CN113789964A - A continuous installation device of heat preservation outer wall modularization for construction - Google Patents

Abstract

The invention discloses a modular continuous installation device for a heat-insulation outer wall for building construction, relates to the technical field of building construction, and solves the problems of large labor amount, troublesome operation, low construction speed and low production efficiency of the existing heat-insulation outer wall during construction; the front end surface of the left and right sliding piece is fixedly connected with a group of driving pieces; the inner sides of the left and right sliding pieces are connected with a group of driving sliding pieces in a sliding manner; the left side and the right side of the lower part of the left-right sliding piece are both rotationally connected with a group of left-right sliding executing pieces; the inner part of the left and right sliding piece is rotatably connected with a group of front and rear sliding intermediate transmission pieces; the inner part of the left and right sliding piece is rotatably connected with a group of left and right sliding first transmission pieces and a group of left and right sliding second transmission pieces. The invention has simple use and convenient operation, greatly replaces manual operation, can greatly improve the installation speed of the insulation board and improve the production efficiency.

Description

A continuous installation device of heat preservation outer wall modularization for construction

Technical Field

The invention relates to the technical field of building construction, in particular to a modular continuous installation device for a heat-insulation outer wall for building construction.

Background

Need carry out heat preservation processing to the building at the construction, outer wall external insulation is a heat preservation way of placing the heat preservation in main part walling outside, because of it can reduce some influences, protects main part walling not receive too big temperature deformation stress simultaneously, is the heat preservation way of using the most extensively, also is the heat preservation way of advocated widely in the country, and the construction of keeping warm outside the outer wall is installed the heated board in the outside of outer wall to external heated board is fixed.

For example, application No.: : CN201010561984.2 the invention relates to a novel heat-insulating external wall panel, which solves the problem that the joint of the panel is cracked after the outer surface of the panel is covered for a long time. The heat-insulating external wall panel is composed of a heat-insulating layer panel and a spare panel, wherein the heat-insulating layer panel is bonded or compounded on the spare panel. A gap is reserved at the joint of two adjacent spare plates, and an elastic body can be installed or not installed in the gap. The production process comprises the following steps of bonding or compounding the heat-preservation laminate on the spare plate, forming a stepped L-shaped single edge on the edge of the spare plate and the edge of the heat-preservation laminate, wherein the spare plate is larger than the heat-preservation laminate or smaller than the heat-preservation laminate or the spare plate and the heat-preservation laminate are the same in size; and a gap is reserved at the joint of the two spare plates, and then the heat-insulating external wall plate is connected and fixed on the steel structure frame. The combined type steel frame is particularly suitable for frame type steel structure plants, garages and common buildings, and is also suitable for villas.

Based on the above, the existing external wall external insulation generally needs to be placed at the positions to be installed one by one and vertically placed at the installation positions for installation during construction, and generally manual operation is adopted, so that the labor capacity is large, the operation is troublesome, the construction speed is slow, and the production efficiency is low; therefore, the existing requirements are not met, and the heat-insulation outer wall modularization continuous installation device for building construction is provided for the existing requirements.

Disclosure of Invention

The invention aims to provide a modular continuous installation device for a heat-insulation outer wall for building construction, which aims to solve the problems that the existing external heat-insulation outer wall provided by the background technology generally needs to place heat-insulation plates at positions to be installed one by one and vertically place the heat-insulation plates at the installation positions for installation, generally manual operation is adopted, the labor capacity is large, the operation is troublesome, the construction speed is low, and the production efficiency is low.

In order to achieve the purpose, the invention provides the following technical scheme: a modular continuous installation device for a heat-insulating outer wall for building construction comprises a left sliding piece and a right sliding piece; the front end surface of the left and right sliding piece is fixedly connected with a group of driving pieces; the inner sides of the left and right sliding pieces are connected with a group of driving sliding pieces in a sliding manner; the telescopic rod of the driving piece is fixedly connected with the driving sliding piece; the top of the left and right sliding piece is connected with a group of heat insulation plate bearing pieces in a sliding manner; the top of the heat insulation plate bearing piece is hinged with a group of heat insulation plate fixing pieces; the left side and the right side of the lower part of the left-right sliding piece are both rotationally connected with a group of left-right sliding executing pieces; the inner part of the left and right sliding piece is rotatably connected with a group of front and rear sliding intermediate transmission pieces; the inner part of the left and right sliding piece is rotatably connected with a group of left and right sliding first transmission pieces and a group of left and right sliding second transmission pieces.

