CN220203322U - Tiling machine - Google Patents

Abstract

The utility model discloses a tiling machine, which comprises a vibrating device, a sucker and a machine base, wherein the vibrating device and the sucker are respectively connected with the machine base, the vibrating device comprises a motor, and the motor is positioned in the middle area of the machine base.

Description

Tiling machine

Technical Field

The utility model belongs to the field of electric tools, and relates to a tiling machine.

Background

Tiling machine is a device of laying the fragment of brick, mainly includes sucking disc hoisting structure and vibrating structure, can adsorb the ceramic tile through sucking disc hoisting structure, can pave the ceramic tile through vibrating structure.

The sucking disc promotes the structure and includes the sucking disc, with sucking disc connected lifting rod, reset spring and the holding rod of being connected with the lifting rod, during the operation, compress tightly the holding rod through the finger and can make the lifting rod reciprocate to the sucking disc warp and can adsorb the ceramic tile, but current sucking disc promotes the structure and does not have locking mechanical system, wants to maintain the state of adsorbing the ceramic tile always and needs the staff to exert effort to the holding rod always, and the travelling comfort during the use is relatively poor.

Disclosure of Invention

The utility model provides a tiling machine for overcoming the defects in the prior art.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: a tiling machine comprises a vibrating device, a sucker and a machine base, wherein the vibrating device and the sucker are respectively connected with the machine base, the vibrating device comprises a motor, and the motor is located in the middle area of the machine base.

Further, the motor comprises a rotating shaft, and eccentric blocks are symmetrically arranged at two ends of the rotating shaft.

Further, the utility model also comprises a pull rod assembly, the pull rod assembly comprises a pull rod driving end and a pull rod driven end, the pull rod driven end is positioned below the motor and between the motor and the stand, one end of the driven end of the pull rod is connected with the drive end of the pull rod, the other end of the driven end of the pull rod is connected with the machine base, and the driven end of the pull rod is connected with the pull rod of the sucker.

Further, still include pull rod locking component, pull rod locking component includes unblock structure, first locking structure and second locking structure, and the second locking structure sets up in the pull rod drive end, and first locking structure is connected with the casing and the unblock structure of tiling machine respectively, and unblock structure sets up in the grab handle of tiling machine.

Further, the first locking structure is provided with a first tooth shape, and the second locking structure is provided with a second tooth shape which is matched with the first tooth shape.

Further, the first tooth form is provided with a matched end face, the matched end face is provided with an inclined face, a connecting line of the first tooth form end point of the head end and the rotation center of the pull rod assembly forms an inclined angle with the matched end face, and the angle range of the inclined angle is 0-15 degrees.

Further, the second locking structure is detachably connected with the pull rod driving end of the pull rod assembly.

Further, the intelligent power supply device further comprises a battery pack 7, wherein the battery pack is arranged on a shell of the tiling machine, and a switch key is arranged at the tail end of a grab handle of the tiling machine.

Further, the device comprises a handrail, wherein the handrail is arranged on a shell of the tiling machine, and a holding cavity and a holding part are arranged on the handrail.

Further, the machine base is provided with a plurality of positioning plates which are respectively attached to the inner wall of the machine shell of the tiling machine, the machine base is connected with the motor through a fixing part, the fixing part comprises a fixing frame and a fixing plate, the fixing frame is arranged on the machine base, the fixing frame is arranged below the motor, the fixing plate is arranged above the motor, the fixing frame is connected with the fixing plate, at least one pair of fixing frames are arranged, the pair of fixing frames are symmetrically arranged relative to the axis of the machine base, the pair of fixing frames are arranged at two ends of the motor, and a plurality of reinforcing plates are arranged on the side face of the machine base; the pull rod driven end is located inside the shell, the pull rod driving end is located outside the shell, the pull rod driving end is movably connected with the shell, the pull rod assembly is provided with an adsorption station and a rest station, when the pull rod assembly is located at the adsorption station, the sucker is in an adsorption state for adsorbing the ceramic tile, when the pull rod assembly is located at the rest station, the sucker is in a rest state for loosening the ceramic tile, the unlocking structure is provided with a first station and a second station, when the unlocking structure is located at the first station, the first locking structure and the second locking structure are matched to keep the pull rod assembly at the adsorption station, when the unlocking structure is located at the second station, the first locking structure and the second locking structure are not matched, the pull rod assembly moves to the rest station, the second locking structure is provided with a positioning groove, the pull rod driving end of the pull rod assembly is provided with a positioning protrusion matched with the positioning groove, or the second locking structure is provided with the positioning protrusion, and the pull rod driving end of the pull rod assembly is provided with the positioning groove matched with the positioning protrusion.

