CN215477573U - Bed net frame tool equipment - Google Patents

Abstract

The utility model discloses a bed net frame tool device which comprises a bed net frame clamping mechanism, a bed net supporting mechanism and a secondary lifting mechanism, wherein the bed net frame clamping mechanism comprises a bed net frame shaping frame and a plurality of clamp forks, the clamp forks are sequentially arranged on the bed net frame shaping frame in a rectangular shape on an XY projection surface, each clamp fork comprises an inner fork arm and an outer fork arm which are arranged from inside to outside, and a distance connecting piece connected between the lower ends of the inner fork arm and the outer fork arm, and a clamping gap with an upward opening is formed between the inner fork arm and the outer fork arm; the bed net supporting mechanism comprises a bed net supporting component arranged on the upper side of the bed net frame shaping frame; the second-level lifting mechanism can enable the bed net frame shaping frame and the bed net supporting component to be lifted up and down relatively to each other. This bed net frame tool equipment can realize two upper and lower frames and the setting location clamping of bed net, carries out the fixed of pressing from both sides the flat nail again to can make a plurality of anchor clamps forks and bed net, frame separation, so that the mattress that the processing is good takes out.

Description

Bed net frame tool equipment

Technical Field

The utility model relates to production equipment of spring mattresses, in particular to a bed net side frame tooling device.

Background

The existing spring mattresses generally comprise a bed net formed by combining a plurality of springs and steel frames sleeved on the upper part and the lower part of the bed net, and a plurality of support springs of some spring mattresses between two steel frames are used for supporting and reinforcing and are fixed by clamping yard nails. In the prior art, one of the steel frames is manually fixed on one side of a bed net, then the whole bed net is turned over to fix the other steel frame on the other side of the bed net, and then the support springs are installed and fixed, because the bed net is in a loose state before the frame side is removed and the steel frames deform, the steel frames are difficult to easily correspond to the outer edges of the springs on the side edges of the bed net in the processing process, workers are required to pull and align the steel frames, the operation requirement is very high, the working strength is high, the disordered arrangement of the springs and the deformation of the bed net are easily caused, and finally the quality of a mattress is influenced; and when the spring mattress is processed, workers are required to move the processed finished product away from the processing table.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a bed net side frame tooling device, which is used for solving one or more technical problems in the prior art and at least providing a beneficial selection or creation condition.

The solution of the utility model for solving the technical problem is as follows:

the technical scheme adopted for solving the technical problems is as follows:

the utility model provides a bed net frame tooling device, bed net frame tooling device has the X axial of mutual quadrature, Y axial and Z axial, the Z axial is upper and lower direction, bed net frame tooling device includes: the bed net frame clamping mechanism comprises a bed net frame shaping frame and a plurality of clamp forks extending in the vertical direction, the clamp forks are sequentially arranged on the bed net frame shaping frame in a rectangular mode on an XY projection surface, each clamp fork comprises an inner fork arm and an outer fork arm which are arranged from inside to outside, and a distance connecting piece connected between the lower ends of the inner fork arm and the outer fork arm, and a clamping gap with an upward opening is formed between the inner fork arm and the outer fork arm; the bed net supporting mechanism comprises a bed net supporting component arranged on the upper side of the bed net frame shaping frame, and the bed net supporting component is positioned in an area defined by the clamp forks; second grade elevating system sets up between bed net frame design frame and bed net bearing component, second grade elevating system can make bed net frame design frame with bed net bearing component goes up and down in the up-down direction relatively each other.

The utility model has the beneficial effects that: when the bed mattress is used, the clamp forks are sequentially arranged in a rectangular shape on the XY projection surface, so that clamping gaps on the clamp forks can enclose a rectangular clamping channel for clamping the outer edge spring and the frame of the bed net, the bottom frame can be sleeved in the rectangular clamping channel firstly in the production and manufacturing of the bed mattress, then the bottom frame can be shaped and positioned, the bed net is sleeved in the rectangular clamping channel from top to bottom, the outer edge of the spring on the edge of the bed net is clamped in the clamping gap, the bed net supporting component supports the bottom of the bed net, so that the bed net is shaped and positioned, then the top frame is sleeved in the rectangular clamping channel, so that the shaping, positioning and clamping of the upper frame and the lower frame and the bed net can be realized, then the code clamping nails are fixed, and after the frames and the bed net are fixed, the bed net frame shaping frame and the bed net supporting component can be lifted up and down relatively, make between a plurality of anchor clamps forks and the bed net bearing component go up and down in the up-and-down direction relatively promptly, will not make the bed net bearing component move up for a plurality of anchor clamps forks, perhaps make a plurality of anchor clamps forks move down for the bed net bearing component again for a plurality of anchor clamps forks and bed net, frame separation, so that the mattress that the processing is good takes out easy operation, machining efficiency is high.

As a further improvement of the technical proposal, the bed net frame clamping mechanism also comprises a first specification adjusting component and a second specification adjusting component which are arranged on the bed net frame shaping frame, the first specification adjusting assembly comprises two first specification adjusting beams which are arranged in parallel at intervals along the X-axis direction, and a first specification adjusting driving component which is used for driving the two first specification adjusting beams to mutually approach or depart from each other in the X-axis direction, the second specification adjusting assembly comprises two second specification adjusting beams which are arranged in parallel at intervals along the Y-axis direction, and a second specification adjusting driving component which is used for driving the two second specification adjusting beams to mutually approach or depart from each other in the Y-axis direction, two first specification adjusting beams and two second specification adjusting beams are arranged in a rectangular mode on the XY projection plane, and a plurality of clamp forks are uniformly arranged on the two first specification adjusting beams and the two second specification adjusting beams.