Preferably, the insulation board fixing part further comprises suckers, and the suckers are uniformly distributed at the top of the insulation board fixing part.

Preferably, the driving sliding part further comprises a front and rear sliding driving rack, a group of front and rear sliding driving racks is fixedly connected to the rear portion of the driving sliding part, the front and rear sliding intermediate transmission part further comprises a front and rear sliding driven gear, a group of front and rear sliding driven gears is coaxially and fixedly connected to the right side of the front and rear sliding intermediate transmission part, and the front and rear sliding driving racks and the front and rear sliding driven gears are meshed to form a gear-rack transmission mechanism.

Preferably, the front and back intermediate transfer spare that slides still slides around including the driving gear that slides, the coaxial fixedly connected with of the left end face of front and back intermediate transfer spare that slides driving gear that slides around a set of, the heated board holds carrier and still slides driven rack around including, the heated board holds the bottom fixedly connected with that the carrier slides driven rack around a set of, the driving gear that slides around with slide driven rack meshing constitute rack and pinion drive mechanism jointly.

Preferably, the drive slider is still including the upset drive post, the rear portion fixedly connected with a set of upset drive post of drive slider, the heated board mounting is still including the upset connecting rod, the upset sliding block, the upset spring, the bottom hinged joint of heated board mounting has a set of upset connecting rod, the bottom hinged joint of upset connecting rod has a set of upset sliding block, the upset sliding block with hold carrier sliding connection with the heated board, the rear end face of upset sliding block holds carrier elastic connection through a set of upset spring and heated board, the upset connecting rod, the upset sliding block, the heated board mounting, common process slider-crank mechanism between the carrier is held to the heated board.

Preferably, the left-right sliding first transmission part further comprises a ratchet mechanism and a left-right sliding driven gear, and the left end face of the left-right sliding first transmission part is connected with a group of left-right sliding driven gears through a group of ratchet mechanisms.

Preferably, the driving sliding part further comprises a left-right sliding driving rack, a group of left-right sliding driving racks is fixedly connected to the rear of the driving sliding part, and the left-right sliding driving racks and the left-right sliding driven gears are meshed to form a gear rack transmission mechanism.

Preferably, the left-right sliding first transmission part further comprises a left-right sliding driving bevel gear, the right side of the left-right sliding first transmission part is coaxially and fixedly connected with a group of left-right sliding driving bevel gears, the left-right sliding second transmission part further comprises a left-right sliding driven bevel gear, the rear end face of the left-right sliding second transmission part is coaxially and fixedly connected with a group of left-right sliding driven bevel gears, and the left-right sliding driven bevel gears and the left-right sliding driving bevel gears are meshed to form a bevel gear transmission mechanism.

Preferably, the left-right sliding second transmission part further comprises a left-right sliding driving sprocket, a set of left-right sliding driving sprockets are fixedly connected to the front end face of the left-right sliding second transmission part coaxially, a left-right sliding execution part further comprises a left-right sliding driven sprocket, a set of left-right sliding driven sprockets are fixedly connected to the middle of the left-right sliding execution part coaxially, and the left-right sliding driven sprocket and the outer side of the left-right sliding driving sprocket are connected through a set of transmission chain to form a transmission chain transmission mechanism together.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the heat insulation plate bearing part is driven by the gear rack transmission mechanism to slide back and forth, so that the heat insulation plate slides in the front and back directions, meanwhile, the heat insulation plate is turned over by the slider-crank mechanism, so that the heat insulation plate is convenient to install, the feeding in the left and right directions is realized by adopting the gear rack transmission mechanism, the ratchet mechanism, the bevel gear transmission mechanism, the transmission chain transmission mechanism and other transmission modes, the use is simple, the operation is convenient, the manual operation is greatly replaced, the labor intensity is reduced, the installation speed of the heat insulation plate can be greatly improved, and the production efficiency is improved.

