CN216578483U - Heat-preservation disassembly-free integrated board heat-preservation mortar forming device - Google Patents

Abstract

The utility model provides a thermal insulation disassembly-free integrated plate thermal insulation mortar forming device, relates to the technical field of production of thermal insulation disassembly-free integrated plates, and aims to solve the technical problem that thermal insulation mortar on an existing thermal insulation disassembly-free integrated plate is poor in strength; the thermal insulation disassembly-free integrated plate thermal insulation mortar forming device comprises a frame body, a conveying unit, a mortar storage unit, a material guide unit and a forming plate; the mortar storage unit is arranged on the frame body, and the mortar storage unit is arranged on the frame body; the two material guide plates respectively extend downwards in an inclined mode along the conveying direction of the conveying unit to the material plate, and a first interval is arranged between one end, away from the mortar storage unit, of each material guide plate and the conveying unit.

Description

Heat-preservation disassembly-free integrated board heat-preservation mortar forming device

Technical Field

The utility model belongs to the technical field of thermal insulation disassembly-free integrated plate molding, and particularly relates to a thermal insulation mortar molding device for a thermal insulation disassembly-free integrated plate.

Background

The heat-preservation disassembly-free integrated plate can well meet the requirements of building energy-saving reconstruction in some areas, and improves the living comfort and the indoor thermal stability of residents.

The heat-preservation disassembly-free integrated plate generally comprises a core layer, a heat-preservation mortar layer and a protective mortar layer, wherein the heat-preservation mortar layer and the protective mortar layer are covered on the outer side of the core layer; at present, the heat-preservation disassembly-free integrated board is produced through a production line, a core board is conveyed to heat-preservation mortar coating equipment by conveying equipment for coating heat-preservation mortar, and then conveyed to protective mortar coating equipment for coating protective mortar; when the coating of heat preservation mortar is carried out, generally place a mortar storage box in conveying equipment's top, when the flitch passes through, the mortar falls on the flitch from the mortar storage box, is provided with a scraper blade in the low reaches of mortar storage box, and the bottom surface of scraper blade matches in the thickness of heat preservation mortar to the distance of flitch, and when the flitch passes through the scraper blade, the scraper blade scrapes away the mortar on the flitch, and even spreading on the flitch accomplishes the coating of protection mortar on the flitch.

However, the bonding strength of the current thermal mortar and the material plate is low.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model provides a thermal insulation and disassembly-free integrated plate thermal insulation mortar forming device, which can improve the bonding strength of thermal insulation mortar and a material plate.

The technical scheme of the utility model is as follows:

the utility model provides a heat preservation exempts from to tear open integration board heat preservation mortar forming device, includes support body, transport unit and mortar memory cell, the transport unit is located on the support body for carry the flitch, mortar memory cell locates on the support body to storage chamber and discharge gate have, the discharge gate is located the flitch removes the top on route, still includes:

the material guide unit is arranged on the frame body and is positioned at the downstream of the mortar storage unit, the material guide unit comprises two material guide plates, the two material guide plates are positioned above the conveying unit, one sides of the two material guide plates are connected, and the other sides of the two material guide plates extend to the opposite sides of the conveying unit respectively; the two guide plates respectively extend downwards in an inclined manner along the conveying direction of the conveying unit to the material plates, and a first interval is arranged between one end of each guide plate, far away from the mortar storage unit, and the conveying unit;

the forming plate is arranged on the frame body and is positioned at the downstream of the material guide unit; the forming plate is located above the conveying unit, a second interval is arranged between the forming plate and the conveying unit, and the first interval is larger than the second interval.

Further, the two guide plates extend obliquely along the conveying direction of the conveying unit respectively along the direction from one side to the other side where the two guide plates are connected.

Furthermore, the mortar storage unit comprises two material baffle plates, wherein the two material baffle plates are arranged on the frame body and are respectively positioned on two opposite sides of the conveying unit, and each material baffle plate at least extends to the side edge corresponding to the forming plate from one end, close to the mortar storage unit, of the material baffle plate.

Further, the molding unit further comprises an adjusting assembly;

the adjusting component comprises an adjusting piece, a transmission piece and an actuating piece, the actuating piece is connected with the forming plate, the transmission piece is connected between the adjusting piece and the actuating piece, and the actuating piece can bear the adjusting piece to drive the forming plate to lift through transmission of the transmission piece.