For mattresses with different sizes, bed nets and frames with different sizes are correspondingly adopted, a first specification adjusting assembly and a second specification adjusting assembly are arranged for adjusting a rectangular clamping channel formed by all the clamp forks, specifically, a plurality of clamp forks are respectively arranged on two first specification adjusting beams, a plurality of clamp forks are respectively arranged on two second specification adjusting beams, the two first specification adjusting beams are driven to mutually approach or keep away from each other in the X axial direction through a first specification adjusting driving component so as to adjust the distance between the clamp forks on the two opposite sides in the X axial direction, and the two second specification adjusting beams are driven to mutually approach or keep away from each other in the Y axial direction through a second specification adjusting driving component so as to adjust the distance between the clamp forks on the two opposite sides in the Y axial direction.

As a further improvement of the above technical solution, the first specification adjusting driving member includes two first specification adjusting driving units, the first specification adjusting beam is slidably mounted on the bed net frame shaping frame, the two first specification adjusting driving units are respectively in transmission connection with the first specification adjusting beam, the first specification adjusting driving unit includes a first specification adjusting screw rod extending along the X axis, a first specification adjusting motor for driving the first specification adjusting screw rod to rotate, and a first specification adjusting nut seat in threaded transmission connection with the first specification adjusting screw rod, and the first specification adjusting nut seat is fixed on the first specification adjusting beam;

the first specification adjusting and driving component in the scheme adopts two first specification adjusting and driving units to respectively drive the first specification adjusting beam to move, specifically, the first specification adjusting and driving unit drives the first specification adjusting screw rod to rotate through the first specification adjusting motor, the first specification adjusting beam is driven to move in the X-axis direction under the screw transmission of the first specification adjusting screw rod and the first specification adjusting nut seat, and the moving precision of the first specification adjusting beam can be improved through the transmission of the screw nut.

The second specification adjusting and driving component comprises two second specification adjusting and driving units, the second specification adjusting beam can be slidably installed on the bed net frame shaping frame, the two second specification adjusting and driving units are respectively in transmission connection with the second specification adjusting beam, the second specification adjusting and driving unit comprises a second specification adjusting screw rod extending along the Y axis, a second specification adjusting motor used for driving the second specification adjusting screw rod to rotate, and a second specification adjusting nut seat in threaded transmission connection with the second specification adjusting screw rod, and the second specification adjusting nut seat is fixed on the second specification adjusting beam.

In the scheme, the second specification adjusting and driving component also adopts two second specification adjusting and driving units to respectively drive the two second specification adjusting beams, and the second specification adjusting and driving units also drive the second specification adjusting beams to move in the same driving mode as the screw nuts.

As a further improvement of the above technical solution, the bed net supporting assembly includes a bed net supporting bracket and at least one or more conveyor belt members mounted on the bed net supporting bracket, and the conveyor belt members are arranged to extend in the X-axis direction in the conveying direction.

Bed net bearing subassembly in this scheme still can realize the automatic of mattress and carry when supporting the bearing to the bed net through the conveyer belt component, processed mattress and a plurality of after the separation of anchor clamps fork, the conveyer belt component drives the mattress and carries along the X axial, need not the workman and operate.

As a further improvement of the above technical solution, the number of the conveyor belt members is at least two or more the conveyor belt members are arranged at intervals along the Y axis, the bed net supporting assembly further comprises a third specification adjusting assembly, the third specification adjusting assembly is provided with at least two or more specification adjusting seats arranged on the top of the bed net supporting frame in parallel at intervals along the Y axis, and at least two or more conveying specification adjusting driving members connected with the at least two or more specification adjusting seats in a one-to-one transmission manner, the conveying specification adjusting driving members are used for driving the specification adjusting seats to be equivalent to the bed net supporting frame moves in the Y axis direction, and the conveyor belt members are arranged on the specification adjusting seats in a one-to-one correspondence manner.

To the mattress of variation in size of dimensions, set up in this scheme at least more than two conveyer belt members and carry out bearing and transport to the bed net to and adjust the bearing scope of two conveyer belt members through third specification adjusting part, specifically, the conveyer belt member is installed in proper order on the seat is adjusted to the specification, carry the specification to adjust the drive member drive to be equivalent to the bed net bearing frame is at Y axial displacement to adjust two conveyer belt members at the ascending relative distance of Y axial.

As a further improvement of the above technical solution, the conveying specification adjusting and driving member includes two conveying specification adjusting nut seats slidably mounted on the bed net support bracket at an interval along the X-axis direction, a conveying specification adjusting screw rod extending along the X-axis direction, a conveying specification adjusting and driving unit for driving the conveying specification adjusting screw rod to rotate, two first conveying specification adjusting connecting rods and two second conveying specification adjusting connecting rods, the conveying specification adjusting screw rod is provided with two conveying specification adjusting screw thread sections with opposite spiral directions, the two conveying specification adjusting nut seats are respectively in threaded transmission connection with the two conveying specification adjusting screw thread sections, one end of each of the two first conveying specification adjusting connecting rods is respectively hinged with the two conveying specification adjusting nut seats, and the other end of each of the two first conveying specification adjusting connecting rods is respectively hinged with both ends of the specification adjusting seat in the X-axis direction, one end of each of the two second conveying specification adjusting connecting rods is hinged to the middle between the two ends of the first conveying specification adjusting connecting rod, and the other end of each of the two second conveying specification adjusting connecting rods is hinged to the bed net supporting bracket.