In summary, the utility model has the following advantages:

1) The motor is arranged in the middle area of the machine base, so that uniform and stable vibrating force is provided for the sucker, and symmetrical eccentric blocks are arranged at two ends of the rotating shaft, so that stable vibrating force is provided for the sucker, the influence on paving efficiency and evenness caused by uneven vibrating force distribution of the sucker is avoided, and the vibrating force is increased, so that the tiling machine can be suitable for paving large-size tiles while keeping a small volume.

2) The running track of the second locking structure is parallel to the end part of the first locking structure, which is provided with the first tooth shape, when the pull rod assembly moves along the direction of the arrow A by the tooth shape direction of the first tooth shape and the tooth shape direction of the first tooth shape, the first locking structure and the second locking structure have no matching relation, and when the pull rod assembly moves along the reverse direction of the arrow A, the first locking structure and the second locking structure are matched and locked, and the matching relation of the first locking structure and the second locking structure can be released only through the unlocking structure.

3) According to the utility model, the second locking structure is detachably connected with the pull rod driving end of the pull rod assembly, when the second locking structure is worn, the pull rod assembly is not required to be replaced, only the second locking structure is required to be replaced, the operation is convenient, the replacement speed is high, and the service lives of the pull rod assembly and the tiling machine are prolonged.

4) The utility model is provided with the reinforcing plate on the stand, which is used for reinforcing the integral strength of the stand so as to adapt to larger vibration force.

5) The handrail is provided with the holding cavity and the holding part, and the hand part stretches into the holding cavity and holds the holding part, so that the handrail is convenient to hold, and the surface of the holding part is provided with grains for reinforcing the friction force of the holding part and effectively improving the holding force.

Drawings

Fig. 1 is a schematic diagram of a tiling machine.

Fig. 2 is a schematic diagram of the interior of the tiling machine.

FIG. 3 is a schematic diagram of an assembly of a vibration device, a housing, a suction cup and a pull rod assembly.

Fig. 4 is an exploded view of fig. 3.

FIG. 5 is a schematic diagram of an assembled pull rod assembly and pull rod locking assembly.

FIG. 6 is a schematic view in semi-section of FIG. 5

Fig. 7 is an enlarged schematic view of C in fig. 6.

Fig. 8 is a schematic view of a second locking structure.

Fig. 9 is a schematic view of a tiling machine for assembling armrests.

The marks in the figure are as follows: the vibration device 1, the suction cup 2, the base 3, the pull rod assembly 4, the pull rod locking assembly 5, the armrest 6, the battery pack 7, the grab handle 8, the casing 9, the motor 10, the rotating shaft 11, the eccentric block 12, the fixed block 30, the fixed frame 31, the fixed plate 32, the limiting block 33, the reinforcing plate 36, the pull rod driving end 41, the pull rod driven end 42, the unlocking structure 51, the first locking structure 52, the second locking structure 53, the grab cavity 61, the holding part 62, the switch key 80, the left grab handle 81, the right grab handle 82, the left casing 91, the right casing 92, the connecting block 93, the through slot 411, the mating end surface 520, the first tooth profile 521, the second tooth profile 531, and the positioning slot 532.

Detailed Description

Other advantages and effects of the present utility model will become apparent to those skilled in the art from the following disclosure, which describes the embodiments of the present utility model with reference to specific examples. The utility model may be practiced or carried out in other embodiments that depart from the specific details, and the details of the present description may be modified or varied from the spirit and scope of the present utility model. It should be noted that the following embodiments and features in the embodiments may be combined with each other without conflict.