Furthermore, the adjusting piece comprises a rotating shaft and a hand wheel, the rotating shaft is rotatably arranged on the frame body, the axis of the rotating shaft is orthogonal to the moving direction of the material plate, and the hand wheel is arranged at one end of the rotating shaft;

the actuating piece comprises two connecting rods which are arranged at intervals along the axis of the rotating shaft and are respectively and rotatably arranged on the frame body;

the transmission part comprises racks respectively arranged on the connecting rods and gears respectively sleeved on the rotating shafts and meshed with the corresponding racks.

Furthermore, the adjusting piece comprises a screw rod which is rotatably arranged on the frame body;

the transmission part comprises a lifting plate, an internal threaded hole is formed in the lifting plate, and the internal threaded hole is in threaded connection with the screw;

the actuating piece comprises two connecting rods, one ends of the two connecting rods are respectively connected with the lifting plate, and the other ends of the two connecting rods are respectively connected with the forming plate.

Further, still include the stirring subassembly, the stirring subassembly includes power device and stirring piece, the stirring piece is located the storage intracavity, with power device connects to can accept power device orders about and rotates.

Further, the power device is a motor.

Further, the mortar storage unit comprises a box body; the box body comprises a square section positioned above and an arc section positioned below and connected with the square section.

Further, the stirring piece comprises a central shaft and stirring blades arranged on the central shaft; the axis of the arc-shaped section is coaxial with the axis of the central shaft.

The working principle and the beneficial effects of the utility model are as follows:

according to the thermal insulation and disassembly-free integrated plate thermal insulation mortar forming device provided by the utility model, the guide plates are arranged in front of the forming plates, and the two guide plates respectively extend obliquely and downwards along the conveying direction of the conveying unit to the material plates, so that when the mortar passes through the guide plates, the guide plates have downward pressure on the mortar, and the bonding strength of the mortar and the material plates can be improved; moreover, as the pressure of the guide plate on the mortar is gradually increased along with the movement of the mortar, the mortar can automatically move towards the direction with small pressure, so that the guide plate can also improve the effect of uniformly distributing the mortar and further improve the molding effect of the mortar on the material plate.

Drawings

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

FIG. 1 is an axonometric view of a thermal insulation and disassembly-free integrated plate thermal insulation mortar forming device provided by the embodiment of the utility model;

FIG. 2 is a sectional view of a front view of the thermal insulation and disassembly-free integrated plate thermal insulation mortar forming device provided by the embodiment of the utility model;

fig. 3 is a sectional view of a case provided in an embodiment of the present invention.

In the figure: 100-frame body, 200-conveying unit, 300-mortar storage unit, 310-box body, 311-square section, 312-arc section, 400-material guide unit, 410-material guide plate, 500-forming plate, 600-material baffle plate, 710-screw rod, 720-lifting plate and 730-connecting rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to 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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any inventive step, are intended to be within the scope of the present invention.

The present embodiment provides a thermal insulation and disassembly-free integrated plate thermal insulation mortar forming apparatus, as shown in fig. 1, which includes a frame body 100, a conveying unit 200, a mortar storage unit 300, a material guiding unit 400, and a forming plate 500; the mortar storage unit 300 is arranged on the frame body 100 and is provided with a storage cavity and a discharge hole, and the discharge hole is positioned above the moving path of the material plate; the material guiding unit 400 is arranged on the frame body 100 and is located at the downstream of the mortar storing unit 300, the material guiding unit 400 comprises two material guiding plates 410, the two material guiding plates 410 are located above the conveying unit 200, one sides of the two material guiding plates 410 are connected, and the other sides of the two material guiding plates respectively extend to the opposite sides of the conveying unit 200; along the conveying direction of the conveying unit 200 to the material plates, the two material guide plates 410 respectively extend obliquely downwards, and a first interval is arranged between one end of each material guide plate 410, which is far away from the mortar storage unit 300, and the conveying unit 200; the forming plate 500 is disposed on the frame body 100 and located downstream of the material guide unit 400; the forming plate 500 is located above the conveying unit 200, and a second interval is provided between the forming plate and the conveying unit 200, and the first interval is greater than the second interval.

