CN213998449U - Spare part assembly quality is used in elevator accessory equipment - Google Patents

Abstract

The utility model discloses a part assembling device for assembling elevator accessories, which comprises an equipment supporting frame, a part conveying mechanism connected on the equipment supporting frame, a part conveying mechanism arranged above the part conveying mechanism, a rear part assembling mechanism arranged behind the part conveying mechanism, a front part assembling mechanism arranged in front of the part conveying mechanism, a part tightening mechanism arranged at the left side of the front part assembling mechanism, a feeding conveying belt arranged at the right side of the part conveying mechanism, a part conveying pipe arranged at the right side of the part conveying mechanism, and a driving mechanism connected on the equipment supporting frame, the component conveying mechanism comprises a left component conveying belt wheel and a right component conveying belt wheel which are connected on the supporting frame in a rotating fit manner, the left component conveying belt wheel is in transmission connection with the right component conveying belt wheel through a component conveying belt.

Description

Spare part assembly quality is used in elevator accessory equipment

Technical Field

The utility model relates to a part assembly technical field specifically is an elevator accessory is spare part assembly quality for equipment.

Background

Many accessories are used with elevator cars, including elevator track roller accessories, which are currently assembled by most people, and the bracket and the rollers are assembled together, but the manual assembly is time-consuming and labor-consuming, and the quality is uneven.

The elevator track car and counterweight provide the direction when the elevator moves, still play the supporting role when the safety tongs braking, be the important part in the elevator system, the elevator is at the operation in-process, elevator track gyro wheel and elevartor shaft wall mounting's track roll cooperation, guarantee the stability of elevator car operation in-process, and when elevator track gyro wheel and elevator track cooperation use, if elevator track gyro wheel assembly is unqualified, will lead to elevator track gyro wheel atress inhomogeneous when the operation on elevator track, long-term use probably leads to elevator track to produce deformation and partial wear, influence elevator car's operation safety.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a spare part assembly quality is used in elevator accessory equipment to the weak point of manual assembly, designs the device of automatic dress elevator track gyro wheel.

In order to achieve the above object, the utility model provides a following technical scheme:

a part assembling device for assembling elevator accessories comprises an equipment supporting frame, a part conveying mechanism connected to the equipment supporting frame, a part conveying mechanism arranged above the part conveying mechanism, a rear part assembling mechanism arranged behind the part conveying mechanism, a front part assembling mechanism arranged in front of the part conveying mechanism, a part tightening mechanism arranged on the left side of the front part assembling mechanism, a feeding conveying belt arranged on the right side of the part conveying mechanism, a part conveying pipe arranged on the right side of the part conveying mechanism, and a driving mechanism connected to the equipment supporting frame;

the component conveying mechanism comprises a left component conveying belt wheel and a right component conveying belt wheel which are connected to the supporting frame in a rotating fit mode, the left component conveying belt wheel and the right component conveying belt wheel are in transmission connection through a component conveying belt, and a plurality of positioning partition plates extending forwards and backwards are uniformly and fixedly connected to the component conveying belt;

the part conveying mechanism comprises a left part conveying belt wheel and a right part conveying belt wheel which are connected to the support frame in a rotating fit mode, the left part conveying belt wheel and the right part conveying belt wheel are in transmission connection through a part conveying belt, a plurality of part clamping elastic sheets are vertically and fixedly arranged on the part conveying belt, and the part clamping elastic sheets are evenly arranged in two rows in an array mode;

the equipment support frame is fixedly connected with a belt stabilizing support bar extending leftwards and rightwards, the front side and the rear side of the lower end of the belt stabilizing support bar are respectively and fixedly connected with a clamping elastic sheet fastening limiting bar extending leftwards and rightwards, and the right end of the clamping elastic sheet fastening limiting bar extends to surround the right half side of the right part conveying belt wheel along the tangential direction of the part conveying belt;