The conveying specification adjusting driving component in the scheme drives the conveying specification adjusting screw rod to rotate through the conveying specification adjusting driving unit, two sections of conveying specification adjusting screw thread sections with opposite spiral directions on the conveying specification adjusting screw rod are respectively in threaded transmission with the two conveying specification adjusting nut seats, the two conveying specification adjusting nut seats are driven to be close to or far away from each other in the X axial direction, the two conveying specification adjusting nut seats respectively drive the two first conveying specification adjusting connecting rods to swing, and at the moment, the first conveying specification adjusting connecting rods are hinged with the second conveying specification adjusting connecting rods and the specification adjusting seats to drive the specification adjusting seats to move along the Y axial direction. The conveying specification adjusting and driving component of the embodiment can share one conveying specification adjusting screw rod and one pair of conveying specification adjusting nut seats, and the two conveying specification adjusting nut seats are respectively hinged with the two pairs of first conveying specification adjusting connecting rods.

As the further improvement of above-mentioned technical scheme, second grade elevating system is including setting up in the second grade lift mount of bed net frame design frame below, installing second grade lift drive subassembly and second grade lift direction subassembly on second grade lift mount, bed net frame design frame is through second grade lift direction subassembly and second grade lift mount sliding connection from top to bottom, bed net support bracket sets up with second grade lift mount relatively fixed, second grade lift drive subassembly with bed net frame design frame transmission is connected, second grade lift drive subassembly is used for the drive bed net frame design frame for bed net support frame goes up and down on the upper and lower direction.

Second grade elevating system in this scheme drives bed net frame design frame and goes up and down on the upper and lower direction for bed net bearing frame, both make a plurality of anchor clamps forks for the conveyer belt component down remove to make a plurality of anchor clamps forks and mattress separation, specifically, second grade lift drive assembly drive bed net frame design frame reciprocates along second grade lift direction subassembly for second grade lift mount.

Wherein, second grade lift direction subassembly includes that a plurality of second grade lift guiding axle that are the upper and lower extension setting, and is a plurality of the lower extreme and the second grade lift mount fixed connection of second grade lift guiding axle, bed net frame design frame is with a plurality of slide fit about the second grade lift guiding axle, bed net support bracket is with a plurality of the upper end fixed connection of second grade lift guiding axle, second grade lift drive subassembly is including the second grade lift lead screw that is the upper and lower extension setting, be used for driving the rotatory second grade lift drive unit of second grade lift lead screw, the second grade lift nut seat of being connected with second grade lift lead screw thread drive, second grade lift nut seat is fixed in bed net frame design frame.

Sliding connection about second grade lift guiding axle realizes on bed net frame design frame in this scheme and the second grade lift mount, and bed net support bracket is with a plurality of the upper end of second grade lift guiding axle is fixed, realizes the relatively fixed of bed net support bracket and second grade lift mount, and second grade lift drive assembly passes through the rotation of second grade lift drive unit drive second grade lift lead screw, under the screw drive of second grade lift lead screw and second grade lift nut seat, drives bed net frame design frame oscilaltion.

As a further improvement of the above technical solution, the bed frame tool device further includes a first-stage lifting mechanism, the first-stage lifting mechanism includes a first-stage lifting fixing frame disposed below the second-stage lifting fixing frame, a first-stage lifting driving assembly, a first-stage lifting guiding assembly, a transverse moving guiding assembly and a transverse moving driving assembly, the first-stage lifting fixing frame is mounted on the first-stage lifting fixing frame, the second-stage lifting fixing frame is vertically slidably connected with the first-stage lifting fixing frame through the first-stage lifting guiding assembly, the first-stage lifting driving assembly is in transmission connection with the second-stage lifting fixing frame, the first-stage lifting driving assembly is used for driving the second-stage lifting fixing frame to vertically lift relative to the first-stage lifting fixing frame, the transverse moving guiding assembly includes a transverse moving guide rail frame extending along the X axis direction, the second-stage lifting fixing frame is slidably connected with the transverse moving guide rail frame, and the transverse moving driving assembly is used for driving the second-stage lifting fixing frame to move relative to the transverse moving guide rail frame along the X axis direction And (4) moving upwards.

This scheme has still set up one-level elevating system and has driven second grade lift mount and reciprocate and lateral shifting to make bed net support bracket and bed net frame design frame reciprocate in step and lateral shifting, this can with the bed net feed arrangement, frame feed arrangement and the nailing device adaptation of peripheral hardware, realize the automatic processing of mattress, it is concrete: the secondary lifting fixing frame is driven to lift along the primary lifting guide assembly through the primary lifting driving assembly, the secondary lifting fixing frame is driven to move in the X-axis direction relative to the transverse moving guide rail frame through the transverse moving guide assembly, and the transverse moving guide rail frame is generally fixed on the ground.

As a further improvement of the technical proposal, the first-stage lifting guide component comprises a plurality of first-stage lifting guide shafts which are arranged in an up-and-down extending way, the lower ends of the plurality of first-stage lifting guide shafts are fixedly connected with a first-stage lifting fixing frame, the second-stage lifting fixing frame is in up-and-down sliding fit with the plurality of first-stage lifting guide shafts, the first-stage lifting driving component comprises a first-stage lifting screw rod which is arranged in an up-and-down extending way, a first-stage lifting driving unit used for driving the first-stage lifting screw rod to rotate, and a first-stage lifting nut seat in threaded transmission connection with the first-stage lifting screw rod, the first-stage lifting nut seat is fixed on the second-stage lifting fixing frame, the transverse moving driving component comprises a transverse moving rack fixed on a transverse moving guide rail frame, a transverse moving motor fixedly arranged on the first-stage lifting fixing frame, and a transverse moving gear in transmission connection with the transverse moving motor, and the transverse moving gear is meshed with the transverse moving rack, the transverse moving rack is arranged in an extending mode along the X axis direction.

