CN210527583U

CN210527583U - Plate chain conveying equipment with tool

Info

Publication number: CN210527583U
Application number: CN201920999775.2U
Authority: CN
Inventors: 王振; 王昆; 张岳珅; 孙文美
Original assignee: Nanjing Mason Automation Technology Co Ltd
Current assignee: Nanjing Mason Automation Technology Co Ltd
Priority date: 2019-06-30
Filing date: 2019-06-30
Publication date: 2020-05-15
Anticipated expiration: 2029-06-30

Abstract

The utility model provides a take plate chain conveying equipment of frock, including two side braced frames, a bottom linking frame, two side baffles, driving motor, drive chain, material loading station photoelectric sensor, unloading station photoelectric sensor, proximity sensor, two conveyor chains, drive pivot and driven spindle. The plate chain conveying equipment utilizes the driving motor to drive the conveying plate chain to convey large-sized workpieces for station switching, excessive manual participation is not needed, and the manual burden is reduced; the support tool unit can be used for supporting the large workpiece, can be customized according to the shape and structure of the large workpiece, and has good use flexibility; the utility model has the advantages of utilize the station that has not only realized large-scale work piece to transport on the conveyer plate chain installation support frock unit, make things convenient for the workman to polish on the conveyer plate chain when polishing the station moreover.

Description

Plate chain conveying equipment with tool

Technical Field

The utility model relates to a plate chain conveying equipment, especially a plate chain conveying equipment of area frock.

Background

Along with the rapid upgrade and update of the automobile industry, after large-scale welding parts are welded through a welding workstation, manual work needs to participate in polishing and deburring the welded products, so that qualified welded products are obtained, and due to the fact that welding parts are diversified, the welding parts are different in overall dimension and the polishing points are drilled in a drilling mode, the polishing process is difficult to develop towards automation. This has provided very big requirement to the automatic transport of welding part, especially when needing the multistation to stop in transportation process and carry out operations such as artifical polishing, the manual polishing operation of putting on fixed frock platform is mainly carried to the manual work to current operating mode, and automatic transport mode is mainly for doubly fast chain transport supporting have frock and elevating gear or reciprocal slip table formula. But the recovery cost of a tool lifting device matched with a short-distance transportation medium plate chain conveying mode is too high, the cost of a sliding table type is too high, the reciprocating operation wastes working hours, and the complex maintenance process of equipment is relatively complicated; in addition, the traditional method is that polishing needs manual feeding and discharging on a fixed tooling table, so that great burden is brought to workers, and when large weldment is fed and discharged manually, variable factors are increased due to the fact that manual participation is increased, and the uniformity of product quality is lowered.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: the plate chain conveying equipment with the tool can realize stable transportation of large-scale welding parts, manual polishing operation can be conveniently carried out through the tool, manual conveying to a fixed tool table is not needed, and manual burden is reduced.

In order to realize the purpose of the utility model, the utility model provides a plate chain conveying device with a tool, which comprises two side supporting frames, a bottom connecting frame, two side baffles, a driving motor, a driving chain, a feeding station photoelectric sensor, a discharging station photoelectric sensor, a proximity sensor, two conveying chains, a driving rotating shaft and a driven rotating shaft; the two side supporting frames are vertically arranged on the left side and the right side of the bottom connecting frame; the two side baffles are respectively and vertically arranged on the upper side frames of the two side supporting frames; the opposite inner side surfaces of the two side baffles are transversely provided with transverse stay bars; the driving rotating shaft and the driven rotating shaft are both rotatably arranged between the two side baffles and are parallel to each other; driving chain wheels are fixedly arranged at the two end parts of the driving rotating shaft and the two end parts of the driven rotating shaft; the two conveying chains respectively surround the two driving chain wheels arranged on the left side and the two driving chain wheels arranged on the right side; each strip-shaped support buckle is transversely arranged between the two conveying chains arranged around the left side and the right side to form a conveying plate chain; supporting tool units for supporting large workpieces are arranged on the conveying plate chain at intervals; a rear side baffle is arranged between the rear end parts of the two side baffles, and a passing space for supporting the tool unit is reserved between the rear side baffle and the conveying plate chain; the driving motor drives the driving rotating shaft to rotate through the driving chain; the feeding station photoelectric sensor is fixedly arranged at the front end of the side baffle through a sensor bracket and used for detecting whether a large workpiece is fed in place; the blanking station photoelectric sensor is fixedly arranged on the rear side baffle through a sensor bracket and is used for detecting whether a large workpiece is blanked in place; the proximity sensor is installed at the front end of the side baffle through the side support and used for accurately positioning the supporting tool unit.

