CN211198113U - Lifting device of cloth paving machine cutter mechanism and cloth paving machine - Google Patents

Abstract

The utility model relates to a spread the cloth machine field, disclose a spread hoisting device of cloth machine cutter mechanism and spread cloth machine. The lifting device comprises: a master control system; the distance sensor is arranged above the cloth laying platform and used for detecting the cloth laying height laid on the cloth laying platform; the lifting mechanism is arranged on a frame of the cloth paving machine, is connected with a cutter mechanism of the cloth paving machine and drives the cutter mechanism to perform linear motion along the direction vertical to the cloth paving table; the main control system is respectively electrically connected with the distance sensor and the lifting mechanism and is used for controlling the lifting mechanism according to the laying height of the cloth detected by the distance sensor. In practice, after the distance sensor detects the height of the cloth on the cloth spreading table, the distance sensor uploads the cloth spreading distance to the main control system, the main control system controls the lifting mechanism to drive the cutter mechanism to lift upwards for a preset distance, the cutter mechanism is guaranteed to lift along with the thickness of the cloth in the cloth spreading process, and the fabric is guaranteed not to be hung by the cutter mechanism and damaged.

Description

Lifting device of cloth paving machine cutter mechanism and cloth paving machine

Technical Field

The utility model relates to a spread the cloth machine field, in particular to spread hoisting device of cloth machine cutter mechanism and spread cloth machine.

Background

Along with the development of society, the material demand of people is increasing day by day, and the demand and the quality of people to clothes also are increasing day by day, and the production efficiency and the quality of cloth manufacturer are one of the important links that influence clothes production efficiency and quality. At present, in the fabric cutting industry, according to the production requirement, before cutting the fabric, a cloth spreading machine is usually needed to cut the fabric into a specified length for a cutting machine to process.

At present, a cloth paving machine generally comprises a cloth paving table, a traveling rack and a cutter mechanism, wherein the traveling rack linearly moves along the length direction of the cloth paving table, the cutter mechanism is arranged on the traveling rack, the traveling rack travels along the length direction of the cloth paving table to pave cloth on the cloth paving table, and when the length of the cloth reaches a specified length, the cutter mechanism cuts the cloth, so that the cloth which is formed into a blank can be cut into a piece of cloth with the specified length for a later cutting machine to process the cloth.

In the actual process, when one deck cloth is laid, when laying the one deck cloth, in order to avoid the following one deck cloth of cutter mechanism cutting knife to drive the cloth, generally can adopt the manual work to up lift cutter mechanism and predetermine the distance, make cutter mechanism only cut that layer of cloth that need cut, and can not move the cloth that the following cutting finishes, the inventor finds at least following problem in the prior art: because the cutter mechanism needs to be lifted up manually, a working post needs to be arranged beside each cloth paving machine, and therefore the labor cost of the cloth paving machine is increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a spread hoisting device of cloth machine cutter mechanism and spread cloth machine for the cutter structure can automatic promotion, and then can reduce the use cost of spreading the cloth machine.

In order to solve the technical problem, the utility model discloses an embodiment provides a shop's cloth machine cutter mechanism's hoisting device, and cutter mechanism sets up in shop's cloth bench side of shop's cloth machine for the cloth of laying on shop's cloth bench is laid in the cutting, and simultaneously, it is concrete, hoisting device includes:

a master control system;

the distance sensor is arranged above the cloth paving table and used for detecting the paving height of the cloth paved on the cloth paving table;

the lifting mechanism is arranged on the frame of the cloth paving machine, is connected with the cutter mechanism of the cloth paving machine and is used for driving the cutter mechanism to perform linear motion along the direction vertical to the cloth paving table;

the main control system is electrically connected with the distance sensor and the lifting mechanism respectively, and is used for controlling the lifting mechanism according to the laying height of the cloth detected by the distance sensor.

