CN114348929A - Electric board inserting device - Google Patents

Abstract

The invention discloses an electric board inserting device, which comprises: the lower end face of the gypsum board slides along the wedge face of the wedge to raise the height, the lifting board-picking structure comprises a supporting assembly, the supporting assembly is provided with supporting legs, and the supporting legs horizontally move to the gap and then push the inserting plate pushing mechanism to rise to enlarge the gap. According to the invention, the device is used for replacing manpower, the first wedge-shaped plate is pushed into the gap between two adjacent gypsum boards, the lifting board picking mechanism is arranged for driving the first wedge-shaped plate to move upwards so as to expand the gap, after the first wedge-shaped plate rises to a proper height, the edge is sealed manually, the labor intensity of the manpower is reduced, the board picking efficiency is improved, meanwhile, the driving force of the lifting mechanism is kept constant, the first wedge-shaped plate can be driven to rise at a constant speed, and the gypsum boards are prevented from being damaged due to uneven stress.

Description

Electric board inserting device

Technical Field

The invention relates to the technical field of gypsum board detection, in particular to an electric board inserting device.

Background

In the middle of the production process of thistle board, need pass through a banding process, the gypsum board banding is accomplished through the banding device, and the gypsum board after the banding is piled up on the gypsum board frame. Because the border of gypsum panel is connected through the mode of adhesion to the banding paper, in the middle of the transportation process, partial banding paper breaks away from can appear, leads to the problem that the gypsum board banding became invalid, consequently needs increase the artifical board banding operation of choosing after the automatic banding of gypsum board.

In the prior art, a worker inserts the insertion plates into gaps of adjacent gypsum boards, and then picks up the gypsum boards and carries out manual edge sealing operation. However, the prior art has the problems of high labor intensity and damage caused by uneven stress of the gypsum board due to manual board picking.

Disclosure of Invention

The invention aims to provide an electric board inserting device, which solves the technical problems that in the prior art, labor intensity is high, and a gypsum board is damaged due to uneven stress caused by manual board picking.

In order to solve the technical problems, the invention specifically provides the following technical scheme:

an electric board plugging device, comprising:

the inserting plate pushing mechanism is horizontally inserted into the gap and penetrates into the center direction of the gypsum board to lift the gypsum board;

the bottom end of the lifting board picking mechanism is inserted into the gap, and the inserting board pushing mechanism is arranged on the lifting board picking mechanism and performs lifting motion to enlarge the gap between the gypsum boards;

wherein, picture peg advancing mechanism is provided with the wedge piece, the wedge piece inserts the gap and moves towards the central direction of gypsum board removes, the lower terminal surface of gypsum board is followed the wedge face of wedge piece slides with the lifting height, works as the board structure is chosen in the lift and is included supporting component, supporting component is provided with the stabilizer blade, stabilizer blade horizontal migration extremely behind the gap, the board subassembly promotion is chosen in the lift picture peg advancing mechanism rises in order to enlarge the gap.

As a preferable scheme of the invention, the flashboard pushing mechanism comprises a flashboard assembly and a driving assembly, the flashboard assembly moves horizontally, and the driving assembly is in power connection with the flashboard assembly to push the flashboard assembly to be inserted into a gap of the gypsum board;

the picture peg subassembly includes the rack, the wedge piece is first wedge board, first wedge board sets up the tip of rack, the rack with drive assembly power is connected with horizontal migration, first wedge board receives the rack promotes in order to insert in the gap of gypsum board, the gypsum board is followed the up end of first wedge board removes.

As a preferred scheme of the present invention, the driving assembly includes a motor, a steering switch, a driving gear and a driven gear, the driving gear is disposed on an output end of the motor, the driven gear is respectively engaged with the driving gear and the rack to transmit a torque output by the motor, and the steering switch is electrically connected to the motor to change a steering direction of the motor;

wherein the diameter of the driven gear is larger than that of the driving gear so as to convert the rotating speed of the motor into torque.

As a preferable scheme of the invention, the board inserting and pushing mechanism further comprises a housing, a guide groove is formed in an inner bottom wall of the housing and used for placing the rack, and the guide groove is arranged in a direction perpendicular to the direction of the gypsum board so that the rack pushes the first wedge-shaped board to be vertically inserted into the gap.