the rear part assembling mechanism comprises a rear driving air cylinder fixedly connected to the equipment supporting frame, a rear assembling ejector rod connecting rod extending leftwards and rightwards is fixedly connected to an air cylinder rod of the rear driving air cylinder, a rear assembling ejector rod extending forwards is respectively and fixedly connected to the left end and the right end of the rear assembling ejector rod connecting rod, a rear part assembling sliding pipe is arranged in front of the rear assembling ejector rod, a part supplying belt is fixedly connected to the rear part assembling sliding pipe, and the interior of the rear part assembling sliding pipe is communicated with the part supplying belt;

the front part assembling mechanism comprises a front assembling driving cylinder fixedly connected to the equipment supporting frame, a front assembling ejector rod connecting rod extending leftwards and rightwards is fixedly connected to a cylinder rod of the front assembling driving cylinder, a front assembling ejector rod extending backwards is respectively fixedly connected to the left end and the right end of the front assembling ejector rod connecting rod, a front part assembling sliding pipe is arranged behind the front assembling ejector rod, a front part supplying belt is connected to the front part assembling sliding pipe, and the interior of the front part assembling sliding pipe is communicated with the front part supplying belt;

the part tightening mechanism comprises a part tightening mechanism cylinder fixedly connected to the equipment support frame, a tightening motor connecting rod extending leftwards and rightwards is fixedly connected to a cylinder rod of the part tightening mechanism cylinder, a tightening motor is fixedly connected to each of the left end and the right end of the tightening motor connecting rod, a tightening sleeve is fixedly connected to an output shaft of the tightening motor, a tightening fit sleeve is arranged at the position of the tightening sleeve, which is in relation to the front-back mirror image of the component conveying belt, and a fixed connecting rod is fixedly connected between the tightening fit sleeve and the rear-fit ejector rod connecting rod;

the tail end of the part conveying pipe extends up and down and is arranged at the position, close to the right side, of the right part conveying belt wheel, an opening is formed in the left side of the tail end of the part conveying pipe, and an elastic supporting sheet is fixedly connected to the edge of the right side of the lower end of the tail end of the part conveying pipe;

the driving mechanism comprises a component conveying belt driving motor and a part conveying belt driving motor which are fixedly connected to the equipment supporting frame, an output shaft of the component conveying belt driving motor is in transmission connection with the left component conveying belt wheel, and an output shaft of the part conveying belt driving motor is in transmission connection with the left component conveying belt wheel.

Preferably, the equipment support frame comprises a support base, a position, close to the rear side, of the top of the support base is fixedly connected with a side support plate extending upwards, the top of the side support plate is fixedly connected with a left support column and a right support column, a support bar connecting cross bar is fixedly connected between the left support column and the right support column, the front end of the support bar connecting cross bar is fixedly connected with a support bar connecting longitudinal rod extending forwards, the upper end of the support base is fixedly connected with a front assembly driving cylinder support rod, and the upper end of the support base is fixedly connected with a part tightening mechanism cylinder support rod;

the front end of the side supporting plate is fixedly connected with a left component conveying belt wheel shaft and a right component conveying belt wheel shaft which are arranged in a bilateral symmetry mode, the left component conveying belt wheel is connected to the left component conveying belt wheel shaft in a rotating fit mode, and the right component conveying belt wheel is connected to the right component conveying belt wheel shaft in a rotating fit mode;

the front ends of the left support column and the right support column are respectively fixedly connected with a left part conveying belt pulley shaft and a right part conveying belt pulley shaft, the left part conveying belt pulley is rotationally matched on the left part conveying belt pulley shaft, and the right part conveying belt pulley is rotationally matched on the right part conveying belt pulley shaft;

the belt stabilizing support bar is fixedly connected to the front end of the support bar connecting longitudinal rod;

the bottom of the rear driving cylinder is fixedly connected with a rear driving cylinder supporting rod, and the other end of the rear driving cylinder supporting rod is fixedly connected to the top end of the side supporting plate;

preceding assembly drives actuating cylinder fixed connection and is in preceding assembly drives actuating cylinder bracing piece top, tight mechanism cylinder fixed connection of part dress is in tight mechanism cylinder bracing piece top is adorned to part.

Description of the drawings: the equipment support frame provides stable support for the whole device, and ensures the rigidity and strength of the whole device.