Second grade lift mount in this scheme is with a plurality of sliding fit about the realization of one-level lift guiding axle, one-level lift drive subassembly passes through one-level lift drive unit drive one-level lift lead screw and rotates, under the screw drive of one-level lift lead screw and one-level lift nut seat, drives second grade lift mount and goes up and down along one-level lift guiding axle, and sideslip drive subassembly passes through sideslip motor drive sideslip gear revolve, under sideslip rack toothing on sideslip gear and the sideslip guide rail frame, drives one-level lift mount and sideslip along sideslip guide rail frame.

Drawings

The utility model is further described with reference to the accompanying drawings and examples;

fig. 1 is a schematic structural diagram of an embodiment of a bed net frame tooling device provided by the present invention, wherein three arrows respectively indicate an X-axis direction, a Y-axis direction and a Z-axis direction;

FIG. 2 is a front view of an embodiment of a bed net frame tooling device provided by the present invention;

FIG. 3 is a schematic structural diagram of an embodiment of a clamping mechanism for a bed net frame according to the present invention, wherein three arrows respectively indicate an X-axis direction, a Y-axis direction and a Z-axis direction;

fig. 4 is a partially enlarged view of a portion a of fig. 3;

figure 5 is a top view of an embodiment of a bed net support assembly provided by the present invention;

FIG. 6 is a schematic structural diagram of an embodiment of the two-stage lifting fixing frame provided in the present invention, wherein three arrows respectively indicate an X-axis direction, a Y-axis direction, and a Z-axis direction;

fig. 7 is a schematic structural diagram of an embodiment of the primary lifting fixing frame provided by the present invention, wherein three arrows respectively indicate an X axis direction, a Y axis direction, and a Z axis direction.

Detailed Description

Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, if words such as "a plurality" are described, the meaning is one or more, the meaning of a plurality is two or more, more than, less than, more than, etc. are understood as excluding the present number, and more than, less than, etc. are understood as including the present number.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

Referring to fig. 1 to 7, the bed net frame tooling device of the present invention is made as follows:

the bed net frame tooling device of this embodiment includes: a bed net frame clamping mechanism 710, a bed net supporting mechanism 720 and a secondary lifting mechanism 730.

The bed net frame clamping mechanism 710 comprises a bed net frame shaping frame 711, a plurality of clamp forks 712 extending in the up-down direction, the plurality of clamp forks 712 are sequentially arranged on the XY projection plane in a rectangular manner and are arranged on the bed net frame shaping frame 711, each clamp fork 712 comprises an inner fork arm 7121 and an outer fork arm 7122 which are arranged from inside to outside, and a distance connecting piece 7123 connected between the lower ends of the inner fork arm 7121 and the lower end of the outer fork arm 7122, a clamping gap 7124 with an upward opening is formed between the inner fork arm 7121 and the outer fork arm 7122, the clamping gaps 7124 on the plurality of clamp forks 712 can form a rectangular clamping channel for clamping a bed net outer edge spring and a frame, in the production and manufacturing of the mattress, the bottom frame can be sleeved in the rectangular clamping channel firstly, the bottom frame can be shaped and positioned at the moment, then the bed net can be sleeved in the clamping channel from top to bottom, wherein the spring outer edge on the bed net edge is clamped in the rectangular clamping gap 7124, finally, the top frame is sleeved in the rectangular clamping channel, so that the shaping, positioning and clamping of the upper frame and the lower frame and the bed net can be realized, and then the fixing of the clamp nails is carried out

Considering that mattresses with different sizes and sizes need to be processed, the bed nets and frames with different sizes and sizes are correspondingly adopted, the bed net frame clamping mechanism 710 of the embodiment further includes a first specification adjusting assembly and a second specification adjusting assembly which are arranged on the bed net frame shaping frame 711, the first specification adjusting assembly includes two first specification adjusting beams 713 which are arranged in parallel at intervals along the X-axis direction, and a first specification adjusting driving member for driving the two first specification adjusting beams 713 to approach or separate from each other in the X-axis direction, the second specification adjusting assembly includes two second specification adjusting beams 714 which are arranged in parallel at intervals along the Y-axis direction, and a second specification adjusting driving member for driving the two second specification adjusting beams 714 to approach or separate from each other in the Y-axis direction, the two first specification adjusting beams 713 and the two second specification adjusting beams 714 are arranged in a rectangular shape on the XY projection plane, the plurality of clamp forks 712 are uniformly arranged on two first specification adjusting beams 713 and two second specification adjusting beams 714, and the first specification adjusting assembly and the second specification adjusting assembly adjust a rectangular clamping channel surrounded by all the clamp forks 712;

specifically, the method comprises the following steps: the first specification adjusting driving member comprises two first specification adjusting driving units, the first specification adjusting beam 713 is slidably mounted on the bed net frame shaping frame 711, the two first specification adjusting driving units are respectively in transmission connection with the first specification adjusting beam 713, the first specification adjusting driving unit comprises a first specification adjusting screw 7131 extending along the X axis, a first specification adjusting motor 7132 for driving the first specification adjusting screw 7131 to rotate, and a first specification adjusting nut seat 7133 in threaded transmission connection with the first specification adjusting screw 7131, the first specification adjusting nut seat 7133 is fixed on the first specification adjusting beam 713, the first specification adjusting driving member adopts two first specification adjusting driving units to respectively drive the first specification adjusting beam 713 to move, specifically, the first specification adjusting driving unit drives the first specification adjusting screw 7131 to rotate through the first specification adjusting motor 7132, under the screw transmission of the first specification adjusting screw rod 7131 and the first specification adjusting nut seat 7133, the first specification adjusting beam 713 is driven to move in the X-axis direction, and the transmission of the screw rod nut can improve the moving precision of the first specification adjusting beam 713;

