CN110947157B - Non-welding modularized assembled running machine and assembling method thereof - Google Patents

Abstract

The invention discloses a non-welding modularized assembled running machine and an assembling method thereof, wherein the non-welding modularized assembled running machine comprises a display assembling module, a dial assembling module, a stand column assembling module, a bottom frame assembling module and a running platform assembling module, wherein the bottoms of the two sides of the running platform assembling module are detachably and elastically connected with the bottom frame assembling module, the lower end of the stand column assembling module is detachably and fixedly connected with the two sides of the front end of the bottom frame assembling module, the bottom of the rear end of the dial assembling module is detachably and fixedly connected with the upper end of the stand column assembling module, and the bottom of the display assembling module is detachably and fixedly connected with the front end of the dial assembling module. The running machine mainly comprises a plurality of modules, the components of each module are assembled through a non-welding process, the modules are assembled through the non-welding process, the whole machine is assembled in a non-welding mode completely, the modularized assembly is convenient and fast, the structural strength is good, no welding exists in the whole process, and the production environment is protected.

Description

Non-welding modularized assembled running machine and assembling method thereof

Technical Field

The invention belongs to the technical field of treadmills, and particularly relates to a non-welding modularized assembled treadmills and an assembling method thereof.

Background

At present, the running machine mainly has two production modes: one is all welded manufacture; the other is to weld into several modules and then assemble. The two production modes mainly adopt welding methods, various visible surface welding defects and invisible internal problems exist in the production process, such as cold joint, false joint and the like, so that the product has low structural strength and short service life, and meanwhile, gas and dust generated in the welding process cause environmental pollution, are harmful to human bodies and have bad production environment.

Disclosure of Invention

In view of the shortcomings of the prior art, an object of the present invention is to provide a non-welding modular assembled treadmill and an assembling method thereof.

In order to achieve the above purpose, the invention adopts the following technical scheme: the utility model provides a non-welding modularization assembled treadmill, includes shows equipment module, dial plate equipment module, stand equipment module, bottom frame equipment module and running platform equipment module, the both sides bottom and the bottom frame equipment module detachably elastic connection of running platform equipment module, the lower extreme of stand equipment module and the front end both sides detachably fixed connection of bottom frame equipment module, the rear end bottom and the upper end detachably fixed connection of stand equipment module of dial plate equipment module, the bottom and the front end detachably fixed connection of dial plate equipment module of show equipment module.

Further, the display assembly module comprises a display screen assembly and a display screen fixing piece, wherein the front part of the display screen fixing piece is fixedly connected with the bottom of the display screen assembly through a screw rod and an anti-slip nut.

Further, the dial plate assembly module comprises a left handrail, a right handrail and a dial plate transverse supporting piece, wherein the middle part of the dial plate transverse supporting piece is fixedly connected with the display assembly module through a first screw, two ends of the dial plate transverse supporting piece are respectively fixedly connected with the front parts of the left handrail and the right handrail through a second screw, middle reinforcing pieces are fixedly connected between the front bottom sides of the left handrail and the right handrail through a third screw, the rear bottom side of the left handrail is fixedly connected with a left reinforcing piece through a third screw, and the rear bottom side of the right handrail is fixedly connected with a right reinforcing piece through a third screw.

Further, the stand assembly module includes left stand subassembly and right stand subassembly, left side stand subassembly and right stand subassembly all include first stand and second stand, the fixed cover in upper end of first stand is equipped with first upper cover, the upper end of first upper cover rotates with the rear portion of dial plate assembly module through a first rotating assembly and is connected, the fixed cover in lower end of first stand is equipped with first lower cover, the lower end of first lower cover rotates with running platform assembly module through another first rotating assembly and is connected, the fixed cover in upper end of second stand is equipped with the second upper cover, the upper end of second upper cover rotates with the middle part of dial plate assembly module through a second rotating assembly and is connected, the fixed cover in lower end of second stand is equipped with the second lower cover, the lower end of second lower cover rotates with the upper portion front end of running platform assembly module through another second rotating assembly and is connected.

