CN218904697U - Edge washing equipment - Google Patents

Abstract

The utility model discloses edge washing equipment which comprises a rack, a positioning group, a synchronous rotating mechanism, a displacement group and a plurality of edge washing groups. The positioning group is provided with a carrier plate, a first power part and a positioning component; the synchronous rotating mechanism is provided with a synchronous source and a plurality of groups of carrier components which are in driving connection with the synchronous source, and the carrier components are linearly distributed and are arranged at equal intervals; the displacement group is used for grabbing products positioned at the feeding station onto the carrier assembly, the multiple groups of edge washing groups are arranged on the frame and are arranged one to one with the multiple groups of carrier assemblies, the displacement group is provided with an edge grinding wheel set and a third power part in driving connection with the edge grinding wheel set, and the third power part can drive the edge grinding wheel set to move to the vicinity of the carrier assembly. The edge washing equipment adopts a linear feeding and material shifting mode, so that the occupied space of the edge washing equipment is small. The edge washing equipment can finish edge washing actions with high efficiency and high quality, and improves the production efficiency and the processing quality of products.

Description

Edge washing equipment

Technical Field

The utility model relates to edge washing equipment, in particular to equipment capable of washing edges of the mouths of pottery and porcelain.

Background

The opening of pottery or porcelain is generally subjected to edge washing treatment.

The traditional edge washing machine comprises an edge grinding wheel set, a power part on the edge grinding wheel set drives an edge grinding wheel to rotate, an operator washes edges through a handheld pottery or porcelain, and the manual edge washing operation is low in efficiency and high in reject ratio.

With the progress of technology, the edge washing equipment of carousel formula material loading has appeared, this edge washing equipment includes carousel group, material loading group, edge washing group and unloading group, material loading group and edge washing group, the unloading group is located on the corresponding station of carousel group, material loading group goes up earlier, make the product put in the material loading station of carousel, the carousel rotates an angle, make the product of material loading station department change to the edge washing station, the edge washing group washes the product of edge washing station department, after the edge washing is accomplished, the carousel rotates an angle again, make the product that the edge washing was accomplished change to the unloading station, the unloading of unloading station department is carried out to the unloading group, the product edge washing is accomplished.

The rotary disc type feeding and edge washing equipment has the following defects:

1. the rotary disc type feeding and edge washing equipment occupies a larger working place.

2. Due to the rotation action of the turntable, the products on the carrier are easy to form centrifugal action and fall off.

Accordingly, there is a need for improvements over conventional edge washing equipment.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model aims to provide the edge washing equipment which is designed to occupy small space and prevent products from shaking.

In order to solve the technical problems, the utility model is realized by the following scheme: the utility model relates to edge washing equipment, which comprises a rack and further comprises:

the positioning group is arranged on the frame and is positioned at the feeding station, and is provided with a carrier plate for supporting products, a first power part in driving connection with the carrier plate and a plurality of positioning members arranged in the moving direction of the carrier plate;

the synchronous rotating mechanism is arranged on the frame and is provided with a synchronous source and a plurality of groups of carrier components in driving connection with the synchronous source, and the carrier components are linearly distributed and are arranged at equal intervals;

the displacement group is used for grabbing the positioned product at the feeding station onto the carrier assembly, is arranged on the frame and is provided with a second power part, a lifting mechanism in driving connection with the second power part, a bracket in driving connection with the lifting mechanism and a plurality of grabbing devices which are equidistantly arranged on the bracket and are in linear distribution, and the center distance between every two adjacent grabbing devices is equal to the center distance between every two adjacent carrier assemblies;

the edge washing sets are arranged on the frame and are arranged with the carrier assemblies in one-to-one mode, each edge washing set is provided with an edge grinding wheel set and a third power part in driving connection with the edge grinding wheel set, and the third power part can drive the edge grinding wheel set to move to the vicinity of the carrier assembly.

Further, the first power part is a first X-axis air cylinder, and the first X-axis air cylinder is horizontally arranged on the carrier plate in driving connection;

the positioning member comprises a positioning bracket and a positioning sheet arranged on the positioning bracket, and a positioning notch is formed in the direction of the positioning sheet towards the carrier plate.

Further, the synchronous source is a rotating motor which is connected with each carrier component through a synchronous belt group.

Further, a plurality of tensioning guide wheels are mounted on the frame and act on the belt of the synchronous belt group to tension the belt.

