CN115744805A - Mattress production processingequipment - Google Patents

Abstract

The invention discloses a mattress production and processing device which comprises a bottom plate, a transportation assembly and a processing assembly, wherein the transportation assembly and the processing assembly are installed on the bottom plate. The transport assembly comprises an adjusting mechanism, a driving mechanism and a control mechanism. The processing assembly comprises a pressing mechanism, a binding mechanism and a cutting mechanism. The control mechanism comprises a laser sensor and a control module, and the laser sensor controls the machining assembly to operate. The two laser sensors transmit signals to each other, when the signals of the laser sensors are interrupted, the laser sensors start the pressing mechanism through the control module, and then the binding mechanism is controlled to run for one time; after the signal of the laser sensor is recovered, the laser sensor controls the binding mechanism to operate for the second time, then the laser sensor controls the cutting mechanism to operate for the first time, and finally the pressing mechanism is controlled again. The control module controls the matching operation among the mechanisms, and the manual installation of the elastic ropes is replaced, so that the production efficiency is greatly improved.

Description

Mattress production processingequipment

Technical Field

The invention relates to a mattress processing technology, in particular to a mattress production processing device.

Background

Most of the existing mattresses are spring mattresses, which belong to the modern common mattresses with better performance, and the mattress core is a mattress net structure consisting of springs distributed in an array. The spring mattress provides better support to the body but slowly decreases with time. Secondly because the structural feature of this type of mattress, local elasticity can form the pressure point when using excessively, and these pressure points can aggravate the painful of health under most circumstances, and then can lead to the muscle to be in the state of straining for a long time, cause the muscle strain easily. The existing mattress is also added with some auxiliary materials for reducing the damage of the pressure point to the human body, such as filling memory foam or installing a bed net and the like.

The production process of the mattress disclosed in the publication numbers CN110217752B and CN113876145A, wherein steel wires are sleeved on a seat shaft, the steel wires are pulled out and loaded into a stringing machine, a stringing worker steps on the stringing machine by feet to obtain a specification wave-shaped snake wire, and the snake wire strings each row of springs to form the mattress. The processing of this type of bed net is comparatively complicated, uses elastic pull rope to replace this type of bed net now. The elastic pull rope is mostly installed manually by workers, and the production efficiency is lower.

In view of this, the mattress production and processing device can replace workers to manually install the bed net.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides a mattress production and processing device which adopts automatic production and improves the installation efficiency of elastic pull ropes.

The technical scheme of the invention is realized as follows:

a mattress production and processing device comprises a bottom plate, a transportation assembly and a processing assembly which are arranged on the bottom plate, and is characterized in that,

the transportation assembly comprises a bottom frame, a plurality of sticks are arranged on the bottom frame, an adjusting mechanism and a driving mechanism are further arranged on the bottom frame, the driving mechanism is arranged on two sides of the bottom frame through the adjusting mechanism, a control mechanism is further arranged in the middle of the bottom frame, the control mechanism comprises a laser sensor and a control module, the laser sensor controls the operation of the processing assembly, the processing assembly comprises a support, the support is positioned in the middle of the bottom frame, a connecting plate is fixed on the support, a pressing mechanism, a binding mechanism and a cutting mechanism are arranged on the connecting plate, wherein,

the pressing mechanism comprises an outer shell plate and a first electric push rod, the outer shell plate is fixed with a connecting plate, an output shaft of the first electric push rod is connected with an inner shell plate, a first pressing wheel and a second pressing wheel are installed in the inner shell plate, the first pressing wheel and the second pressing wheel are fixed through a first connecting frame and a second connecting frame, a positioning frame is installed above the inner shell plate and used for installing elastic cloth strips,

the binding mechanism comprises a base, a fixing frame is arranged on the base and connected with an inner shell plate, a shell is installed above the base, a second driving piece is installed in the shell, an output shaft of the second driving piece is connected with a gear assembly, the gear assembly is connected with a grooved pulley, the grooved pulley is connected with a grooved rod, and the grooved rod is connected with a binding nozzle.

In the mattress production processing device, the laser sensors are arranged on two sides of the underframe through the supporting plate, signals are mutually transmitted between the two laser sensors, when the signals of the laser sensors are interrupted, the laser sensors start the first electric push rod to extend through the control module, and then the binding mechanism is controlled to operate once; and after the signal of the laser sensor is recovered, the laser sensor controls the binding mechanism to operate for the second time, and then controls the first electric push rod to contract.