Further, the first upper cover comprises a first upper inner cover and a first upper outer cover, the first upper inner cover is fixedly connected with the first upper outer cover through a fourth screw, the first lower cover comprises a first lower inner cover and a first lower outer cover, the first lower inner cover is fixedly connected with the first lower outer cover through a fourth screw, and the first rotating assembly comprises an inner tooth guide pillar, a first plane bearing, a first elastic gasket, a guide sleeve and a fourth screw; the second upper cover comprises a second upper inner cover and a second upper outer cover, the second upper inner cover is fixedly connected with the second upper outer cover through a fourth screw, the second lower cover comprises a second lower inner cover and a second lower outer cover, the second lower inner cover is fixedly connected with the second lower outer cover through the fourth screw, and the second rotating assembly comprises studs, a second plane bearing, a second elastic gasket and nuts.

Further, the bottom frame assembly module comprises a left front base, a right front base, a left rear base and a right rear base, wherein the front parts of the two front bases are fixedly connected with a first transverse supporting piece through fifth screws, the rear parts of the two front bases are fixedly connected with a second transverse supporting piece through fifth screws, the front parts of the two rear bases are fixedly connected with a third transverse supporting piece through fifth screws, and two end parts of the second transverse supporting piece and two end parts of the third transverse supporting piece are respectively fixedly connected with a bottom longitudinal supporting piece through fifth screws.

Further, the middle parts of the front base and the rear base are fixedly connected with shock-absorbing block bases through fifth screws.

Further, the running platform assembly module comprises a running platform transverse supporting piece, a left running platform longitudinal supporting piece, a right running platform longitudinal supporting piece, a motor, a front roller, a rear roller and a running belt, wherein two ends of the running platform transverse supporting piece are respectively fixedly connected with the front end parts of the two running platform longitudinal supporting pieces through sixth screws, two ends of the motor supporting piece are respectively fixedly connected with the rear end parts of the two running platform longitudinal supporting pieces through sixth screws, the motor is tightly held on the motor supporting pieces through the motor fixing pieces, two ends of the front roller are respectively rotatably mounted at the front ends of the two running platform longitudinal supporting pieces through first roller fixing pieces, one end of the rear roller is rotatably mounted at the rear end part of one running platform longitudinal supporting piece through the first roller fixing piece, the other end of the rear roller is in transmission connection with one end of the rear roller, the running belt is sleeved between the front roller and the rear roller, the bottom side of the running platform longitudinal supporting piece is connected with the front end parts of the two running platform longitudinal supporting pieces, and the front roller is detachably connected with the front foot protection module.

Further, the bottom side of the running platform longitudinal support piece is fixedly connected with a damping rubber block through a sixth screw.

The invention also provides an assembling method of the non-welding modularized assembled running machine, which comprises the following steps:

The method comprises the steps of firstly, detachably assembling all parts of a display assembly module, detachably assembling all parts of a dial assembly module, detachably assembling all parts of a stand column assembly module, detachably assembling all parts of a bottom frame assembly module, and detachably assembling all parts of a running platform assembly module;

the running platform assembly module and the bottom frame assembly module are assembled together in a detachable mode, the upright post assembly module and the bottom frame assembly module are assembled together in a detachable mode, the dial assembly module and the upright post assembly module are assembled together in a detachable mode, and the display assembly module and the dial assembly module are assembled together in a detachable mode.

Compared with the prior art, the invention has the following beneficial effects: the running machine mainly comprises a plurality of modules, wherein the internal parts of each module are assembled through a non-welding process, the modules are assembled through a non-welding process, the whole machine is assembled completely in a non-welding mode, the modularized assembly is convenient and fast, the structural strength is good, the service life is long, no welding exists in the whole process, and the production environment is environment-friendly.

