CN113605654B - Assembled furred ceiling board transport lifting instrument - Google Patents

Abstract

The invention belongs to the technical field of equipment for decoration, and particularly relates to an assembly type suspended ceiling plate carrying lifting tool. According to the invention, the rotary plate unit, the air cylinder unit and the lateral clamping plate unit are arranged on the support frame unit, so that the purpose that the assembled ceiling plate can be stably carried and safely lifted is achieved. The invention has the following advantages: the first and the second carrying lifting tools are reasonable and effective in self structure, and the mode of obliquely placing the plate body in a relatively low-level state and then moving, carrying and rotating the plate body to lift the plate body is simple, reliable, flexible and efficient; secondly, the plate body has the functions of limiting and clamping in the carrying and lifting processes, so that the plate body is not easy to fall off; thirdly, the clamping action of the plate body is automatically triggered and released, the clamping effect is convenient and ingenious, and the whole clamping operation is easy and labor-saving; fourth, the transport lifting instrument wide applicability can once operate polylith furred ceiling board.

Description

Assembled furred ceiling board transport lifting instrument

Technical Field

The invention belongs to the technical field of equipment for decoration, and particularly relates to an assembly type suspended ceiling plate carrying lifting tool.

Background

The assembled ceiling board refers to a prefabricated board product with required size and required style when the board leaves the factory according to the order requirement of a customer, and the customer only needs to carry out simple assembly operation on the decoration site, and does not need troublesome operations of intermediate product preparation and measurement cutting, so that great convenience is brought to home decoration.

On the other hand, the weight of the fabricated ceiling tile is generally relatively high, requiring that it be held in a raised position for installation, and is relatively laborious, requiring a type of lifting mechanism to ensure that the fabricated ceiling tile is stably supported.

The existing ceiling plate lifting device mainly comprises an air cylinder and a supporting plate, can achieve basic lifting and supporting and maintaining effects, but still has the following problems: the plate body may fall off the support plate, which is dangerous.

Therefore, in view of the above, in the installation site of the assembled ceiling plate, a lifting device with a clamping and anti-falling function for the belt plate body is urgently needed to ensure that the whole installation process is performed safely and efficiently.

The utility model patent publication No. CN209689934U, publication No. 2019.11.26, chinese patent publication No. 2019.11.26 discloses a lifting structure of automobile engine hood, which consists of a bearing table, an electric cylinder, a lifting rod and a tripod, wherein the bearing table can be used for bearing the lifting structure, the tripod on the bearing table is used for connecting and matching with the lifting rod, the lifting rod on the tripod is matched with the electric cylinder to drive the lifting rod to realize the lifting movement of the automobile hood, the automobile front hood to be detected is lifted by a roller wheel wound by a steel wire rope at the upper end of the lifting rod so as to adapt to the requirements under different working environments, the electric cylinder is arranged on the tripod, the lifting rod is driven by driving force of the lifting rod to rotate so as to realize up-and-down movement, and compared with the driving of the air cylinder and the hydraulic cylinder, the electric cylinder saves cost.

However, the bonnet lifting structure in the patent is deficient in the reinforcing effect on the bonnet, so that the bonnet is easy to shake and even fall after being lifted.

Disclosure of Invention

The invention provides an assembled suspended ceiling plate carrying lifting tool, which can achieve the purpose that the assembled suspended ceiling plate can be stably carried and safely lifted by arranging a rotating plate unit, a cylinder unit and a lateral clamping plate unit on a supporting frame unit.

The invention adopts the technical proposal that: the utility model provides an assembled furred ceiling board transport lifting instrument, includes support frame unit, the upper end articulates on the support frame unit and through the rotatory ascending mode of lower extreme in order to be used for lifting the rotor plate unit of plate body, and set up on the support frame unit and be used for the slope upwards promote the cylinder unit of rotor plate unit.

The further preferable technical scheme is as follows: the support frame unit comprises a bottom plate, two vertical plates arranged on the bottom plate, and a hinge shaft arranged at the upper position between the two vertical plates and used for sleeving the rotating plate unit.