It should be noted that the illustrations provided in the following embodiments merely illustrate the basic concept of the present utility model by way of illustration, and only the components related to the present utility model are shown in the drawings and are not drawn according to the number, shape and size of the components in actual implementation, and the form, number and proportion of the components in actual implementation may be arbitrarily changed, and the layout of the components may be more complicated.

All directional indications (such as up, down, left, right, front, rear, lateral, longitudinal … …) in embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular gesture, and if the particular gesture changes, the directional indication changes accordingly.

For reasons of installation errors, the parallel relationship referred to in the embodiments of the present utility model may be an approximately parallel relationship, and the perpendicular relationship may be an approximately perpendicular relationship.

Embodiment one:

as shown in fig. 1-9, a tiling machine comprises a vibration device 1, a sucker 2 and a machine base 3, wherein the vibration device 1 and the sucker 2 are respectively connected with the machine base 3, the vibration device 1 comprises a motor 10, and the motor 10 is positioned in the middle area of the machine base 3.

The tiling machine comprises a machine shell 9 and a grab handle 8, the machine shell 9 comprises a left machine shell 91 and a right machine shell 92, the left machine shell 91 and the right machine shell 92 are connected with each other, the grab handle 8 comprises a left grab handle 81 and a right grab handle 82, the left grab handle 81 and the right grab handle 82 are connected with each other to form a whole, the right grab handle 82 is connected with the right machine shell 92 to form a whole, the tail end of the grab handle 8 is provided with a switch key 80, the machine shell 9 is connected with the machine shell 3, in particular, the machine shell 3 is provided with a plurality of fixing blocks 30, the left machine shell 91 and the right machine shell 92 are respectively connected with the fixing blocks 30, so that the machine shell 9 is connected with the machine shell 3, and preferably, the machine shell 3 is also provided with a plurality of positioning plates 34 which are annularly distributed on the machine shell 3, and the positioning plates 34 are respectively attached to the inner parts of the left machine shell 91 and the right machine shell 92, so that the installation of the left machine shell 91 and the right machine shell 92 is positioned, and the installation efficiency of the machine shell 9 is improved.

The vibrating device 1 is arranged in the casing 9, the machine base 3 is connected with the motor 10 through fixing components, the fixing components comprise fixing frames 31 and fixing plates 32, the fixing frames 31 are arranged on the machine base 3, the fixing frames 31 are located below the motor 10, the fixing plates 32 are located above the motor 10, the fixing frames 31 are fixedly connected with the fixing plates 32 so as to fixedly arrange the motor 10 on the machine base 3, in the embodiment, at least one pair of fixing frames 31 are arranged, at least one pair of fixing frames 31 are symmetrically arranged relative to the X-direction axis of the machine base 3, at least one pair of fixing plates 32 are arranged, the fixing frames 31 upwards support the motor 10, the motor 10 is supported by the two ends of the motor 10, and the fixing plates 32 and the fixing frames 31 are fixedly connected in a one-to-one correspondence manner, so that the mounting stability of the motor 10 is improved.

In this embodiment, the motor 10 includes the pivot 11, the axis of pivot 11 and the y direction axis of frame 3 are collineation or approximately collineation, the both ends of pivot 11 are equipped with eccentric piece 12, eccentric piece 12 sets up for the X direction axis symmetry of frame 3, motor 10 starts and drives eccentric piece 12 through pivot 11 and rotate, the vibration that eccentric piece 12 rotated and produce is transmitted to sucking disc 2 through frame 3, in this embodiment, set up motor 10 in the middle part region of frame 3, thereby provide even and stable vibrating force for sucking disc 2, simultaneously at the eccentric piece 12 of the X direction axis symmetry of frame 3 that the both ends of pivot 11 set up, provide stable vibrating force for sucking disc 2 on the one hand, avoid sucking disc 2 to receive vibrating force uneven distribution and influence efficiency and the roughness of laying, on the other hand, the vibrating force has been increased, make the tiling machine of this application keep the less volume simultaneously applicable to the laying of jumbo size ceramic tile.

Preferably, a plurality of reinforcing plates 36 are arranged on the side surface of the stand 3 for reinforcing the overall strength of the stand 3 so as to adapt to larger vibration force.