In the mattress production processing device, the adjusting mechanism controls the distance between the two driving mechanisms, and the adjusting mechanism consists of a first mounting plate, a guide plate and a slide bar, wherein the first mounting plate is fixedly mounted on the underframe, the guide plate is fixed on the first mounting plate, the slide bar is connected to the guide plate, the slide bar is connected with the driving mechanisms, and a plurality of positioning holes are formed in the slide bar.

In the mattress production processing device, the driving mechanism consists of a second mounting plate, a first driving part and a transmission part, the second mounting plate is fixedly connected with the sliding rod, the first driving part is mounted above the second mounting plate, an output shaft of the first driving part is connected with the transmission part, the transmission part is connected with a conveying belt, and a plurality of roller brakes are mounted in the conveying belt.

In the mattress production processing device, the support is an expansion bracket, and the support adjusts the distance between the pressing mechanism and the driving mechanism.

In the mattress production processing device, the outer shell plate is fixedly connected with the slide rail, the inner shell plate is fixedly connected with the slide block, the slide block is connected to the slide rail, the inner shell plate is also connected with the first idler wheel and the second idler wheel, and the elastic cloth strip is wound to the first lower pressing wheel and the second lower pressing wheel through the first idler wheel and the second idler wheel.

In the mattress production processing device, the gear assembly reduces the rotation speed of the output shaft of the second driving member, and comprises a first gear, a second gear, a third gear and a fourth gear, wherein the first gear is connected to the output shaft of the second driving member, the second gear is meshed with the first gear, and the second gear is meshed with the fourth gear through a plurality of third gears.

In the mattress production processing device, the lower part of the shell is provided with the nail groove, one end of the nail groove is connected with the limiting frame, the limiting frame is connected with the binding mouth in a sliding mode, the groove rod is connected to the shell in a rotating mode through the rotating pin, the groove rod is provided with the arc groove, the groove rod is connected with the grooved wheel in a matched mode through the arc groove, and the groove rod controls the binding mouth to slide on the limiting frame.

In the mattress production processing device, the binding mechanism further comprises a limiting rod, the limiting rod is fixedly connected above the shell, and the limiting rod limits the maximum rotation angle of the groove rod.

In the mattress production and processing device, the cutting mechanism comprises a second electric push rod and an arc-shaped frame, the second electric push rod is fixedly connected to the connecting plate, the arc-shaped frame is fixed to an output shaft of the second electric push rod, the arc-shaped frame is connected with a cutter handle, and the cutter handle is connected with a cutter.

In the mattress production processing device, after the laser sensor controls the binding mechanism to operate for the second time, the laser sensor controls the cutting mechanism to operate for the first time, and then controls the first electric push rod to contract.

The mattress production and processing device has the following beneficial effects: the mattress production and processing device is provided with a transportation assembly and a processing assembly. The transportation assembly comprises an adjusting mechanism, a driving mechanism and a control mechanism. The processing assembly comprises a pressing mechanism, a binding mechanism and a cutting mechanism. The control mechanism comprises a laser sensor and a control module, and the laser sensor controls the machining assembly to operate. The two laser sensors transmit signals to each other, when the signals of the laser sensors are interrupted, the laser sensors start the pressing mechanism through the control module, and then the binding mechanism is controlled to run for one time; after the signal of the laser sensor is recovered, the laser sensor controls the binding mechanism to operate for the second time, then the laser sensor controls the cutting mechanism to operate for the first time, and finally the pressing mechanism is controlled again. And finally, the control module controls the matching operation among the mechanisms, and the manual installation of the elastic ropes is replaced, so that the production efficiency is greatly improved.

Drawings

FIG. 1 is a schematic view of the structure of a mattress manufacturing device according to the present invention;

FIG. 2 is a schematic structural view of a transport assembly of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2;

FIG. 4 is an enlarged view of the structure at B in FIG. 2;

FIG. 5 is a partial cover view of the drive mechanism of the present invention;

FIG. 6 is a partial cross-sectional view of a tooling assembly of the present invention;

FIG. 7 is a partial covering view of the hold-down mechanism of the present invention;

FIG. 8 is a side view of the hold-down mechanism of the present invention;

FIG. 9 is a schematic view of the binding mechanism of the present invention;

FIG. 10 is a side view of the binding mechanism of the present invention;

FIG. 11 is a schematic view of the installation of the cutting mechanism of the present invention;

FIG. 12 is an enlarged view of the structure of FIG. 11 at C;