The further preferable technical scheme is as follows: the rotary plate unit comprises a bearing plate, wherein the lower end side edge of the bearing plate is supported on the bottom plate, the inclined lower surface of the bearing plate is connected with the cylinder unit, the bearing plate is provided with an opening in the plate, the opening is used for being inserted into and installed on the hinge shaft, and the limiting plate is arranged on the inclined upper surface of the bearing plate and is close to the position of the lower end side edge.

The further preferable technical scheme is as follows: the cylinder unit includes an inclined cylinder body disposed on the bottom plate, a shaft body tube disposed on a cylinder shaft of the inclined cylinder body, and an on-plate fixing rod disposed on an inclined lower surface of the bearing plate and inserted into the shaft body tube.

The further preferable technical scheme is as follows: the support frame unit further comprises universal wheels arranged on the bottom plate; the cylinder unit further comprises a cylinder hand rocker which is arranged on the inclined cylinder main body and outwards penetrates out of the vertical plate.

The further preferable technical scheme is as follows: the lateral clamping plate unit comprises a pre-clamping plate part arranged on the side surface of the bearing plate, a rotating plate part arranged on the side surface of the bearing plate and used for jacking up the pre-clamping plate part outwards before the bearing plate is placed, a pulling block part arranged on the bearing plate and used for driving the rotating plate part to rotate in a downward pushing mode through the plate body, and a connecting rope part arranged between the rotating plate part and the pulling block part.

The further preferable technical scheme is as follows: the pre-clamping plate part comprises a first slotting arranged on the side surface of the bearing plate, a limiting shaft arranged on the bottom surface of the first slotting slot, a movable cylinder body sleeved on the limiting shaft, a clamping plate arranged on the outer side end of the movable cylinder body and used for clamping a plate body which is already placed, and a driving tension spring sleeved on the movable cylinder body and used for inwards pulling the clamping plate on the bottom surface of the first slotting slot.

The further preferable technical scheme is as follows: the rotating plate part comprises a second slotting arranged on the side surface of the bearing plate and positioned between the two first slotting, a rotating fixed shaft arranged on the second slotting, a rotating plate body sleeved on the rotating fixed shaft after being perforated and used for pushing up the clamping plate in an outward rotating mode, and a reset torsion spring arranged on the rotating fixed shaft and used for inwards retracting the rotating plate body.

The further preferable technical scheme is as follows: the pulling block part comprises a plate body opening arranged between two limiting plates, a fixing rod arranged on the plate body opening and with a central shaft parallel to the rotation plane of the bearing plate, a protruding sliding block sleeved on the fixing rod and used for receiving downward pushing force of the lower end edge of the plate body after the fixing rod is perforated, a round table block body arranged on the side face of the protruding sliding block, an opening circular ring sleeved on the larger end of the round table block body and connected with the connecting rope part, and a column arranged on the side face of the opening of the plate body and used for jacking up and releasing the opening of the opening circular ring after the round table block body finishes pulling the opening circular ring.

The further preferable technical scheme is as follows: the connecting rope part comprises an L-shaped cavity channel arranged between the second slot and the opening of the plate body, a fixed pulley arranged at the bending part of the L-shaped cavity channel, two auxiliary pull ropes symmetrically arranged on the opening circular ring, and a main rope which is wound on the fixed pulley, one end of the main rope is connected with the rotating plate body, the other end of the main rope is connected with the two auxiliary pull ropes, and the main rope is used for pulling outwards to push the rotating plate body.

The invention has the following advantages: the first and the second carrying lifting tools are reasonable and effective in self structure, and the mode of obliquely placing the plate body in a relatively low-level state and then moving, carrying and rotating the plate body to lift the plate body is simple, reliable, flexible and efficient; secondly, the plate body has the functions of limiting and clamping in the carrying and lifting processes, so that the plate body is not easy to fall off; thirdly, the clamping action of the plate body is automatically triggered and released, the clamping effect is convenient and ingenious, and the whole clamping operation is easy and labor-saving; fourth, the transport lifting instrument wide applicability can once operate polylith furred ceiling board.

Drawings

Fig. 1 is a schematic view of a structure of the carrying lifting tool after being rotated open in the present invention.