Further, the number of the plurality of sets of carrier assemblies is a multiple of the number of the positioning members.

Further, the carrier assembly comprises a driven synchronous wheel rotatably mounted on the frame, a rotating shaft connected with the driven synchronous wheel, and a rotating disc mounted at the upper end of the rotating shaft and used for bearing the product, wherein the upper part of the rotating shaft is rotatably arranged on a mounting plate in a penetrating manner.

Further, the second power section includes:

the Y-axis motor is arranged on a supporting frame through a motor seat, the supporting frame is fixedly arranged on the frame, and a double-row guide rail is arranged on one side of the supporting frame;

the Y-axis screw rod is in driving connection with the Y-axis motor, and is rotatably arranged on the beam at the upper part of the support frame, and a nut is screwed on the Y-axis screw rod;

the sliding plate is in sliding connection with the double-row guide rail through a sliding block and is fixed with the screw cap;

the lifting mechanism comprises:

the lifting cylinder is arranged on the sliding plate through a cylinder seat, the cylinder seat is provided with a guide rod through hole, and the lifting cylinder is in driving connection with the bracket;

at least one guide rod, one end of which is fixed on the bracket, and the rod body of which is movably arranged through the guide rod via hole.

Further, the third power part comprises a second X-axis cylinder fixed on the frame and a side washing machine seat in driving connection with the second X-axis cylinder, the side washing machine seat is connected to two guide rails in a sliding way through a sliding block, and the two guide rails are arranged on the frame through a guide rail seat;

the edging wheel set is arranged on the edging machine base and comprises an edging wheel and a fourth power part for driving the edging wheel to rotate.

Still further, the edge washing group further comprises an XZ axis manual adjusting mechanism for adjusting the position of the edge grinding wheel unit.

Still further, the XZ axis manual adjustment mechanism includes:

the mounting seat is fixed on the edge washing machine seat;

the Z-axis screw rod is rotatably arranged on the mounting seat;

the Z-axis guide posts are fixedly arranged on the mounting seat and are respectively arranged at two sides of the Z-axis screw rod, the upper ends of the two Z-axis guide posts are connected through a connecting plate, and the upper end of the Z-axis screw rod passes through the connecting plate;

the Z-axis sliding seat is sleeved on the two Z-axis guide posts and is in threaded connection with the Z-axis screw rod;

the Z-axis rotating handle is fixed with the upper end of the Z-axis screw rod;

the side plates are connected with the Z-axis sliding seat in a side-by-side manner;

an X-axis screw rod rotatably arranged on the side plate;

the X-axis guide post is fixed on the side plate;

the X-axis sliding seat is in threaded connection with the X-axis screw rod and movably sleeved on the X-axis guide post;

an X-axis rotating handle is fixed with one end of the X-axis screw rod;

the edge grinding wheel set mounting plate is laterally fixed on the X-axis sliding seat, and the edge grinding wheel set is mounted on the edge grinding wheel set mounting plate.

Compared with the prior art, the utility model has the beneficial effects that:

1. the edge washing equipment adopts a linear feeding and material shifting mode, so that the occupied space of the edge washing equipment is small.

2. The edge washing equipment can finish edge washing actions with high efficiency and high quality, and improves the production efficiency and the processing quality of products.

Drawings

Fig. 1 is a perspective view of the edge washing apparatus of the present utility model.

Fig. 2 is a block diagram of the positioning group of the present utility model.

Fig. 3 is a structural view of the synchronous rotating mechanism of the present utility model.

Fig. 4 is a block diagram of a displacement set according to the present utility model.

FIG. 5 is a block diagram of the edge washer of the present utility model.

FIG. 6 is a block diagram of the XZ axis manual adjustment mechanism of the present utility model.

The reference numerals in the drawings: the device comprises a frame 1, a positioning group 2, a product 3, a washing edge group 4, a displacement group 5, a finished product conveying line 6, a synchronous rotating mechanism 7, a positioning sheet 21, a first power part 22, a carrier plate 23, a photoelectric sensor 24, a second X-axis cylinder 41, a slag collecting disc 42, a guide rail 43, an edging wheel 44, an XZ-axis manual adjusting mechanism 45, a fourth power part 46, a support frame 51, a grabbing device 52, a sliding plate 53, a support frame 54, a guide rod 55, a lifting cylinder 57, a Y-axis motor 58, a Y-axis screw 59, a passive synchronous wheel 71, a synchronous source 72, a tensioning guide wheel 73, a synchronous belt group 74, a turntable 75, a rotating shaft 76, a mounting plate 77, a Z-axis screw 451, a Z-axis guide post 452, a Z-axis positioning handle 453, an X-axis rotating handle 454, an X-axis screw 455, an X-axis sliding seat 456, a Z-axis rotating handle 457, an X-axis positioning handle 458 and a Z-axis sliding seat 459.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described in the following with reference to the drawings in the embodiments of the present utility model, so that the advantages and features of the present utility model can be more easily understood by those skilled in the art, and thus the protection scope of the present utility model is more clearly and clearly defined. In addition, the technical features of the different embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