Drawings

FIG. 1 is a schematic side view of the present invention;

FIG. 2 is a schematic side view of the drive shaft of the present invention;

FIG. 3 is a schematic structural view of a transmission shaft side of the heat insulation board bearing part of the present invention;

FIG. 4 is a schematic axial side view of a forward and backward sliding intermediate transmission member according to the present invention;

FIG. 5 is a schematic structural view of a transmission shaft side of the insulation board fixing member of the present invention;

FIG. 6 is a schematic structural view of the transmission shaft side of the left and right sliding executing member of the present invention;

FIG. 7 is a schematic side view of the mounting shaft of the second transmission member slipping left and right according to the present invention;

FIG. 8 is a schematic side view of the drive slide of the present invention;

in the figure: 1. a left and right sliding member; 2. a drive member; 3. driving the slider; 301. the rack is driven by sliding back and forth; 302. the rack is driven by left and right sliding; 303. turning over the driving column; 4. a heat insulation plate fixing member; 401. a suction cup; 402. turning over the connecting rod; 403. turning over the sliding block; 404. turning over the spring; 5. a heat insulation board bearing member; 501. a driven rack sliding back and forth; 6. a front and rear slip intermediate transmission member; 601. a front and rear slip driven gear; 602. a front and rear sliding driving gear; 7. a first transmission member slides left and right; 701. a ratchet mechanism; 702. a left and right slip driven gear; 703. a left-right sliding drive bevel gear; 8. the second transmission piece slides left and right; 801. a driven bevel gear slides left and right; 802. a left and right sliding drive sprocket; 9. a left-right sliding executing piece; 901. and a driven sprocket capable of sliding left and right.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 8, an embodiment of the present invention includes: a heat preservation outer wall modularization continuous installation device for building construction comprises a left sliding piece 1 and a right sliding piece 1; the front end surface of the left and right sliding piece 1 is fixedly connected with a group of driving pieces 2; a group of driving sliding parts 3 are connected to the inner sides of the left and right sliding parts 1 in a sliding manner; the telescopic rod of the driving piece 2 is fixedly connected with the driving sliding piece 3; the top of the left and right sliding piece 1 is connected with a group of heat insulation plate bearing pieces 5 in a sliding manner; the top of the insulation board bearing piece 5 is hinged with a group of insulation board fixing pieces 4; the left side and the right side of the lower part of the left-right sliding piece 1 are both rotationally connected with a group of left-right sliding executing pieces 9; the inner part of the left and right sliding piece 1 is rotatably connected with a group of front and back sliding intermediate transmission pieces 6; the left-right sliding piece 1 is internally and rotatably connected with a left-right sliding first transmission piece 7 and a left-right sliding second transmission piece 8.

Further, heated board mounting 4 is still including sucking disc 401, and the top of heated board mounting 4 is evenly arranged and is provided with sucking disc 401, and in use fixes the heated board through sucking disc 401.

Further, the driving sliding part 3 further comprises a front and rear sliding driving rack 301, a group of front and rear sliding driving racks 301 is fixedly connected to the rear portion of the driving sliding part 3, the front and rear sliding intermediate transmission part 6 further comprises a front and rear sliding driven gear 601, a group of front and rear sliding driven gears 601 is coaxially and fixedly connected to the right side of the front and rear sliding intermediate transmission part 6, the front and rear sliding driving racks 301 and the front and rear sliding driven gears 601 are meshed to form a gear and rack transmission mechanism together, and when the driving sliding part 3 slides front and rear in use, the driving sliding part 3 drives the front and rear sliding intermediate transmission part 6 to rotate through the gear and rack transmission mechanism.