Furthermore, longitudinal support rods are longitudinally arranged on the transverse support rods; the upper side surface of the longitudinal support rod is provided with a nylon support strip; the lower side surface of the strip-shaped support buckle plate on the upper layer of the conveying plate chain is supported on the nylon support bars.

Further, the supporting tool unit comprises two left side supporting tools, three middle supporting tools and four right side supporting tools; the left side supporting tool is composed of a left side supporting upright post and supporting cushion blocks arranged at the top end of the left side supporting upright post, and two supporting cushion blocks are arranged at the same height at the top end of one left side supporting upright post through a horizontal supporting plate; the middle supporting tool is composed of a middle supporting upright post and a supporting cushion block arranged at the top end of the middle supporting upright post; the right side supporting tool is composed of a right side supporting upright post and a supporting cushion block arranged at the top end of the right side supporting upright post; the left supporting upright post is arranged on the left side edge of the conveying plate chain and is vertical to the strip-shaped supporting buckle plate; the right supporting upright post is arranged on the right side edge of the conveying plate chain and is vertical to the strip-shaped supporting buckle plate; the middle supporting upright post is arranged on the conveying plate chain in the middle of the supporting tool unit and is vertical to the strip-shaped supporting buckle plate; the height of the left supporting upright post is higher than that of the middle supporting upright post, and the height of the middle supporting upright post is higher than that of the right supporting upright post.

Furthermore, support feet with adjustable heights are arranged below the left side edge and the right side edge of the bottom connecting frame at intervals.

Further, the supporting bottom feet comprise supporting bottom plates, vertical adjusting screws and adjusting nuts; the supporting bottom plate is provided with a fixed mounting hole and a supporting body; an insertion hole is vertically formed in the support body, and the lower end of the vertical adjusting screw rod is inserted into the insertion hole; the upper end of the vertical adjusting screw rod is fixedly arranged on the bottom connecting frame; the adjusting nut is screwed on the vertical adjusting screw rod; the lower side surface of the adjusting nut is supported on the opening of the insertion hole.

Further, the driving motor is arranged on the side edge of the side edge supporting frame through the motor bracket; the motor support is provided with a motor reducer; the driving motor is used for driving the motor reducer to rotate, and the motor reducer drives the driving rotating shaft to rotate through the driving chain.

Furthermore, the shaft heads at two ends of the driving rotating shaft are rotatably arranged on the side baffle through fixed shaft head supports; the shaft heads at two ends of the driven rotating shaft are rotatably arranged on the side baffle through adjustable shaft head supports; the adjustable spindle nose support comprises a fixed seat, a longitudinal adjusting screw, a sliding seat and two sliding rails; a strip-shaped adjusting hole is formed in the side baffle at the mounting position of the adjustable spindle nose support; the fixed seat is fixedly arranged on the side baffle and is provided with a screw through hole; the two sliding rails are arranged on the upper side and the lower side of the strip-shaped adjusting hole in parallel; the upper side and the lower side of the sliding seat are respectively arranged in the sliding grooves of the upper sliding track and the lower sliding track in a sliding way; one end of the longitudinal adjusting screw rod is fixedly arranged on the sliding seat, and the other end of the longitudinal adjusting screw rod penetrates through the screw rod through hole; two clamping nuts are screwed on the longitudinal adjusting screw rod in a threaded manner and are positioned on the front side and the rear side of the fixed seat; the end part of the shaft head of the driven rotating shaft penetrates through the strip-shaped adjusting hole and then is rotatably installed on the sliding seat.