That is, in the molding apparatus of this embodiment, the material plate is driven by the conveying unit 200 to move in the direction shown by the arrow in fig. 1, the mortar storage unit 300 is disposed above the material plate, and when the material plate passes through the mortar storage unit 300, the thermal insulation mortar in the mortar storage unit 300 can fall on the material plate through the discharge port; by arranging the material guiding plates 410 before the forming plate 500, since the two material guiding plates 410 extend obliquely downward along the conveying direction of the material plates by the conveying unit 200, that is, along the X direction in fig. 2, when passing through the material guiding plates 410, the material guiding plates 410 have downward pressure on the mortar, so that the bonding strength between the mortar and the material plates can be improved; moreover, as the pressure of the material guiding plate 410 on the mortar is gradually increased along with the movement of the mortar, the mortar can automatically move in the direction of small pressure, and therefore, the material guiding plate 410 of the embodiment can also improve the effect of uniform distribution of the mortar, and further improve the molding effect of the mortar on the material plate.

In the forming apparatus of this embodiment, by providing the material guiding unit 400, because the two material guiding plates 410 extend obliquely and downwardly along the conveying direction of the conveying unit 200 to the material plate, when passing through the material guiding plates 410, the material guiding plates 410 have a downward pressure on the mortar, so that the bonding strength between the mortar and the material plate can be improved; moreover, as the pressure of the material guide plate 410 on the mortar is gradually increased along with the movement of the mortar, the mortar can automatically move in the direction of small pressure, so that the material guide plate 410 provided by the utility model can also improve the effect of uniform distribution of the mortar, and further improve the molding effect of the mortar on the material plate.

In this embodiment, the structure of the rack 100 and the conveying unit 200 can refer to the prior art, and the structure thereof will not be described in detail herein. The conveying unit 200 has a conveying surface capable of reciprocating in a circulating manner, and the movement of the conveying surface can drive the flitch thereon to move along a predetermined direction.

In order to make the thermal mortar smoothly fall from the mortar storage unit 300, in this embodiment, the molding device further includes a stirring component, the stirring component includes a power device and a stirring member, the stirring member is disposed in the storage cavity and connected to the power device, so as to be driven by the power device to rotate.

That is, in this embodiment, a stirring member is disposed in the mortar storage unit 300, and the stirring member can be driven by a power device to rotate in the mortar storage unit 300 so as to stir the thermal insulation mortar in the mortar storage unit 300, thereby preventing the thermal insulation mortar from being coagulated, and enabling the thermal insulation mortar to smoothly fall on the material plate from the inside of the mortar storage unit 300.

In a specific structure, referring to fig. 1 and fig. 2, the mortar storage unit 300 of the present embodiment includes a box 310, and the box 310 includes a square section 311 located above and an arc section 312 located below, and the arc section 312 is connected to the square section 311. Or, the section of the box body 310 of the embodiment, which is perpendicular to the length direction of the box body, comprises an "Contraband" section which is positioned above and has a downward opening, and a truncated circular section, and two ends of the truncated circular section are connected with two ends of the "Contraband" section.

By arranging the box body 310 with the structure, on one hand, compared with the case body 310 which is integrally arranged to be circular, the volume of the storage cavity can be increased by arranging the square section 311 which is positioned above the box body; on the other hand, compare and be square with the whole setting of box 310, this embodiment can make things convenient for the stirring of stirring piece through setting up the following segmental arc 312, avoids some positions to be difficult to stir and leads to the heat preservation mortar to condense in box 310.

In some embodiments, the housing 310 may be configured to be round, square, or other shape.

In this embodiment, referring to fig. 1, the power device is specifically a motor, and the stirring member specifically includes a central shaft and a stirring blade disposed on the central shaft; and the axis of the central shaft is coaxial with the axis of the arc-shaped section 312, wherein the motor shaft of the motor is connected with the central shaft, so that the motor shaft of the motor can drive the central shaft and the stirring blades thereon to rotate, thereby stirring the heat-preservation mortar in the box body 310. It should be noted that the motor and the stirring blade can be made of existing products, and the connection structure between the motor and the stirring blade can also refer to the existing mature technology, and the specific structure of the stirring member is not shown in the drawings of the embodiment since the understanding is not affected.