the second specification adjusting driving component comprises two second specification adjusting driving units, the second specification adjusting beam 714 can be slidably arranged on the bed net frame shaping frame 711, the two second specification adjusting driving units are respectively in transmission connection with the second specification adjusting beam 714, the second specification adjusting and driving unit comprises a second specification adjusting screw rod 7141 extending along the Y axis, a second specification adjusting motor 7142 used for driving the second specification adjusting screw rod 7141 to rotate, a second specification adjusting nut seat 7143 in threaded transmission connection with the second specification adjusting screw rod 7141, the second specification adjusting nut seat 7143 is fixed on the second specification adjusting beam 714, the second specification adjusting driving member also adopts two second specification adjusting driving units to respectively drive the two second specification adjusting beams 714, and the second specification adjusting driving unit also drives the second specification adjusting beams 714 to move in the same driving mode as the lead screw nut.

Bed net supporting mechanism 720 is including setting up in the bed net supporting component of bed net frame design frame 711 upside, bed net supporting component is located a plurality of in the region that anchor clamps fork 712 encloses, bed net supporting component carries out the bearing to the bottom of bed net, realizes the location of stereotyping to bed net. The bed net supporting component in this embodiment includes a bed net supporting bracket 721 and at least one or more conveyer belt members 722 installed on the bed net supporting bracket 721, the conveying direction of the conveyer belt members 722 extends along the X-axis direction, the bed net supporting component can support and support the bed net through the conveyer belt members 722 and can also realize automatic conveying of the mattress, after the processed mattress is separated from the plurality of clamp forks 712, the conveyer belt members 722 drive the mattress to convey along the X-axis direction, and the operation of workers is not required. The conveying belt member 722 mainly includes an annular conveying belt body, two rollers, and a conveying motor for driving one of the rollers to rotate, and two ends of the annular conveying belt body are sleeved on the two rollers.

In this embodiment, for mattresses with different sizes, the number of the conveyor belt members 722 is at least two or more, at least two or more of the conveyor belt members 722 are arranged at intervals along the Y axis, the bed net supporting assembly further includes a third specification adjusting assembly, the third specification adjusting assembly is provided with at least two or more specification adjusting seats 723 arranged in parallel at intervals along the Y axis on the top of the bed net supporting bracket 721, and at least two or more conveying specification adjusting driving members in one-to-one transmission connection with the at least two or more specification adjusting seats 723, the conveying specification adjusting driving members are used for driving the specification adjusting seats 723 to move in the Y axis direction corresponding to the bed net supporting bracket 721, the conveyor belt members 722 are correspondingly mounted on the specification adjusting seats 723, in this embodiment, the supporting ranges of the two conveyor belt members 722 are adjusted by the third specification adjusting assembly, the conveying belt members 722 are sequentially arranged on a specification adjusting seat 723, and a conveying specification adjusting driving member drives the specification adjusting seat 723 corresponding to the bed net supporting bracket 721 to move in the Y-axis direction so as to adjust the relative distance between the two conveying belt members 722 in the Y-axis direction;

specifically, the method comprises the following steps: the conveying specification adjusting and driving component comprises two conveying specification adjusting nut seats 724 arranged on the bed net support bracket 721 at intervals in the X axial direction, a conveying specification adjusting screw rod 725 extending in the X axial direction, a conveying specification adjusting and driving unit used for driving the conveying specification adjusting screw rod 725 to rotate, two first conveying specification adjusting connecting rods 726 and two second conveying specification adjusting connecting rods 727, wherein the conveying specification adjusting screw rod 725 is provided with two sections of conveying specification adjusting screw thread sections with opposite spiral directions, the two conveying specification adjusting nut seats 724 are respectively in threaded transmission connection with the two sections of conveying specification adjusting screw thread sections, one ends of the two first conveying specification adjusting connecting rods 726 are respectively hinged with the two conveying specification adjusting nut seats 724, the other ends of the two first conveying specification adjusting connecting rods 726 are respectively hinged with two ends of the specification adjusting seat 723 in the X axial direction, one ends of the two second conveying specification adjusting connecting rods 727 are respectively hinged with two ends of the first conveying specification adjusting connecting rods 726 The middle part of the two second transport specification adjusting connecting rods 727 is hinged with the bed net support bracket 721, the transport specification adjusting driving member in this embodiment drives the transport specification adjusting screw rod 725 to rotate through the transport specification adjusting driving unit, two transport specification adjusting screw thread sections with opposite spiral directions on the transport specification adjusting screw rod 725 are respectively in thread transmission with the two transport specification adjusting nut seats 724 to drive the two transport specification adjusting nut seats 724 to mutually approach or depart from each other in the X axial direction, the two transport specification adjusting nut seats 724 respectively drive the two first transport specification adjusting connecting rods 726 to swing, and at this time, the first transport specification adjusting connecting rods 726 drive the specification adjusting seats 723 to move in the Y axial direction under the hinge connection with the second transport specification adjusting connecting rods 727 and the specification adjusting seats 723. The conveying specification adjusting driving member of the present embodiment may share one conveying specification adjusting screw 725 and one pair of conveying specification adjusting nut seats 724, and the two conveying specification adjusting nut seats 724 are respectively hinged to two pairs of first conveying specification adjusting connecting rods 726. Also provided in this embodiment is a fixed conveyor belt member 722 disposed between two movable conveyor belt members 722.