Drawings

Fig. 1 is an assembly diagram of a complete machine structure according to an embodiment of the present invention.

Fig. 2 is an exploded view of the whole structure according to an embodiment of the present invention.

Fig. 3 is an assembly schematic diagram of a dial assembly module and a display assembly module according to an embodiment of the invention.

Fig. 4 is a second assembly schematic diagram of the dial assembly module and the display assembly module according to the embodiment of the invention.

Fig. 5 is an assembly schematic diagram of a column assembly module according to an embodiment of the invention.

Fig. 6 is an assembly schematic diagram of a bottom frame assembly module according to an embodiment of the invention.

Fig. 7 is an assembly schematic diagram of a running table assembly module according to an embodiment of the invention.

Fig. 8 is an assembly schematic diagram of a running deck assembly module and a bottom frame assembly module according to an embodiment of the invention.

The marks in the figure: 1. a first screw; 2. a transverse screw; 10. a first rotating assembly; 11. an inner tooth guide post; 12. a first planar bearing; 13. a first elastic pad; 14. guide sleeve; 15. a screw; 20. a second rotating assembly; 21. a stud; 22. a second planar bearing; 23. a second elastic pad; 24. a nut; 100. a running table assembly module; 101. a treadmill transverse support; 102. a treadmill longitudinal support; 103. a motor support; 104. a motor; 105. a front drum; 106. a rear drum; 107. a running belt; 108. a sixth screw; 109. a motor fixing member; 110. a first roller fixing member; 111. a second roller fixing member; 112. foot protection; 113. a longitudinal screw; 114. damping rubber blocks; 200. a bottom frame assembly module; 201. a front base; 202. a rear base; 203. a fifth screw; 204. a first lateral support; 205. a second lateral support; 206. a third lateral support; 207. a bottom longitudinal support; 208. a shock-absorbing block base; 300. a column assembly module; 301. a left column assembly; 302. a right column assembly; 303. a first upright; 304. a second upright; 305. a first upper cover; 306. a first lower cover; 307. a second upper cover; 308. a second lower cover; 309. a first upper inner cap; 310. a first upper outer cover; 311. a fourth screw; 312. a first lower inner cap; 313. a first lower outer cover; 314. a second upper inner cap; 315. a second upper outer cap; 316. a second lower inner cap; 317. a second lower outer cap; 400. a dial assembly module; 401. a left armrest; 402. a right armrest; 403. dial plate transverse support; 404. a second screw; 405. a third screw; 406. an intermediate stiffener; 407. a left reinforcement; 408. a right reinforcement; 500. a display assembly module; 510. a display screen assembly; 520. a display screen fixing member; 531. a screw; 532. an elastic pad; 533. an anti-slip nut.

Detailed Description

In order to make the above features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

As shown in fig. 1 to 8, the present embodiment provides a non-welding modular assembled running machine, which comprises a display assembly module 500, a dial assembly module 400, a stand assembly module 300, a bottom frame assembly module 200 and a running table assembly module 100, wherein the bottoms of the two sides of the running table assembly module 100 are detachably and elastically connected with the bottom frame assembly module 200, the lower end of the stand assembly module 300 is detachably and fixedly connected with the two sides of the front end of the bottom frame assembly module 200, the bottom of the rear end of the dial assembly module 400 is detachably and fixedly connected with the upper end of the stand assembly module 300, and the bottom of the display assembly module 500 is detachably and fixedly connected with the front end of the dial assembly module 400.

