CN114030719A - Wall-mounted furniture production device - Google Patents

Abstract

The invention relates to a wall-mounted furniture production device which comprises a transmission mechanism, wherein the transmission mechanism comprises a conveying assembly and a guide assembly arranged below the conveying assembly; the traction mechanism comprises a clamping component arranged at the output end of the guide component and a supporting component arranged on one side of the clamping component and matched with the clamping component; the winding mechanism comprises a hoop component arranged on one side of the supporting component and a cutting component which is in synchronous transmission with the hoop component and is used for cutting the rubber strips, and a tightening die is placed on the hoop component; the stacking mechanism comprises a pushing-down assembly arranged above the supporting assembly and a stacking assembly matched with the pushing-down assembly and positioned below the supporting assembly; the invention solves the technical problems that the output rubber and plastic strip can not be automatically rolled and can not be stacked after being collected to enter the next workshop for processing.

Description

Wall-mounted furniture production device

Technical Field

The invention relates to the technical field of furniture gap plugging rubber strips, in particular to a wall-mounted furniture production device.

Background

The furniture is composed of four factors of materials, structures, appearance forms and functions, wherein the functions are the power for promoting the development of the furniture; the structure is a backbone and is the basis for realizing the functions. These four factors are interrelated and restrictive. The furniture is designed and manufactured for meeting certain material requirements and use purposes of people, so the furniture also has factors in the aspects of materials and appearance forms, some furniture needs regular furniture paint repair, and the furniture paint refers to special paint for the surfaces of wooden ware and bamboo furniture. The furniture paint can make the wooden furniture more beautiful and beautiful, improve the rough hand feeling of the furniture, not only play the role of protecting and maintaining the wooden furniture, but also make the whole family life more comfortable.

Patent document CN2020104453171 discloses an automatic compensation device for ordinary ageing furniture touch-up paint, which comprises a base, the inside of removing the seat and in the spout in-connection have the slider, the outside left end of carriage release lever is provided with the spring, the lower extreme of carriage release lever is connected with the block rubber, the inside downside right-hand member of touch-up paint pipe is provided with the rubber strip, the inside of removing the seat and be provided with the trachea that corresponds with touch-up paint pipe in the right downside of spout, tracheal lower part left end is provided with the gasbag that corresponds with the rubber strip. Through the increase of the frictional force that contacts in block rubber and wearing and tearing district, the block rubber drives the carriage release lever phase left movement, and the carriage release lever drives the slider and moves to the left in the spout, and the atmospheric pressure on slider and spout right side reduces, and the gasbag reduces to drive elastic rubber strip and moves right, and according to the variation in size in wearing and tearing district, the frictional force that the block rubber received is different with the paint volume of the intraductal compensation of touch-up paint.

However, in the actual use process, the inventor finds that the output rubber and plastic strip cannot be automatically wound, and cannot be stacked after being collected to enter the next workshop for processing.

Disclosure of Invention

Aiming at the defects of the prior art, the rubber and plastic rings after the automatic winding work are automatically stacked into a 2x2 specification form to be placed and stored by arranging the winding mechanism and matching the stacking mechanism, and are automatically stacked in the vertical direction in sequence, so that the automatic collection and stacking of the output rubber and plastic rings can be realized without stopping the machine and changing rollers, and the technical problems that the output rubber and plastic strips cannot be automatically wound and cannot be stacked after being collected into the next workshop for processing are solved.

Aiming at the technical problems, the technical scheme is as follows: a wall-mounted furniture production apparatus comprising:

the conveying mechanism comprises a conveying assembly and a guide assembly arranged below the conveying assembly;

the traction mechanism comprises a clamping component arranged at the output end of the guide component and a supporting component arranged on one side of the clamping component and matched with the clamping component;

the winding mechanism comprises a hoop component arranged on one side of the supporting component and a cutting component which is in synchronous transmission with the hoop component and is used for cutting the rubber strips, and a tightening die is placed on the hoop component; and

the stacking mechanism comprises a push-down assembly arranged above the supporting assembly and a stacking assembly matched with the push-down assembly and positioned below the supporting assembly.

Preferably, the conveying assembly includes a conveying belt a disposed obliquely upward and a guide roller disposed at an output end of the conveying belt a.

Preferably, the guide assembly comprises a guide unit a arranged horizontally, a guide unit b arranged below the guide unit a and arranged obliquely, and a guide unit c arranged on one side of the guide unit b and arranged vertically;

the guide unit a, the guide unit b and the guide unit c comprise two guide circular tubes.

Preferably, the clamping assembly comprises:

the traction part comprises a connecting frame a, two groups of clamping units which are respectively arranged at two ends of the connecting frame a and two groups of guide tracks a which are correspondingly arranged at two sides of the clamping units, wherein each clamping unit comprises a support, a sliding shaft which is arranged on the support in a penetrating way, a clamping plate which is arranged at the end part of the sliding shaft and is of an elastic material structure, a spring a which is arranged on the support and is sleeved outside the sliding shaft, a convex block a which is arranged at the other end of the spring a and the sliding shaft and is of a semicircular structure, a telescopic unit a which is arranged on the support and is vertically and downwards, a convex block b which is arranged below the telescopic unit a and is matched with the convex block a, and a control column a which is arranged at the other end of the convex block a and is matched and slidingly arranged on the guide tracks a, the input ends and the output ends of the two groups of guide tracks a are of splayed structures, a handle is arranged on one side of the connecting frame a, and an elastic block is arranged at the input end of the horizontal part of the guide track a; and