FIG. 13 is a schematic block diagram of a mattress production and processing apparatus of the present invention;

FIG. 14 is a circuit diagram of the mattress manufacturing apparatus of the present invention;

the reference numerals are represented as: 10 bottom plate, 20 conveying assembly, 21 bottom frame, 22 stick, 23 adjusting mechanism, 231 first mounting plate, 232 guide plate, 233 sliding rod, 234 positioning hole, 235 pin, 24 driving mechanism, 241 second mounting plate, 242 first driving piece, 243 driving piece, 244 conveying belt, 245 roller brake, 25 control mechanism, 251 support plate, 252 laser sensor, 30 processing assembly, 31 support, 32 connecting plate, 33 pushing mechanism, 331 outer shell plate, 332 first electric push rod, 333 sliding rail, 334 sliding block, 335 inner shell plate, 336 positioning frame, 337 elastic cloth strip, 338 first roller, 339 second roller, 3310 first connecting frame, 3311 first lower press wheel, 3312 second lower press wheel, 3313 second connecting frame, 37 binding mechanism, 371 base, 372 fixing frame, 373 sub-slot, 374 housing, 375 second driving piece, first gear, 377 second gear, 377 third gear, 378 9 fourth gear, 3710, 3711 rod, 3712 rotating pin, 3713 rotating pin, 3714, 376 cutting rod, 381, 384 cutting rod, 383 cutting mechanism, 383 cutting rod, 383 cutting mechanism, and cutting mechanism.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1 to 12, the mattress producing and processing apparatus of the present invention includes a base plate 10. The base plate 10 is provided with a transport assembly 20 and a processing assembly 30. The transport assembly 20 is used to transport the mattress frame and the finishing assembly 30 is used to mount the elastic strips on the mattress frame.

As shown in fig. 2-5, the transport assembly 20 includes a chassis 21. A number of rods 22 are mounted on the base frame 21 and the mattress frame is placed over the rods 22. The chassis 21 is further provided with an adjusting mechanism 23 and a driving mechanism 24, and the driving mechanism 24 is arranged on two sides of the chassis 21 through the adjusting mechanism 23. The adjusting mechanism 23 controls the spacing between the two driving mechanisms 24. The middle part of the bottom frame 21 is also provided with a control mechanism 25, the control mechanism 25 comprises a laser sensor 252, and the laser sensor 252 is fixedly arranged at the two sides of the bottom frame through a supporting plate 251. The laser sensor 252 controls the operation of the machining assembly 30.

As shown in fig. 3, the adjusting mechanism 23 is composed of a first mounting plate 231, a guide plate 232, and a slide bar 233. The first mounting plate 231 is fixedly mounted on the base frame 21, and the guide plate 232 is fixed to the first mounting plate 231. The sliding rod 233 is slidably connected to the guide plate 232, the sliding rod 233 is fixedly connected to the driving mechanism 24, a plurality of positioning holes 234 are formed in the sliding rod 233, and a pin 235 is fixed to the positioning holes 234. When the distance is adjusted: the pin 235 is loosened and then adjusted by the slide 233. The drive mechanism 24 is adjusted to the desired position and secured using the pin 235.

As shown in fig. 5, the driving mechanism 24 is composed of a second mounting plate 241, a first driving member 242, and a transmission member 243. The second mounting plate 241 is fixedly connected to the sliding rod 233, the first driving member 242 is mounted above the second mounting plate 241, and an output shaft of the first driving member 242 is connected to the transmission member 243. A conveyer belt 244 is connected to the transmission member 243, wherein a plurality of roller brakes 245 are installed in the conveyer belt 244. The roller gate 245 serves to prevent the conveyor belt 244 from being squeezed inward by the mattress frame, and also to increase the friction between the conveyor belt 244 and the mattress frame, thereby enhancing the stability of the transport.

The concrete working principle of the transportation assembly 20 is as follows: first, the distance between the two drive mechanisms is adjusted to the width of the mattress frame until the conveyor belts 244 on both sides are fully engaged with the mattress frame. At this point, the first driving member 242 is activated. The first driving member 242 rotates the transmission member 243 and the conveying belt 244. The belt 244 is closely attached to the mattress frame, and the belt 244 moves the mattress. Wherein the mattress is positioned above the stick 22. When the mattress is transported, the transportation performance can not be reduced due to the overweight of the mattress. By providing a plurality of sticks 22, friction is reduced and transport performance is improved.