Fig. 2 is a schematic structural view of the carrying lifting tool according to the present invention after being folded.

Fig. 3 is a schematic view showing the position structure of the rotating plate unit in the present invention.

Fig. 4 is a schematic view of the position of the lateral clamping plate unit in the top view of the present invention.

Fig. 5 is a schematic view showing the position structure of the pre-clamping plate part and the rotating plate part in the present invention.

Fig. 6 is a schematic view of the position structure of the connecting rope portion in the present invention.

Fig. 7 is a schematic view of the position structure of the pulling block part in the present invention.

Fig. 8 is a schematic view of the position of the protruding sliding block in the present invention.

Detailed Description

The following description is of the preferred embodiments of the invention and is not intended to limit the scope of the invention.

Examples: as shown in fig. 1,2, 3, 4, 5, 6, 7 and fig. 8, an assembled ceiling board carrying and lifting tool includes a support frame unit 1, a rotating plate unit 2 having an upper end hinged to the support frame unit 1 and rotated upward by a lower end for lifting a plate body a, and a cylinder unit 3 provided on the support frame unit 1 and for pushing the rotating plate unit 2 obliquely upward.

In this embodiment, the method for using the carrying lifting tool includes: when the lifting device is started, the air cylinder unit 3 is in a closed and folded state, the rotating plate unit 2 is in an inclined and folded state, at the moment, the plate body a is obliquely placed on the rotating plate unit 2, then the air cylinder unit 3 is opened, the rotating plate unit 2 is jacked up and kept in a jacking state, the plate body a is effectively lifted, after the plate body a is obliquely placed, the whole lifting tool can be moved and carried, the lifting action of the lifting tool and the lifting action of the air cylinder unit 3 are not mutually interfered, and finally the lifting tool ensures that the lifting assembly type suspended ceiling plate can be stably and effectively carried.

The support frame unit 1 includes a base plate 101, two standing plates 102 provided on the base plate 101, and a hinge shaft 103 provided at an upper position between the two standing plates 102 and used for sleeving the rotating plate unit 2.

In this embodiment, the vertical plate 102 has a right triangle shape, which has the advantage that the rotating plate unit 2 can press the end sides against the bottom plate 101 for maintaining the inclined state, and can press the two sides of the rotating plate unit 2 against the oblique sides of the vertical plate 102 to assist in fixing the initial inclined state of the rotating plate unit 2.

The rotary plate unit 2 includes a bearing plate 201 having a lower end side supported on the base plate 101 and an inclined lower surface connected to the cylinder unit 3, a plate-upper opening 202 provided on the bearing plate 201 for insertion of the hinge shaft 103, and a stopper plate 203 provided on an inclined upper surface of the bearing plate 201 at a position close to the lower end side. The cylinder unit 3 includes an inclined cylinder body 301 provided on the base plate 101, a shaft body pipe 302 provided on a cylinder shaft of the inclined cylinder body 301, and an on-plate fixing rod 303 provided on an inclined lower surface of the bearing plate 201 and inserted into the shaft body pipe 302. The support frame unit 1 further comprises universal wheels 104 arranged on the base plate 101; the cylinder unit 3 further includes a cylinder hand rocker 304 provided on the tilting cylinder body 301 and penetrating out of the vertical plate 102.

In this embodiment, the shaft body tube 302 is sleeved with the fixing rod 303 on the board, the hinge shaft 103 is inserted into the opening 202 on the board, and finally the inclined cylinder main body 301 has a cylinder shaft extending and retracting function, so that the bearing plate 201 can effectively rotate around the hinge shaft 103 for lifting and carrying the assembled ceiling plate.

In addition, the limiting plate 203 is located at the outermost side of the rotation direction of the bearing plate 201, and is used for limiting the supporting plate a, while the universal wheel 104 is of an existing universal wheel structure with a foot brake function, the cylinder hand rocker 304 is of an existing hand lever, and when the inclined cylinder main body 301 is powered off, the bearing plate 201 can still be effectively rotated and lifted in a hand-operated manner.