Furthermore, a reinforcing edge strip is arranged on the lower side edge of the side baffle; the reinforcing edge strips are fixedly arranged on the upper side frame of the side supporting frame; the reinforcing edge strips are fixedly installed with the side baffle through the strip-shaped reinforcing plates.

Furthermore, the side supporting frame is a rectangular frame formed by combining a vertical frame rod and a transverse frame rod; a side reinforcing plate is vertically and fixedly arranged at the top end of the vertical frame rod; the lateral side baffle and the outer lateral side of the reinforcing edge strip are fixedly arranged on the lateral side reinforcing plate.

The beneficial effects of the utility model reside in that: the driving motor is used for driving the conveying plate chain to convey large-sized workpieces for station switching, excessive manual participation is not needed, and the manual burden is reduced; the support tool unit can be used for supporting the large workpiece, can be customized according to the shape and structure of the large workpiece, and has good use flexibility; the utility model has the advantages of utilize the station that has not only realized large-scale work piece to transport on the conveyer plate chain installation support frock unit, make things convenient for the workman to polish on the conveyer plate chain when polishing the station moreover.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional view taken along line A-A of FIG. 1;

fig. 3 is a schematic view of the structure of the supporting footing of the present invention.

Detailed Description

The technical solution of the present invention will be described in detail with reference to the accompanying drawings, but the scope of the present invention is not limited to the embodiments.

Example 1:

as shown in fig. 1-3, the utility model discloses a take plate chain conveying equipment of frock includes: the device comprises two side supporting frames 1, a bottom connecting frame 2, two side baffles 5, a driving motor 40, a driving chain 42, a feeding station photoelectric sensor 25, a discharging station photoelectric sensor 18, a proximity sensor 24, two conveying chains 10, a driving rotating shaft 9 and a driven rotating shaft 14; the two side supporting frames 1 are vertically arranged on the left side and the right side of the bottom connecting frame 2; the two side baffles 5 are respectively vertically arranged on the upper side frames of the two side supporting frames 1; the opposite inner side surfaces of the two side baffles 5 are transversely provided with transverse support rods 35; the driving rotating shaft 9 and the driven rotating shaft 14 are both rotatably arranged between the two side baffles 5, and the driving rotating shaft 9 and the driven rotating shaft 14 are parallel to each other; driving sprockets 38 are fixedly mounted on both ends of the driving shaft 9 and both ends of the driven shaft 14; the two conveying chains 10 respectively surround the two driving sprockets 38 arranged on the left side and the two driving sprockets 38 arranged on the right side; each strip-shaped support buckle plate 19 is transversely arranged between the two conveying chains 10 which are arranged around the left side and the right side to form a conveying plate chain; supporting tool units for supporting large workpieces are arranged on the conveying plate chain at intervals; a rear side baffle 27 is arranged between the rear end parts of the two side baffles 5, and a passing space for supporting the tool unit is reserved between the rear side baffle 27 and the conveying plate chain; the driving motor 40 drives the driving rotating shaft 9 to rotate through the driving chain 42; the feeding station photoelectric sensor 25 is fixedly arranged at the front end of the side baffle 5 through a sensor bracket 17 and is used for detecting whether a large workpiece is fed in place; the blanking station photoelectric sensor 18 is fixedly arranged on the rear side baffle 27 through the sensor bracket 17 and is used for detecting whether a large workpiece is blanked in place; the proximity sensor 24 is mounted at the front end of the side baffle 5 through the side bracket 23 and used for accurately positioning the supporting tool unit. The support tool unit can be used for supporting the large workpiece, can be customized according to the shape and structure of the large workpiece, and has good use flexibility; the supporting tool units are arranged on the conveying plate chain, so that station transfer of large workpieces is realized, and workers can conveniently polish the conveying plate chain when polishing stations; the structural strength between the two side guards 5 can be enhanced by the rear side guard 27, preventing the side guard 5 from inclining outward for a long time.