In this embodiment, the display assembly module 500 includes a display screen assembly 510 (existing assemblies may be used) and two display screen fixtures 520, where the display screen fixtures 520 are preferably, but not limited to, die cast, such as aluminum die cast, and are relatively lightweight; the front part of the display screen fixing member 520 is fixedly connected with the bottom of the display screen assembly 510 through a screw 531 and an anti-slip nut 533, wherein one screw 531 sequentially passes through the front part of one display screen fixing member 520 and one side of the bottom of the display screen assembly 510 and then is locked and fixed with one anti-slip nut 533, the other screw 531 sequentially passes through the front part of the other display screen fixing member 520 and the other side of the bottom of the display screen assembly 510 and then is locked and fixed with the other anti-slip nut 533, and one or more (three as shown in the figure) elastic gaskets 532 can be arranged between the head of the screw 531 and the display screen fixing member 520.

In this embodiment, the dial assembly module 400 includes a left armrest 401, a right armrest 402, and a dial lateral support 403, where each of the left armrest 401, the right armrest 402, and the dial lateral support 403 is preferably, but not limited to, a die cast, such as an aluminum die cast, and is relatively lightweight; the middle part of the dial plate transverse support member 403 is fixedly connected with the display assembly module 500 (specifically, the rear part of the display screen fixing member 520) through a first screw 1, two ends of the dial plate transverse support member 403 are respectively fixedly connected with the front parts of the left handrail 401 and the right handrail 402 through a second screw 404, a middle reinforcing member 406 is fixedly connected between the front bottom sides of the left handrail 401 and the right handrail 402 through a third screw 405, and the middle reinforcing member 406 is preferably but not limited to an L-shaped member, such as an L-shaped iron member; the rear bottom side of the left handrail 401 is fixedly connected with a left reinforcement member 407 through a third screw 405, the rear bottom side of the right handrail 402 is fixedly connected with a right reinforcement member 408 through a third screw 405, and the left reinforcement member 407 and the right reinforcement member 408 are preferably but not limited to die castings, such as aluminum die castings, and have relatively light weight.

In this embodiment, the pillar assembly module 300 includes a left pillar assembly 301 and a right pillar assembly 302, where each of the left pillar assembly 301 and the right pillar assembly 302 includes a first pillar 303 and a second pillar 304, and each of the first pillar 303 and the second pillar 304 is preferably but not limited to a profile, such as an aluminum profile; the upper end portion of the first upright 303 is fixedly sleeved with a first upper cover 305, the upper end portion of the first upper cover 305 is rotatably connected with the rear portion (specifically, the middle of the lower portion of the left reinforcing member 407/the right reinforcing member 408) of the dial assembly module 400 through a first rotating member 10, the lower end portion of the first upright 303 is fixedly sleeved with a first lower cover 306, the lower end portion of the first lower cover 306 is rotatably connected with the bottom frame assembly module 200 (specifically, the rear portion of the front base 201) through another first rotating member 10, the upper end portion of the second upright 304 is fixedly sleeved with a second upper cover 307, the upper end portion of the second upper cover 307 is rotatably connected with the middle portion (specifically, the upper front end portion of the left reinforcing member 407/the right reinforcing member 408) of the dial assembly module 400 through a second rotating member 20, the lower end portion of the second upright 304 is fixedly sleeved with a second lower cover 308, and the lower end portion of the second lower cover 308 is rotatably connected with the upper front portion of the bottom frame assembly module 200 (specifically, the front portion of the front base 201) through another second rotating member 20.