In some embodiments, the power device may further include a speed reducer connected to the motor; the power device may also be a hydraulic motor or a pneumatic motor, which has the same principle as the solution of the present embodiment and is not described herein again.

In this embodiment, referring to fig. 1, the outer sides of the two material guiding plates 410 are respectively fixed to two opposite sides of the frame body 100, the inner sides of the two material guiding plates 410 are connected, and the direction from the side where the two material guiding plates 410 are connected to the outer side is the Y direction in fig. 1, and the two material guiding plates 410 respectively extend backward, wherein the backward direction refers to the conveying direction of the material plates along the conveying unit 200.

When the heat preservation mortar falls on the flitch, generally fall on the middle part of flitch, be the thickness that the mortar in flitch middle part is greater than the thickness of both sides mortar promptly, if the mortar directly passes through profiled sheeting 500, the mortar is probably insufficient to the flow of flitch both sides to can lead to the position of flitch both sides to have phenomenons such as lack of material.

Compared with the above, in the scheme of this embodiment, through setting up stock guide 410 according to foretell structure, the mortar is behind two stock guide 410, if the mortar at flitch middle part is too high, along with the removal of flitch, the mortar carries out the water conservancy diversion to the both sides of flitch through the stock guide 410 of both sides, thereby make the mortar carry out abundant flow to the both sides of flitch, it is comparatively even to make the mortar distribute on the flitch before through forming plate 500, thereby can be at the flitch better shaping behind forming plate 500, avoid partial position to have defects such as insufficient material.

On the basis of the above structure, referring to fig. 1, the forming device of this embodiment further includes two material blocking plates 600, the two material blocking plates 600 are respectively disposed on the frame body 100 and located on two opposite sides of the conveying unit 200, and each material blocking plate 600 extends to a side edge corresponding to the forming plate 500 from at least one end of the material blocking plate 410 close to the mortar storage unit 300.

In this embodiment, by providing the two striker plates 600, the mortar can be prevented from falling from the two sides of the material plate and the conveying unit 200.

On the basis of the structure, the embodiment also provides a structure convenient for the forming device to use, and particularly, the forming device of the embodiment further comprises an adjusting component; the adjusting component comprises an adjusting piece, a transmission piece and an actuating piece, wherein the actuating piece is connected with the forming plate 500, the transmission piece is connected between the adjusting piece and the actuating piece, and the actuating piece can bear the driving of the adjusting piece to drive the forming plate 500 to lift through the transmission of the transmission piece.

That is to say, in the molding device of this embodiment, the height of the molding plate 500, that is, the distance between the molding plate 500 and the material plate, that is, the thickness of the thermal mortar on the material plate, can be adjusted through the adjusting member.

In this embodiment, referring to fig. 1, the adjusting member includes a screw 710 rotatably disposed on the frame body 100; the transmission member comprises a lifting plate 720, wherein an internal thread hole is arranged on the lifting plate 720 and is in threaded connection with the external thread; the actuating member includes two connecting rods 730, one end of each of the two connecting rods 730 is connected to the lifting plate 720, and the other end is connected to the forming plate 500. Therefore, the screw 710 is rotated to drive the lifting plate 720 to lift, and the lifting plate 720 is lifted by the connecting rod 730 to drive the forming plate 500 to lift.

In some embodiments, the adjustment member may also include a shaft and a hand wheel; wherein, the rotating shaft is rotatably arranged on the frame body 100, the axis of the rotating shaft is orthogonal to the moving direction of the material plate, and the hand wheel is arranged on one end of the rotating shaft; the actuating member comprises two connecting rods 730, the two connecting rods 730 are arranged at intervals along the axis of the rotating shaft and are respectively rotatably arranged on the frame body 100, and the two connecting rods 730 are respectively orthogonal to the rotating shaft; the transmission members include racks respectively disposed on the connecting rods 730, and gears respectively sleeved on the rotating shafts and engaged with the corresponding racks. The accessible rotates the hand wheel and drives the pivot and rotate, will drive the gear rotation on it when the pivot rotates, and the rotation of gear can drive corresponding rack along linear motion, also can drive connecting rod 730 along linear motion to can drive the profiled sheeting 500 lift.