As shown in fig. 6 to 12, the machining assembly 30 includes a bracket 31. The bracket 31 is positioned in the middle of the bottom frame 21, and a connecting plate 32 is fixed on the bracket 31. The connecting plate 32 is provided with a pressing mechanism 33, a stapling mechanism 37, and a cutting mechanism 38. The number of the pressing mechanisms 33 and the binding mechanisms 37 can be adjusted according to the width of the mattress. Wherein the support 31 is an expansion bracket, and the support 31 adjusts the distance between the pressing mechanism 33 and the stick 22.

As shown in fig. 7 to 8, the pressing mechanism 33 includes a housing plate 331 and a first electric push rod 332. The outer shell plate 331 is fixed to the connecting plate 32, and the inner shell plate 335 is connected to the output shaft of the first electric push rod 332. The outer shell plate 331 is fixedly connected with a slide rail 333, the inner shell plate 335 is fixedly connected with a slide block 334, and the slide block 334 is connected to the slide rail 333 in a sliding manner. A positioning frame 336 is arranged above the inner shell plate 335, and the positioning frame 336 is used for installing an elastic cloth strip 337. Wherein the mounting height of the positioning frame 336 is adjustable.

As shown in fig. 8, the inner shell 335 has a first roller 338 and a second roller 339 attached thereto. The inner housing plate 335 is further provided with a first lower pressing wheel 3311 and a second lower pressing wheel 3312, and the first lower pressing wheel 3311 and the second lower pressing wheel 3312 are fixed by a first connecting frame 3310 and a second connecting frame 3313. Meanwhile, the distance between the first and second lower pressing wheels 3311 and 3312 may be adjusted by the first and second connecting frames 3310 and 3313. As shown in fig. 8, the elastic cloth 337 is wound around the first and second lower pressing wheels 3311 and 3312 via the first and second rollers 338 and 339.

As shown in fig. 9 to 10, the binding mechanism 37 includes a base 371. The base 371 has a fixing frame 372, and the fixing frame 372 is fixedly connected to the inner housing plate 335. A shell 374 is installed above the base 371, a second driving member 375 is installed in the shell 374, and a gear assembly is connected to an output shaft of the second driving member 375. The gear assembly is connected with the grooved wheel 3710 in a matching manner, the grooved wheel 3710 is connected with a groove rod 3711, and the groove rod 3711 is connected with a binding mouth 3714. The housing 374 has a nail groove 373 at a lower portion thereof, and a stopper 3713 is fixedly connected to one end of the nail groove 373. The limiting frame 3713 is slidably connected with a binding mouth 3714. Wherein, the slot rod 3711 is rotatably connected to the housing 374 via a rotating pin 3712, and the slot rod 3711 is provided with an arc-shaped slot. The slot rod 3711 is connected with the grooved wheel 3710 through the arc slot. When the slot rod 3711 rotates counterclockwise under the action of the slot wheel 3710, the slot rod 3711 pushes the binding mouth 3714 to slide downward on the limiting frame 3713. The binding mechanism 37 further comprises a limiting rod 3715, the limiting rod 3715 is fixedly connected above the housing 374, the limiting rod 3715 limits the maximum rotation angle of the groove rod 3711, prevents the groove rod 3711 from rotating too much, and prevents the binding mouth 3714 from pressing the mattress frame.

As shown in FIG. 9, the base 371 has a guide groove in the middle. The elastic cloth piece 337 wound by the second lower pressing wheel 3312 is inserted into the guide slot, and the elastic cloth piece 337 is finally positioned right under the binding mouth 3714. A gear assembly is used to reduce the rotational speed of the output shaft of the second drive member 375, and includes a first gear 376, a second gear 377, a third gear 378, and a fourth gear 379. The first gear 376 is fixedly connected to the output shaft of the second driving member 375, the second gear 377 is engaged with the first gear 376, the second gear 377 is engaged with the fourth gear 379 through two third gears 378, and the fourth gear 379 is fixedly connected with the grooved pulley 3710.

In the present embodiment, as shown in fig. 13 to 14, the laser sensor 252 is connected to the control module. The control module is connected with the first driver 242, the second driver 375, the first electric push rod 332 and the second electric push rod 381 through relay control modules, respectively. The control module is also connected with a storage circuit and a timing circuit, wherein the storage circuit is a 24C02 storage device, and the timing circuit is a DS1302 clock chip. The control module is a single chip microcomputer chip, and can control the first driving element 242, the second driving element 375, the first electric push rod 332 and the second electric push rod 381 to work in sequence through programming, so as to realize sequential control.