Preferably, the belt stabilizing support bar lower extreme has the belt that the opening is down and control the extension link up and lead to the groove, the belt leads to the inslot front and back both sides wall and respectively has the belt support spout, the terminal surface is fixed connection all around the part conveyer belt and is equipped with a plurality of part conveyer belt spout support columns, part conveyer belt spout support column is followed the belt supports the spout and slides and pass.

Description of the drawings: the belt stabilizing support strip gives the part conveyer belt provides a direction and supports, avoids the part conveyer belt to produce deformation because of self action of gravity, and then influences the work precision.

Preferably, the rear part assembly sliding pipe is fixedly connected to the side supporting plate through a connecting rod, and the front part assembly sliding pipe is fixedly connected to the front assembly driving cylinder supporting rod through a connecting rod.

Description of the drawings: the rear part assembling sliding pipe and the front part assembling sliding pipe are fixedly connected to the equipment supporting frame, and the stability of the equipment supporting frame in operation is guaranteed.

Preferably, a component driving pulley is fixedly connected to an output shaft of the component conveying belt driving motor, a component driven driving pulley is fixedly connected to the rear end of the left component conveying belt pulley, a component driving belt is arranged between the component driving pulley and the component driven driving pulley in a power connection mode, a component driving pulley is fixedly connected to an output shaft of the component conveying belt driving motor, a component driven driving pulley is arranged at the rear end of the left component conveying belt pulley in a power connection mode, and a component driving belt is arranged between the component driving pulley and the component driven driving pulley in a power connection mode.

Preferably, the part conveyer belt driving motor and the part conveyer belt driving motor are servo motors, and the part driving belt are synchronous belts.

Description of the drawings: the servo motor and the synchronous belt are adopted, so that the assembly accuracy is ensured due to high transmission precision.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model has the advantages of reasonable design, convenient operation, with the part conveyer belt of the required part of elevator track gyro wheel assembly through standard dimension specification and transporting of part conveyer belt to cylinder and servo motor are as the power supply, with elevator track gyro wheel assembly shaping in the continuous operation in-process, the cylinder is as the power supply, it has simple structure characteristics with low costs, the later stage is also convenient for overhaul, position that can accurate control part conveyer belt and part conveyer belt under the servo motor drive provides reliable guarantee for the assembly precision.

Drawings

Fig. 1 is a front view of the present invention;

FIG. 2 is a left side view of FIG. 1;

FIG. 3 is a top view of FIG. 1;

fig. 4 is a partial view a of fig. 2.

In the figure, 10-equipment support frame, 11-support base, 12-side support plate, 121-left part conveyor belt wheel shaft, 122-right part conveyor belt wheel shaft, 13-left support column, 131-left part conveyor belt wheel shaft, 14-right support column, 141-right part conveyor belt wheel shaft, 15-belt stabilizing support bar, 151-support bar connecting cross bar, 152-support bar connecting longitudinal bar, 153-belt through groove, 1531-belt support chute, 16-clamping elastic sheet fastening limit bar, 20-part conveyor mechanism, 21-left part conveyor belt wheel, 22-right part conveyor belt wheel, 23-part conveyor belt, 231-positioning clapboard, 30-part conveyor mechanism, 31-left part conveyor belt wheel, 32-right part conveyor belt wheel, 33-part conveying belt, 331-part clamping elastic sheet, 332-part conveying belt sliding chute supporting column, 40-rear part assembling mechanism, 41-part supplying belt, 411-rear part assembling sliding pipe, 42-rear driving cylinder, 421-rear driving cylinder supporting rod, 43-rear assembling ejector rod connecting rod, 44-rear assembling ejector rod, 45-fastening matching sleeve, 46-fixed connecting rod, 50-front part assembling mechanism, 51-front assembling driving cylinder, 511-front assembling driving cylinder supporting rod, 52-front assembling ejector rod connecting rod, 53-front assembling ejector rod, 54-front part assembling sliding pipe, 55-front part supplying belt, 60-part assembling mechanism, 61-part assembling mechanism cylinder, 62-fastening motor connecting rod, 63-fastening motor, 64-fastening sleeve, 70-feeding conveying belt, 80-part conveying pipe, 81-opening, 82-elastic supporting sheet, 90-driving mechanism, 91-part conveying belt driving motor, 911-part driving belt wheel, 912-part driven driving belt wheel, 913-part driving belt, 92-part conveying belt driving motor, 921-part driving belt wheel, 922-part driven driving belt wheel and 923-part driving belt.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 4, and for convenience of description, the following orientations will be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Example (b):