Example 1: the specific structure of the utility model is as follows:

referring to fig. 1-6, the edge washing apparatus of the present utility model includes a frame 1, and further includes:

the positioning group 2 is arranged on the frame 1 and is positioned at a feeding station, and the positioning group 2 is provided with a carrier plate 23 for supporting the product 3, a first power part 22 in driving connection with the carrier plate 23 and a plurality of positioning members arranged in the moving direction of the carrier plate 23;

the synchronous rotating mechanism 7 is arranged on the frame 1, and the synchronous rotating mechanism 7 is provided with a synchronous source 72 and a plurality of groups of carrier components which are in driving connection with the synchronous source 72, wherein the carrier components are linearly distributed and are arranged at equal intervals;

the displacement group 5 is used for grabbing the positioned product 3 at the feeding station onto the carrier assembly, the displacement group 5 is arranged on the frame 1 and is provided with a second power part, a lifting mechanism in driving connection with the second power part, a bracket 54 in driving connection with the lifting mechanism, and a plurality of grabbing devices 52 which are equidistantly arranged on the bracket 54 and are in linear distribution, and the center distance between every two adjacent grabbing devices 52 is equal to the center distance between every two adjacent carrier assemblies;

the edge washing groups 4 are arranged on the frame 1 and are arranged one by one with the carrier assemblies, and the edge washing groups 4 are provided with edge grinding wheel sets and third power parts in driving connection with the edge grinding wheel sets, and the third power parts can drive the edge grinding wheel sets to move to the vicinity of the carrier assemblies.

A preferred technical scheme of the embodiment is as follows: the first power part 22 is a first X-axis cylinder, and the first X-axis cylinder is arranged horizontally on the carrier plate 23 in driving connection;

the positioning member comprises a positioning bracket and a positioning sheet 21 arranged on the positioning bracket, wherein a positioning notch is arranged in the direction of the positioning sheet 21 towards the carrier plate 23.

A preferred technical scheme of the embodiment is as follows: the synchronization source 72 is a rotating electrical machine that is connected to each carrier assembly by a synchronization belt set 74.

A preferred technical scheme of the embodiment is as follows: a plurality of tensioning rollers 73 are mounted on the frame 1, and the tensioning rollers 73 act on the belt of the synchronous belt group 74 to tension the belt.

A preferred technical scheme of the embodiment is as follows: the number of the plurality of sets of carrier assemblies is a multiple of the number of the positioning members.

A preferred technical scheme of the embodiment is as follows: the carrier assembly comprises a driven synchronous wheel 71 rotatably mounted on the frame 1, a rotary shaft 76 connected with the driven synchronous wheel 71, and a rotary table 75 mounted at the upper end of the rotary shaft 76 and used for bearing the product 3, wherein the upper part of the rotary shaft 76 is rotatably arranged on a mounting plate 77 in a penetrating manner.

A preferred technical scheme of the embodiment is as follows: the second power section includes:

the Y-axis motor 58 is arranged on the supporting frame 51 through a motor seat, the supporting frame 51 is fixedly arranged on the frame 1, and a double-row guide rail is arranged on one side of the supporting frame;

the Y-axis screw rod 59 is in driving connection with the Y-axis motor 58, the Y-axis screw rod 59 is rotatably arranged on the upper cross beam of the support frame 51, and a nut is screwed on the Y-axis screw rod 59;

a sliding plate 53 slidably connected to the double-row guide rail through a sliding block, and the sliding plate 53 is fixed with the nut;

the lifting mechanism comprises:

a lifting cylinder 57 mounted on the slide plate 53 through a cylinder block having a guide rod via hole, the lifting cylinder 57 being drivingly connected to the bracket 54;

at least one guide rod 55, one end of the guide rod 55 is fixed on the bracket 54, and the rod body of the guide rod 55 movably penetrates through the guide rod via hole.