As a preferable scheme of the present invention, a sliding groove is provided on an upper end surface of the first wedge plate along a length direction thereof, a sliding block is provided in the sliding groove, and the sliding block moves along the sliding groove;

the upper end face of the sliding block is flush with the upper end face of the first wedge-shaped plate, after the first wedge-shaped plate is inserted into the gap, the lower edge of the gypsum board props against the upper surface of the sliding block and moves along the sliding groove so as to reduce the friction force between the gypsum board and the first wedge-shaped plate.

As a preferable mode of the present invention, the lifting board picking mechanism includes a lifting component and the supporting component, the supporting component is slidably disposed at a lower end of the lifting component, the housing is disposed on the lifting component, after the first wedge-shaped block is inserted into the gap of the gypsum board, the supporting component is slid and inserted into the gap to support the lifting component, the lifting component is driven to lift the height of the first wedge-shaped board, and a distance between the first wedge-shaped board and the lifting component is increased to enlarge a gap width between the gypsum boards.

As a preferable scheme of the present invention, the lifting assembly includes a lifting bracket, a threaded rod and a rocking handle, the housing is disposed on the lifting bracket, the threaded rod is vertically disposed on the lifting bracket, the threaded rod penetrates through the housing, the rocking handle is disposed at an end of the threaded rod, the rocking handle is rocked to rotate the threaded rod, and the threaded rod rotates to drive the housing to perform a lifting motion on the lifting bracket.

As a preferable scheme of the present invention, guide rods are disposed on two sides of the lifting bracket, and the guide rods penetrate through the housing to enable the housing to perform a lifting motion along the guide rods.

As a preferable scheme of the invention, a clamping groove is formed at the bottom end of the lifting support, and the supporting component is arranged in the clamping groove and moves along the track of the clamping groove to be close to or far away from the gypsum board;

the supporting assembly comprises a sliding table, the support legs are arranged on the side walls of the sliding table, and the sliding table is pushed to enable the support legs to be inserted into gaps of the adjacent gypsum boards.

As a preferable scheme of the present invention, the support leg is provided as a wedge-shaped plate, a lower end surface of the support leg is provided as a horizontal surface, and a height of the support leg is lower than a height of the first wedge-shaped plate.

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

in the process of lifting the gypsum boards, the device is used for replacing manpower, and the first wedge-shaped plate is pushed into the gap between two adjacent gypsum boards through the inserting plate pushing mechanism to separate the gypsum boards; but because the thickness of first wedge plate is limited, so need let the gap between the adjacent gypsum board expand, set up to go up and down to pick the first wedge plate of board mechanism drive and shift up in order to expand the gap, rise to suitable height after first wedge plate, by artifical banding again, reduce artifical intensity of labour, promote and pick board efficiency, simultaneously because elevating system's drive power keeps invariable, can drive first wedge plate and rise at the uniform velocity to avoid the gypsum board to damage because of the atress is uneven.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

Fig. 1 is a schematic front view of an electric board inserting device according to an embodiment of the present invention;

FIG. 2 is a schematic side view of an electric board inserting apparatus according to an embodiment of the present invention;

fig. 3 is a schematic top view of an electric board inserting apparatus according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a first wedge plate in an electric flashboard apparatus according to an embodiment of the present invention.

The reference numerals in the drawings denote the following, respectively:

1. a board inserting propulsion mechanism; 2. a lifting board picking mechanism; 3. a board insertion assembly; 4. a drive assembly; 5. a lifting assembly; 6. a support assembly;

110. a housing; 111. a guide groove; 310. a rack; 320. a first wedge plate; 321. a chute; 322. a slider; 410. a motor; 420. a steering switch; 430. a driving gear; 440. a driven gear; 510. a lifting support; 511. a card slot; 520. a threaded rod; 530. a rocking handle; 610. a sliding table; 620. and (3) a support leg.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, the present invention provides an electric board inserting apparatus, comprising:

the inserting plate pushing mechanism 1 is horizontally inserted into the gap and penetrates into the center direction of the gypsum board to lift the gypsum board;

the bottom end of the lifting board picking mechanism 2 is inserted into the gap, and the inserting board pushing mechanism 1 is arranged on the lifting board picking mechanism 2 and moves up and down to enlarge the gap between the gypsum boards;

wherein, picture peg advancing mechanism 1 is provided with the wedge, the wedge inserts the gap and moves towards the central direction of gypsum board removes, the lower terminal surface of gypsum board is followed the wedge face of wedge slides with the lifting height, works as the board structure is chosen in the lift includes supporting component 6, supporting component 6 is provided with stabilizer blade 620, stabilizer blade 620 horizontal migration extremely behind the gap, the board subassembly promotion is chosen in the lift picture peg advancing mechanism 1 rises in order to enlarge the gap.