The tiling machine further comprises a pull rod assembly 4, the pull rod assembly 4 comprises a pull rod driving end 41 and a pull rod driven end 42, the pull rod driven end 42 is positioned in the machine shell 9, the pull rod driving end 41 is positioned outside the machine shell 9, the machine shell 9 is provided with a connecting block 93, the connecting block 93 is provided with a through hole (not shown), the pull rod driving end 41 penetrates through the through hole and extends to the outside of the machine shell 9, the pull rod driving end 41 can move up and down in the through hole, namely in the z direction in figure 2, the connecting block 93 limits the movement of the pull rod driving end 41 in the x direction, the movement efficiency of the pull rod driving end 41 is improved, the pull rod driving end 41 is connected with the pull rod driven end 42, the pull rod driving end 41 moves to drive the pull rod driven end 42 to synchronously move, in the embodiment, the pull rod driven ends 42 are symmetrically arranged at the pull rod driving end 41, the pull rod driven end 42 is connected with the machine base 3, specifically, the base 3 is provided with a pair of limiting blocks 33, the limiting blocks 33 are located between the fixing frames 31, the limiting blocks 33 are distributed along the x direction, the limiting blocks 33 are provided with a plurality of limiting grooves (not shown), the pull rod driven end 42 is arranged in the limiting grooves, the movement of the pull rod driven end 42 along the y direction is limited by the limiting grooves, one end of the pull rod driven end 42 is connected with the pull rod driving end 41, the other end of the pull rod driven end 42 is connected with the limiting blocks 33, the middle end of the pull rod driven end 42 is connected with a pull rod (not shown) of the sucker 2, when the pull rod driving end 41 moves along the arrow A direction, the pull rod driven end 42 is driven to rotate by taking the connecting position of the pull rod driven end 42 and the limiting blocks 33 as a fixed point, the connecting position is the rotation center of the pull rod assembly 4, thereby acting force is generated on the sucker 2, causing the suction cup 2 to suck or release the tile.

In this embodiment, the passive end 42 of the pull rod is located below the motor 10 and between the motor 10 and the housing 3.

In this embodiment, the pull rod assembly 4 has an adsorption station and a rest station, when the pull rod assembly 4 is located at the adsorption station, the suction cup 2 is in an adsorption state capable of adsorbing the tile, and when the pull rod assembly 4 is located at the rest station, the suction cup 2 is in a rest state capable of releasing the tile.

The tiling machine still includes pull rod locking Assembly 5, pull rod locking Assembly 5 and pull rod Assembly 4 cooperation make pull rod Assembly 4 keep at the absorption station, pull rod locking Assembly 5 includes unlocking structure 51, first locking structure 52 and second locking structure 53, second locking structure 53 sets up in pull rod drive end 41 of pull rod Assembly 4, first locking structure 52 sets up in casing 9, first locking structure 52 and second locking structure 53 cooperation make pull rod Assembly 4 keep at the absorption station, unlocking structure 51 is connected with first locking structure 52, be used for releasing the cooperation relation of first locking structure 52 and second locking structure 53, make pull rod Assembly 4 break away from the absorption station, this application convenient to use is reliable, the travelling comfort is good.

One end of the first locking structure 52 is connected with the unlocking structure 51, the first locking structure 52 is in a multi-bending structure, the other end of the first locking structure 52 is connected with the casing 9, the unlocking structure 51 drives the first locking structure 52 to move along the x direction by taking the connection position of the first locking structure 52 and the casing 9 as a fixed point, and therefore the matching relation between the first locking structure 52 and the second locking structure 53 is released.

The unlocking structure 51 has a first station and a second station, when the unlocking structure 51 is located at the first station, the first locking structure 52 and the second locking structure 53 are matched and locked to keep the pull rod assembly 4 at the adsorption station, when the unlocking structure 51 is located at the second station, and when the first locking structure 52 and the second locking structure 53 are not matched, the pull rod assembly 4 is moved to the rest station.