Further, a longitudinal stay 36 is longitudinally provided on each transverse stay 35; a nylon support bar 37 is arranged on the upper side surface of the longitudinal support bar 36; the underside of the strip-shaped support gusset 19 on the upper layer of the conveyor chain is supported on nylon support bars 37. The nylon support bars 37 arranged on the longitudinal support rods 36 can be used for slidably supporting the strip-shaped support buckle plates 19, so that the support requirement of large-sized workpieces can be met.

Further, the supporting tool unit comprises two left side supporting tools, three middle supporting tools and four right side supporting tools; the left side supporting tool is composed of a left side supporting upright post 20 and supporting cushion blocks 21 arranged at the top end of the left side supporting upright post 20, and two supporting cushion blocks 21 are arranged at the same height at the top end of one left side supporting upright post 20 through a horizontal supporting plate 22; the middle supporting tool is composed of a middle supporting upright column 33 and a supporting cushion block 21 arranged at the top end of the middle supporting upright column 33; the right side supporting tool is composed of a right side supporting upright column 34 and a supporting cushion block 21 arranged at the top end of the right side supporting upright column 34; the left supporting upright post 20 is arranged on the left side edge of the conveying plate chain and is vertical to the strip-shaped supporting buckle plate 19; the right supporting upright column 34 is arranged on the right side edge of the conveying plate chain and is vertical to the strip-shaped supporting buckle plate 19; the middle supporting upright column 33 is arranged on the conveying plate chain in the middle of the supporting tool unit and is vertical to the strip-shaped supporting buckle plate 19; the left support column 20 is higher than the middle support column 33, and the middle support column 33 is higher than the right support column 34. And the L-shaped positioning plate 26 is arranged on the right supporting upright post 34, and when the L-shaped positioning plate 26 runs to the position above the proximity sensor 24, the proximity sensor 24 realizes the accurate positioning of the supporting tool unit by detecting the L-shaped positioning plate 26. The supporting cushion block 21 is used for supporting a large workpiece in a contact manner, and the product can be protected by adopting an aluminum material to prevent the product from being scratched. When the supporting columns are installed, the corresponding number of the supporting columns and the supporting columns with the corresponding heights can be set according to the actual shape and structure of the product.

Further, support feet 7 with adjustable height are arranged below the left side edge and the right side edge of the bottom connecting frame 2 at intervals.

Further, the support foot 7 comprises a support bottom plate 28, a vertical adjusting screw 31 and an adjusting nut 30; the support base plate 28 is provided with a fixing mounting hole 32 and a support body 29; an insertion hole is vertically formed in the support body 29, and the lower end of the vertical adjusting screw 31 is inserted into the insertion hole; the upper end of the vertical adjusting screw 31 is fixedly arranged on the bottom connecting frame 2; the adjusting nut 30 is screwed on the vertical adjusting screw 31; the lower side of the adjusting nut 30 is supported on the opening of the insertion opening. The support footing 7 is conveniently and fixedly installed by using the fixing installation hole 32; by the installation and matching of the adjusting nut 30 and the vertical adjusting screw 31, the extending length of the vertical adjusting screw 31 can be conveniently adjusted, so that the supporting height can be adjusted.

Further, a driving motor 40 is mounted on the side of the side support frame 1 through a motor bracket 39; the motor bracket 39 is provided with a motor reducer 41; the driving motor 40 is used for driving the motor reducer 41 to rotate, and the motor reducer 41 drives the driving rotating shaft 9 to rotate through the driving chain 42.