the driving part comprises a driving part, a first driven part and a second driven part, the first driven part is linked with the driving part and is used for driving the clamping unit to move in a reciprocating mode, the second driven part is linked with the driving part and is used for driving the circular shaft of the supporting assembly to rotate, and the driving part comprises a driving motor, a driving shaft arranged at the output end of the driving motor, a friction rod arranged at the output end of the driving shaft and a driving gear which is coaxial with the driving shaft and is in synchronous transmission; the first driven part comprises a grinding wheel which is arranged on one side of the friction roller and synchronously rotates with the friction roller, a first driven gear which is coaxial with the grinding wheel and synchronously drives the grinding wheel, a first driven rack which is meshed with the first driven gear and fixedly connected with the lower end of the connecting frame a, a second driven gear which is coaxial with the friction roller and synchronously drives the friction roller, and a second driven rack which is meshed with the second driven gear and fixedly connected with the lower end of the connecting frame a, wherein the first driven rack and the second driven rack are both in a one-way tooth structure; when the grinding wheel rotates forwards, the first driven gear and the first driven rack are in an engaged state, and when the grinding wheel rotates backwards, the second driven gear and the second driven rack are in an engaged state; the second follower include with the driving gear meshing and be the third driven rack of one-way tooth structure, with the third driven gear of third driven rack meshing and with third driven gear synchronous transmission's axis of rotation a, axis of rotation a with the support assembly passes through belt pulley transmission and is connected.

Preferably, the supporting assembly comprises a rotating drum rotatably arranged on the rack a, the rotating drum is uniformly provided with a plurality of groups of inserting grooves along the vertical direction, and clamping units are arranged in the inserting grooves arranged towards the output end of the clamping assembly;

the clamping units are arranged in two groups and are symmetrically arranged, each clamping unit comprises a telescopic unit b and a folded plate arranged on one side of the telescopic unit b, and the outer surfaces of the folded plates are matched with the outer circumferential surface structure of the rotary drum.

Preferably, the ferrule assembly comprises:

the driving cylinder is arranged on the cylinder frame, and the output end of the driving cylinder is provided with a telescopic unit c;

the connecting frame b is fixedly connected with the other end of the telescopic unit c;

the connecting plate a is arranged on the cylinder frame through two groups of telescopic units d;

the clamping pieces a are arranged in two groups and are respectively positioned at two ends of the connecting frame b, and each clamping piece a comprises a moving shaft a which is arranged on the connecting plate a in a sliding mode, a spring c of which one end is connected with the connecting frame b and the other end is connected with the connecting plate a, a rotating shaft a which is arranged on the connecting frame b, a turning rod a which is arranged on the rotating shaft a in a rotating mode and is fixedly connected with the other end of the moving shaft a, and a positioning unit a which is arranged at the other end of the turning rod a in a rotating mode, wherein each positioning unit a comprises a sliding groove, a telescopic unit f which is vertically arranged in the sliding groove, and a convex block c which is arranged below the telescopic unit f and is of a semicircular structure;

the first limiting block is used for controlling the sliding of the connecting plate a; and

and the second limiting block is used for controlling the sliding of the connecting frame b.

Preferably, the cutting assembly comprises:

the rotating part a comprises a first driving rack fixedly connected with the telescopic unit c, a first driving gear meshed with the first driving rack, a second driving gear coaxial and synchronously driven with the first driving gear and a second driving rack meshed with the second driving gear and vertically arranged, and the second driving rack is installed on the rack b through a telescopic unit e; and

and the cutting part comprises a first connecting rod fixedly connected with the second driving rack and a cutter fixedly connected with the first connecting rod, and the cutter is externally tangent and attached to the hooping mold in working.

Preferably, the tightening mold comprises two groups of symmetrically arranged fixing assemblies, one ends of the two groups of fixing assemblies are hinged and connected, and each fixing assembly comprises a first clamping piece;

the first clamping piece comprises a hoop of a semicircular structure, a convex block d arranged on the outer wall of the hoop and matched with the outer wall of the convex block c, a clamping rod arranged on the other side of the hoop and perpendicular to the hoop, and two groups of fastening blocks arranged on the hoop hinged portion and up and down, wherein the two groups of fastening blocks are arranged at the end portions of the two fastening blocks in an interference clamping mode.

Preferably, the push-down assembly includes:

the rotating piece b comprises a third driving rack fixedly connected with the telescopic unit c, a third driving gear meshed with the third driving rack, a fourth driving gear coaxial and synchronously driven with the third driving gear and a fourth driving rack meshed with the fourth driving gear and vertically arranged; and

and the push rod is arranged on the support c in a sliding mode along the vertical direction and is fixedly connected with the fourth driving rack, and the push rod is matched with the inserting groove structure.

As a further preference, the pack assembly comprises:

the storage assembly comprises a collection box, a support table arranged below the collection box, a screw fixedly connected with the lower part of the support table and provided with threads in one quarter, and a platform sleeved outside the screw, wherein one quarter of thread rings matched with the screw are arranged on the inner wall of the platform, the lower end of the screw is provided with an underframe, telescopic units h are arranged on the underframe, and the telescopic units h are arranged in sliding grooves formed in the platform in a sliding manner through sliding blocks; and

the transmission assembly and the lower pushing assembly are in synchronous transmission and are used for driving the stacking assembly to stack materials, and the transmission assembly comprises a rotating unit a which coaxially rotates with the third driving gear, a rotating shaft unit b which rotates with the rotating unit a through a belt pulley, a rotating shaft unit c which rotates with the rotating unit b through the belt pulley, and a cross which is arranged at the upper end of the rotating shaft unit c and slides in a matching manner with a cross ring arranged on the screw rod.