The utility model also provides a shop cloth machine, shop cloth machine includes:

the frame, cross the cloth spreading table of the cloth spreading machine, set up in said cloth spreading table both sides relatively;

the lifting device is arranged on the frame;

the cutter mechanism is used for cutting off materials arranged on a cloth paving table of the cloth paving machine;

wherein the cutter mechanism is mounted on the lifting device.

The utility model discloses embodiment is for prior art, because hoisting device includes: distance sensor and hoist mechanism, consequently in practice, after distance sensor detects the height of shop's cloth bench cloth, distance sensor will spread the cloth distance and upload to major control system, major control system control hoist mechanism, make hoist mechanism drive cutter mechanism up promote the preset distance, thereby accomplish the automatic lifting of cutter mechanism, ensure to spread the in-process of cloth along with the increase of shop's cloth height (number of layers), cutter mechanism is along with promoting together, guarantee that the surface fabric can not be hung and damage by cutter mechanism, and then can reduce the use cost of shop's cloth machine.

In addition, the rack includes: the first base and the second base are oppositely arranged on two sides of the cutter mechanism along the length direction of the cutter mechanism;

the lifting mechanism comprises: the lifting device comprises a first lifting assembly arranged on the first base, a second lifting assembly arranged on the second base, and a driving assembly for driving the first lifting assembly and the second lifting assembly;

the first lifting assembly and the second lifting assembly are respectively connected with two ends of the cutter mechanism and used for driving the cutter mechanism to respectively perform linear motion along a direction perpendicular to the cloth spreading table, and the driving assembly is electrically connected with the master control system.

In addition, a first guide groove is formed in the first base, a second guide groove is formed in the second base, and the length directions of the first guide groove and the second guide groove are perpendicular to the cloth paving table;

the first lifting assembly comprises:

the first driving wheel and the first driven wheel are respectively and oppositely arranged on the first base back in a rotatable manner; the first driving wheel and the first driven wheel are oppositely arranged along the length direction of the first guide groove;

the first flexible transmission part is respectively connected with the first driving wheel and the first driven wheel;

the first sliding seat is slidably arranged on the first guide groove and is fixed with the first flexible transmission piece; the first sliding seat is also fixedly connected with one end of the cutter mechanism;

the second lifting assembly comprises:

the second driving wheel and the second driven wheel are respectively and oppositely arranged on the back of the second base in a rotatable manner, and the second driving wheel and the second driven wheel are oppositely arranged along the length direction of the second guide groove;

the second flexible transmission part is respectively connected with the second driving wheel and the second driven wheel;

the second sliding seat is slidably arranged on the second guide groove and is fixed with the second flexible transmission piece; the second sliding seat is also fixedly connected with one end of the cutter mechanism.

The drive assembly includes: the driving device comprises a transmission shaft and a motor, wherein the transmission shaft is used for coaxially fixing the first driving wheel and the second driving wheel, and the motor is connected with the transmission shaft and is electrically connected with the master control system.

Because set up first guide way on the first base, set up the second guide way on the second base to make cutter mechanism can follow first guide way and second guide way and move, avoid cutter mechanism's orbit to take place the skew.

In addition, the first carriage includes:

the first sliding body is fixed with the first flexible transmission piece;

and the at least one first connecting rod is fixedly connected with the first sliding body and is used for being inserted into the first guide groove and fixedly connected with one end of the cutter mechanism.

In addition, the first carriage further includes:

the first guide wheel is rotatably arranged on the first connecting rod and is coaxial with the first connecting rod;

the frame further includes:

the first guide rail is arranged on the first base along the first guide groove and is in sliding fit with the first guide wheel.

Through the sliding fit of first leading wheel and first guide rail for the length direction motion of first slide body along first guide rail, through the direction of first guide rail, thereby can further avoid cutter mechanism's orbit to take place the skew.

In addition, the second carriage includes:

the second sliding body is fixed with the second flexible transmission piece;

and the second connecting rod is fixedly connected with the second sliding body and is used for being inserted into the second guide groove and fixedly connected with one end of the cutter mechanism.