As shown in fig. 11 to 12, the cutting mechanism 38 includes a second electric push rod 381 and an arc frame 382. The second electric push rod 381 is fixedly connected to the connecting plate 32, and the arc frame 382 is fixed to an output shaft of the second electric push rod 381. A cutter handle 383 is fixedly connected to the arc frame 382, and a cutter 384 is mounted on the cutter handle 383. The cutting knife 384 can be detached and replaced. The two laser sensors 252 communicate signals to each other and when the mattress frame is transported between the two laser sensors 252, the mattress frame interrupts the signals between the two laser sensors. When the signal of the laser sensor 252 is interrupted, the laser sensor 252 starts the first electric push rod 332 to extend through the control module, and then controls the binding mechanism 37 to operate once; after the signal of the laser sensor 252 is recovered, the laser sensor 252 controls the binding mechanism 37 to operate for the second time, and then the laser sensor 252 controls the cutting mechanism 38 to operate for the first time, and then the first electric push rod 332 is controlled to contract.

In this embodiment, the specific working principle is as follows: the mattress frame is placed on the rods 22 and the first drive member 242 moves the mattress frame via the belt 244. When the mattress frame moves between the two laser sensors 252, the mattress frame blocks the two laser sensors 252 from transmitting signals. At this time, the laser sensor 252 controls the first electric push rod 332 to extend, and the first driver 242 stops. The first electric push rod 332 drives the inner shell plate 335 to move downwards until the first lower pressing wheel 3311 or the second lower pressing wheel 3312 is attached to the top surface of the mattress frame. Subsequently, the laser sensor 252 activates the second drive member 375 via the control module. The second driving member 375 drives the first gear 376 to rotate, and the first gear 376 drives the grooved pulley 3710 to rotate through the transmission of the second gear 377, the third gear 378 and the fourth gear 379. The grooved wheel 3710 drives the grooved rod 3711 to rotate around the rotating pin 3712, the grooved rod 3711 pushes the binding nozzle 3714 to slide downwards, and the binding nozzle 3714 nails the nails in the nail grooves 373 into the mattress frame. Meanwhile, the elastic cloth piece 337 passes through the base 371 and is positioned right below the binding mouth 3714. The elastic fabric strip 337 is also secured over the mattress frame when nails are driven into the mattress frame. After the first driving element 242 stops operating for 15 seconds, the first driving element 242 is again activated. The stop time of the first driving element 242 can be controlled and adjusted by the DS1302 timing circuit. The specific time is adjusted according to the actual use condition. After the first driving member 242 is started again, the first driving member 242 drives the mattress frame to move continuously, and the elastic cloth piece 337 is laid on the upper side of the mattress frame. Wherein, the elastic cloth strip 337 winds to the first lower pressing wheel 3311 and the second lower pressing wheel 3312. First pinch roller 3311 and second pinch roller 3312 and the laminating of mattress frame have the gyro wheel on first pinch roller 3311 and the second pinch roller 3312 down, when laying elasticity cloth 337, can ensure that elasticity cloth 337 can not be by excessive stay cord to influence the elasticity of elasticity cloth, and then influence the mattress performance.

When the mattress frame moves to a position where the two laser sensors 252 are no longer blocked from transmitting signals, the laser sensors 252 control the second driving member 375 to rotate again through the control module, and the second driving member 375 drives the sheave 3710 to rotate through the gear assembly. The grooved wheel 3710 drives the grooved rod 3711 to rotate around the rotating pin 3712, the grooved rod 3711 pushes the binding nozzle 3714 to slide downwards, and the binding nozzle 3714 nails the nails in the nail grooves 373 into the mattress frame for the second time. At this time, the control module controls the second electric putter 381 to extend. The second electric push rods 381 at the two ends drive the arc frame 382 and the upper cutting knife 384 to approach each other, and finally the elastic cloth strip 337 is cut off, so that the installation of the elastic cloth strip is completed. A plurality of the pressing mechanisms 33 and the binding mechanisms 37 may be installed side by side, and the number is determined according to the width of the mattress frame. Thereby realizing that the elastic cloth strips are paved above the mattress frame at one time and improving the production efficiency.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, which is intended to cover any modifications, equivalents and improvements made within the spirit and scope of the present invention.