Furthermore, shaft heads at two ends of the driving rotating shaft 9 are rotatably arranged on the side baffle 5 through fixed shaft head supports 8; the two end shaft heads of the driven rotating shaft 14 are rotatably arranged on the side baffle 5 through adjustable shaft head supports; the adjustable spindle nose support comprises a fixed seat 11, a longitudinal adjusting screw 15, a sliding seat 13 and two sliding rails 12; a strip-shaped adjusting hole is formed in the side baffle 5 at the mounting position of the adjustable shaft head support; the fixed seat 11 is fixedly arranged on the side baffle 5, and a screw rod through hole is arranged on the fixed seat 11; the two sliding rails 12 are arranged on the upper side and the lower side of the strip-shaped adjusting hole in parallel; the upper side and the lower side of the sliding seat 13 are respectively arranged in the sliding grooves of the upper sliding track 12 and the lower sliding track 12 in a sliding way; one end of a longitudinal adjusting screw 15 is fixedly arranged on the sliding seat 13, and the other end of the longitudinal adjusting screw penetrates through the screw through hole; two clamping nuts 16 are screwed on the longitudinal adjusting screw 15, and the two clamping nuts 16 are positioned on the front side and the rear side of the fixed seat 11; the end part of the shaft head of the driven rotating shaft 14 penetrates through the strip-shaped adjusting hole and then is rotatably arranged on the sliding seat 13. The distance between the driven rotating shaft 14 and the driving rotating shaft 9 can be adjusted by using the adjustable shaft head support, so that the tightening state of the two conveying chains 10 can be adjusted.

Furthermore, a reinforcing edge strip 3 is arranged on the lower side edge of the side baffle 5; the reinforcing edge strips 3 are fixedly arranged on the upper side frame of the side supporting frame 1; the reinforcing edge strips 3 are fixedly installed with the side baffle 5 through the strip-shaped reinforcing plates 4. The structural strength of the lower side of the side wall 5 can be enhanced by the reinforcing edge strips 3.

Further, the side supporting frame 1 is a rectangular frame formed by combining a vertical frame rod and a transverse frame rod; a side reinforcing plate 6 is vertically and fixedly arranged at the top end of the vertical frame rod; the lateral side of the side baffle 5 and the lateral side of the reinforcing edge strip 3 are both fixedly arranged on the lateral side reinforcing plate 6. Utilize side reinforcing plate 6 can effectively strengthen the structural strength of side baffle 5, prevent that long-term back side baffle 5 from taking place to incline.

The utility model discloses a plate chain conveying equipment with a tool, which is used by matching with the existing control cabinet, wherein the control cabinet is provided with a control button, and the control button is manually used for controlling the start and stop work of a driving motor 40; the loading station photoelectric sensor 25, the unloading station photoelectric sensor 18 and the proximity sensor 24 are used for positioning monitoring and are simultaneously sent to the control cabinet, so that the driving motor 40 is automatically controlled.

When the plate chain conveying equipment with the tooling is used, three stations, namely a feeding station, a polishing station and a discharging station, can be reserved on the conveying plate chains of the upper layer and the lower layer; automatic production or welded product are put to the material loading station by robotic arm, and the manual work is opened through the switch board and is stopped driving motor 40 to carry to the station of polishing, the manual work is polished and is detected the completion back, and the manual work is opened through the switch board and is stopped driving motor 40, thereby carries to the unloading station, and unloading station manual work cooperation hoist and mount are hoisted the unloading, and six station circulative operation can realize polishing the operation in succession.

The feeding station photoelectric sensor 25 is arranged at the feeding station and used for detecting that products are in place so as to allow manual work to switch and operate to the polishing station through the control cabinet, the proximity sensor 24 is arranged for accurately detecting that the tool is in place, and the discharging station photoelectric sensor 18 is arranged at the discharging station and used for detecting that the products on the discharging station are away so as to allow the stations to operate to the lower-layer conveying plate chain.

When different products are operated, only corresponding supporting tool units are arranged on the conveying plate chain, and the supporting cushion blocks 21 are structural members made of AL7075 aluminum materials, so that the products are protected necessarily, and the products are prevented from being scratched.