In this embodiment, the first upper cover 305 includes a first upper inner cover 309 and a first upper outer cover 310, the first upper inner cover 309 is fixedly connected with the first upper outer cover 310 through a fourth screw 311, the first lower cover 306 includes a first lower inner cover 312 and a first lower outer cover 313, the first lower inner cover 312 is fixedly connected with the first lower outer cover 313 through the fourth screw 311, the first rotating assembly 10 includes an inner tooth guide post 11, a first plane bearing 12, a first elastic washer 13, a guide sleeve 14 and a screw 15, wherein the first plane bearing 12 includes a left and a right two, the inner tooth guide post 11 of the upper first rotating assembly 10 sequentially passes through the lower middle of the left reinforcing member 407/the right reinforcing member 408, the left first plane bearing 12, the first upper outer cover 310, the right first plane bearing 12, the first elastic washer 13 and the guide sleeve 14 and then is fixedly connected with the screw 15, the inner tooth guide post 11 of the lower rotating assembly 10 sequentially passes through the rear upper end of the front base 201, the left first plane bearing 12, the first lower outer cover 313, the right plane bearing 12 and the first guide sleeve 14 and then is preferably connected with the guide sleeve 14 by a light die cast; the second upper cover 307 includes a second upper inner cover 314 and a second upper outer cover 315, the second upper inner cover 314 is fixedly connected with the second upper outer cover 315 through a fourth screw 311, the second lower cover 308 includes a second lower inner cover 316 and a second lower outer cover 317, the second lower inner cover 316 is fixedly connected with the second lower outer cover 317 through the fourth screw 311, the second rotating assemblies 20 each include a stud 21, a second planar bearing 22, a second elastic washer 23 and a nut 24, wherein the stud 21 of the upper second rotating assembly 20 sequentially passes through the upper front end of the left reinforcing member 407/the right reinforcing member 408, the left second planar bearing 22, the second upper outer cover 315, the right second planar bearing 22, the second elastic washer 23, and then is fixedly connected with the nut 24, and the stud 21 of the lower second rotating assembly 20 sequentially passes through the front upper end of the front base 201, the left second planar bearing 22, the second lower outer cover 317, the right second planar bearing 22, the second elastic washer 23, and then is fixedly connected with the nut 24.

In this embodiment, the bottom frame assembly module 200 includes a front base 201 and a rear base 202 which are symmetrically distributed, and the front base 201 and the rear base 202 are preferably, but not limited to, die castings, such as aluminum die castings, with a relatively light weight; the front parts of the two front bases 201 are fixedly connected with a first transverse support 204 through fifth screws 203, the rear parts of the two front bases 201 are fixedly connected with a second transverse support 205 through fifth screws 203, the front parts of the two rear bases 202 are fixedly connected with a third transverse support 206 through fifth screws 203, the first transverse support 204, the second transverse support 205 and the third transverse support 206 are all preferably but not limited to L-shaped transverse supports, two ends of the second transverse support 205 and two ends of the third transverse support 206 are respectively fixedly connected with a bottom longitudinal support 207 through fifth screws 203, and the bottom longitudinal support 207 is a section bar or a hardware.

In this embodiment, the running platform assembly module 100 includes a running platform transverse support 101, a left running platform longitudinal support 102, a right running platform longitudinal support 102, a motor support 103, a motor 104, a front roller 105, a rear roller 106, and a running belt 107, two ends of the running platform transverse support 101 are respectively fixedly connected with front ends of the two running platform longitudinal supports 102 through sixth screws 108, two ends of the motor support 103 are respectively fixedly connected with rear ends of the two running platform longitudinal supports 102 through sixth screws 108, the motor 104 is tightly held on the motor support 103 through (e.g. left and right) motor fixing 109, front and rear ends of the motor fixing 109 are respectively fixedly connected on the motor support 103 through sixth screws 108, two ends of the front roller 105 are respectively rotatably mounted on front ends of the two running platform longitudinal supports 102 through first roller fixing 110, one end of the rear roller 106 is mounted at the rear end of one running platform longitudinal support 102 through a first roller fixing piece 110, the other end of the rear roller 106 is rotatably mounted at the rear end of the other running platform longitudinal support 102 through a second roller fixing piece 111, the output end of the motor 104 is in transmission connection with one end of the rear roller 106, the running belt 107 is sleeved between the front roller 105 and the rear roller 106, the bottom side of the running platform longitudinal support 102 is in elastic connection with the bottom frame assembly module 200, the front end and the rear end of the running platform longitudinal support 102 are both detachably connected with foot guards 112, wherein three foot guards 112 are fixedly connected with the corresponding first roller fixing pieces 110 through longitudinal screws 113 respectively, and one foot guard 112 is directly fixedly spliced with the second roller fixing pieces 111.