The lateral clamping plate unit 4 for clamping the side edge of the plate body a is further arranged on the bearing plate 201, the lateral clamping plate unit 4 comprises a pre-clamping plate portion 401 arranged on the side surface of the bearing plate 201, a rotating plate portion 402 arranged on the side surface of the bearing plate 201 and used for jacking up the pre-clamping plate portion 401 outwards before the plate body a is placed, a pulling block portion 403 arranged on the bearing plate 201 and used for driving the rotating plate portion 402 to rotate in a downward pushing mode through the plate body a, and a connecting rope portion 404 arranged between the rotating plate portion 402 and the pulling block portion 403.

In this embodiment, the method and advantages of using the lateral clamping plate unit 4 are as follows.

Initially, the pulling block 403 is at a relatively high position in an oblique direction, the rotating plate 402 is in an inward retracted state, the pre-clamping plate 401 is in an inner tightening state, and the pre-clamping plate 401 may be arranged in pairs on two sides, or a single pre-clamping plate 401 is matched with a fixing plate, so that the plate body a can be effectively clamped in the two modes.

Then, the lower end edge of the plate body a is pressed against the pulling block 403 but not against the limiting plate 203, at this time, the pulling block 403 is pulled downward, the rotating plate 402 is opened by the connecting rope 404 rotating outward, and the rotating plate 402 pushes the pre-clamping plate 401, so that the plate body a can be swung on the carrier 201, that is, the opening width of the pre-clamping plate 401 is smaller than the width of the plate body a.

Then, the holding action of the plate body a is released, and the plate body a slides down by self gravity until being pressed on the fixed limiting plate 203, at this time, the pulling block 403 is released from pulling, and finally the pre-clamping plate 401 is restored to clamp the side edge of the plate body a which is placed stably, and then the plate body a can be lifted up in a rotating way.

Finally, when the plate body a needs to be taken down from the bearing plate 201 for use, after all, the clamping force of the pre-clamping plate portion 401 on the side surface of the plate body a is not bearing force, so that the difficulty in taking down the plate body a from the pre-clamping plate portion 401 is moderate, the whole lateral clamping plate unit 4 is guaranteed to have the advantages of moderate clamping strength, and moderate and labor-saving difficulty in placing and taking down the plate body a.

The pre-clamping plate portion 401 includes a first slot 401a provided on a side surface of the carrier plate 201, a limit shaft 401b provided on a slot bottom surface of the first slot 401a, a movable cylinder 401c sleeved on the limit shaft 401b, a clamping plate 401d provided on an outer side end of the movable cylinder 401c and used for clamping the plate body a already placed, and a driving tension spring 401e sleeved on the movable cylinder 401c and used for pulling the clamping plate 401d inward on the slot bottom surface of the first slot 401 a.

In this embodiment, the surface of the clamping plate 401d parallel to the upper surface of the carrier 201 needs to be higher than the upper surface of the carrier 201, so that a plurality of ceiling boards can be clamped, while one end of the driving tension spring 401e is fixedly connected to the bottom surface of the first slot 401a, and the other end is fixedly connected to the inner side surface of the clamping plate 401d, so that the width between the inner side surfaces for clamping the clamping plate 401d is smaller than the width of the plate body a as long as the rotating plate 402 does not jack up outwards.

The rotating plate part 402 includes a second slot 402a provided on the side of the carrier 201 and located between the two first slots 401a, a rotating fixed shaft 402b provided on the second slot 402a, a rotating plate body 402c sleeved on the rotating fixed shaft 402b and used for pushing up the clamping plate 401d by rotating outward after opening, and a reset torsion spring provided on the rotating fixed shaft 402b and used for retracting the rotating plate body 402c inward.

In this embodiment, one end of the rotating plate 402c is connected to the connection rope 404, and the other end is used to directly jack up the clamping plate 401d after rotating out of the slot, so as to open the clamping plate 401d, so that the plate a can be placed on the inclined bearing plate 201, the reset direction of the reset torsion spring is to make the rotating plate 402c rotate and retract, and the pulling action of the connection rope 404 is to resist the reset elastic force, so that the rotating plate 402c is smoothly rotated out.