In addition, the second carriage further includes:

the second guide wheel is rotatably arranged on the second connecting rod and is coaxial with the second connecting rod;

the frame further includes:

and the second guide rail is arranged on the second base along the second guide groove and is in sliding fit with the second guide wheel.

Through the sliding fit of second leading wheel and second guide rail for the second slides the body and can follow the length direction motion of second guide rail, through the direction of second guide rail, thereby can carry out two-step orbit emergence skew of avoiding cutter mechanism.

In addition, first flexible transmission spare with second flexible transmission spare is the chain, first action wheel with the second action wheel be with chain wheel that the chain meshes.

In addition, the distance sensor is a laser sensor.

Drawings

Fig. 1 is a schematic structural view of a lifting device facing a first base according to a first embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is a schematic structural view of the lifting device facing the second base according to the first embodiment of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 at B;

fig. 5 is a schematic structural view of the lifting device according to the first embodiment of the present invention, which is hidden and oriented toward the first base;

FIG. 6 is an enlarged view of a portion of FIG. 5 at C;

fig. 7 is a schematic structural view of the lifting device according to the first embodiment of the present invention, after the second sliding body is hidden, the second sliding body faces the second base;

FIG. 8 is an enlarged view of a portion of FIG. 7 at D;

fig. 9 is a schematic structural view of the back of the cutter mechanism in the lifting device according to the first embodiment of the present invention.

Description of reference numerals:

1. a cutter mechanism; 2. a distance sensor; 31. a first base; 32. a second base; 311. a first guide groove; 321. a second guide groove; 41. a first drive wheel; 42. a first driven wheel; 43. a first flexible drive member; 44. a first slider; 441. a first sliding body; 442. a first connecting rod; 33. a first guide rail; 443. a first guide wheel; 51. a second drive wheel; 52. a second driven wheel; 53. a second flexible drive member; 54. a second slide carriage; 541. a second sliding body; 542. a second connecting rod; 34. A second guide rail; 543. a second guide wheel; 61. a drive shaft; 62. an electric motor.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the following will explain in detail each embodiment of the present invention with reference to the accompanying drawings. However, it will be appreciated by those of ordinary skill in the art that in various embodiments of the invention, numerous technical details are set forth in order to provide a better understanding of the present application. However, the technical solutions claimed in the claims of the present application can be implemented without these technical details and with various changes and modifications based on the following embodiments.

The utility model discloses a first embodiment relates to a hoisting device of shop's cloth machine cutter mechanism, as shown in fig. 1, 2 and 9, cutter mechanism 1 sets up in the top of the shop's cloth platform of shop's cloth machine, and this cutter mechanism 1 is used for the cutting to lay the cloth on the shop's cloth platform, and in addition, specific hoisting device includes: the device comprises a main control system, a distance sensor 2 and a lifting mechanism, wherein the distance sensor 2 is arranged above a cloth paving table and used for detecting the paving height of cloth paved on the cloth paving table, and the lifting mechanism is arranged on a frame of the cloth paving machine and connected with a cutter mechanism 1 of the cloth paving machine and used for driving the cutter mechanism 1 to perform linear motion along the direction vertical to the cloth paving table;

the main control system is electrically connected with the distance sensor 2 and the lifting mechanism respectively, and is used for controlling the lifting mechanism according to the laying height of the cloth detected by the distance sensor 2.

The utility model discloses embodiment is for prior art, because hoisting device includes: distance sensor 2 and hoist mechanism, consequently in the reality, after distance sensor 2 detected the height of spreading the cloth on the cloth platform, distance sensor 2 will spread the cloth distance and upload to the major control system, and major control system control hoist mechanism for hoist mechanism drives cutter mechanism 1 and up promotes and predetermines the distance, thereby accomplishes cutter mechanism 1's automatic lifting, and then can reduce the use cost of spreading the cloth machine.