a part assembling device for assembling elevator accessories is disclosed, as shown in figure 1, comprising an equipment supporting frame 10, a part conveying mechanism 20 connected on the equipment supporting frame 10, a part conveying mechanism 30 arranged above the part conveying mechanism 20, as shown in figure 3, a rear part assembling mechanism 40 arranged behind the part conveying mechanism 20, a front part assembling mechanism 50 arranged in front of the part conveying mechanism 20, a part tightening mechanism 60 arranged at the left side of the front part assembling mechanism 50, as shown in figure 1, a feeding conveying belt 70 arranged at the right side of the part conveying mechanism 20, a part conveying pipe 80 arranged at the right side of the part conveying mechanism 30, and a driving mechanism 90 connected on the equipment supporting frame 10;

as shown in fig. 1, the component conveying mechanism 20 includes a left component conveying pulley 21 and a right component conveying pulley 22 which are connected to the support frame 10 in a rotating fit manner, the left component conveying pulley 21 and the right component conveying pulley 22 are in transmission connection through a component conveying belt 23, and a plurality of positioning partition plates 231 extending back and forth are uniformly and fixedly connected to the component conveying belt 23;

as shown in fig. 2, the equipment supporting frame 10 includes a supporting base 11, a side supporting plate 12 extending upward is fixedly connected to a position close to the rear side of the top of the supporting base 11, a left supporting column 13 and a right supporting column 14 are fixedly connected to the top of the side supporting plate 12, a supporting bar connecting cross bar 151 is fixedly connected between the left supporting column 13 and the right supporting column 14, a supporting bar connecting longitudinal bar 152 extending forward is fixedly connected to the front end of the supporting bar connecting cross bar 151, a front assembling driving cylinder supporting bar 511 is fixedly connected to the upper end of the supporting base 11, and a part tightening mechanism cylinder supporting bar 611 is fixedly connected to the upper end of the supporting base 11;

as shown in fig. 1 and 2, a left component conveyor belt wheel shaft 121 and a right component conveyor belt wheel shaft 122 which are arranged in bilateral symmetry are fixedly connected to the front end of the side support plate 12, the left component conveyor belt wheel 21 is connected to the left component conveyor belt wheel shaft 121 in a rotating fit manner, and the right component conveyor belt wheel 22 is connected to the right component conveyor belt wheel shaft 122 in a rotating fit manner;

as shown in fig. 1, the part conveying mechanism 30 includes a left part conveying belt wheel 31 and a right part conveying belt wheel 32 which are connected to the support frame 10 in a rotating fit manner, the left part conveying belt wheel 31 and the right part conveying belt wheel 32 are in transmission connection through a part conveying belt 33, a plurality of part clamping elastic pieces 331 are vertically fixed on the part conveying belt 33, and two rows of the part clamping elastic pieces 331 are uniformly arranged in an array;

the front ends of the left support column 13 and the right support column 14 are respectively fixedly connected with a left part conveying belt wheel shaft 131 and a right part conveying belt wheel shaft 141, the left part conveying belt wheel 31 is rotationally matched on the left part conveying belt wheel shaft 131, and the right part conveying belt wheel 32 is rotationally matched on the right part conveying belt wheel shaft 141;

the equipment support frame 10 is fixedly connected with a belt stabilizing support bar 15 extending left and right, the front side and the rear side of the lower end of the belt stabilizing support bar 15 are respectively and fixedly connected with clamping elastic sheet fastening limiting bars 16 extending left and right, and the right ends of the clamping elastic sheet fastening limiting bars 16 extend to surround the right half side of the right part conveying belt wheel 32 along the tangential direction of the part conveying belt 33;

as shown in fig. 2, the belt stabilizing support bar 15 is fixedly connected to the front end of the support bar connecting longitudinal rod 152;

as shown in fig. 4, the lower end of the belt stabilizing support bar 15 has a belt through groove 153 with a downward opening and extending left and right, the belt through groove 153 has belt support chutes 1531 on the front and rear side walls, the front and rear end faces of the component conveyor belt 33 are both fixedly connected to a plurality of component conveyor belt chute support columns 332, and the component conveyor belt chute support columns 332 slide through the belt support chutes 1531.