The invention has the beneficial effects that:

(1) according to the automatic collecting and stacking device, the rubber and plastic rings which are automatically rolled are automatically stacked into a 2x2 specification form to be stored by arranging the rolling mechanism and matching with the stacking mechanism, and are automatically stacked in sequence along the vertical direction, so that the rubber and plastic rings which are output can be automatically collected and stacked without stopping for changing rollers, the space utilization rate is saved, the whole work continuity is high, and the automation degree is high;

(2) according to the invention, the traction mechanism is matched with the winding mechanism, so that the automatic winding work of the rubber and plastic strips output to the transmission is realized, the rubber and plastic strips are automatically cut and packaged after being wound, meanwhile, the rollers are not required to be replaced and packaged again, the rubber and plastic strips are automatically clamped by the traction mechanism, the traction work of the rubber and plastic strips is further avoided, the whole work is continuously carried out, the automation degree is high, the yield is improved, and the production cost is reduced;

(3) according to the invention, the storage assembly is matched with the transmission assembly, so that when the rubber-plastic ring is pushed down to work, the collecting box automatically rotates to adjust the feeding station, the 2x2 packing and collecting work on the same layer of the rubber-plastic ring is completed, the collecting box automatically descends by the transmission of the storage assembly, the packing work on the second layer of the rubber-plastic ring is further realized, the automation degree is high, meanwhile, manual stacking and collecting are not needed, and the working efficiency is high;

(4) according to the rubber strip cutting device, the clamping assembly is arranged, so that on one hand, the traction head of a rubber strip is always clamped through the clamping assembly, the traction head is automatically conveyed into the supporting assembly to complete packing and cutting, when the next group of packing is finished, the clamping assembly finishes clamping work on the traction head of the next group of rubber strip, and the traction head is prevented from being clamped and positioned again each time; on the other hand, utilize centre gripping subassembly cooperation package mechanism, will treat the rubber strip of packing and send into supporting component little and little packing, and then the rubber strip when making the supporting component packing keeps the state of tautness, improves packing effect.

In conclusion, the equipment has the advantages of simple structure and automatic collection, and is particularly suitable for the technical field of furniture gap plugging rubber strips.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings described below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of a wall-mounted furniture production device.

Fig. 2 is a schematic structural diagram of a transfer assembly.

Fig. 3 is a schematic structural view of the guide assembly.

Fig. 4 is a schematic structural view of the clamping assembly.

Fig. 5 is a schematic view of the transmission state of the clamping assembly.

Fig. 6 is a front view schematically showing the guide rail a.

Fig. 7 is a side view of the guide rail a.

Fig. 8 is a schematic structural view of the clamping assembly.

Fig. 9 is a structural schematic diagram of a unidirectional rack.

Fig. 10 is a schematic structural view of the driving member.

Fig. 11 is a top view of the support assembly.

Fig. 12 is a partial structural diagram of the first support assembly.

Fig. 13 is a partial structural schematic view of the support assembly.

FIG. 14 is a schematic view of the construction of the ferrule assembly.

FIG. 15 is a schematic view of the driving state of the ferrule assembly.

Fig. 16 is a schematic structural diagram of the positioning unit a.

Fig. 17 is a schematic structural diagram of the cutting assembly.

FIG. 18 is a schematic view of the transmission state of the cutting assembly.

Fig. 19 is a schematic structural view of the push-down assembly.

Fig. 20 is a first structural view of the tightening mold.

Fig. 21 is a structural schematic diagram of the tightening mold.

FIG. 22 is a first schematic structural view of a buttress assembly.

FIG. 23 is a second schematic structural view of the buttress assembly.

FIG. 24 is a third schematic structural view of the buttress assembly.

FIG. 25 is a fourth schematic structural view of the buttress assembly.

Detailed Description

The technical scheme in the embodiment of the invention is clearly and completely explained by combining the attached drawings.

Example one

As shown in fig. 1, a wall-mounted furniture producing apparatus includes:

the conveying mechanism 1 comprises a conveying assembly 11 and a guide assembly 12 arranged below the conveying assembly 11;

the traction mechanism 2 comprises a clamping component 21 arranged at the output end of the guide component 12 and a supporting component 22 arranged on one side of the clamping component 21 and matched with the clamping component 21;

the winding mechanism 3 comprises a hoop component 31 arranged on one side of the supporting component 22 and a cutting component 32 which is in synchronous transmission with the hoop component 31 and is used for cutting the rubber strip 10, and a clamping die 33 is placed on the hoop component 31; and

a stacking mechanism 4, wherein the stacking mechanism 4 comprises a push-down component 41 arranged above the support component 22 and a stacking component 42 which is matched with the push-down component 41 and is positioned below the support component 22.

In this embodiment, through setting up 3 cooperation stacking mechanism 4 of winding mechanism, realize that the rubber and plastic circle after accomplishing automatic winding work is automatic to be stacked into 2x2 specification form and place and hold to follow automatic stacking in vertical direction in proper order, and then need not to shut down the roll change, just can realize the rubber and plastic circle automatic collection stack of output, save space utilization, whole work continuity is high and degree of automation is high.