Second grade elevating system 730 of this embodiment sets up between bed net frame design frame 711 and bed net bearing component, second grade elevating system 730 can make bed net frame design frame 711 with bed net bearing component goes up and down in the up-down direction relatively each other, and after a frame was fixed good with the bed net, second grade elevating system 730 can make bed net frame design frame 711 with bed net bearing component goes up and down in the up-down direction relatively each other, makes between a plurality of anchor clamps forks 712 and the bed net bearing component go up and down in the up-down direction relatively, will not make bed net bearing component move up for a plurality of anchor clamps forks 712, perhaps makes a plurality of anchor clamps forks 712 move down for bed net bearing component again for a plurality of anchor clamps forks 712 and bed net, frame separation, so that the mattress that the processing is good takes out, easy operation, machining efficiency is high.

Specifically, the method comprises the following steps: the second-stage lifting mechanism 730 comprises a second-stage lifting fixing frame 731 arranged below the bed net frame shaping frame 711, a second-stage lifting driving component and a second-stage lifting guiding component, the bed net frame shaping frame 711 is connected with the second-stage lifting fixing frame 731 in a vertical sliding manner through the second-stage lifting guiding component, the bed net support bracket 721 is fixed and arranged relative to the second-stage lifting fixing frame 731, the second-stage lifting driving component is in transmission connection with the bed net frame shaping frame 711, the second-stage lifting driving component is used for driving the bed net frame shaping frame 711 to lift relative to the bed net support bracket 721 in the vertical direction, the second-stage lifting mechanism 730 of the embodiment drives the bed net frame shaping frame 711 to lift relative to the bed net support bracket 721 in the vertical direction, namely, the plurality of clamp forks 712 move downwards relative to the conveying belt component 722, so that the plurality of clamp forks 712 are separated from the mattress, specifically, the second-stage lifting driving component drives the bed net frame shaping frame 711 to move up and down along the second-stage lifting guiding component relative to the second-stage lifting fixing frame 731.

The second-stage lifting guide assembly comprises a plurality of second-stage lifting guide shafts 732 extending up and down, a plurality of second-stage lifting guide shafts 732 fixedly connected with a second-stage lifting fixing frame 731, a bed net frame shaping frame 711 and the second-stage lifting guide shafts 732 are in up-down sliding fit, a bed net support bracket 721 is fixedly connected with the upper ends of the second-stage lifting guide shafts 732, the second-stage lifting drive assembly comprises a second-stage lifting screw 733 extending up and down, a second-stage lifting drive unit for driving the second-stage lifting screw 733 to rotate, and a second-stage lifting nut seat 734 in threaded transmission connection with the second-stage lifting screw 733, and the second-stage lifting nut seat 734 is fixed on the bed net frame shaping frame 711.

Further, the bed frame tooling device of this embodiment further includes a primary lifting mechanism 740, the primary lifting mechanism 740 includes a primary lifting fixing frame 741 disposed below the secondary lifting fixing frame 731, a primary lifting driving component mounted on the primary lifting fixing frame 741, a primary lifting guiding component, a traverse guiding component and a traverse driving component, the secondary lifting fixing frame 731 is connected with the primary lifting fixing frame 741 in a vertical sliding manner through the primary lifting guiding component, the primary lifting driving component is connected with the secondary lifting fixing frame 731 in a transmission manner, the primary lifting driving component is used for driving the secondary lifting fixing frame 731 to lift up and down relative to the primary lifting fixing frame 741 in a vertical direction, the traverse guiding component includes a traverse guide frame 742 extending along the X axis direction, the secondary lifting fixing frame 731 is connected with the traverse guide frame 742 in a sliding manner, the sideslip drive assembly is used for driving the second grade lifting fixing frame 731 to move in the X-axis direction relative to the sideslip guide rail frame 742, and the first grade elevating system 740 can drive the second grade lifting fixing frame 731 to move up and down and move transversely so that the bed net supporting frame 721 and the bed net frame shaping frame 711 move up and down and move transversely synchronously, and the bed net supporting frame can be adapted to a bed net feeding device, a frame feeding device and a nailing device which are arranged externally, so that the automatic processing of the mattress is realized, and the automatic processing is specific: the secondary lifting fixing frame 731 is driven by the primary lifting driving component to lift along the primary lifting guide component, the secondary lifting fixing frame 731 is driven by the transverse moving guide component to move in the X-axis direction relative to the transverse moving guide rail frame 742, and the transverse moving guide rail frame 742 is generally fixed on the ground.

Specifically, the method comprises the following steps: the first-stage lifting guide assembly comprises a plurality of first-stage lifting guide shafts 743 extending up and down, the lower ends of the first-stage lifting guide shafts 743 are fixedly connected with a first-stage lifting fixing frame 741, the second-stage lifting fixing frame 731 is in up-and-down sliding fit with the first-stage lifting guide shafts 743, the first-stage lifting drive assembly comprises a first-stage lifting screw rod 744 extending up and down, a first-stage lifting drive unit for driving the first-stage lifting screw rod 744 to rotate, and a first-stage lifting nut seat 745 in threaded transmission connection with the first-stage lifting screw rod 744, the first-stage lifting nut seat 745 is fixed on the second-stage lifting fixing frame 731, the traversing drive assembly comprises a traversing rack 746 fixed on the traversing guide rail frame 742, a traversing motor 747 fixedly installed on the first-stage lifting fixing frame 741, and a traversing gear wheel 747 in transmission connection with the traversing motor 747, and the traversing gear 748 is meshed with the traversing rack 746, the traverse rack 746 extends in the X-axis direction.