In this embodiment, the elastic connection structure between the running platform assembly module 100 and the bottom frame assembly module 200 includes a shock absorbing block base 208 and a shock absorbing rubber block 114, the middle parts of the front base 201 and the rear base 202 are fixedly connected with the shock absorbing block base 208 through fifth screws 203, the bottom side of the running platform longitudinal support 102 is fixedly connected with the shock absorbing rubber block 114 through sixth screws 108, and the shock absorbing rubber block 114 is rotatably connected with the shock absorbing block base 208 through a transverse screw 2.

The embodiment also provides an assembling method of the non-welding modular assembled running machine, which comprises the following steps:

The components of the display assembly module 500 are first detachably assembled together, the components of the dial assembly module 400 are detachably assembled together, the components of the upright assembly module 300 are detachably assembled together, the components of the bottom frame assembly module 200 are detachably assembled together, and the components of the running table assembly module 100 are detachably assembled together;

The running table assembly module 100 and the bottom frame assembly module 200 are then detachably assembled together, the column assembly module 300 and the bottom frame assembly module 200 are detachably assembled together, the dial assembly module 400 and the column assembly module 300 are detachably assembled together, and the display assembly module 500 and the dial assembly module 400 are detachably assembled together.

The present invention is not limited to the above embodiments, but can be modified, equivalent, and modified in any way by those skilled in the art without departing from the scope of the present invention.

Claims (7)

1. A non-welding modular assembled treadmill, characterized in that: the running platform comprises a display assembly module, a dial assembly module, a stand column assembly module, a bottom frame assembly module and a running platform assembly module, wherein the bottoms of the two sides of the running platform assembly module are detachably and elastically connected with the bottom frame assembly module, the lower end of the stand column assembly module is detachably and fixedly connected with the two sides of the front end of the bottom frame assembly module, the bottom of the rear end of the dial assembly module is detachably and fixedly connected with the upper end of the stand column assembly module, and the bottom of the display assembly module is detachably and fixedly connected with the front end of the dial assembly module; the display assembly module comprises a display screen assembly and a display screen fixing piece; the bottom frame assembly module comprises a left front base, a right front base and a left rear base; the middle parts of the front base and the rear base are fixedly connected with shock-absorbing block bases through fifth screws, the dial plate assembly module comprises a left handrail, a right handrail and a dial plate transverse supporting piece, and the middle parts of the dial plate transverse supporting pieces are fixedly connected with the display assembly module through first screws; the column assembly module comprises a left column assembly and a right column assembly, wherein the left column assembly and the right column assembly respectively comprise a first column and a second column, a first upper cover is fixedly sleeved at the upper end part of the first column, the upper end part of the first upper cover is rotationally connected with the rear part of the dial assembly module through a first rotating assembly, a first lower cover is fixedly sleeved at the lower end part of the first column, the lower end part of the first lower cover is rotationally connected with the rear part of the front base of the bottom frame assembly module through another first rotating assembly, a second upper cover is fixedly sleeved at the upper end part of the second column, the upper end part of the second upper cover is rotationally connected with the middle part of the dial assembly module through a second rotating assembly, a second lower cover is fixedly sleeved at the lower end part of the second column, and the lower end part of the second lower cover is rotationally connected with the front part of the front base of the bottom frame assembly module through another second rotating assembly; the running platform assembly module comprises a running platform transverse support piece and a left running platform longitudinal support piece and a right running platform longitudinal support piece, wherein the bottom side of the running platform longitudinal support piece is elastically connected with the bottom frame assembly module, the front end and the rear end of the running platform longitudinal support piece are detachably connected with foot guards, an elastic connection structure between the running platform assembly module and the bottom frame assembly module comprises a damping block base and a damping rubber block, the bottom side of the running platform longitudinal support piece is fixedly connected with the damping rubber block through a screw, and the damping rubber block is rotationally connected with the damping block base through a transverse screw.