The utility model discloses a take plate chain conveying equipment of frock's beneficial effect lies in: the limitation of positioning a single plate by a conventional tool is broken, and the positioning plate is divided into a plurality of strip-shaped supporting buckle plates 19 to complete positioning and installation of the whole tool; the existing conveying mode is combined, the speed-multiplying chain type tool position is optimally designed on the conveying plate chain, so that the conventional low-cost conveyor has the advantage of variable tool positions, and the equipment cost and the later equipment maintenance difficulty are greatly reduced; the weldment is put on fixed frock with reasonable form according to the design, optimizes the frock design, leaves reasonable operating space for manual operation, guarantees the manual consistency of polishing each product position in succession, reduces artifical intensity of labour, promotes product quality.

As mentioned above, although the present invention has been shown and described with reference to certain preferred embodiments, it should not be construed as limiting the invention itself. Various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a take plate chain conveying equipment of frock which characterized in that: the device comprises two side supporting frames (1), a bottom connecting frame (2), two side baffles (5), a driving motor (40), driving chains (42), a feeding station photoelectric sensor (25), a discharging station photoelectric sensor (18), a proximity sensor (24), two conveying chains (10), a driving rotating shaft (9) and a driven rotating shaft (14); the two side supporting frames (1) are vertically arranged on the left side and the right side of the bottom connecting frame (2); the two side baffles (5) are respectively and vertically arranged on the upper side frames of the two side supporting frames (1); the opposite inner sides of the two side baffles (5) are transversely provided with transverse support rods (35); the driving rotating shaft (9) and the driven rotating shaft (14) are rotatably arranged between the two side baffles (5), and the driving rotating shaft (9) and the driven rotating shaft (14) are parallel to each other; driving chain wheels (38) are fixedly arranged at both ends of the driving rotating shaft (9) and both ends of the driven rotating shaft (14); the two conveying chains (10) respectively surround the two driving chain wheels (38) arranged on the left side and the two driving chain wheels (38) arranged on the right side; each strip-shaped support buckle (19) is transversely arranged between the two conveying chains (10) which are arranged around the left side and the right side to form a conveying plate chain; supporting tool units for supporting large workpieces are arranged on the conveying plate chain at intervals; a rear side baffle (27) is arranged between the rear end parts of the two side baffles (5), and a passing space for supporting the tool unit is reserved between the rear side baffle (27) and the conveying plate chain; the driving motor (40) drives the driving rotating shaft (9) to rotate through the driving chain (42); a feeding station photoelectric sensor (25) is fixedly arranged at the front end of the side baffle (5) through a sensor bracket (17) and is used for detecting whether a large workpiece is fed in place; a blanking station photoelectric sensor (18) is fixedly arranged on the rear side baffle (27) through a sensor bracket (17) and is used for detecting whether a large workpiece is blanked in place; the proximity sensor (24) is installed at the front end of the side baffle (5) through the side bracket (23) and used for accurately positioning the supporting tool unit.

2. The plate chain conveying equipment with the tooling of claim 1, wherein: longitudinal support rods (36) are longitudinally arranged on the transverse support rods (35); a nylon support bar (37) is arranged on the upper side surface of the longitudinal support bar (36); the lower side surface of a strip-shaped support buckle plate (19) on the upper layer of the conveying plate chain is supported on a nylon support strip (37).

3. The plate chain conveying equipment with the tooling of claim 1, wherein: the supporting tool unit comprises two left side supporting tools, three middle supporting tools and four right side supporting tools; the left side supporting tool is composed of a left side supporting upright post (20) and supporting cushion blocks (21) arranged at the top end of the left side supporting upright post (20), and two supporting cushion blocks (21) are arranged at the same height at the top end of one left side supporting upright post (20) through a horizontal supporting plate (22); the middle supporting tool is composed of a middle supporting upright post (33) and a supporting cushion block (21) arranged at the top end of the middle supporting upright post (33); the right side supporting tool is composed of a right side supporting upright post (34) and a supporting cushion block (21) arranged at the top end of the right side supporting upright post (34); the left supporting upright post (20) is arranged on the left side edge of the conveying plate chain and is vertical to the strip-shaped supporting buckle plate (19); the right supporting upright post (34) is arranged on the right side edge of the conveying plate chain and is vertical to the strip-shaped supporting buckle plate (19); the middle supporting upright post (33) is arranged on the conveying plate chain in the middle of the supporting tool unit and is vertical to the strip-shaped supporting buckle plate (19); the height of the left supporting upright (20) is higher than that of the middle supporting upright (33), and the height of the middle supporting upright (33) is higher than that of the right supporting upright (34).