Specifically, in the present embodiment, as shown in fig. 9, the distance sensor 2 is a laser sensor, in practical cases, the distance sensor 2 is disposed on the cutter mechanism 1 and can move linearly along a direction perpendicular to the cloth laying table along with the cutter mechanism 1, wherein the laser sensor specifically detects the height of the cloth by emitting laser perpendicular to the cloth laying table toward the cloth laying table, the laser is received by the laser sensor after being reflected by the cloth on the cloth laying table or the cloth on the cloth laying table, the laser sensor calculates the propagation time of the laser, so as to obtain the height of the laser sensor from the cloth laying table or the cloth on the cloth laying table, specifically, for example, when there is no cloth on the cloth laying table, the laser sensor detects that the distance between itself and the cloth laying table is 10CM, when there is a layer of cloth laid on the cloth laying table, the laser sensor detects that the distance between itself and the cloth laying table is 9CM, the main control system drives the cutter mechanism 1 to lift 1CM through the lifting mechanism, so that the cutter mechanism 1 can just cut the changed layer of cloth, when the cutter mechanism 1 is lifted, the distance between the laser sensor and the cloth on the cloth laying platform is still 10CM, when the second layer of cloth is laid on the cloth laying platform, if the distance between the laser sensor and the cloth laying platform is 8.5CM, the main control system drives the cutter mechanism 1 to lift 1.5CM through the lifting mechanism, and the repeated operation can ensure that the cutter mechanism 1 only cuts the cloth at the uppermost layer all the time without touching the cloth at the lower layer, thereby avoiding the cutter mechanism 1 from deviating the cloth at the lower layer, leading the edge of the cloth to be untidy, influencing the subsequent processing of the cloth, ensuring that the cutter mechanism is lifted along with the increase of the cloth laying height (layer number) in the cloth laying process, the fabric is prevented from being hung and damaged by the cutter mechanism.

In addition, specifically, as shown in fig. 1 to 4, the rack includes: first base 31 and second base 32, first base 31 and second base 32 set up in the both sides of cutter mechanism 1 relatively along the length direction of cutter mechanism 1, and hoist mechanism includes: a first lifting assembly provided on the first base 31, a second lifting assembly provided on the second base 32, a driving assembly for driving the first lifting assembly and the second lifting assembly;

the first lifting assembly and the second lifting assembly are respectively connected with two ends of the cutter mechanism 1, the cutter mechanism 1 can be driven to respectively carry out linear motion along the direction perpendicular to the cloth paving table, and the driving assembly is electrically connected with the main control system.

Because first lifting means and second lifting means set up in 1 both sides of cutter mechanism, promote the common cutter mechanism 1 motion that drives of subassembly through first lifting means and second to make cutter mechanism 1 move more stably.

In addition, as shown in fig. 1 and 2, the first base 31 is provided with a first guide slot 311, the second base 32 is provided with a second guide slot 321, the first guide slot 311 and the second guide slot 321 are arranged oppositely, and the length directions of the first guide slot 311 and the second guide slot 321 are perpendicular to the cloth spreading table.

In addition, as shown in fig. 1, 2, 5, and 6, the first lifting assembly includes: a first driving wheel 41, a first driven wheel 42, a first flexible transmission member 43 and a first sliding seat 44, wherein the first driving wheel 41 and the first driven wheel 42 are respectively and relatively rotatably arranged on the back of the first base 31; the first driving pulley 41 and the first driven pulley 42 are oppositely arranged along the length direction of the first guide slot 311; the first flexible transmission member 43 is connected to the first driving wheel 41 and the first driven wheel 42, respectively, and the first sliding seat 44 is slidably disposed on the first guide slot 311 and fixed to the first flexible transmission member 43; the first sliding seat 44 is also fixedly connected with one end of the cutter mechanism 1.