The first locking structure 52 and the second locking structure 53 are matched, specifically, the first locking structure 52 is provided with a plurality of first tooth shapes 521, the second locking structure 53 is provided with a second tooth shape 531 matched with the first tooth shapes 521, the first tooth shapes 521 are provided with matching end faces 520, when the first locking structure 52 and the second locking structure 53 are matched, the second tooth shapes 531 are abutted against the matching end faces 520 of the first tooth shapes 521 to realize locking, the matching end faces 520 are provided with inclined faces, an inclined angle a is formed between a connecting line of the end point of the first tooth shapes 521 of the head end and the rotation center of the pull rod assembly 4 and the matching end faces 520, the angle range of a is set to be 0-15 degrees, preferably, the angle range of a is set to be 3-5 degrees, so that the first locking structure 52 can be matched and locked with the second locking structure 53, and the inclined angle a is gradually increased in the process of being matched with the second locking structure 53 to be released from the second locking structure 53.

As shown in fig. 6, in this embodiment, when the pull rod assembly 4 moves along the arrow a direction, the running track of the second locking structure 53 is parallel to the end portion of the first locking structure 52 having the first tooth form 521, and when the first tooth form 521 and the tooth form direction of the first tooth form 521 move the pull rod assembly 4 along the arrow a direction, the first locking structure 52 and the second locking structure 53 do not have a matching relationship, and when the pull rod assembly 4 moves along the arrow a direction, the first locking structure 52 and the second locking structure 53 are matched and locked, and the matching relationship of the first locking structure 52 and the second locking structure 53 can only be released by the unlocking structure 51, so that the structure of the matching locking is simple, the operation is convenient, and the reliable matching locking relationship is provided, and the arc dotted line is the running track of the second locking structure 53 as shown in fig. 6.

Preferably, the second locking structure 53 is detachably connected with the pull rod driving end 41 of the pull rod assembly 4, preferably, the second locking structure 53 is connected with the pull rod driving end 41 through a screw, when the second locking structure 53 is worn, the pull rod assembly 4 does not need to be replaced, only the second locking structure 53 needs to be replaced, the operation is convenient, the replacement speed is high, and meanwhile, the service lives of the pull rod assembly 4 and the tiling machine are prolonged.

Preferably, the second locking structure 53 is provided with a positioning slot 532, the pull rod driving end 41 of the pull rod assembly 4 is provided with a positioning protrusion (not shown) corresponding to the positioning slot 532, or the second locking structure 53 is provided with a positioning protrusion, the pull rod driving end 41 of the pull rod assembly 4 is provided with a positioning slot (not shown) corresponding to the positioning protrusion, and the positioning slot 532 cooperates with the positioning protrusion to position the second locking structure 53 for mounting the pull rod assembly 4.

Preferably, the pull rod assembly 4 is provided with a through slot 411, the second locking structure 53 is provided at the through slot 411, the first locking structure 52 penetrates through the slot 411, and the movement of the first locking structure 52 in the y direction is restricted by the through slot 411.

In this embodiment, the operation process of the pull rod assembly 4 and the pull rod locking assembly 5 is as follows, when the suction cup 2 needs to adsorb a tile, the pull rod driving end 41 is driven towards the direction of the grab handle 8, namely the direction a in fig. 6, the pull rod driven end 42 generates an acting force on the suction cup 2, so that the suction cup 2 generates an adsorption force to adsorb the tile, in the moving process of the pull rod driving end 41, the second tooth profile 531 of the second locking structure 53 is matched and locked with the first tooth profile 521 of the first locking structure 52, so that the pull rod assembly 4 is kept at the adsorption station, the suction cup 2 attracts the tile to perform subsequent laying work, after one tile is laid, the unlocking structure 51 is moved from the first station to the second station, the first locking structure 52 is driven to move along the direction of arrow B in fig. 6, so that the second locking structure 53 is disengaged from the first locking structure 52, and at this moment, the pull rod driving end 41 is pulled away from the grab handle 8, so that the pull rod assembly 4 is moved from the adsorption station to the rest station, in the process, the suction cup 2 releases the tile, and the laying of the next tile is prepared, and the above process is repeated, so that the laying of the tile is achieved.

The tiling machine further comprises a battery pack 7, wherein the battery pack 7 is arranged on the machine shell 9, and preferably, the battery pack 7 is inserted into the machine shell 9.

The tiling machine comprises an armrest 6, wherein the armrest 6 is arranged on a machine shell 9, the armrest 6 is provided with a holding cavity 61 and a holding part 62, and hands extend into the holding cavity 61 and hold the holding part 62, so that the armrest 6 is convenient to hold, and the surface of the preferable holding part 62 is provided with grains for reinforcing the friction force of the holding part 62, so that the holding force is effectively improved.