Further, the front and back sliding intermediate transmission member 6 further comprises a front and back sliding driving gear 602, the left end face of the front and back sliding intermediate transmission member 6 is coaxially and fixedly connected with a set of front and back sliding driving gear 602, the heat insulation board bearing member 5 further comprises a front and back sliding driven rack 501, the bottom of the heat insulation board bearing member 5 is fixedly connected with a set of front and back sliding driven rack 501, the front and back sliding driving gear 602 and the front and back sliding driven rack 501 are meshed to jointly form a gear and rack transmission mechanism, in use, when the front and back sliding intermediate transmission member 6 rotates, the front and back sliding intermediate transmission member 6 drives the heat insulation board bearing member 5 to slide back and forth through the gear and rack transmission mechanism, and the front and back feeding action of the heat insulation board is realized.

Further, the driving sliding part 3 further comprises a turning driving column 303, the rear part of the driving sliding part 3 is fixedly connected with a group of turning driving columns 303, the insulation board fixing part 4 further comprises a turning connecting rod 402, a turning sliding block 403 and a turning spring 404, the bottom of the insulation board fixing part 4 is hinged with a group of turning connecting rods 402, the bottom of the turning connecting rod 402 is hinged with a group of turning sliding blocks 403, the turning sliding blocks 403 are slidably connected with the insulation board bearing part 5, the rear end face of the turning sliding blocks 403 is elastically connected with the insulation board bearing part 5 through a group of turning springs 404, the turning connecting rod 402, the turning sliding block 403, the insulation board fixing part 4 and the insulation board bearing part 5 are in a common process of a crank sliding block mechanism, when the driving sliding part 3 slides backwards in use, the sliding blocks 303 push the turning driving column 403 to slide towards the right side, the turning sliding blocks 403 drive the insulation board fixing part 4 to turn through the crank sliding block mechanism, the operation of erecting the heat insulation board is realized.

Further, the left-right sliding first transmission member 7 further comprises a ratchet mechanism 701 and a left-right sliding driven gear 702, the left end face of the left-right sliding first transmission member 7 is connected with a group of left-right sliding driven gears 702 through a group of ratchet mechanisms 701, and in use, the ratchet mechanism 701 realizes one-way transmission between the left-right sliding first transmission member 7 and the left-right sliding driven gears 702.

Further, the driving sliding part 3 further comprises a left-right sliding driving rack 302, a group of left-right sliding driving racks 302 is fixedly connected to the rear of the driving sliding part 3, the left-right sliding driving racks 302 and the left-right sliding driven gears 702 are meshed to form a gear-rack transmission mechanism, in use, when the driving sliding part 3 slides backwards, the driving sliding part 3 drives the left-right sliding driven gears 702 to rotate through the gear-rack transmission mechanism, the left-right sliding first transmission part 7 cannot rotate under the unidirectional transmission effect of the ratchet mechanism 701, when the driving sliding part 3 slides forwards, the driving sliding part 3 drives the left-right sliding driven gears 702 to rotate through the gear-rack transmission mechanism, and the left-right sliding driven gears 702 drive the left-right sliding first transmission part 7 to rotate through the ratchet mechanism 701.

Further, the left-right slippage first transmission member 7 further comprises a left-right slippage driving bevel gear 703, the right side of the left-right slippage first transmission member 7 is coaxially and fixedly connected with a group of left-right slippage driving bevel gears 703, the left-right slippage second transmission member 8 further comprises a left-right slippage driven bevel gear 801, the rear end face of the left-right slippage second transmission member 8 is coaxially and fixedly connected with a group of left-right slippage driven bevel gears 801, the left-right slippage driven bevel gears 801 and the left-right slippage driving bevel gears 703 are meshed to form a bevel gear transmission mechanism together, and when the left-right slippage first transmission member 7 rotates in use, the left-right slippage first transmission member 7 drives the left-right slippage second transmission member 8 to rotate through the bevel gear transmission mechanism.