The pulling block portion 403 includes a plate body opening 403a disposed between the two limiting plates 203, a fixing rod 403b disposed on the plate body opening 403a and having a central axis direction parallel to a rotation plane of the bearing plate 201, a protruding sliding block 403c sleeved on the fixing rod 403b and used for receiving downward pushing force of a lower end edge of the plate body a, a round platform block 403d disposed on a side surface of the protruding sliding block 403c, an opening ring 403e sleeved and clamped on a larger end of the round platform block 403d and connected with the connecting rope portion 404, and an opening pushing post 403f disposed on the side surface of the plate body opening 403a and used for pushing up and releasing the opening ring 403e after the round platform block 403d completes pulling the opening ring 403 e.

In the present embodiment, the method and advantages of using the pull block portion 403 are as follows.

First, the spring 603g is initially sleeved on the fixing rod 403b, both ends do not need to be fixed, and is used for jacking up the protruding sliding block 403c, and the protruding sliding block 403c is indirectly pulled up by the connecting rope portion 404, so that the protruding sliding block 403c is located at a side far away from the limiting plate 203, that is, in a relatively high position, at this time, the lower end edge of the plate body a presses on the protruding sliding block 403c, and the protruding sliding block 403c finally pulls the connecting rope portion 404 to open the clamping plate 401d, and then the plate body a is laid down, that is, presses on the bearing plate 201 and continues to slide downwards.

Secondly, before the plate body a slides down to the end point, that is, before the limiting plate 203 is placed, the opening pushing-up post 403f is inserted into the opening of the opening circular ring 403e, the opening circular ring 403e is released from the circular table block 403d, at this time, the connecting rope portion 404 is loosened, the clamping plate 401d resumes clamping, and finally, the side surface of the plate body a slides down to the limiting plate 203 against the clamping force of the clamping plate 401d, that is, the placement is completed, and the end effect is that the lower end of the plate body a is supported by the limiting plate 203, the side surface is clamped and limited by the clamping plate 401d, and the opposite force of the latter is smaller.

Thirdly, when the plate body a needs to be removed and used, the upper end of the plate body a is lifted by overcoming the clamping force of the clamping plate 401d, and then the whole plate body a is lifted, at this time, the opening ring 403e and the round table block 403d are disengaged and cannot be clamped again, the rotating plate part 402 also returns to the inward retracted state, and after the last plate body a on the bearing plate 201 is removed, the clamping plate 401d returns to the initial clamping state again.

Fourth, in the use process of the pulling block 403, it is important that before the lower end edge of the plate body a reaches the limiting plate 203, the opening pushing post 403f must push up and drop the opening ring 403e on the round table block 403d, and the round table block 403d can clamp the opening rings 403e with different sizes, which is very convenient and flexible.

The connecting rope portion 404 includes an L-shaped cavity 404a disposed between the second slot 402a and the plate opening 403a, a fixed pulley 404b disposed at a bent portion of the L-shaped cavity 404a, two auxiliary pull ropes 404c symmetrically disposed on the opening ring 403e, and a main rope 404d wound around the fixed pulley 404b and having one end connected to the rotating plate 402c and the other end connected to the two auxiliary pull ropes 404c and used for pulling outwards to push the rotating plate 402 c.

In this embodiment, two auxiliary pull ropes 404c extend from the main rope 404d, so that the tension of the open circular ring 403e on the rotating plate 402c can be ensured to be smooth and symmetrical, and in addition, the size of the opening of the L-shaped cavity channel 404a is smaller than that of the open circular ring 403e, so that the open circular ring 403e is ensured not to be blocked into the L-shaped cavity channel 404a.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various modifications may be made within the knowledge of those skilled in the art without departing from the spirit of the present invention. These are all non-inventive modifications which are intended to be protected by the patent laws within the scope of the appended claims.