And secondly, the automatic winding work of the rubber and plastic strips output to the transmission is realized by arranging the traction mechanism 2 and matching the winding mechanism 3, the automatic cutting and packaging are carried out after the winding is realized, meanwhile, the rollers do not need to be replaced and the packaging is carried out again, the rubber and plastic strips are automatically clamped by utilizing the traction mechanism 2, the traction work of the rubber and plastic strips is avoided to be carried out again, the whole work is continuously carried out, the automation degree is high, the yield is increased, and the production cost is reduced.

It should be noted that the banding mold 33 is suitable for a workshop to pack the extruded rubber and plastic strips, temporarily packs the strips to be convenient for placing in the workshop and for subsequent processing and carrying, and the banding mold 33 can be repeatedly used and is not used as a packing structure for production.

Further, as shown in fig. 2, the conveying member 11 includes a conveying belt a111 disposed obliquely upward and a guide roller 112 disposed at an output end of the conveying belt a 111.

In the embodiment, the conveying assembly 11 is arranged to guide and convey the formed rubber and plastic strips.

Further, as shown in fig. 3, the guide assembly 12 includes a horizontally disposed guide unit a121, a guide unit b122 disposed below the guide unit a121 and disposed obliquely, and a guide unit c123 disposed at one side of the guide unit b122 and disposed vertically;

the guide unit a121, the guide unit b122 and the guide unit c123 each include two guide circular pipes 124.

In this embodiment, through setting up direction subassembly 12, and then adjust the rubber and plastic strip of output for vertical output state from horizontal output state, and then do benefit to later stage winding mechanism 3 and pack it and vertical automatic output work.

Further, as shown in fig. 4 to 10, the clamping assembly 21 includes:

the traction element 211 comprises a connecting frame a212, two groups of clamping units 213 respectively arranged at two ends of the connecting frame a212 and two groups of guide rails a214 correspondingly arranged at two sides of the clamping units 213, wherein the clamping units 213 comprise a support 2131, a sliding shaft 2132 penetrating the support 2131, a clamping plate 2133 which is arranged at the end part of the sliding shaft 2132 and is of an elastic material structure, a spring a2134 which is arranged on the support 2131 and is sleeved outside the sliding shaft 2132, a convex block a2135 which is arranged at the other ends of the spring a2134 and the sliding shaft 2132 and is of a semicircular structure, a telescopic unit a2136 which is arranged on the support 2131 and is vertically downward, a convex block b2137 which is arranged below the telescopic unit a2136 and is matched with the convex block a2135, and a control column a2138 which is arranged at the other end of the convex block a2135 and is matched with the guide rails a 213214, and the input ends and the output ends of the two groups of guide rails a214 are of eight character structures, a handle 215 is arranged at one side of the connecting frame a212, and a bounce block 2139 is arranged at the input end of the horizontal part of the guide track a 214; and

a driving member 216, wherein the driving member 216 includes a driving member 217, a first driven member 218 linked with the driving member 217 and used for driving the gripping unit 213 to reciprocate, and a second driven member 219 linked with the driving member 217 and used for driving the circular shaft of the supporting assembly 22 to rotate, and the driving member 217 includes a driving motor 2171, a driving shaft 2172 disposed at an output end of the driving motor 2171, a friction rod 2173 disposed at an output end of the driving shaft 2172, and a driving gear 2174 coaxial with and synchronously driven by the driving shaft 2172; the first driven member 218 comprises a grinding wheel 2181 which is arranged at one side of the friction roller 2173 and rotates synchronously with the friction roller 2173, a first driven gear 2182 which is coaxial with the grinding wheel 2181 and is in synchronous transmission, a first driven rack 2183 which is meshed with the first driven gear 2182 and is fixedly connected with the lower end of the connecting frame a212, a second driven gear 2184 which is coaxial with the friction roller 2173 and is in synchronous transmission, and a second driven rack 2185 which is meshed with the second driven gear 2184 and is fixedly connected with the lower end of the connecting frame a212, wherein the first driven rack 2183 and the second driven rack 2185 are both in a one-way tooth structure; when the grinding wheel 2181 rotates forwards, the first driven gear 2182 and the first driven rack 2183 are in an engaged state, and when the grinding wheel 2181 rotates backwards, the second driven gear 2184 and the second driven rack 2185 are in an engaged state; the second follower 219 includes a third driven rack 2191 engaged with the driving gear 2174 and having a unidirectional gear structure, a third driven gear 2192 engaged with the third driven rack 2191, and a rotation shaft a2193 synchronously driven by the third driven gear 2192, and the rotation shaft a2193 is in transmission connection with the support assembly 22 through a belt pulley.

In the embodiment, by arranging the clamping assembly 21, on one hand, the traction head of the rubber strip is always clamped by the clamping assembly 21, and the traction head is automatically conveyed into the supporting assembly 22 to complete packing and slitting, when the next group of packing is finished, the clamping assembly 21 finishes clamping the traction head of the next group of rubber strip, and the traction head is prevented from being clamped and positioned again each time; on the other hand, utilize centre gripping subassembly 21 cooperation package mechanism, will treat the rubber strip of packing little send into supporting component 22 and pack, and then the rubber strip when making supporting component 22 pack keeps tight state, improves packing effect.

Secondly, through setting up driving piece 216, utilize a drive power to accomplish simultaneously that pull 211 and send into work, the automatic packing work of winding mechanism 3 and pull 211 and reset the effect that the process accomplished synchronous automatic work of unreeling, the three work synchronism is high, and the control of precedence order is inseparable and easy control, reduction in production cost.