Wherein the first flexible transmission member 43 is a chain, the first driving wheel 41 is a sprocket engaged with the chain, and the first sliding seat 44 includes: a first sliding body 441 and at least one first connecting rod 442, wherein the first sliding body 441 is fixed to the first flexible transmission member 43, that is, the first sliding body 441 is fixed to a chain, in this embodiment, as shown in fig. 2, the first sliding body 441 is a first connecting plate, the chain is connected to two ends of the first connecting plate after bypassing the first driving wheel 41 and the first driven wheel 42, and in addition, as shown in fig. 6, each first connecting rod 442 is fixedly connected to the first sliding body 441 and is also inserted into the first guiding groove 311 to be fixedly connected to one end of the cutter mechanism 1, specifically, the number of the first connecting rods 442 is two.

In addition, as shown in fig. 5 and 6, in order to guide the cutter mechanism 1, the frame further includes a first guide rail 33, the first guide rail 33 is provided on the first base 31 along a length direction of the first guide groove 311, and the first guide rail 33 is located on a side of the first base 31 facing away from the second base 32, and the first guide rail 33 is parallel to the first guide groove 311, and two first connecting rods 442 are respectively provided in sequence along the length direction of the first guide rail 33, and further, the first slider 44 further includes: at least one first guiding wheel 443, the number of the first guiding wheels 443 is equal to the number of the first connecting rods 442, and the first guiding wheels 443 are in one-to-one correspondence, each first guiding wheel 443 is rotatably disposed on the corresponding first connecting rod 442 and is coaxially disposed with the corresponding first connecting rod 442, and each first guiding wheel 443 is slidably engaged with the first guiding track 33, that is, when the first driving wheel 41 rotates to drive the chain to move, the first connecting plate is driven by the chain to move along the first guiding slot 311, at this time, each first guiding wheel 443 moves on the first guiding track 33 to guide the first connecting plate, and since the first connecting plate is fixedly connected with one end of the cutter mechanism 1 through two first connecting rods 442, the cutter mechanism 1 is driven by the first connecting plate to move along the length direction of the first guiding slot 311, which also means that, each of the first guide wheels 443 slides on the first guide rail 33, and guides the cutter mechanism 1 so that the cutter mechanism 1 can move up and down along the longitudinal direction of the first guide rail 33.

In addition, as shown in fig. 3, 4, 7, and 8, the second lifting assembly includes: a second driving wheel 51, a second driven wheel 52, a second flexible transmission member 53 and a second sliding seat 54, wherein the second driving wheel 51 and the second driven wheel 52 are respectively and relatively rotatably arranged on the back of the second base 32; the second driving wheel 51 and the second driven wheel 52 are oppositely arranged along the length direction of the second guide groove 321; the second flexible transmission member 53 is connected to the second driving wheel 51 and the second driven wheel 52, respectively, and the second sliding seat 54 is slidably disposed on the second guiding groove 321 and fixed to the second flexible transmission member 53; the second sliding seat 54 is also fixedly connected with one end of the cutter mechanism 1.

Wherein, the second flexible transmission member 53 is a chain, the second driving wheel 51 is a sprocket engaged with the chain, and the second sliding seat 54 includes: a second sliding body 541, and at least one second connecting rod 542, wherein the second sliding body 541 is fixed to the second flexible transmission member 53, that is, the second sliding body 541 is fixed to the chain, in this embodiment, as shown in fig. 4, the second sliding body 541 is a second connecting plate, the chain is connected to two ends of the second connecting plate after bypassing the second driving wheel 51 and the second driven wheel 52, in addition, as shown in fig. 8, each second connecting rod 542 is fixedly connected to the second sliding body 541, and is also inserted into the second guiding groove 321 to be fixedly connected to one end of the cutter mechanism 1, specifically, the number of the second connecting rods 542 is two.