As shown in fig. 3, the rear part assembling mechanism 40 includes a rear driving cylinder 42 fixedly connected to the equipment supporting frame 10, a rear assembling ejector rod connecting rod 43 extending left and right is fixedly connected to a cylinder rod of the rear driving cylinder 42, a rear assembling ejector rod 44 extending forward is fixedly connected to each of left and right ends of the rear assembling ejector rod connecting rod 43, a rear part assembling slide pipe 411 is arranged in front of the rear assembling ejector rod 44, a part supplying belt 41 is fixedly connected to the rear part assembling slide pipe 411, and the inside of the rear part assembling slide pipe 411 is communicated with the part supplying belt 41;

the bottom of the rear driving cylinder 42 is fixedly connected with a rear driving cylinder support rod 421, and the other end of the rear driving cylinder support rod 421 is fixedly connected with the top end of the side support plate 12;

the front part assembling mechanism 50 comprises a front assembling driving cylinder 51 fixedly connected to the equipment supporting frame 10, a front assembling ejector rod connecting rod 52 extending left and right is fixedly connected to a cylinder rod of the front assembling driving cylinder 51, a front assembling ejector rod 53 extending backward is respectively fixedly connected to the left end and the right end of the front assembling ejector rod connecting rod 52, a front part assembling sliding pipe 54 is arranged behind the front assembling ejector rod 53, a front part supplying belt 55 is connected to the front part assembling sliding pipe 54, and the interior of the front part assembling sliding pipe 54 is communicated with the front part supplying belt 55;

the rear part assembling slide pipe 411 is fixedly connected to the side supporting plate 12 through a connecting rod, and the front part assembling slide pipe 54 is fixedly connected to the front assembling driving cylinder supporting rod 511 through a connecting rod.

As shown in fig. 3, the part clamping mechanism 60 includes a part clamping mechanism cylinder 61 fixedly connected to the equipment supporting frame 10, a fastening motor connecting rod 62 extending left and right is fixedly connected to a cylinder rod of the part clamping mechanism cylinder 61, a fastening motor 63 is fixedly connected to each of left and right ends of the fastening motor connecting rod 62, a fastening sleeve 64 is fixedly connected to an output shaft of the fastening motor 63, a fastening fit sleeve 45 is arranged at a position of the fastening sleeve 64 corresponding to a front-back mirror image of the component conveying belt 23, and a fixed connecting rod 46 is fixedly connected between the fastening fit sleeve 45 and the rear fit ejector rod connecting rod 43;

as shown in fig. 2, the front assembling driving cylinder 51 is fixedly connected to the top end of the front assembling driving cylinder support rod 511, and the part clamping mechanism cylinder 61 is fixedly connected to the top end of the part clamping mechanism cylinder support rod 611.

As shown in fig. 1, the end of the part conveying pipe 80 extends up and down and is placed at the position of the right part conveying belt wheel 32 close to the right side, the left side of the end of the part conveying pipe 80 is provided with an opening 81, and the right edge of the lower end of the part conveying pipe 80 is fixedly connected with an elastic supporting sheet 82;

as shown in fig. 3, the driving mechanism 90 includes a component conveying belt driving motor 91 and a part conveying belt driving motor 92 fixedly connected to the device supporting frame 10, an output shaft of the component conveying belt driving motor 91 is in transmission connection with the left component conveying belt wheel 21, and an output shaft of the part conveying belt driving motor 92 is in transmission connection with the left part conveying belt wheel 31.