In detail, when a first group of rubber and plastic strips are packed, a traction head is manually sent into two groups of clamping plates 2133, a connecting frame a212 is manually sent into the horizontal part of a guide track a214 through a handle 215, the connecting frame a212 presses a bounce block 2139 to enter the horizontal part of the guide track a214 and simultaneously clamp the rubber and plastic strips, at the moment, a driving motor 2171 is reversely started, the driving motor 2171 drives a driving shaft 2172 to rotate, the driving shaft 2172 drives a second driven gear 2184 to rotate, the second driven gear 2184 drives a second driven rack 2185 to drive the connecting frame a212 to horizontally move, and in the moving process of the connecting frame a212, the rubber and plastic strips are together sent into an inserting groove 222; then the driving motor 2171 rotates forward, the driving gear 2174 drives the third driven rack 2191 to move at the moment, the moving third driven rack 2191 drives the rotating shaft to rotate through the third driven gear 2192, the rotating shaft drives the supporting assembly 22 to rotate circularly, and packaging work is finished, meanwhile, when the grinding wheel 2181 rotates forward, the first driven gear 2182 is meshed with the first driven rack 2183, the first driven rack 2183 drives the clamping unit 213 to retract at a point through the connecting frame a212, the automatic unwinding effect is finished, and packaging quality is improved.

It should be noted that, through the purpose of setting up emery wheel 2181, whole pay-off work is comparatively fast when needing traction member 211 to get into and insert the groove 222, because the during later stage baling work, because traction member 211 pulls the traction head, transport mechanism 1 continues the ejection of compact again, the rubber and plastic strip of part of drooping can appear, need traction member 211 to send the traction head into and insert the groove 222 fast and carry out the work of inserting, but when traction member 211 resets and pushes out the work, still need accomplish the delivery work to rubber and plastic strip little by little, therefore this speed needs comparatively slowly, utilize emery wheel 2181 can reach this effect.

In addition, the horizontal part of the guide rail a214 and the two groups of clamping plates 2133 complete the clamping work of the rubber-plastic strip, but the rubber-plastic strip is not clamped tightly, and only the rubber-plastic strip is required to be clamped without falling under the action of gravity, namely the clamping tension is smaller than the force of rolling and folding of the rolling mechanism 3, and the rubber-plastic strip can be pulled out from the two groups of clamping plates 2133 during the rolling work.

Further, as shown in fig. 11 to 13, the supporting assembly 22 includes a rotating drum 221 rotatably disposed on the frame a, the rotating drum 221 is uniformly provided with a plurality of groups of inserting grooves 222 along the vertical direction, and a clamping unit 223 is disposed in the inserting groove 222 disposed toward the output end of the clamping assembly 21;

the clamping units 223 are arranged in two groups and are symmetrically arranged, and each clamping unit 223 comprises a telescopic unit b2231 and a folded plate 2232 arranged on one side of the telescopic unit b2231, and the outer surfaces of the folded plates 2232 are matched with the outer circumferential surface structure of the drum 221.

In this embodiment, through the clamping unit 223 that sets up supporting component 22, and then carry out the centre gripping with the traction head, make it can normally carry out packing work, need not the manual work and support the packing first circle.

It should be noted that the driving motor 2171 sets the number of turns, preferably 100 turns each, and stops the operation 5 mm each time one cycle is completed, thereby ensuring that a group with the clamping unit 223 always faces the direction of the tractor to be loaded when each tractor needs to be loaded into the insertion slot 222.

Further, as shown in fig. 14 to 16, the ferrule assembly 31 includes:

the driving cylinder 311 is mounted on the cylinder frame, and the output end of the driving cylinder 311 is provided with a telescopic unit c 312;

the connecting frame b313 is fixedly connected with the other end of the telescopic unit c 312;

a connecting plate a314, wherein the connecting plate a314 is installed on the cylinder frame through two groups of telescopic units d 315;

the tightening pieces a316 are provided in two groups and are respectively located at two ends of the connecting frame b313, and each tightening piece a316 comprises a moving shaft a3161 slidably arranged on the connecting plate a314, a spring c3162 with one end connected with the connecting frame b313 and the other end connected with the connecting plate a314, a rotating shaft a3163 arranged on the connecting frame b313, a turning rod a3164 rotatably arranged on the rotating shaft a3163 and fixedly connected with the other end of the moving shaft a3161, and a positioning unit a3166 rotatably arranged at the other end of the turning rod a3164, wherein the positioning unit a3166 comprises a sliding groove 3167, a telescopic unit f3168 vertically arranged in the sliding groove 3167, and a convex block c3169 arranged below the telescopic unit f3168 and having a semicircular structure;

the first limiting block 317 is used for controlling the sliding of the connecting plate a 314; and

a second limiting block 318, wherein the second limiting block 318 is used for controlling the sliding of the connecting frame b 313.

In the embodiment, the hoop component 31 is arranged to cooperate with the rubber and plastic strip which is wound, so that on one hand, the hoop work of the rubber and plastic strip is completed, the rubber and plastic strip which is wound is prevented from being released and losing the effect of the winding work after the rubber and plastic strip is cut, and the rubber and plastic strip is packaged in the later period; on the other hand, utilize the mould 33 cooperation cutting assembly 32 of cramping, cutting assembly 32 is better along the outer wall of cramping mould 33, cuts the effect, and the tail of this rubber and plastic strip falls outside simultaneously, does benefit to later stage packing during operation, need not to look for again and pulls the head, simple structure and convenient to use.