Simply put, the device replaces manual work, and a first wedge-shaped plate 320 is pushed into a gap between two adjacent gypsum boards through the inserting plate pushing mechanism 1 to enable the gypsum boards to be partially separated; however, the thickness of the first wedge-shaped plate 320 is limited, so that the gap between adjacent gypsum boards needs to be enlarged, the lifting board picking mechanism 2 is arranged to drive the first wedge-shaped plate 320 to move upwards to enlarge the gap, when the first wedge-shaped plate 320 rises to a proper height, the manual edge sealing is carried out, the manual labor intensity is reduced, the board picking efficiency is improved, meanwhile, the driving force of the lifting mechanism keeps constant, the first wedge-shaped plate 320 can be driven to rise at a constant speed, and therefore the gypsum boards are prevented from being damaged due to uneven stress.

Further, the flashboard pushing mechanism 1 comprises a flashboard assembly 3 and a driving assembly 4, wherein the flashboard assembly 3 moves horizontally, and the driving assembly 4 is in power connection with the flashboard assembly 3 to push the flashboard assembly 3 to be inserted into a gap of the gypsum board;

the flashboard assembly 3 comprises a rack 310, the wedge is a first wedge-shaped board 320, the first wedge-shaped board 320 is arranged at the end part of the rack 310, the rack 310 is in power connection with the driving assembly 4 to move horizontally, the first wedge-shaped board 320 is pushed by the rack 310 to be inserted into a gap of the gypsum board, and the gypsum board moves along the upper end face of the first wedge-shaped board 320. Set up first wedge board 320 and be favorable to inserting in the middle of the gap of gypsum board to the gypsum board jack-up that the messenger needs artifical banding, first wedge board 320 up end sets up for the slope simultaneously, and when accomplishing the banding, first wedge board 320 breaks away from the gypsum board, and the wedge face can make the border of gypsum board slowly the landing and can not appear colliding the damage.

Further, the driving assembly 4 includes a motor 410, a steering switch 420, a driving gear 430 and a driven gear 440, the driving gear 430 is disposed at an output end of the motor 410, the driven gear 440 is respectively engaged with the driving gear 430 and the rack 310 to transmit the torque output by the motor 410, and the steering switch 420 is electrically connected to the motor 410 to change the steering direction of the motor 410;

wherein the diameter of the driven gear 440 is larger than that of the driving gear 430 to convert the rotation speed of the motor 410 into torque. The ratio of the deceleration torque is determined by changing the ratio of the diameters of the driving gear 430 and the driven gear 440.

Further, the inserter pushing mechanism 1 further includes a housing 110, a guide groove 111 is formed in an inner bottom wall of the housing 110 for placing the rack 310, and the guide groove 111 is perpendicular to the direction of the gypsum board so that the rack 310 pushes the first wedge-shaped board 320 to be inserted into the gap vertically. The motor 410 drives the driving gear 430 to rotate, the driving gear 430 drives the driven gear 440 to rotate, and the driven gear 440 is in meshed transmission with the rack 310 to push the rack 310 to translate in the guide slot 111, so that the first wedge plate 320 is pushed into the gap.

Further, a sliding groove 321 is arranged on the upper end surface of the first wedge-shaped plate 320 along the length direction thereof, a sliding block 322 is arranged in the sliding groove 321, and the sliding block 322 moves along the sliding groove 321;

the upper end surface of the sliding block 322 is flush with the upper end surface of the first wedge-shaped plate 320, and after the first wedge-shaped plate 320 is inserted into the gap, the lower edge of the gypsum board abuts against the upper surface of the sliding block 322 and moves along the sliding groove 321 to reduce the friction force between the gypsum board and the first wedge-shaped plate 320. Since the sliding friction between the gypsum board and the surface of the first wedge-shaped plate 320 causes a large resistance, the sliding block 322 is provided on the upper surface of the first wedge-shaped plate 320, grease is put into the sliding block 322 and the sliding groove 321, and the sliding of the gypsum board is replaced by the sliding of the sliding block 322, thereby reducing the resistance.

