on the inner side wall of the curing box 1, the two second clamping plates 21 are connected through springs 22, an energy-saving material test block 23 is placed on a plurality of pulleys 16, the second limiting rod 19 is made to move on the first clamping plate 17 under the limit of the second screw rod 18 through rotating the knob 20, one end of the energy-saving material test block 23 is in contact with the second clamping plate 21 during pushing operation of the energy-saving material test block 23 through the first clamping plate 17, the two springs 22 are made to compress, the two springs 22 are made to cooperate with the first clamping plate 17 through the elasticity of the two springs 22, the energy-saving material test block 23 is matched with the energy-saving test block 23, the two pulleys are made to cooperate with the energy-saving test block 23 through the two pulleys 25, and the two side walls of the steam test block 25 are connected with one side of the steam test block 25 through the steam pipe 25, and the steam test block is made of a plurality of materials are connected with one side 25 through the connecting pipe 25, and one side of the steam test block is made of the steam test device is connected with one end of the steam test block 25.

Referring to fig. 1 and 2, a moving mechanism is disposed at the bottom end of the curing box 1 for moving the curing box 1, the moving mechanism includes four casters 26, the top end of each caster 26 is fixedly connected with the bottom end of the curing box 1, and the moving mechanism is convenient for moving the curing box 1 through the installation of the four casters 26.

Referring to fig. 3, each placement plate 4 is provided with a protection mechanism for protecting the motor 7, wherein one protection mechanism comprises a protection cover 27, the protection cover 27 is fixedly installed at the bottom end of the L-shaped plate 6, the motor 7 is located inside the protection cover 27, the motor 7 is effectively protected through the installation of the protection cover 27, the influence of the external environment on the motor 7 is prevented, and the service life of the motor 7 is prolonged.

Referring to fig. 2 and 3, two handles 28 are symmetrically and fixedly installed on each placement board 4, and the placement board 4 is convenient to move by installing the two handles 28.

Referring to fig. 1, an observation window 29 is provided on the door 2, and the observation window 29 is convenient for timely observing the internal condition of the curing box 1.

Referring to fig. 3, each L-shaped board 6 is fixedly provided with a stabilizing block 30, each stabilizing block 30 is provided with a rotation hole, the rotation shaft 8 is rotationally connected with the rotation hole, and the rotation shaft 8 is supported by the installation of the stabilizing blocks 30.

In summary, this energy-saving material maintenance device is when using, through two handles 28 pulling place board 4, make two T type pieces 5 carry out the slip operation respectively on two T type grooves 3, through starting motor 7, this motor is the well-known equipment of the person of skill in the art who directly purchase on the market, we just use it here, do not carry out the improvement in structure and function, we do not more detailed here, and the motor is provided with the control switch who matches with it, control switch's mounted position is selected according to actual use demand, be convenient for operating control by operating personnel, provide power by motor 7 and drive axis of rotation 8 and rotate the operation through first bevel gear 9 and second bevel gear 11, through the meshing of axis of rotation 8 rotation, drive first bevel gear 9 and then drive second bevel gear 11 and first screw 10 and rotate the operation, thereby make first movable plate 13 and second movable plate 14 carry out the operation on first screw 10, thereby drive a plurality of pulleys 16 and remove the operation, according to the size of adjusting plate 23, the size of energy-saving material piece is located on the movable plate 13 and the second movable plate 14 is more convenient for placing energy-saving material piece through the second movable plate 13 and the energy-saving material piece 16 on the limit plate 23, the distance between two pieces of material of contact with two test piece 23 is placed on the second test piece 23 through the second clamp plate 23, the energy-saving material is placed on the second material piece 23 is more convenient for the material is placed through the second test piece 23, the material is placed on the material piece is placed on the second movable plate 16 through the limit plate 23 through the second clamp plate 23, the energy-saving material is more than the material is placed on the second movable plate is 16 is placed on the material is 16 through the material is placed on the material is 16 through the clamp plate is 23 through the clamp plate, and is 23 and is more has, and is moved through the clamp, and is has, the energy-saving material test block 23 is limited by the elasticity of the two springs 22 and the cooperation of the first clamping plate 17, and the energy-saving material test block 23 is subjected to steam curing operation by the cooperation of the steam pipe 24 and the connecting pipe 25.