Fixed connection is equipped with part drive pulley 911 on the output shaft of part conveyer belt driving motor 91, left side part conveyer belt 21 rear end fixed connection is equipped with part driven driving pulley 912, part drive pulley 911 with power connection is equipped with part driving belt 913 between the part driven driving pulley 912, fixed connection is equipped with part drive driving pulley 921 on the output shaft of part conveyer belt driving motor 92, left side part conveyer belt 31 rear end fixed connection is equipped with part driven driving pulley 922, part drive driving pulley 921 with power connection is equipped with part driving belt 923 between the part driven driving pulley 922.

The part conveyer belt driving motor 91 with the part conveyer belt driving motor 92 is servo motor, the part driving belt 913 with the part driving belt 923 is the hold-in range.

In the practical application process of the present invention, as shown in fig. 1, the elevator track roller support conveyed by the feeding conveyor 70 falls on the component conveyor belt 23, the component conveyor belt 23 runs counterclockwise, the elevator track roller support is limited between two adjacent positioning partitions 231, the track roller is conveyed in the component conveyor pipe 80, the component conveyor belt 33 runs clockwise, when the component clamping elastic sheet 331 on the component conveyor belt 33 passes through the opening 81, the component clamping elastic sheet 331 tightens the track roller at the opening 81 under the squeezing action of the clamping elastic sheet fastening limiting strip 16 and takes out the track roller, the track roller moves along with the component conveyor belt 33, when the elevator track roller support and the track roller move between the rear component assembly mechanism 40 and the front component assembly mechanism 50, as shown in fig. 2, the cylinder rod of the rear driving cylinder 42 retracts to drive the rear assembly ejector rod connecting rod 43 to move forward, the rear assembling ejector rod connecting rod 43 drives the rear assembling ejector rod 44 to move forwards, bolts are provided in the part supplying belt 41 in a conveying manner, only one bolt in each time falls into the rear part assembling sliding pipe 411, the rear assembling ejector rod 44 pushes out one bolt in the rear part assembling sliding pipe 411 forwards when moving forwards, the bolts penetrate through assembling holes in an elevator rail roller bracket and a rail roller after being pushed out forwards, the front head of the bolt extends out from the front side of the elevator rail roller bracket, the cylinder rod of the front assembling driving cylinder 51 extends out to drive the front assembling ejector rod connecting rod 52 to move backwards, the front assembling ejector rod connecting rod 52 drives the front assembling ejector rod 53 to move backwards, nuts are provided in the front part supplying belt 55 in a conveying manner, only one nut in each time falls into the front part assembling sliding pipe 54, the front assembling ejector rod 53 pushes out one nut in the front part assembling sliding pipe 54 backwards when moving backwards, the nut is ejected backwards and then sleeved at the front end of the bolt, the elevator track roller bracket provided with the track roller continuously moves on the component conveying belt 23, when the elevator rail roller moves between the part tightening mechanism 60 and the fastening matching sleeve 45, the fastening matching sleeve 45 moves forwards under the driving of the rear driving cylinder 42, the front end of the fastening matching sleeve 45 is pressed against the rear end of the bolt, the cylinder rod of the part tightening mechanism cylinder 61 retracts to drive the fastening motor 63 to move backwards through the fastening motor connecting rod 62, the fastening sleeve 64 on the output shaft of the fastening motor 63 moves backwards together, the rear end of the fastening sleeve 64 is pressed against the nut, the fastening motor 63 starts the output shaft of the fastening motor to drive the fastening sleeve 64 to rotate to fasten the nut on the bolt, the elevator rail roller which is assembled continues to move leftwards along with the component conveying belt 23, and then the elevator rail roller which is assembled is taken down from the component conveying belt 23.