Further, the board mechanism 2 is picked in lift includes lifting unit 5 and the supporting component 6, the supporting component 6 is set up in the lower extreme of lifting unit 5 that slides, the casing 110 sets up on lifting unit 5, after the first wedge block inserts the gap of gypsum board, slide the supporting component 6 and insert in the gap in order to support lifting unit 5, drive lifting unit 5 in order to lift the height of first wedge board 320, the interval increase of first wedge board 320 with lifting unit 5 is in order to enlarge the gap width between the gypsum board. The supporting assembly 6 is used for providing a supporting force for the lifting assembly 5 so that the lifting assembly 5 can lift the height of the first wedge plate 320.

Further, the lifting assembly 5 comprises a lifting support 510, a threaded rod 520 and a rocking handle 530, the shell 110 is arranged on the lifting support 510, the threaded rod 520 is vertically arranged on the lifting support 510, the threaded rod 520 penetrates through the shell 110, the rocking handle 530 is arranged at the end of the threaded rod 520, the rocking handle 530 is rocked to enable the threaded rod 520 to rotate, and the threaded rod 520 rotates to drive the shell 110 to do lifting movement on the lifting support 510. A through hole is formed in the housing 110, and a thread matching the threaded rod 520 is formed in the through hole. The effect of driving the threaded rod 520 to rotate through hand force is that the height of the cantilever plate can be adjusted at any time, so that manual edge sealing operation can be completed with the fastest efficiency.

Further, guide rods are disposed at two sides of the lifting bracket 510, and the guide rods penetrate through the housing 110 to enable the housing 110 to move up and down along the guide rods.

Further, a clamping groove 511 is formed at the bottom end of the lifting bracket 510, and the supporting component 6 is arranged in the clamping groove 511 and moves along the track of the clamping groove 511 to be close to or far away from the gypsum board;

the supporting member 6 includes a sliding table 610, and the legs 620 are provided on the side walls of the sliding table 610, and the sliding table 610 is pushed so that the legs 620 are inserted into the gaps between the adjacent gypsum boards.

Further, the support legs 620 are provided as wedge-shaped plates, the lower end surfaces of the support legs 620 are provided horizontally, and the height of the support legs 620 is lower than that of the first wedge-shaped plate 320. The height of the legs 620 is set lower than the height of the first wedge plate 320 in order to facilitate the legs 620 to be easily withdrawn from the gap. It should be noted in particular that the lower end faces of the legs 620 are flush with the lower end face of the first wedge-shaped plate 320, so as to facilitate the insertion of the legs 620 into the gap and against the plasterboard.

The specific working principle of the device is as follows:

first, the steering switch 420 is pressed to drive the motor 410 to rotate, the motor 410 is engaged with the driven gear 440 through the pinion gear 430, and then the rack 310 is driven to move, and the rack 310 pushes the first wedge plate 320 to be inserted into the gap of the gypsum board.

Then, when the first wedge plate 320 is completely inserted into the gap, the sliding table 610 is pushed so that the legs 620 are inserted into the gap while the lower end surfaces of the legs 620 abut against the gypsum board.

Next, rocking handle 530 is rocked to drive threaded rod 520 to rotate, and threaded rod 520 rotates to drive housing 110 to move up, thereby raising the gypsum board by first wedge plate 320.

Thirdly, the worker seals the edges of the plasterboard, and then shakes the rocking handle 530 in the reverse direction to move the casing 110 downward, and the casing 110 moves downward to move the first wedge plate 320 downward, so that the plasterboard is replaced again.

Finally, the motor 410 is reversed by the switch 420, and the drive gear 430 engages the driven gear 440, pulling the first wedge plate 320 to retract from the gap in the gypsum board.

The above embodiments are only exemplary embodiments of the present application, and are not intended to limit the present application, and the protection scope of the present application is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present application and such modifications and equivalents should also be considered to be within the scope of the present application.

Claims (10)

1. An electric board inserting device is characterized by comprising:

the inserting plate pushing mechanism (1) is horizontally inserted into the gap and penetrates into the center direction of the gypsum board to lift the gypsum board;

the bottom end of the lifting board-picking mechanism (2) is inserted into the gap, and the inserting board pushing mechanism (1) is arranged on the lifting board-picking mechanism (2) and moves up and down to expand the gap between the gypsum boards;

wherein, picture peg advancing mechanism (1) is provided with the wedge, the wedge inserts the gap and moves towards the central direction of gypsum board removes, the lower terminal surface of gypsum board is followed the wedge face of wedge slides with the lifting height, works as the board structure is chosen in the lift includes supporting component (6), supporting component (6) are provided with stabilizer blade (620), stabilizer blade (620) horizontal migration extremely behind the gap, the board subassembly promotion is chosen in the lift picture peg advancing mechanism (1) rises in order to enlarge the gap.