A preferred technical scheme of the embodiment is as follows: the third power part comprises a second X-axis cylinder 41 fixed on the frame 1 and a side washing machine seat in driving connection with the second X-axis cylinder 41, the side washing machine seat is connected to two guide rails 43 in a sliding way through a sliding block, and the two guide rails 43 are arranged on the frame 1 through guide rail seats;

the edging wheel set is mounted on the edging machine base and comprises an edging wheel 44 and a fourth power portion 46 for driving the edging wheel 44 to rotate.

A preferred technical scheme of the embodiment is as follows: the edge washing unit 4 further comprises an XZ-axis manual adjusting mechanism 45 for adjusting the position of the edge grinding wheel unit.

A preferred technical scheme of the embodiment is as follows: the XZ-axis manual adjustment mechanism 45 includes:

the mounting seat is fixed on the edge washing machine seat;

a Z-axis screw 451 rotatably installed on the installation base;

the Z-axis guide posts 452 are fixedly arranged on the mounting seat and are respectively arranged at two sides of the Z-axis screw 451, the upper ends of the two Z-axis guide posts 452 are connected through a connecting plate, and the upper end of the Z-axis screw 451 passes through the connecting plate;

a Z-axis sliding seat 459 sleeved on the two Z-axis guide posts 452 and in threaded connection with the Z-axis screw 451; a Z-axis positioning handle 453 is installed at one side of the Z-axis sliding seat 459, and after the height adjustment is completed, the Z-axis sliding seat 459 is fixed by pressing the Z-axis positioning handle 453;

a Z-axis rotary handle 457 fixed with the upper end of the Z-axis screw 451;

side plates flanking the Z-axis carriage 459;

an X-axis screw 455 rotatably mounted to the side plate;

the X-axis guide post is fixed on the side plate;

an X-axis sliding seat 456 which is in threaded connection with the X-axis screw rod 455 and is movably sleeved on the X-axis guide post, an X-axis positioning handle 458 is installed on the X-axis sliding seat 456, and the X-axis sliding seat 456 is fixed by pressing the X-axis positioning handle 458;

an X-axis rotary handle 454 fixed with one end of the X-axis screw rod 455;

the edging wheel unit mounting plate is laterally fixed on the X-axis sliding seat 456, and the edging wheel unit is mounted on the edging wheel unit mounting plate.

Example 2:

the following is the working principle of the edge washing equipment:

as shown in fig. 1, a cylindrical pottery is taken as an example.

The positioning members of the present utility model are provided with 2 sets, and the positioning pieces 21 on each positioning member are mounted with the photoelectric sensor 24. The positioning notch of the positioning sheet 21 is a V-shaped groove, the opening of the V-shaped groove is larger than 90 degrees, and the grooving angle range is 120-165 degrees. Two cylindrical pottery are manually placed on the carrier plate 23 and are close to the V-shaped groove, the cylindrical pottery can be blocked after being driven to move to the V-shaped groove by the first power part 22, and the two cylindrical pottery are positioned at the grabbed position after being blocked.

The gripping devices 52 on the displacement group 5 are provided with six groups, the gripping devices 52 are all vacuum negative pressure devices, every two adjacent gripping devices 52 are divided into three groups, and the six groups of gripping devices 52 are respectively named as a first group of vacuum negative pressure devices, a second group of vacuum negative pressure devices and a third group of vacuum negative pressure devices. The Y-axis motor 58 drives the Y-axis screw rod 59 to rotate, the Y-axis screw rod 59 rotates to drive the nut to move, the nut drives the sliding plate 53 to move, the sliding plate 53 drives the lifting mechanism to move, and six groups of grabbing devices 52 on the lifting mechanism move towards the feeding station. When the first set of vacuum negative pressure devices close to the edge moves to the position right above 2 cylindrical ceramics, the negative pressure machine is started, the three sets of vacuum negative pressure devices form negative pressure simultaneously, the lifting cylinder 57 drives the three sets of vacuum negative pressure devices to descend, and the first set of vacuum negative pressure devices close to the edge suck the two cylindrical ceramics on the carrier plate 23.

After the lifting cylinder 57 drives the three groups of vacuum negative pressure devices to ascend, the displacement group 5 drives the lifting mechanism to move towards the edge washing station, and when the first group of vacuum negative pressure devices moves to the position right above the six groups of carrier assemblies, the lifting cylinder 57 drives the three groups of vacuum negative pressure devices to descend, so that 2 cylindrical ceramics are placed on the two turntables 75 close to the edge. The lifting cylinder 57 drives the three sets of vacuum negative pressure devices to rise.