In this embodiment, the secondary lifting fixing frame 731 is in up-and-down sliding fit with the plurality of primary lifting guide shafts 743, the primary lifting driving assembly drives the primary lifting lead screw 744 to rotate through the primary lifting driving unit, the primary lifting lead screw 744 and the primary lifting nut seat 745 are in threaded transmission to drive the secondary lifting fixing frame 731 to lift along the primary lifting guide shafts 743, the traverse driving assembly drives the traverse gear to rotate through the traverse motor 747, and the traverse gear 748 is meshed with the traverse rack 746 on the traverse guide frame 742 to drive the primary lifting fixing frame 741 to traverse along the traverse guide frame 742.

Wherein, transport specification adjustment drive unit, second grade lift drive unit, one-level lift drive unit are the motor to correspond a plurality of lead screws of motor accessible transmission case drive and rotate.

In the present embodiment, the outer peripheral walls of the first size adjustment beam 713 and the second size adjustment beam 714 are provided with sliding adjustment grooves 715, and the clamp forks 712 are slidably connected with the sliding adjustment grooves 715 through the movable connectors 7125, so that the clamp forks 712 can be adjusted on the first size adjustment beam 713 and the second size adjustment beam 714 to meet mattresses of different sizes.

In other embodiments, the sliding connection manner may be a connection manner of a guide rail and a sliding block, the guiding assembly may adopt other guiding structures, such as a guiding slide rail, and the driving assembly or the driving unit may adopt a linear driving cylinder, an electric push rod, and the like.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that the present invention is not limited to the details of the embodiments shown and described, but is capable of numerous equivalents and substitutions without departing from the spirit of the utility model as set forth in the claims appended hereto.

Claims (10)

1. The utility model provides a bed net frame tool equipment which characterized in that: bed net frame tooling device has the X axial of mutual quadrature, Y axial and Z axial, the Z axial is upper and lower direction, bed net frame tooling device includes:

the bed net frame clamping mechanism (710) comprises a bed net frame shaping frame (711) and a plurality of clamp forks (712) extending in the vertical direction, wherein the clamp forks (712) are sequentially arranged on the bed net frame shaping frame (711) in a rectangular shape on an XY projection plane, the clamp forks (712) comprise an inner fork arm (7121) and an outer fork arm (7122) which are arranged from inside to outside, and a distance connecting piece (7123) connected between the lower ends of the inner fork arm (7121) and the outer fork arm (7122), and a clamping gap (7124) with an upward opening is formed between the inner fork arm (7121) and the outer fork arm (7122);

the bed net supporting mechanism (720) comprises a bed net supporting component arranged on the upper side of the bed net frame shaping frame (711), and the bed net supporting component is positioned in an area surrounded by the clamp forks (712);

second grade elevating system (730), it sets up between bed net frame design frame (711) and bed net supporting component, second grade elevating system (730) can make bed net frame design frame (711) with bed net supporting component goes up and down in the upper and lower direction relatively each other.

2. The bed net frame tooling device of claim 1, characterized in that:

the bed net frame clamping mechanism (710) also comprises a first specification adjusting component and a second specification adjusting component which are arranged on the bed net frame shaping frame (711), the first specification adjusting assembly comprises two first specification adjusting beams (713) which are arranged in parallel at intervals along the X-axis direction, and a first specification adjusting driving component which is used for driving the two first specification adjusting beams (713) to approach or depart from each other in the X-axis direction, the second specification adjusting assembly comprises two second specification adjusting beams (714) which are arranged in parallel at intervals along the Y-axis direction, and a second specification adjusting driving component which is used for driving the two second specification adjusting beams (714) to mutually approach or depart from each other in the Y-axis direction, the two first specification adjusting beams (713) and the two second specification adjusting beams (714) are arranged in a rectangular shape on the XY projection plane, and the plurality of clamp forks (712) are uniformly arranged on the two first specification adjusting beams (713) and the two second specification adjusting beams (714).

3. The bed net frame tooling device of claim 2, characterized in that:

the first specification adjusting driving component comprises two first specification adjusting driving units, the first specification adjusting beam (713) can be slidably mounted on the bed net frame shaping frame (711), the two first specification adjusting driving units are respectively in transmission connection with the first specification adjusting beam (713), each first specification adjusting driving unit comprises a first specification adjusting screw rod (7131) extending along an X axis, a first specification adjusting motor (7132) used for driving the first specification adjusting screw rod (7131) to rotate, and a first specification adjusting nut seat (7133) in threaded transmission connection with the first specification adjusting screw rod (7131), and the first specification adjusting nut seat (7133) is fixed on the first specification adjusting beam (713);

the second specification adjusting and driving component comprises two second specification adjusting and driving units, the second specification adjusting beam (714) can be slidably mounted on the bed net frame shaping frame (711), the two second specification adjusting and driving units are in transmission connection with the second specification adjusting beam (714) respectively, the second specification adjusting and driving unit comprises a second specification adjusting screw rod (7141) extending along the Y axis, a second specification adjusting motor (7142) used for driving the second specification adjusting screw rod (7141) to rotate, and a second specification adjusting nut seat (7143) in threaded transmission connection with the second specification adjusting screw rod (7141), and the second specification adjusting nut seat (7143) is fixed on the second specification adjusting beam (714).

4. The bed net frame tooling device of claim 1, characterized in that:

the bed net supporting component comprises a bed net supporting bracket (721) and at least one or more conveyer belt members (722) arranged on the bed net supporting bracket (721), and the conveying direction of the conveyer belt members (722) extends along the X-axis direction.