Although embodiments of the present application have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the application, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. An energy-saving material curing means, includes curing case (1) and a plurality of board (4) of placing, its characterized in that: the top end of the maintenance box (1) is provided with an exhaust port, the maintenance box (1) is hinged with a box door (2), a plurality of T-shaped grooves (3) are symmetrically formed in the maintenance box (1), two ends of each placement plate (4) are fixedly provided with T-shaped blocks (5), and each T-shaped block (5) is respectively connected with the plurality of T-shaped grooves (3) in a sliding mode;

Each placing plate (4) is provided with an adjusting mechanism, one adjusting mechanism comprises a first screw rod (10), the placing plates (4) are provided with grooves, two ends of each first screw rod (10) are rotatably connected with inner walls at two ends of each groove, each placing plate (4) is fixedly provided with an L-shaped plate (6), each L-shaped plate (6) is fixedly provided with a motor (7), the output end of each motor (7) is fixedly provided with a rotating shaft (8), each rotating shaft (8) is fixedly provided with a first bevel gear (9), each first screw rod (10) is provided with a second bevel gear (11), each first bevel gear (9) is meshed with each second bevel gear (11), each groove is internally and fixedly provided with a first limiting rod (12), each first screw rod (10) is provided with a first moving plate (13) and a second moving plate (14), each first moving plate (13) and each second moving plate (14) are respectively provided with a first sliding hole, each first sliding hole is respectively connected with a first limiting rod (12), each first moving plate (13) and each second moving plate (14) is provided with a plurality of sliding assemblies, each first moving plate (13) and each second moving plate (14) is provided with a plurality of sliding plates (15), and each first moving plate (15) is fixedly provided with a plurality of sliding plates (15);

Each placing plate (4) is provided with a limiting mechanism, one limiting mechanism comprises a first clamping plate (17), the first clamping plate (17) penetrates through one end of the groove and is rotationally connected with the inner wall of the groove at the other end, a second screw (18) is fixedly installed in the groove, a second limiting rod (19) is screwed on the first clamping plate (17), a second sliding hole is formed in the second limiting rod (19), the second sliding hole is in sliding connection with the second limiting rod (19), a knob (20) is arranged on the first clamping plate (17), two second clamping plates (21) are symmetrically and fixedly installed on the inner side wall of the curing box (1), the two second clamping plates (21) are connected through springs (22), an energy-saving material test block (23) is placed on a plurality of pulleys (16), a plurality of air pipes (24) are all installed on the outer side walls of two ends of the curing box (1) in a communicating mode, a plurality of air pipes (24) on the same side are connected through connecting pipes (25), and one end of each connecting pipe (25) is connected with a vapor device;

The bottom end of the curing box (1) is provided with a moving mechanism for moving the curing box (1);

each placing plate (4) is provided with a protection mechanism for protecting the motor (7).

2. An energy saving material curing apparatus according to claim 1, characterized in that: the moving mechanism comprises four casters (26), and the top end of each caster (26) is fixedly connected with the bottom end of the curing box (1).

3. An energy saving material curing apparatus according to claim 2, characterised in that: one of the protection mechanisms comprises a protection cover (27), the protection cover (27) is fixedly arranged at the bottom end of the L-shaped plate (6), and the motor (7) is positioned inside the protection cover (27).

4. An energy saving material curing apparatus according to claim 3, characterised in that: two handles (28) are symmetrically and fixedly arranged on each placing plate (4).

5. An energy saving material curing apparatus according to claim 4, wherein: an observation window (29) is communicated with the box door (2).

6. An energy saving material curing apparatus according to claim 5, wherein: every all fixed mounting has stabilizing block (30) on L template (6), has all seted up the rotation hole on every stabilizing block (30), and axis of rotation (8) are connected with the rotation hole rotation.