It should be noted that, when the driving motor 2171 stops rotating, the driving cylinder 311 is automatically started, the driving cylinder 311 drives the connecting frame b313 to move, the tightening mold 33 reaches the outside of the rubber plastic strip which is completely wound, at this time, the first limiting block 317 limits the connecting plate a314 to continue moving, the connecting frame b313 continues moving forward, the moving shaft a3161 moves forward, the spring c3162 compresses, the turning rod a3164 rotates around the rotating shaft a3163, and the two groups of hooping rings a3165 tighten the rubber plastic strip which is completely wound.

In addition, the moving axis a3161 is arranged in the waist groove on the turning rod a3164 in a sliding way.

Further, as shown in fig. 17 and 18, the cutting assembly 32 includes:

a rotating member a321, wherein the rotating member a321 comprises a first driving rack 322 fixedly connected with the telescopic unit c312, a first driving gear 323 meshed with the first driving rack 322, a second driving gear 324 coaxial and synchronously driven with the first driving gear 323, and a second driving rack 325 meshed with the second driving gear 324 and vertically arranged, and the second driving rack 325 is mounted on the rack b through a telescopic unit e 326; and

the dividing and cutting part 327 includes a first connecting rod 328 fixedly connected to the second driving rack 325 and a cutter 329 fixedly connected to the first connecting rod 328, and the cutter 329 is in external contact with the clamping mold 33 during operation.

In this embodiment, the rotating part a321 is arranged to cooperate with the slitting part 327, so that after the tightening die 33 completes tightening the rubber-plastic strip after winding, the rotating part a321 continues to drive the slitting part 327 to automatically move, and the slitting operation on the rubber-plastic strip is completed in the moving process, and the front and back operation relationship is tight and easy to control.

In detail, after the wound rubber and plastic strip is fixedly coated by the tightening mold 33, the driving cylinder 311 continues to drive the telescopic unit c312 to move, the telescopic unit c312 is compressed, the telescopic unit c312 drives the first driving rack 322 to move, the moving first driving rack 322 drives the first driving gear 323 to rotate, the rotating first driving gear 323 drives the second driving gear 324 to rotate, the second driving gear 324 drives the second driving rack 325 to move, the second driving rack 325 drives the first connecting rod 328 to continue to move, so that the cutter 329 cuts along the outer wall of the tightening mold 33, the wound rubber and plastic strip 10 tail is clamped in the two groups of clamping rods 3323, the tail is the traction head of the packaged rubber and plastic ring 20, and when a worker uses the packaged rubber and plastic ring again, the traction head exposed outside can be found out quickly.

Further, as shown in fig. 19, the push-down assembly 41 includes:

the rotating member b411 comprises a third driving rack 412 fixedly connected with the telescopic unit c312, a third driving gear 413 meshed with the third driving rack 412, a fourth driving gear 414 coaxial and synchronously driven with the third driving gear 413, and a fourth driving rack 415 meshed with the fourth driving gear 414 and vertically arranged; and

and the push rod 416 is arranged on the bracket c in a sliding manner along the vertical direction and is fixedly connected with the fourth driving rack 415, and the push rod 416 and the inserting groove 222 are arranged in a structure matching manner.

In detail, after the cutting is completed, the telescopic unit c312 is reset, the telescopic unit c312 drives the third driving rack 412 to move, the moving third driving rack 412 drives the third driving gear 413 to rotate, the rotating third driving gear 413 drives the fourth driving gear 414 to rotate, the rotating fourth driving gear 414 drives the fourth driving rack 415 to move downwards, the fourth driving rack 415 drives the push rod 416 to move downwards in the moving downwards process, one end of the push rod 416 is inserted into the corresponding insertion groove 222, and then the push rod 416 moves downwards to push out the rolled rubber-plastic ring 20 together with the banding mold 33 downwards, so that the discharging is completed.

It should be noted that, when the rubber and plastic ring 20 is pushed out, the convex pressing block c30 is required to act on the clamping plates 2133 at the same time, and the clamping plates 2133 are opened, so that the rubber and plastic ring 20 is completely pushed out, and the rubber and plastic strip 10 is prevented from being clamped by the two groups of clamping plates 2133 and is not easy to push out.

Further, as shown in fig. 22 to 25, the pack assembly 42 comprises:

the storage assembly 421 comprises a collection box 4211, a support table 4212 arranged below the collection box 4211, a screw 4213 fixedly connected below the support table 4212 and provided with threads in one quarter, and a platform 4214 sleeved outside the screw 4213, wherein one quarter of a thread ring 4215 matched with the screw 4213 is arranged on the inner wall of the platform 4214, the lower end of the screw 4213 is provided with a bottom frame 4216, telescopic units h4217 are arranged on the bottom frame 4216, and the telescopic units h4217 are arranged in sliding grooves 4219 formed in the platform 4214 in a sliding mode through sliding blocks 4218; and

the transmission assembly 422 is in synchronous transmission with the lower pushing assembly 41 and is used for driving the stacking assembly 42 to perform stacking work, and comprises a rotating unit a4221 which rotates coaxially with the third driving gear 413, a rotating unit b4222 which rotates with the rotating unit a4221 through a belt pulley, a rotating unit c4223 which rotates with the rotating unit b4222 through the belt pulley, and a cross 4225 which is arranged at the upper end of the rotating unit c4223 and slides in a matching manner with a cross ring 4224 arranged on the screw 4213.

In this embodiment, through setting up storage component 421 cooperation transmission component 422, and then realize pushing down a rubber and plastic circle during operation at every turn, collecting box 4211 rotates the adjustment material loading station automatically, accomplishes the rubber and plastic circle and packs the collection work with 2x2 on the same layer, realizes the automation of collecting box 4211 by storage component 421's transmission again and descends, and then realizes the packing work of second layer rubber and plastic circle, and degree of automation is high, need not the manual work simultaneously and carries out the stack collection, and work efficiency is high.