Claims (10)

1. A mattress production and processing device comprises a bottom plate, a transportation assembly and a processing assembly which are arranged on the bottom plate, and is characterized in that,

the transportation assembly comprises a bottom frame, a plurality of sticks are arranged on the bottom frame, an adjusting mechanism and a driving mechanism are further arranged on the bottom frame, the driving mechanism is arranged on two sides of the bottom frame through the adjusting mechanism, a control mechanism is further arranged in the middle of the bottom frame, the control mechanism comprises a laser sensor and a control module, the laser sensor controls the operation of the processing assembly, the processing assembly comprises a support, the support is positioned in the middle of the bottom frame, a connecting plate is fixed on the support, a pressing mechanism, a binding mechanism and a cutting mechanism are arranged on the connecting plate, wherein,

the pressing mechanism comprises an outer shell plate and a first electric push rod, the outer shell plate is fixed with a connecting plate, an output shaft of the first electric push rod is connected with an inner shell plate, a first pressing wheel and a second pressing wheel are installed in the inner shell plate, the first pressing wheel and the second pressing wheel are fixed through a first connecting frame and a second connecting frame, a positioning frame is installed above the inner shell plate and used for installing elastic cloth strips,

the binding mechanism comprises a base, a fixing frame is arranged on the base and connected with an inner shell plate, a shell is installed above the base, a second driving piece is installed in the shell, an output shaft of the second driving piece is connected with a gear assembly, the gear assembly is connected with a grooved pulley, the grooved pulley is connected with a grooved rod, and the grooved rod is connected with a binding nozzle.

2. The production and processing device for the mattress according to claim 1, wherein the laser sensors are installed on both sides of the base frame through the supporting plate, the two laser sensors transmit signals to each other, when the signals of the laser sensors are interrupted, the laser sensors start the first electric push rod to extend through the control module, and then the binding mechanism is controlled to operate once; and after the signal of the laser sensor is recovered, the laser sensor controls the binding mechanism to operate for the second time, and then controls the first electric push rod to contract.

3. The production and processing device for the mattress according to claim 1, wherein the adjusting mechanism controls the distance between the two driving mechanisms, and the adjusting mechanism comprises a first mounting plate, a guide plate and a slide bar, the first mounting plate is fixedly mounted on the underframe, the guide plate is fixed on the first mounting plate, the slide bar is connected on the guide plate, the slide bar is connected with the driving mechanisms, and the slide bar is provided with a plurality of positioning holes.

4. The mattress production and processing device of claim 1, wherein the driving mechanism comprises a second mounting plate, a first driving member and a transmission member, the second mounting plate is fixedly connected with the sliding rod, the first driving member is mounted above the second mounting plate, an output shaft of the first driving member is connected with the transmission member, the transmission member is connected with a conveying belt, and a plurality of roller brakes are mounted in the conveying belt.

5. The mattress production and processing device of claim 1, wherein the support is an expansion bracket that controls the distance between the pressing mechanism and the driving mechanism.

6. The production and processing device of the mattress according to claim 1, wherein the outer shell plate is fixedly connected with a slide rail, the inner shell plate is fixedly connected with a slide block, the slide block is connected to the slide rail, the inner shell plate is further connected with a first roller and a second roller, and the elastic cloth strip is wound to the first lower pressing wheel and the second lower pressing wheel through the first roller and the second roller.

7. The production and processing device of the mattress according to claim 1, wherein a nail groove is formed below the casing, one end of the nail groove is connected with a limiting frame, a binding mouth is connected on the limiting frame in a sliding manner, the grooved bar is connected on the casing through a rotating pin in a rotating manner, an arc groove is formed in the grooved bar, the grooved bar is connected with the grooved wheel through the arc groove in a matching manner, and the grooved bar controls the binding mouth to slide on the limiting frame.

8. The mattress production and processing device of claim 7, further comprising a limiting rod on the binding mechanism, wherein the limiting rod is fixedly connected above the housing, and the limiting rod limits the maximum rotation angle of the grooved rod.

9. The mattress production and processing device of claim 2, wherein the cutting mechanism comprises a second electric push rod and an arc-shaped frame, the second electric push rod is fixedly connected to the connecting plate, the arc-shaped frame is fixed to an output shaft of the second electric push rod, a cutter handle is connected to the arc-shaped frame, and a cutter is connected to the cutter handle.

10. The mattress production and processing device of claim 9, wherein after the laser sensor controls the binding mechanism to run for the second time, the laser sensor controls the cutting mechanism to run for the first time, and then controls the first electric push rod to contract.

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