In addition, as shown in fig. 8, in order to guide the cutter mechanism 1, the frame further includes a second guide rail 34, the second guide rail 34 is disposed on the second base 32 along a length direction of the second guide groove 321, the second guide rail 34 is located on a side of the second base 32 away from the second base 32, the second guide rail 34 is parallel to the second guide groove 321, two second connecting rods 542 are sequentially disposed along the length direction of the second guide rail 34, and in addition, the second slider 54 further includes: at least one second guiding wheel 543, the number of the second guiding wheels 543 is equal to the number of the second connecting rods 542, and the second guiding wheels 543 are corresponding to one another, each second guiding wheel 543 is rotatably disposed on the corresponding second connecting rod 542, and is disposed coaxially with the corresponding second connecting rod 542, meanwhile, each second guiding wheel 543 is further slidably engaged with the second guiding track 34, that is, when the second driving wheel 51 rotates to drive the chain to move, the second connecting plate can be driven by the chain to move along the second guiding slot 321, at this time, each second guiding wheel 543 moves on the second guiding track 34 to guide the second connecting plate, and since the second connecting plate is fixedly connected with one end of the cutter mechanism 1 through two second connecting rods 542, the cutter mechanism 1 can be driven by the second connecting plate to move along the length direction of the second guiding slot 321, which means that, in fact, each of the second guide wheels 543 slides on the second guide rail 34, and guides the cutter mechanism 1 so that the cutter mechanism 1 can move up and down along the longitudinal direction of the second guide rail 34.

In addition, as shown in fig. 1 and 3, in order to drive the first driving pulley 41 and the second driving pulley 51 to rotate, the driving assembly includes: carry out coaxial fixed transmission shaft 61 with first action wheel 41 and second action wheel 51, motor 62 be connected with transmission shaft 61, motor 62 and major control system electric connection, after major control system judged the height that cutter mechanism 1 should promote, major control system passes through control motor 62, drive cutter mechanism 1 and rise or descend and predetermine the distance, for example, the steerable motor 62 of major control system takes place the figure of pulse, after supposing that motor 62 sends a pulse, cutter mechanism 1 rises 0.1CM, if need rise 10CM, then motor 62 sends 10 pulses, it is corresponding, when needs descend, the steerable motor 62 reversal of major control system, make cutter mechanism 1 can get back to initial position.

Specifically, as shown in fig. 9, the laser sensor is disposed on the back of the cutter mechanism, and the laser emitting head of the laser sensor extends out to avoid being shielded by the cutter mechanism.

The utility model discloses a second embodiment relates to a shop's cloth machine, should spread the cloth machine and include:

the frame, cross the cloth spreading table of the cloth spreading machine, set up in said cloth spreading table both sides relatively;

a lifting device according to the first embodiment, provided on the frame;

the cutter mechanism 1 is used for cutting off materials arranged on a cloth spreading table of the cloth spreading machine;

wherein, the cutter mechanism 1 is installed on the lifting device.

It will be understood by those skilled in the art that the foregoing embodiments are specific examples of the invention, and that various changes in form and details may be made therein without departing from the spirit and scope of the invention in its practical application.

Claims (10)

1. The utility model provides a spread hoisting device of cloth machine cutter mechanism, cutter mechanism set up in the shop cloth bench side of spreading the cloth machine for the cutting is laid and is in spread the cloth of cloth bench, its characterized in that, hoisting device contains:

a master control system;

the distance sensor is arranged above the cloth paving table and used for detecting the paving height of the cloth paved on the cloth paving table;

the lifting mechanism is arranged on the frame of the cloth paving machine, is connected with the cutter mechanism of the cloth paving machine and is used for driving the cutter mechanism to perform linear motion along the direction vertical to the cloth paving table;

the main control system is electrically connected with the distance sensor and the lifting mechanism respectively, and is used for controlling the lifting mechanism according to the laying height of the cloth detected by the distance sensor.