In detail, when the push-down assembly 41 moves downwards, the third driving gear 413 drives the rotation unit a4221 to rotate, the rotation unit a4221 drives the rotation unit b4222 to rotate, the rotation unit b4222 drives the rotation unit c4223 to rotate, the rotation unit c4223 drives the screw 4213 to rotate circumferentially by 90 degrees through the cross 4225, so that the third driving gear 413 drives the rotation unit a4221 to rotate intermittently and rotate 90 degrees each time, the rubber and plastic rings 20 are sequentially placed in the collection box 4211 in the specification of 2x2, after each layer of rubber and plastic rings 20 finish stacking and filling the collection box 4211, the screw 4213 is meshed with the threaded ring 4215, the collection box 4211 descends by the height of one rubber and plastic ring 20, the stacking work of the next group of rubber and plastic rings 20 is finished, and the cycle is repeated downwards.

Example two

As shown in fig. 20 to 21, in which the same or corresponding components as those in the first embodiment are denoted by the same reference numerals as those in the first embodiment, only the points of difference from the first embodiment will be described below for the sake of convenience. The second embodiment is different from the first embodiment in that:

further, as shown in fig. 20 to 21, the tightening mold 33 includes two sets of symmetrically disposed fixing members 331, one end of each of the two sets of fixing members 331 is hinged to each other, and the fixing members 331 include a first clamping member 332;

the first clamping member 332 comprises a ferrule 3321 having a semicircular structure, a protrusion d3322 disposed on an outer wall of the ferrule 3321 and matched with an outer wall of the protrusion c3169, a clamping rod 3323 disposed on the other side of the ferrule 3321 and perpendicular to the ferrule 3321, and two sets of fastening blocks 3324 disposed on a hinge portion of the ferrule 3321 and disposed up and down, wherein end portions of the two fastening blocks 3324 are in interference fit with each other.

In the embodiment, the hooping die 33 is arranged to match with the hoop component 31, so that on one hand, the coiled rubber-plastic ring is favorably positioned, and the slitting and collecting work can be better completed; on the other hand, after the separation is finished, the rubber and plastic ring which is rolled is hooped tightly and then automatically output, so that the rubber and plastic ring is convenient to store.

Specifically, the banding mold 33 is manually pushed to the sliding groove 3167, the protrusion c3169 presses the telescopic unit f3168 upwards, the protrusion c3169 completes the position limiting work on the protrusion d3322 on the banding mold 33, then the hoop 3321 is folded under the action of the positioning unit a3166, and the upper and lower fastening blocks 3324 of the clamping rod 3323 are in interference fit connection.

It should be noted that, here, the tightening molds 33 are manually pushed into the positioning unit a3166 one by one to complete the positioning.

After the plastic ring 20 is tightened and integrated by the tightening mold 33, the tightening member 31 is withdrawn, the tightening mold 33 passes over the positioning means a3166, and the tightening mold 33 is automatically separated from the positioning means a 3166.

The working process is as follows:

firstly, cooling extruded rubber and plastic strips by a cooling box 121, and then carrying out air drying treatment on the rubber and plastic strips by an air drying box 123;

then, after the rubber and plastic strips 10 are air-dried, when a first group of rubber and plastic strips are packaged, a drawing head is manually sent into the two groups of clamping plates 2133, the connecting frame a212 is manually sent into the horizontal part of the guide track a214 through the handle 215, the clamping unit 213 finishes clamping the rubber and plastic strips, at the moment, the driving motor 2131 is reversely started, the driving motor 2131 drives the first driven piece 214 to drive the connecting frame a2121 to horizontally move, and in the process that the connecting frame a2121 moves, the rubber and plastic strips 10 are together sent into the inserting groove 222; then the driving motor 2131 rotates forward, at this time, the driving gear 2134 drives the rotating shaft to rotate through the second driven member 215, the rotating shaft drives the supporting assembly 22 to rotate circumferentially, so as to complete the packing operation, and meanwhile, when the grinding wheel 2141 rotates forward, the first driven member 214 drives the clamping unit 2112 to retract a little by a little through the connecting frame a2121 and automatically unreel in the retracting process;

then, the clamping mold 33 is manually pushed to the sliding groove 3167, the clamping ring 3321 is folded under the action of the positioning unit a3166, and the upper and lower clamping blocks 3324 of the clamping rod 3323 are in interference fit connection;

then, when the driving motor 2171 stops rotating, the driving cylinder 311 is automatically started, the driving cylinder 311 drives the connecting frame b313 to move, the tightening mold 33 reaches the outside of the rubber plastic strip which is completely wound, at this time, the first limiting block 317 limits the connecting plate a314 to continue moving, the connecting frame b313 continues moving forward, the moving shaft a3161 moves forward, the spring c3162 compresses, the turning rod a3164 rotates around the rotating shaft a3163, and the two groups of positioning units a3166 drive the tightening mold 33 to tighten the rubber plastic strip which is completely wound;

after the tightening die 33 fixedly wraps the wound rubber and plastic strip, the driving cylinder 311 continues to drive the telescopic unit c312 to move, the telescopic unit c312 compresses, the telescopic unit c312 drives the slitting part 327 to continue to move through the rotating part a321, and then the cutter 329 is slit along the outer wall of the tightening die 33;