In this embodiment, the fixing frame 31 and the stand 3 are integrally formed,

in this embodiment, the suction cup 2 adopts a conventional suction cup structure, and the tiling machine adopts a conventional motion principle, which is not an innovation point of the present application and will not be described herein.

Other structures of the tiling machine not described in this embodiment may be conventional structures, and will not be described herein.

It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, shall fall within the scope of the present utility model.

Claims (9)

1. A tiling machine, characterized in that: the vibration device comprises a motor, the motor is located in the middle of the base, the vibration device further comprises a pull rod assembly, the pull rod assembly comprises a pull rod driving end and a pull rod driven end, the pull rod driven end is located below the motor and between the motor and the base, one end of the pull rod driven end is connected with the pull rod driving end, the other end of the pull rod driven end is connected with the base, and the pull rod driven end is connected with the pull rod of the sucker.

2. A tiling machine as claimed in claim 1, wherein: the motor comprises a rotating shaft, and eccentric blocks are symmetrically arranged at two ends of the rotating shaft.

3. A tiling machine as claimed in claim 1, wherein: still include pull rod locking component, pull rod locking component includes unblock structure, first locking structure and second locking structure, and the second locking structure sets up in the pull rod drive end, and first locking structure is connected with the casing and the unblock structure of tiling machine respectively, and unblock structure sets up in the grab handle of tiling machine.

4. A tiling machine according to claim 3, wherein: the first locking structure is provided with a first tooth shape, and the second locking structure is provided with a second tooth shape which is matched with the first tooth shape.

5. A tiling machine as claimed in claim 4, wherein: the first tooth form sets up the cooperation terminal surface, and the cooperation terminal surface sets up to the inclined plane, and the first tooth form terminal point of head end and pull rod assembly rotation center's line forms the inclination with the cooperation terminal surface, and the angle scope of inclination sets up at 0-15 degrees.

6. A tiling machine according to claim 3, wherein: the second locking structure is detachably connected with the pull rod driving end of the pull rod assembly.

7. A tiling machine as claimed in claim 1, wherein: still include the battery package, the battery package sets up in the casing of tiling machine, and the grab handle end of tiling machine is equipped with the on & off switch.

8. A tiling machine according to claim 1 or 7, wherein: the hand rest is arranged on a shell of the tiling machine, and the hand rest is provided with a holding cavity and a holding part.

9. A tiling machine according to claim 3, wherein: the machine base is provided with a plurality of positioning plates which are respectively attached to the inner wall of the shell of the tiling machine, the machine base is connected with the motor through a fixing part, the fixing part comprises a fixing frame and a fixing plate, the fixing frame is arranged on the machine base, the fixing frame is arranged below the motor, the fixing plate is arranged above the motor, the fixing frame is connected with the fixing plate, at least one pair of fixing frames are arranged, the pair of fixing frames are symmetrically arranged relative to the axis of the machine base, the pair of fixing frames are arranged at two ends of the motor, and a plurality of reinforcing plates are arranged on the side face of the machine base; the pull rod driven end is located inside the shell, the pull rod driving end is located outside the shell, the pull rod driving end is movably connected with the shell, the pull rod assembly is provided with an adsorption station and a rest station, when the pull rod assembly is located at the adsorption station, the sucker is in an adsorption state for adsorbing the ceramic tile, when the pull rod assembly is located at the rest station, the sucker is in a rest state for loosening the ceramic tile, the unlocking structure is provided with a first station and a second station, when the unlocking structure is located at the first station, the first locking structure and the second locking structure are matched to keep the pull rod assembly at the adsorption station, when the unlocking structure is located at the second station, the first locking structure and the second locking structure are not matched, the pull rod assembly moves to the rest station, the second locking structure is provided with a positioning groove, the pull rod driving end of the pull rod assembly is provided with a positioning protrusion matched with the positioning groove, or the second locking structure is provided with the positioning protrusion, and the pull rod driving end of the pull rod assembly is provided with the positioning groove matched with the positioning protrusion.