2. The lifting device of the cutter mechanism of the cloth spreader according to claim 1, wherein the frame comprises: the first base and the second base are oppositely arranged on two sides of the cutter mechanism along the length direction of the cutter mechanism;

the lifting mechanism comprises: the lifting device comprises a first lifting assembly arranged on the first base, a second lifting assembly arranged on the second base, and a driving assembly for driving the first lifting assembly and the second lifting assembly;

the first lifting assembly and the second lifting assembly are respectively connected with two ends of the cutter mechanism and used for driving the cutter mechanism to respectively perform linear motion along a direction perpendicular to the cloth spreading table, and the driving assembly is electrically connected with the master control system.

3. The lifting device of the cutter mechanism of the cloth paving machine as claimed in claim 2, characterized in that the first base is provided with a first guide groove, the second base is provided with a second guide groove, and the length directions of the first guide groove and the second guide groove are both vertical to the cloth paving table;

the first lifting assembly comprises:

the first driving wheel and the first driven wheel are respectively and oppositely arranged on the first base back in a rotatable manner; the first driving wheel and the first driven wheel are oppositely arranged along the length direction of the first guide groove;

the first flexible transmission part is respectively connected with the first driving wheel and the first driven wheel;

the first sliding seat is slidably arranged on the first guide groove and is fixed with the first flexible transmission piece; the first sliding seat is also fixedly connected with one end of the cutter mechanism;

the second lifting assembly comprises:

the second driving wheel and the second driven wheel are respectively and oppositely arranged on the back of the second base in a rotatable manner, and the second driving wheel and the second driven wheel are oppositely arranged along the length direction of the second guide groove;

the second flexible transmission part is respectively connected with the second driving wheel and the second driven wheel;

the second sliding seat is slidably arranged on the second guide groove and is fixed with the second flexible transmission piece; the second sliding seat is also fixedly connected with one end of the cutter mechanism;

the drive assembly includes: the first driving wheel and the second driving wheel are coaxially fixed by a transmission shaft, and the motor is connected with the transmission shaft and is electrically connected with the master control system.

4. A lifting device for a cutter mechanism of a cloth spreader according to claim 3, wherein the first carriage comprises:

the first sliding body is fixed with the first flexible transmission piece;

and the at least one first connecting rod is fixedly connected with the first sliding body and is used for being inserted into the first guide groove and fixedly connected with one end of the cutter mechanism.

5. The lifting device of the spreader knife mechanism of claim 4, wherein the first carriage further comprises:

the first guide wheel is rotatably arranged on the first connecting rod and is coaxial with the first connecting rod;

the frame further includes:

the first guide rail is arranged on the first base along the length direction of the first guide groove, and the first guide rail is in sliding fit with the first guide wheel.

6. The lifting device of the cutter mechanism of the cloth spreader according to claim 3, wherein the second carriage comprises:

the second sliding body is fixed with the second flexible transmission piece;

and the second connecting rod is fixedly connected with the second sliding body and is used for being inserted into the second guide groove and fixedly connected with one end of the cutter mechanism.

7. The lifting device of the spreader knife mechanism of claim 6, wherein the second carriage further comprises:

the second guide wheel is rotatably arranged on the second connecting rod and is coaxial with the second connecting rod;

the frame further includes:

and the second guide rail is arranged on the second base along the length of the second guide groove and is in sliding fit with the second guide wheel.

8. The lifting device of the cutter mechanism of the cloth paving machine as claimed in claim 3, wherein the first flexible transmission member and the second flexible transmission member are both chains, and the first driving wheel and the second driving wheel are both sprockets engaged with the chains.

9. The lifting device of the cutter mechanism of the cloth spreader according to claim 1, wherein the distance sensor is a laser sensor.

10. A cloth paving machine is characterized by comprising:

the frame, cross the cloth spreading table of the cloth spreading machine, set up in said cloth spreading table both sides relatively;

a lifting device as claimed in any one of claims 1 to 9, provided on the frame;

the cutter mechanism is used for cutting off materials arranged on a cloth paving table of the cloth paving machine;

wherein the cutter mechanism is mounted on the lifting device.

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