In this embodiment, the material guiding unit 400 is provided with an adjusting mechanism for driving the material guiding unit 400 to ascend and descend, and the adjusting mechanism may refer to the adjusting assembly, and the structure thereof will not be described herein again. The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a heat preservation exempts from to tear open integration board heat preservation mortar forming device, includes support body, transport unit and mortar memory cell, the transport unit is located on the support body for carry the flitch, mortar memory cell locates on the support body to storage chamber and discharge gate have, the discharge gate is located the flitch removes the top on route, its characterized in that still includes:

the material guide unit is arranged on the frame body and is positioned at the downstream of the mortar storage unit, the material guide unit comprises two material guide plates, the two material guide plates are positioned above the conveying unit, one sides of the two material guide plates are connected, and the other sides of the two material guide plates extend to the opposite sides of the conveying unit respectively; the two guide plates respectively extend downwards in an inclined manner along the conveying direction of the conveying unit to the material plates, and a first interval is arranged between one end of each guide plate, far away from the mortar storage unit, and the conveying unit;

the forming plate is arranged on the frame body and is positioned at the downstream of the material guide unit; the forming plate is located above the conveying unit, a second interval is arranged between the forming plate and the conveying unit, and the first interval is larger than the second interval.

2. The thermal mortar forming device of claim 1, wherein the two material guiding plates extend obliquely along the conveying direction of the conveying unit from one side to the other side of the device where the two material guiding plates are connected.

3. The thermal insulation and disassembly-free integrated plate thermal insulation mortar forming device according to claim 1, further comprising two material blocking plates, wherein the two material blocking plates are arranged on the frame body and are respectively positioned on two opposite sides of the conveying unit, and each material blocking plate at least extends from one end, close to the mortar storage unit, of the material blocking plate to a side edge corresponding to the forming plate to be connected.

4. The thermal insulation disassembly-free integrated plate thermal insulation mortar forming device as claimed in any one of claims 1 to 3, further comprising an adjusting assembly;

the adjusting component comprises an adjusting piece, a transmission piece and an actuating piece, the actuating piece is connected with the forming plate, the transmission piece is connected between the adjusting piece and the actuating piece, and the actuating piece can bear the adjusting piece to drive the forming plate to lift through transmission of the transmission piece.

5. The thermal insulation and disassembly-free integrated plate thermal insulation mortar forming device according to claim 4, wherein the adjusting piece comprises a rotating shaft and a hand wheel, the rotating shaft is rotatably arranged on the frame body, the axis of the rotating shaft is orthogonal to the moving direction of the material plate, and the hand wheel is arranged at one end of the rotating shaft;

the actuating piece comprises two connecting rods which are arranged at intervals along the axis of the rotating shaft and are respectively and rotatably arranged on the frame body;

the transmission part comprises racks respectively arranged on the connecting rods and gears respectively sleeved on the rotating shafts and meshed with the corresponding racks.

6. The thermal insulation and disassembly-free integrated plate thermal insulation mortar forming device as claimed in claim 4, wherein the adjusting piece comprises a screw rod rotatably arranged on the frame body;

the transmission part comprises a lifting plate, an internal threaded hole is formed in the lifting plate, and the internal threaded hole is in threaded connection with the screw;

the actuating piece comprises two connecting rods, one ends of the two connecting rods are respectively connected with the lifting plate, and the other ends of the two connecting rods are respectively connected with the forming plate.

7. The thermal insulation and disassembly-free integrated plate thermal insulation mortar forming device according to any one of claims 1 to 3, further comprising a stirring assembly, wherein the stirring assembly comprises a power device and a stirring piece, and the stirring piece is arranged in the storage cavity, connected with the power device and capable of being driven by the power device to rotate.

8. The thermal insulation and disassembly-free integrated plate thermal insulation mortar forming device as claimed in claim 7, wherein the power device is a motor.

9. The thermal insulation and disassembly-free integrated plate thermal insulation mortar forming device as claimed in claim 7, wherein the mortar storage unit comprises a box body; the box body comprises a square section positioned above and an arc section positioned below and connected with the square section.

10. The thermal insulation and disassembly-free integrated plate thermal insulation mortar forming device as claimed in claim 9, wherein the stirring piece comprises a central shaft and stirring blades arranged on the central shaft; the axis of the arc-shaped section is coaxial with the axis of the central shaft.

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