The turntables 75 are provided with negative pressure holes, the negative pressure holes are connected with a negative pressure machine through pipelines, and 2 cylindrical pottery are sucked on the two turntables 75. The synchronous rotating mechanism 7 drives the rotary table 75 to rotate, and then the rotary table 75 drives the cylindrical pottery to rotate.

As shown in fig. 5, the edge washing groups 4 of the present utility model are provided with four groups, and two groups of the edge washing groups 4 on the right side share one group of third power portions, and the other two groups share one group of third power portions. The four groups of edge washing groups 4 are all well adjusted in height and X-axis position, the two groups of edge washing groups 4 on the right side are used for washing the edges of the outer edges of the cylindrical pottery mouth, and the two groups of edge washing groups 4 on the left side are used for washing the edges of the upper end of the cylindrical pottery mouth.

When the synchronous rotating mechanism 7 drives the 2 groups of cylindrical pottery close to the edge to rotate, after the two groups of edge washing groups 4 on the right are electrified, the edge grinding wheel 44 is driven to the edge of the mouth part of the 2 groups of cylindrical pottery to wash the edge. The edge of the opening of the 2 groups of cylindrical pottery is washed, and meanwhile, the displacement group 5 drives the three groups of vacuum negative pressure devices to move towards the feeding station. At this time, the second set of vacuum negative pressure devices was located directly above the 2 cylindrical crockery after the side wash. After the side washing is completed, each side washing group 4 returns, the synchronous rotation mechanism 7 stops, and the negative pressure of the turntable 75 is canceled. The lifting cylinder 57 drives three groups of vacuum negative pressure devices to descend, the first group of vacuum negative pressure devices take materials, the second group of vacuum negative pressure devices suck 2 cylindrical ceramics after side washing, and the lifting cylinder 57 drives the three groups of vacuum negative pressure devices to ascend.

The displacement group 5 drives the three groups of vacuum negative pressure devices to move towards the direction of the edge washing station, 2 cylindrical pottery at the back of the side edge are moved to the position above the upper end of the edge washing opening, 2 newly entered cylindrical pottery are positioned above two positions of the side edge washing opening, the lifting cylinder 57 drives the three groups of vacuum negative pressure devices to descend, 2 cylindrical pottery at the back of the side edge are moved to two turntables 75 at the upper end of the edge washing opening, and 2 newly entered cylindrical pottery are placed at the two positions of the side edge washing opening. The lifting cylinder 57 drives three sets of vacuum negative pressure devices to rise.

The synchronous rotating mechanism 7 drives all the turntables 75 to rotate, four groups of edge washing groups 4 are in place at the same time, two groups of edge washing groups 4 wash the edges of 2 cylindrical pottery at the edge washing station, and the other two groups of edge washing groups 4 wash the upper ends of the pottery openings of 2 cylindrical pottery at the upper end station of the pottery openings.

And when the four groups of edge washing groups 4 wash edges, the displacement group 5 drives the three groups of vacuum negative pressure devices to move towards the feeding station direction again, at the moment, cylindrical pottery is arranged below the three groups of vacuum negative pressure devices, and the third group of vacuum negative pressure devices send 2 cylindrical pottery at the upper end of the ceramic washing opening into a finished product input line 6.

The above action cycle realizes uninterrupted edge washing treatment of the cylindrical pottery, slag falls into the slag collecting tray 42 while edge washing, and the slag collecting tray 42 is arranged on the edge washing machine seat.

In summary, the edge washing equipment provided by the utility model adopts a linear feeding and material moving mode, so that the occupied space of the edge washing equipment is small. The edge washing equipment can finish edge washing actions with high efficiency and high quality, and improves the production efficiency and the processing quality of products.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present utility model or directly or indirectly applied to other related technical fields are included in the scope of the utility model.