Further, the second transmission member 8 that slides from side to side still includes the drive sprocket 802 that slides from side to side, the coaxial fixedly connected with of the preceding terminal surface of the second transmission member 8 that slides from side to side slips a set of drive sprocket 802 that slides from side to side, the executive part 9 that slides from side to side still includes the driven sprocket 901 that slides from side to side, the coaxial fixedly connected with of the middle part of a set of the executive part 9 that slides from side to side is a set of driven sprocket 901 that slides from side to side, the driven sprocket 901 that slides from side to side is connected through a set of drive chain transmission and constitutes drive chain transmission mechanism jointly with the outside of the drive sprocket 802 that slides from side to side, when in use, the second transmission member 8 that slides from side to side rotates, the second transmission member 8 that slides from side to side drives the executive part 9 that slides from side to side through drive chain transmission mechanism, realize the slippage feeding action of left and right.

The working principle is as follows: when the heat insulation plate feeding device is used, the heat insulation plate is fixed on the heat insulation plate fixing piece 4 through the sucker 401, the driving piece 2 drives the driving sliding piece 3 to slide backwards, when the driving sliding piece 3 slides backwards, the driving sliding piece 3 drives the left-right sliding driven gear 702 to rotate through the gear rack transmission mechanism, the left-right sliding first transmission piece 7 cannot rotate under the unidirectional transmission action of the ratchet mechanism 701, the driving sliding piece 3 drives the front-back sliding intermediate transmission piece 6 to rotate through the gear rack transmission mechanism, the front-back sliding intermediate transmission piece 6 drives the heat insulation plate bearing piece 5 to slide backwards through the gear rack transmission mechanism, and the feeding action of the heat insulation plate in the front-back direction is realized; after the heat insulation board bearing part 5 slides backwards in place, the sliding part 3 is driven to continue to slide backwards, the overturning driving column 303 pushes the overturning sliding block 403 to slide to the right side, and the overturning sliding block 403 drives the heat insulation board fixing part 4 to overturn through a crank sliding block mechanism, so that the operation of erecting the heat insulation board is realized; after the insulation board is installed, the driving piece 2 drives the driving sliding piece 3 to slide forwards, the driving sliding piece 3 drives the left-right sliding driven gear 702 to rotate through the gear-rack transmission mechanism, the left-right sliding driven gear 702 drives the left-right sliding first transmission piece 7 to rotate through the ratchet mechanism 701, the left-right sliding first transmission piece 7 drives the left-right sliding second transmission piece 8 to rotate through the bevel gear transmission mechanism, the left-right sliding second transmission piece 8 drives the left-right sliding execution piece 9 through the transmission chain transmission mechanism, and sliding feeding action in the left-right direction is achieved.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. The utility model provides a continuous installation device of heat preservation outer wall modularization for construction which characterized in that: comprises a left sliding part and a right sliding part (1); the front end surface of the left and right sliding piece (1) is fixedly connected with a group of driving pieces (2); the inner side of the left-right sliding piece (1) is connected with a group of driving sliding pieces (3) in a sliding manner; the telescopic rod of the driving piece (2) is fixedly connected with the driving sliding piece (3); the top of the left and right sliding piece (1) is connected with a group of heat insulation plate bearing pieces (5) in a sliding manner; the top of the heat insulation plate bearing piece (5) is hinged with a group of heat insulation plate fixing pieces (4); the left side and the right side of the lower part of the left-right sliding piece (1) are both rotationally connected with a group of left-right sliding executing pieces (9); the inner part of the left and right sliding piece (1) is rotatably connected with a group of front and rear sliding intermediate transmission pieces (6); the left and right sliding piece (1) is internally and rotatably connected with a group of left and right sliding first transmission pieces (7) and a group of left and right sliding second transmission pieces (8).

2. The modular continuous installation device for thermal insulation external walls for building construction according to claim 1, characterized in that: the insulation board fixing part (4) further comprises suckers (401), and the suckers (401) are uniformly distributed at the top of the insulation board fixing part (4).