2. An electrical plugboard device according to claim 1, wherein: the flashboard pushing mechanism (1) comprises a flashboard component (3) and a driving component (4), the flashboard component (3) moves horizontally, and the driving component (4) is in power connection with the flashboard component (3) to push the flashboard component (3) to be inserted into a gap of the gypsum board;

flashboard subassembly (3) include rack (310), the wedge is first wedge board (320), first wedge board (320) set up the tip of rack (310), rack (310) with drive assembly (4) power connection is with horizontal migration, first wedge board (320) receive rack (310) promote in order to insert in the gap of gypsum board, the gypsum board is followed the up end of first wedge board (320) removes.

3. An electrical plugboard device according to claim 2, wherein: the driving assembly (4) comprises a motor (410), a steering switch (420), a driving gear (430) and a driven gear (440), the driving gear (430) is arranged at the output end of the motor (410), the driven gear (440) is respectively meshed with the driving gear (430) and the rack (310) to transmit the torque output by the motor (410), and the steering switch (420) is electrically connected with the motor (410) to change the steering direction of the motor (410);

wherein the diameter of the driven gear (440) is larger than the diameter of the driving gear (430) to convert the rotation speed of the motor (410) into torque.

4. A power strip assembly as defined in claim 3, wherein: the flashboard pushing mechanism (1) further comprises a shell (110), a guide groove (111) is formed in the inner bottom wall of the shell (110) and used for placing the rack (310), and the arrangement direction of the guide groove (111) is perpendicular to the direction of the gypsum board so that the rack (310) pushes the first wedge-shaped board (320) to be vertically inserted into the gap.

5. An electrical plugboard device according to claim 2, wherein: a sliding groove (321) is formed in the upper end face of the first wedge-shaped plate (320) along the length direction of the first wedge-shaped plate, a sliding block (322) is arranged in the sliding groove (321), and the sliding block (322) moves along the sliding groove (321);

the upper end face of the sliding block (322) is flush with the upper end face of the first wedge-shaped plate (320), and after the first wedge-shaped plate (320) is inserted into the gap, the lower edge of the gypsum board abuts against the upper surface of the sliding block (322) and moves along the sliding groove (321) so as to reduce the friction force between the gypsum board and the first wedge-shaped plate (320).

6. An electrical plugboard device according to claim 4, wherein: it picks board mechanism (2) including lifting unit (5) with supporting component (6) to go up and down, supporting component (6) slide and set up the lower extreme of lifting unit (5), casing (110) set up on lifting unit (5), work as first wedge block inserts behind the gap of gypsum board, slide in supporting component (6) and insert the gap with the support lifting unit (5), the drive lifting unit (5) are with the lifting the height of first wedge board (320), first wedge board (320) with the interval increase of lifting unit (5) is in order to enlarge gap width between the gypsum board.

7. An electrical plugboard device according to claim 6, wherein: lifting unit (5) are including lifting support (510), threaded rod (520) and rocking handle (530), casing (110) set up on lifting support (510), threaded rod (520) vertical setting is in on lifting support (510), threaded rod (520) run through casing (110), rocking handle (530) set up the tip of threaded rod (520), wave rocking handle (530) so that threaded rod (520) rotate, threaded rod (520) rotate with the drive casing (110) are in do elevating movement on lifting support (510).

8. An electrical plugboard device according to claim 7, wherein: guide rods are arranged on two sides of the lifting support (510), and penetrate through the shell (110) so that the shell (110) can do lifting motion along the guide rods.

9. An electrical plugboard device according to claim 7, wherein: a clamping groove (511) is formed in the bottom end of the lifting support (510), and the supporting component (6) is arranged in the clamping groove (511) and moves along the track of the clamping groove (511) to be close to or far away from the gypsum board;

the supporting assembly (6) comprises a sliding table (610), the supporting feet (620) are arranged on the side wall of the sliding table (610), and the sliding table (610) is pushed to enable the supporting feet (620) to be inserted into the gaps of the adjacent gypsum boards.

10. An electrical plugboard device according to claim 7, wherein: the supporting legs (620) are arranged to be wedge-shaped plates, the lower end faces of the supporting legs (620) are arranged to be horizontal, and the height of the supporting legs (620) is lower than that of the first wedge-shaped plate (320).

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