4. The plate chain conveying equipment with the tooling of claim 1, wherein: supporting feet (7) with adjustable height are arranged below the left side edge and the right side edge of the bottom connecting frame (2) at intervals.

5. The plate chain conveying equipment with the tooling of claim 4, wherein: the supporting foot (7) comprises a supporting bottom plate (28), a vertical adjusting screw rod (31) and an adjusting nut (30); a fixed mounting hole (32) and a support body (29) are arranged on the support bottom plate (28); an insertion hole is vertically formed in the support body (29), and the lower end of the vertical adjusting screw rod (31) is inserted into the insertion hole; the upper end of the vertical adjusting screw rod (31) is fixedly arranged on the bottom connecting frame (2); the adjusting nut (30) is screwed on the vertical adjusting screw rod (31); the lower side of the adjusting nut (30) is supported on the opening of the insertion opening.

6. The plate chain conveying equipment with the tooling of claim 1, wherein: the driving motor (40) is arranged on the side edge of the side edge supporting frame (1) through the motor bracket (39); the motor support (39) is provided with a motor reducer (41); the driving motor (40) is used for driving the motor reducer (41) to rotate, and the motor reducer (41) drives the driving rotating shaft (9) to rotate through the driving chain (42).

7. The plate chain conveying equipment with the tooling of claim 1, wherein: the shaft heads at two ends of the driving rotating shaft (9) are rotatably arranged on the side baffle (5) through fixed shaft head supports (8); the shaft heads at two ends of the driven rotating shaft (14) are rotatably arranged on the side baffle (5) through adjustable shaft head supports; the adjustable shaft head support comprises a fixed seat (11), a longitudinal adjusting screw (15), a sliding seat (13) and two sliding rails (12); a strip-shaped adjusting hole is formed in the side baffle (5) at the mounting position of the adjustable shaft head support; the fixed seat (11) is fixedly arranged on the side baffle (5), and a screw rod through hole is formed in the fixed seat (11); two sliding rails (12) are arranged on the upper side and the lower side of the strip-shaped adjusting hole in parallel; the upper side and the lower side of the sliding seat (13) are respectively arranged in the sliding grooves of the upper sliding track and the lower sliding track (12) in a sliding way; one end of a longitudinal adjusting screw rod (15) is fixedly arranged on the sliding seat (13), and the other end of the longitudinal adjusting screw rod penetrates through the screw rod through hole; two clamping nuts (16) are screwed on the longitudinal adjusting screw rod (15) in a threaded manner, and the two clamping nuts (16) are positioned on the front side and the rear side of the fixed seat (11); the end part of the shaft head of the driven rotating shaft (14) penetrates through the strip-shaped adjusting hole and then is rotatably arranged on the sliding seat (13).

8. The plate chain conveying equipment with the tooling of claim 1, wherein: a reinforcing edge strip (3) is arranged on the lower side edge of the side edge baffle (5); the reinforcing edge strips (3) are fixedly arranged on the upper side frame of the side supporting frame (1); the reinforcing edge strips (3) are fixedly arranged with the side baffle (5) through strip-shaped reinforcing plates (4).

9. The plate chain conveying equipment with the tooling of claim 8, wherein: the side supporting frame (1) is a rectangular frame formed by combining a vertical frame rod and a transverse frame rod; a side edge reinforcing plate (6) is vertically and fixedly arranged at the top end of the vertical frame rod; the outer side surfaces of the side baffle (5) and the reinforcing edge strips (3) are fixedly arranged on the side reinforcing plate (6).