Claims (2)

1. An assembled furred ceiling board transport lifting instrument, its characterized in that: comprises a support frame unit (1), a rotating plate unit (2) with the upper end hinged on the support frame unit (1) and used for lifting a plate body (a) in a way that the lower end rotates upwards, and a cylinder unit (3) arranged on the support frame unit (1) and used for pushing the rotating plate unit (2) obliquely upwards,

The support frame unit (1) comprises a bottom plate (101), two vertical plates (102) arranged on the bottom plate (101), and a hinge shaft (103) arranged at the upper position between the two vertical plates (102) and used for sleeving the rotating plate unit (2),

The rotary plate unit (2) includes a carrier plate (201) having a lower end side supported on the base plate (101) and an inclined lower surface connected to the cylinder unit (3), a plate-upper opening (202) provided on the carrier plate (201) for inserting and mounting the hinge shaft (103), and a limiting plate (203) provided on the inclined upper surface of the carrier plate (201) at a position close to the lower end side,

The cylinder unit (3) includes an inclined cylinder body (301) provided on the base plate (101), a shaft body tube (302) provided on a cylinder shaft of the inclined cylinder body (301), and an on-plate fixing rod (303) provided on an inclined lower surface of the bearing plate (201) and inserted into the shaft body tube (302),

The bearing plate (201) is also provided with a lateral clamping plate unit (4) for clamping the side edge of the plate body (a), the lateral clamping plate unit (4) comprises a pre-clamping plate part (401) arranged on the side surface of the bearing plate (201), a rotating plate part (402) arranged on the side surface of the bearing plate (201) and used for jacking up the pre-clamping plate part (401) outwards before the plate body (a) is placed, a pulling block part (403) arranged on the bearing plate (201) and used for driving the rotating plate part (402) to rotate in a downward pushing mode through the plate body (a), and a connecting rope part (404) arranged between the rotating plate part (402) and the pulling block part (403),

The pre-clamping plate part (401) comprises a first slot (401 a) arranged on the side surface of the bearing plate (201), a limit shaft (401 b) arranged on the bottom surface of the first slot (401 a), a movable cylinder (401 c) sleeved on the limit shaft (401 b), a clamping plate (401 d) arranged on the outer side end of the movable cylinder (401 c) and used for clamping the plate body (a) which is already placed, and a driving tension spring (401 e) sleeved on the movable cylinder (401 c) and used for pulling the clamping plate (401 d) inwards on the bottom surface of the first slot (401 a),

The rotating plate part (402) comprises a second slot (402 a) arranged on the side surface of the bearing plate (201) and positioned between the two first slots (401 a), a rotating fixed shaft (402 b) arranged on the second slot (402 a), a rotating plate body (402 c) sleeved on the rotating fixed shaft (402 b) after being perforated and used for pushing up the clamping plate (401 d) in an outward rotating way, and a reset torsion spring arranged on the rotating fixed shaft (402 b) and used for inwards retracting the rotating plate body (402 c),

The pulling block part (403) comprises a plate body opening (403 a) arranged between the two limiting plates (203), a fixed rod (403 b) arranged on the plate body opening (403 a) and with a central axis direction parallel to the rotation plane of the bearing plate (201), a protruding sliding block (403 c) sleeved on the fixed rod (403 b) after opening and used for receiving downward pushing force of the lower end edge of the plate body (a), a round table block (403 d) arranged on the side surface of the protruding sliding block (403 c), an opening circular ring (403 e) sleeved and clamped on the larger end of the round table block (403 d) and connected with the connecting rope part (404), and an opening jacking column (403 f) arranged on the side surface of the plate body opening (403 a) and used for jacking up and releasing the opening circular ring (403 e) after the round table block (403 d) completes pulling,

The connecting rope part (404) comprises an L-shaped cavity channel (404 a) arranged between the second slot (402 a) and the opening (403 a) of the plate body, a fixed pulley (404 b) arranged at the bending part of the L-shaped cavity channel (404 a), two auxiliary pull ropes (404 c) symmetrically arranged on the opening circular ring (403 e), and a main rope (404 d) wound on the fixed pulley (404 b) and one end of which is connected with the rotating plate body (402 c) and the other end of which is connected with the two auxiliary pull ropes (404 c) and used for pulling outwards to push the rotating plate body (402 c).

2. The fabricated ceiling tile handling lifting tool of claim 1, wherein: the support frame unit (1) further comprises universal wheels (104) arranged on the bottom plate (101); the cylinder unit (3) further comprises a cylinder hand rocker (304) which is arranged on the inclined cylinder main body (301) and outwards penetrates out of the vertical plate (102).