5. The bed net frame tooling device of claim 4, wherein:

the number of the conveying belt members (722) is at least two, at least two conveying belt members (722) are arranged at intervals along the Y-axis direction, the bed net supporting assembly further comprises a third specification adjusting assembly, the third specification adjusting assembly is provided with at least two specification adjusting seats (723) which are arranged on the top of the bed net supporting bracket (721) at intervals in parallel along the Y-axis direction, and at least two conveying specification adjusting driving members which are in one-to-one transmission connection with the at least two specification adjusting seats (723), the conveying specification adjusting driving members are used for driving the specification adjusting seats (723) to move in the Y-axis direction, corresponding to the bed net supporting bracket (721), and the conveying belt members (722) are arranged on the specification adjusting seats (723) in one-to-one correspondence.

6. The bed net frame tooling device of claim 5, wherein:

the conveying specification adjusting and driving component comprises two conveying specification adjusting nut seats (724) which are slidably arranged on a bed net support bracket (721) at intervals along the X axial direction, a conveying specification adjusting screw rod (725) which extends along the X axial direction, a conveying specification adjusting and driving unit which is used for driving the conveying specification adjusting screw rod (725) to rotate, two first conveying specification adjusting connecting rods (726) and two second conveying specification adjusting connecting rods (727), wherein the conveying specification adjusting screw rod (725) is provided with two sections of conveying specification adjusting screw thread sections with opposite spiral rotation directions, the two conveying specification adjusting nut seats (724) are respectively in threaded transmission connection with the two sections of conveying specification adjusting screw thread sections, one ends of the two first conveying specification adjusting connecting rods (726) are respectively hinged with the two conveying specification adjusting nut seats (724), and the other ends of the two first conveying specification adjusting connecting rods (726) are respectively hinged with two ends of the specification adjusting seat (723) in the X axial direction, one ends of the two second conveying specification adjusting connecting rods (727) are respectively hinged with the middle part between the two ends of the first conveying specification adjusting connecting rod (726), and the other ends of the two second conveying specification adjusting connecting rods (727) are hinged with the bed net supporting bracket (721).

7. The bed net frame tooling device of claim 6, wherein:

second grade elevating system (730) including set up in second grade lift mount (731) of bed net frame design frame (711) below, install second grade lift drive subassembly and second grade lift direction subassembly on second grade lift mount (731), bed net frame design frame (711) through second grade lift direction subassembly and second grade lift mount (731) sliding connection from top to bottom, bed net support bracket (721) and second grade lift mount (731) relatively fixed set up, second grade lift drive subassembly with bed net frame design frame (711) transmission is connected, second grade lift drive subassembly is used for the drive bed net frame design frame (711) for bed net support bracket (721) goes up and down in the up-and-down direction.

8. The bed net frame tooling device of claim 7, wherein:

the second-stage lifting guide component comprises a plurality of second-stage lifting guide shafts (732) which extend up and down, the lower ends of the second-stage lifting guide shafts (732) are fixedly connected with a second-stage lifting fixing frame (731), the bed net frame shaping frame (711) is in up-and-down sliding fit with the second-stage lifting guide shafts (732), the bed net supporting frame (721) is fixedly connected with the upper ends of the second-stage lifting guide shafts (732), the second-stage lifting driving component comprises a second-stage lifting screw rod (733) which extends up and down, a second-stage lifting driving unit which is used for driving the second-stage lifting screw rod (733) to rotate, and a second-stage lifting nut seat (734) which is in threaded transmission connection with the second-stage lifting screw rod (733), and the second-stage lifting nut seat (734) is fixed on the bed net frame shaping frame (711).

9. The bed net frame tooling device of claim 8, wherein:

the bed net frame tooling device further comprises a primary lifting mechanism (740), the primary lifting mechanism (740) comprises a primary lifting fixing frame (741) arranged below the secondary lifting fixing frame (731), a primary lifting driving component, a primary lifting guiding component, a transverse moving guiding component and a transverse moving driving component, the primary lifting guiding component, the transverse moving guiding component and the transverse moving driving component are arranged on the primary lifting fixing frame (741), the secondary lifting fixing frame (731) is connected with the primary lifting fixing frame (741) in a vertical sliding mode through the primary lifting guiding component, the primary lifting driving component is in transmission connection with the secondary lifting fixing frame (731), the primary lifting driving component is used for driving the secondary lifting fixing frame (731) to lift in the vertical direction relative to the primary lifting fixing frame (741), the transverse moving guiding component comprises a transverse moving guide rail frame (742) extending along the X axial direction, and the secondary lifting fixing frame (731) is connected with the transverse moving guide rail frame (742) in a sliding mode, the transverse moving driving component is used for driving the secondary lifting fixing frame (731) to move in the X-axis direction relative to the transverse moving guide rail frame (742).

10. The bed net frame tooling device of claim 9, wherein:

the one-level lifting guide assembly comprises a plurality of one-level lifting guide shafts (743) extending up and down, the lower ends of the one-level lifting guide shafts (743) are fixedly connected with a one-level lifting fixing frame (741), the two-level lifting fixing frame (731) is in up-down sliding fit with the one-level lifting guide shafts (743), the one-level lifting driving assembly comprises one-level lifting lead screws (744) extending up and down, one-level lifting driving units used for driving the one-level lifting lead screws (744) to rotate, and one-level lifting nut seats (745) in threaded transmission connection with the one-level lifting lead screws (744), the one-level lifting nut seats (745) are fixed on the two-level lifting fixing frame (731), the transverse driving assembly comprises transverse moving racks (746) fixed on the transverse moving rack (742), and transverse moving motors (747) fixedly installed on the one-level lifting fixing frame (741), And the transverse moving gear (748) is in transmission connection with a transverse moving motor (747), the transverse moving gear (748) is meshed with a transverse moving rack (746), and the transverse moving rack (746) extends along the X axial direction.

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