Claims (6)

1. A part assembling device for assembling elevator accessories is characterized by comprising an equipment supporting frame (10), a part conveying mechanism (20) connected to the equipment supporting frame (10), a part conveying mechanism (30) arranged above the part conveying mechanism (20), a rear part assembling mechanism (40) arranged behind the part conveying mechanism (20), a front part assembling mechanism (50) arranged in front of the part conveying mechanism (20), a part tightening mechanism (60) arranged on the left side of the front part assembling mechanism (50), a feeding conveying belt (70) arranged on the right side of the part conveying mechanism (20), a part conveying pipe (80) arranged on the right side of the part conveying mechanism (30), and a driving mechanism (90) connected to the equipment supporting frame (10);

the component conveying mechanism (20) comprises a left component conveying belt wheel (21) and a right component conveying belt wheel (22) which are connected to the equipment support frame (10) in a rotating fit mode, the left component conveying belt wheel (21) and the right component conveying belt wheel (22) are in transmission connection through a component conveying belt (23), and a plurality of positioning partition plates (231) extending front and back are uniformly and fixedly connected to the component conveying belt (23);

the part conveying mechanism (30) comprises a left part conveying belt wheel (31) and a right part conveying belt wheel (32) which are connected to the equipment support frame (10) in a rotating fit mode, the left part conveying belt wheel (31) and the right part conveying belt wheel (32) are in transmission connection through a part conveying belt (33), a plurality of part clamping elastic sheets (331) are vertically and fixedly arranged on the part conveying belt (33), and two rows of part clamping elastic sheets (331) are uniformly arranged in an array mode;

the equipment support frame (10) is fixedly connected with a belt stabilizing support bar (15) extending leftwards and rightwards, the front side and the rear side of the lower end of the belt stabilizing support bar (15) are respectively and fixedly connected with clamping elastic sheet fastening limit bars (16) extending leftwards and rightwards, and the right end of each clamping elastic sheet fastening limit bar (16) extends to surround the right side of the right part conveying belt wheel (32) along the tangential direction of the part conveying belt (33);

the rear part assembling mechanism (40) comprises a rear driving cylinder (42) fixedly connected to the equipment supporting frame (10), a rear assembling ejector rod connecting rod (43) extending leftwards and rightwards is fixedly connected to a cylinder rod of the rear driving cylinder (42), a rear assembling ejector rod (44) extending forwards is respectively fixedly connected to the left end and the right end of the rear assembling ejector rod connecting rod (43), a rear part assembling sliding pipe (411) is arranged in front of the rear assembling ejector rod (44), a part supplying belt (41) is fixedly connected to the rear part assembling sliding pipe (411), and the interior of the rear part assembling sliding pipe (411) is communicated with the part supplying belt (41);

the front part assembling mechanism (50) comprises a front assembling driving cylinder (51) fixedly connected to the equipment supporting frame (10), a front assembling ejector rod connecting rod (52) extending left and right is fixedly connected to a cylinder rod of the front assembling driving cylinder (51), a front assembling ejector rod (53) extending backwards is respectively fixedly connected to the left end and the right end of the front assembling ejector rod connecting rod (52), a front part assembling sliding pipe (54) is arranged behind the front assembling ejector rod (53), a front part supplying belt (55) is connected to the front part assembling sliding pipe (54), and the interior of the front part assembling sliding pipe (54) is communicated with the front part supplying belt (55);

the part tightening mechanism (60) comprises a part tightening mechanism cylinder (61) fixedly connected to the equipment support frame (10), a tightening motor connecting rod (62) extending leftwards and rightwards is fixedly connected to a cylinder rod of the part tightening mechanism cylinder (61), a tightening motor (63) is fixedly connected to each of the left end and the right end of the tightening motor connecting rod (62), a tightening sleeve (64) is fixedly connected to an output shaft of the tightening motor (63), a tightening fit sleeve (45) is arranged at the position, corresponding to the front mirror image and the rear mirror image of the part conveying belt (23), of the tightening sleeve (64), and a fixed connecting rod (46) is fixedly connected between the tightening fit sleeve (45) and the rear fit ejector rod connecting rod (43);

the tail end of the part conveying pipe (80) extends up and down and is arranged at the position, close to the right side, of the right part conveying belt wheel (32), an opening (81) is formed in the left side of the tail end of the part conveying pipe (80), and an elastic supporting sheet (82) is fixedly connected to the right edge of the lower end of the tail end of the part conveying pipe (80);

the driving mechanism (90) comprises a component conveying belt driving motor (91) and a part conveying belt driving motor (92) which are fixedly connected to the equipment supporting frame (10), an output shaft of the component conveying belt driving motor (91) is in transmission connection with the left component conveying belt wheel (21), and an output shaft of the part conveying belt driving motor (92) is in transmission connection with the left part conveying belt wheel (31).