2. The non-welded modular assembled treadmill of claim 1, wherein: the front part of the display screen fixing piece is fixedly connected with the bottom of the display screen assembly through a screw rod and an anti-slip nut.

3. The non-welded modular assembled treadmill of claim 1, wherein: the dial plate transverse support piece is characterized in that two ends of the dial plate transverse support piece are fixedly connected with the front parts of the left handrail and the right handrail through second screws respectively, a middle reinforcing piece is fixedly connected between the front bottom sides of the left handrail and the right handrail through third screws, a left reinforcing piece is fixedly connected with the rear bottom side of the left handrail through third screws, and a right reinforcing piece is fixedly connected with the rear bottom side of the right handrail through third screws.

4. The non-welded modular assembled treadmill of claim 1, wherein: the first upper cover comprises a first upper inner cover and a first upper outer cover, the first upper inner cover is fixedly connected with the first upper outer cover through a fourth screw, the first lower cover comprises a first lower inner cover and a first lower outer cover, the first lower inner cover is fixedly connected with the first lower outer cover through a fourth screw, and the first rotating assemblies comprise inner tooth guide posts, a first plane bearing, a first elastic gasket, a guide sleeve and screws; the second upper cover comprises a second upper inner cover and a second upper outer cover, the second upper inner cover is fixedly connected with the second upper outer cover through a fourth screw, the second lower cover comprises a second lower inner cover and a second lower outer cover, the second lower inner cover is fixedly connected with the second lower outer cover through the fourth screw, and the second rotating assembly comprises studs, a second plane bearing, a second elastic gasket and nuts.

5. The non-welded modular assembled treadmill of claim 1, wherein: the front parts of the two front bases are fixedly connected with first transverse supporting pieces through fifth screws, the rear parts of the two front bases are fixedly connected with second transverse supporting pieces through fifth screws, the front parts of the two rear bases are fixedly connected with third transverse supporting pieces through fifth screws, and the two end parts of the second transverse supporting pieces and the two end parts of the third transverse supporting pieces are respectively fixedly connected with bottom longitudinal supporting pieces through fifth screws.

6. The non-welded modular assembled treadmill of claim 1, wherein: the running platform assembly module further comprises a motor support piece, a motor, a front roller, a rear roller and a running belt, wherein two ends of the running platform transverse support piece are fixedly connected with the front end parts of the two running platform longitudinal support pieces through sixth screws respectively, two ends of the motor support piece are fixedly connected with the rear end parts of the two running platform longitudinal support pieces through sixth screws respectively, the motor is held tightly on the motor support piece through the motor fixing piece, two ends of the front roller are rotatably mounted at the front ends of the two running platform longitudinal support pieces through first roller fixing pieces respectively, one end of the rear roller is mounted at the rear end part of one running platform longitudinal support piece through first roller fixing pieces, the other end of the rear roller is rotatably mounted at the rear end part of the other running platform longitudinal support piece through second roller fixing pieces, the output end of the motor is in transmission connection with one end of the rear roller, and the running belt is sleeved between the front roller and the rear roller.

7. A method of assembling a non-welding modular assembled treadmill as recited in any one of claims 1 to 6, comprising:

The method comprises the steps of firstly, detachably assembling all parts of a display assembly module, detachably assembling all parts of a dial assembly module, detachably assembling all parts of a stand column assembly module, detachably assembling all parts of a bottom frame assembly module, and detachably assembling all parts of a running platform assembly module;

the running platform assembly module and the bottom frame assembly module are assembled together in a detachable mode, the upright post assembly module and the bottom frame assembly module are assembled together in a detachable mode, the dial assembly module and the upright post assembly module are assembled together in a detachable mode, and the display assembly module and the dial assembly module are assembled together in a detachable mode.