meanwhile, after the cutting is finished, the telescopic unit c312 is reset, the telescopic unit c312 drives the push rod 416 to move downwards through the rotating piece b411, one end of the push rod 416 is inserted into the corresponding inserting groove 222, and then the push rod 416 moves downwards to push the rolled rubber and plastic ring 20 downwards to finish discharging;

finally, the push rod 416 moves downwards to push the rolled rubber-plastic ring 20 downwards together with the tightening mold 33, meanwhile, the third driving gear 413 performs synchronous transmission through the transmission component 422, the cross 4225 drives the screw 4213 to rotate 90 degrees circumferentially, so that the third driving gear 413 drives the rotation unit a4221 to rotate intermittently at intervals, and rotates 90 degrees every time, so that the rubber-plastic rings 20 are sequentially placed in the collection box 4211 in the specification of 2x2, after each layer of rubber-plastic rings 20 finishes stacking and filling the collection box 4211, the screw 4213 is meshed with the screw ring 4215, the collection box 4211 descends by the height of one rubber-plastic ring 20, and the stacking work of the next group of rubber-plastic rings 20 is finished.

In the description of the present invention, it is to be understood that the terms "front-back", "left-right", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or component must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the invention.

Of course, in this disclosure, those skilled in the art will understand that the terms "a" and "an" should be interpreted as "at least one" or "one or more," i.e., in one embodiment, a number of an element may be one, and in another embodiment, a number of the element may be plural, and the terms "a" and "an" should not be interpreted as limiting the number.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily made by those skilled in the art in light of the technical teaching of the present invention should be included within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A wall-mounted furniture production device, comprising:

the conveying mechanism (1), the conveying mechanism (1) comprises a conveying assembly (11) and a guide assembly (12) arranged below the conveying assembly (11);

the traction mechanism (2) comprises a clamping component (21) arranged at the output end of the guide component (12) and a supporting component (22) arranged on one side of the clamping component (21) and matched with the clamping component (21);

the winding mechanism (3) comprises a hoop component (31) arranged on one side of the supporting component (22) and a cutting component (32) which is in synchronous transmission with the hoop component (31) and is used for cutting the rubber strip (10), and a tightening die (33) is placed on the hoop component (31); and

a stacking mechanism (4), wherein the stacking mechanism (4) comprises a push-down component (41) arranged above the supporting component (22) and a stacking component (42) which is matched with the push-down component (41) and is positioned below the supporting component (22).

2. A wall-mounted furniture production device according to claim 1, characterized in that the transfer unit (11) performs the guiding and transport of the moulded plastic strip.

3. A wall-mounted furniture production device according to claim 1, characterized in that the guide assembly (12) adjusts the output rubber-plastic strip from a horizontal output state to a vertical output state, thereby facilitating the packing and longitudinal automatic output work of the later winding mechanism (3).

4. A wall-mounted furniture production device according to claim 3, wherein the clamping assembly (21) comprises a drawing member (211) and a driving member (216), and the driving member (216) is used for simultaneously completing the feeding operation of the drawing member (211), the automatic packing operation of the winding mechanism (3) and the resetting process of the drawing member (211) to complete the effect of synchronous automatic unwinding operation.

5. A wall-mounted furniture production device according to claim 1, wherein the support assembly (22) comprises a rotary drum (221) rotatably arranged on the frame a, the rotary drum (221) is uniformly provided with a plurality of groups of insertion grooves (222) along the vertical direction, and clamping units (223) are arranged in the insertion grooves (222) arranged towards the output end of the clamping assembly (21); the traction head is clamped by the clamping unit 223 so that the packing work can be normally performed.

6. A wall-mounted furniture production device according to claim 5, wherein the hoop component (31) is matched with the rubber and plastic strip which is completely rolled to complete the hoop work of the rubber and plastic strip, so that the rolled rubber and plastic strip is prevented from being released and losing the rolling work after the rubber and plastic strip is cut.

7. A wall-mounted furniture production device according to claim 6, characterized in that the cutting assembly (32) comprises a rotating part a (321) in transmission connection with the telescopic unit c (312) and a cutting part (327) which performs cutting work under the driving of the rotating part a (321);

the rotating piece a (321) is matched with the cutting piece (327), so that after the hooping die (33) hoops the wound rubber and plastic strip, the rotating piece a (321) continues to drive the cutting piece (327) to automatically move, and cutting work on the rubber and plastic strip is completed in the moving process.

8. A wall-hung furniture production device according to claim 6, wherein the tightening die (33) comprises two sets of symmetrically arranged fixing members (331), one end of each of the two sets of fixing members (331) is hinged, and the fixing members (331) comprise first clamping members (332); the first clamping piece (332) comprises a hoop (3321) which is of a semicircular structure, a convex block d (3322) which is arranged on the outer wall of the hoop (3321) and matched with the convex block c (3169), a clamping rod (3323) which is arranged on the other side of the hoop (3321) and perpendicular to the hoop (3321), and two groups of fastening blocks (3324) which are arranged on the hinge part of the hoop (3321) and arranged up and down.

9. A wall-mounted furniture production device according to claim 6, wherein the downward pushing assembly (41) moves downwards to push the rolled rubber-plastic ring (20) downwards together with the tightening mold (33) to complete discharging.

10. A wall-hung furniture production device according to claim 9, wherein the buttress assembly (42) comprises a receiving assembly (421) and a driving assembly (422) which is synchronously driven with the push-down assembly (41) and is used for driving the buttress assembly (42) to perform the buttress work.

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