2. The component mounting apparatus for assembling an elevator accessory according to claim 1, wherein: the equipment support frame (10) comprises a support base (11), a position, close to the rear side, of the top of the support base (11) is fixedly connected with a side support plate (12) which extends upwards, the top of the side support plate (12) is fixedly connected with a left support column (13) and a right support column (14), a support bar connecting cross rod (151) is fixedly connected between the left support column (13) and the right support column (14), a support bar connecting longitudinal rod (152) which extends forwards is fixedly connected to the front end of the support bar connecting cross rod (151), a front assembly driving cylinder support rod (511) is fixedly connected to the upper end of the support base (11), and a part tightening mechanism cylinder support rod (611) is fixedly connected to the upper end of the support base (11);

the front end of the side supporting plate (12) is fixedly connected with a left component conveying belt wheel shaft (121) and a right component conveying belt wheel shaft (122) which are arranged in a bilateral symmetry mode, the left component conveying belt wheel (21) is connected to the left component conveying belt wheel shaft (121) in a rotating fit mode, and the right component conveying belt wheel (22) is connected to the right component conveying belt wheel shaft (122) in a rotating fit mode;

the front ends of the left supporting column (13) and the right supporting column (14) are respectively fixedly connected with a left part conveying belt wheel shaft (131) and a right part conveying belt wheel shaft (141), the left part conveying belt wheel (31) is rotationally matched on the left part conveying belt wheel shaft (131), and the right part conveying belt wheel (32) is rotationally matched on the right part conveying belt wheel shaft (141);

the belt stabilizing support bar (15) is fixedly connected to the front end of the support bar connecting longitudinal rod (152);

the bottom of the rear driving cylinder (42) is fixedly connected with a rear driving cylinder supporting rod (421), and the other end of the rear driving cylinder supporting rod (421) is fixedly connected to the top end of the side supporting plate (12);

the front assembly driving cylinder (51) is fixedly connected to the top end of the front assembly driving cylinder supporting rod (511), and the part tightening mechanism cylinder (61) is fixedly connected to the top end of the part tightening mechanism cylinder supporting rod (611).

3. The component mounting apparatus for assembling an elevator accessory according to claim 1, wherein: support bar (15) lower extreme is stabilized to belt has that the opening is down and control the belt that extends through and lead to groove (153), the belt leads to the groove (153) in front and back both sides wall respectively has belt support spout (1531), part conveyer belt (33) front and back terminal surface all fixed connection is equipped with a plurality of part conveyer belt spout support columns (332), part conveyer belt spout support column (332) are followed belt support spout (1531) slides and passes.

4. The component mounting apparatus for elevator accessory assembly according to claim 2, wherein: the rear part assembling sliding pipe (411) is fixedly connected to the side supporting plate (12) through a connecting rod, and the front part assembling sliding pipe (54) is fixedly connected to the front assembling driving cylinder supporting rod (511) through a connecting rod.

5. The component mounting apparatus for assembling an elevator accessory according to claim 1, wherein: fixed connection is equipped with part drive pulley (911) on the output shaft of part conveyer belt driving motor (91), left side part conveyer belt wheel (21) rear end fixed connection is equipped with the driven driving pulley of part (912), part drive pulley (911) with power connection is equipped with part driving belt (913) between the driven driving pulley of part (912), fixed connection is equipped with part drive pulley (921) on the output shaft of part conveyer belt driving motor (92), left side part conveyer belt wheel (31) rear end fixed connection is equipped with part driven driving pulley (922), part drive pulley (921) with power connection is equipped with part driving belt (923) between part driven driving pulley (922).

6. The component mounting apparatus for elevator accessory assembly according to claim 5, wherein: part conveyer belt driving motor (91) with part conveyer belt driving motor (92) are servo motor, part drive belt (913) with part drive belt (923) are the hold-in range.

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