3. The modular continuous installation device for thermal insulation external walls for building construction according to claim 1, characterized in that: the driving sliding part (3) further comprises a front sliding driving rack (301) and a rear sliding driving rack (301), the rear portion of the driving sliding part (3) is fixedly connected with the front sliding driving rack (301) and the rear sliding driving rack (301) in a group, the front sliding intermediate transmission part (6) and the rear sliding intermediate transmission part (6) further comprise front sliding driven gears (601), the right side of the front sliding intermediate transmission part (6) and the rear sliding intermediate transmission part (6) are fixedly connected with a front sliding driven gear (601) and the front sliding driving rack (301) and the rear sliding driven gears (601) are meshed to form a gear-rack transmission mechanism together.

4. The modular continuous installation device for thermal insulation external walls for building construction according to claim 1, characterized in that: the front and back sliding intermediate transmission member (6) further comprises a front and back sliding driving gear (602), the left end face of the front and back sliding intermediate transmission member (6) is coaxially and fixedly connected with a set of front and back sliding driving gear (602), the heat insulation plate bearing member (5) further comprises a front and back sliding driven rack (501), the bottom of the heat insulation plate bearing member (5) is fixedly connected with a set of front and back sliding driven rack (501), and the front and back sliding driving gear (602) and the front and back sliding driven rack (501) are meshed to jointly form a gear and rack transmission mechanism.

5. The modular continuous installation device for thermal insulation external walls for building construction according to claim 1, characterized in that: drive slider (3) are still including upset drive post (303), a set of upset drive post of rear portion fixedly connected with (303) of drive slider (3), heated board mounting (4) are still including upset connecting rod (402), upset sliding block (403), upset spring (404), the bottom hinged joint of heated board mounting (4) has a set of upset connecting rod (402), the bottom hinged joint of upset connecting rod (402) has a set of upset sliding block (403), upset sliding block (403) and hold carrier (5) sliding connection with the heated board, the rear end face of upset sliding block (403) holds carrier (5) elastic connection with the heated board through a set of upset spring (404), upset connecting rod (402), upset sliding block (403), heated board mounting (4), the common process slider-crank mechanism between heated board carrier (5).

6. The modular continuous installation device for thermal insulation external walls for building construction according to claim 1, characterized in that: the left-right sliding first transmission piece (7) further comprises a ratchet mechanism (701) and a left-right sliding driven gear (702), and the left end face of the left-right sliding first transmission piece (7) is connected with a group of left-right sliding driven gears (702) through a group of ratchet mechanisms (701).

7. The modular continuous installation device for thermal insulation external walls for building construction according to claim 1, characterized in that: the driving sliding part (3) further comprises a left-right sliding driving rack (302), a group of left-right sliding driving racks (302) is fixedly connected to the rear of the driving sliding part (3), and the left-right sliding driving racks (302) are meshed with the left-right sliding driven gear (702) to form a gear-rack transmission mechanism.

8. The modular continuous installation device for thermal insulation external walls for building construction according to claim 1, characterized in that: the left-right sliding first transmission piece (7) further comprises a left-right sliding driving bevel gear (703), the right side of the left-right sliding first transmission piece (7) is coaxially and fixedly connected with a group of left-right sliding driving bevel gears (703), the left-right sliding second transmission piece (8) further comprises a left-right sliding driven bevel gear (801), the rear end face of the left-right sliding second transmission piece (8) is coaxially and fixedly connected with a group of left-right sliding driven bevel gears (801), and the left-right sliding driven bevel gears (801) are meshed with the left-right sliding driving bevel gear (703) to form a bevel gear transmission mechanism.

9. The modular continuous installation device for thermal insulation external walls for building construction according to claim 1, characterized in that: slip second driving medium (8) about still including slip driving sprocket (802) about, slip driving sprocket (802) about the coaxial fixedly connected with of preceding terminal surface of second driving medium (8) about, slip executive component (9) still including slip driven sprocket (901) about, slip driven sprocket (901) about a set of middle part coaxial fixedly connected with of executive component (9) that slides about on the right side about, slip driven sprocket (901) about a set of, slip driven sprocket (901) about and the outside of driving sprocket (802) that slides about with are connected through a set of drive chain transmission and are constituteed drive chain drive mechanism jointly.

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