Claims (10)

1. Edge washing apparatus comprising a frame (1), characterized in that it further comprises:

the positioning group (2) is arranged on the frame (1) and is positioned at a feeding station, and the positioning group (2) is provided with a carrier plate (23) for supporting a product (3), a first power part (22) in driving connection with the carrier plate (23) and a plurality of positioning members arranged in the moving direction of the carrier plate (23);

the synchronous rotating mechanism (7) is arranged on the frame (1), the synchronous rotating mechanism (7) is provided with a synchronous source (72) and a plurality of groups of carrier components which are in driving connection with the synchronous source (72), and the carrier components are linearly distributed and are arranged at equal intervals;

the displacement group (5) is used for grabbing the positioned product (3) at the feeding station onto the carrier assembly, the displacement group (5) is arranged on the frame (1) and is provided with a second power part, a lifting mechanism in driving connection with the second power part, a bracket (54) in driving connection with the lifting mechanism, and a plurality of grabbing devices (52) which are equidistantly arranged on the bracket (54) and are in linear distribution, and the center-to-center distance of every two adjacent grabbing devices (52) is equal to the center-to-center distance of every two adjacent carrier assemblies;

the edge washing groups (4) are arranged on the frame (1) and are arranged with the carrier assemblies in one-to-one mode, each edge washing group (4) is provided with an edge grinding wheel set and a third power part in driving connection with the edge grinding wheel set, and the third power part can drive the edge grinding wheel set to move to the vicinity of the carrier assembly.

2. A washing apparatus according to claim 1, wherein the first power section (22) is a first X-axis cylinder, which is arranged horizontally with the carrier plate (23) in driving connection;

the positioning component comprises a positioning bracket and a positioning sheet (21) arranged on the positioning bracket, wherein a positioning notch is formed in the direction of the positioning sheet (21) towards the carrier plate (23).

3. A side washing apparatus according to claim 1, wherein the synchronization source (72) is a rotating electric machine connected to each carrier assembly by a synchronization belt group (74).

4. A washing apparatus according to claim 3, characterized in that the frame (1) is provided with a plurality of tensioning pulleys (73), which tensioning pulleys (73) act on the belt of the synchronous belt group (74) to tension the belt.

5. The edge washing apparatus of claim 1 wherein the number of said plurality of sets of carrier assemblies is a multiple of the number of said positioning members.

6. A side washing apparatus according to claim 1, wherein the carrier assembly comprises a passive synchronizing wheel (71) rotatably mounted on the frame (1), a rotating shaft (76) connected with the passive synchronizing wheel (71), and a turntable (75) mounted on an upper end of the rotating shaft (76) for carrying the product (3), and the upper parts of the rotating shafts (76) are rotatably arranged on a mounting plate (77) in a penetrating manner.

7. The edge washing apparatus according to claim 1, wherein the second power section includes:

the Y-axis motor (58) is arranged on the supporting frame (51) through a motor seat, the supporting frame (51) is fixedly arranged on the frame (1), and a double-row guide rail is arranged on one side of the supporting frame;

the Y-axis screw rod (59) is in driving connection with the Y-axis motor (58), the Y-axis screw rod (59) is rotatably arranged on the upper cross beam of the support frame (51), and a nut is screwed on the Y-axis screw rod (59);

a sliding plate (53) which is in sliding connection with the double-row guide rail through a sliding block, wherein the sliding plate (53) is fixed with the screw cap;

the lifting mechanism comprises:

a lifting cylinder (57) mounted on the sliding plate (53) through a cylinder block, the cylinder block having a guide rod via hole, the lifting cylinder (57) being drivingly connected to the bracket (54);

at least one guide rod (55), one end of the guide rod (55) is fixed on the bracket (54), and the rod body of the guide rod is movably arranged through the guide rod via hole.

8. A washing apparatus according to claim 1, characterized in that the third power part comprises a second X-axis cylinder (41) fixed to the frame (1), and a washing machine base drivingly connected to the second X-axis cylinder (41), the washing machine base being slidingly connected to two guide rails (43) by means of a slide, the two guide rails (43) being mounted to the frame (1) by means of guide rail bases;

the edging wheel unit is arranged on the edging machine base and comprises an edging wheel (44) and a fourth power part (46) for driving the edging wheel (44) to rotate.

9. A washing apparatus according to claim 8, characterized in that the washing group (4) further comprises an XZ-axis manual adjustment mechanism (45) for adjusting the position of the edging wheel set.

10. A washing apparatus according to claim 9, wherein the XZ-axis manual adjustment mechanism (45) comprises:

the mounting seat is fixed on the edge washing machine seat;

a Z-axis screw rod (451) rotatably mounted on the mounting base;

the Z-axis guide posts (452) are fixedly arranged on the mounting seat and are respectively arranged at two sides of the Z-axis screw rod (451), the upper ends of the two Z-axis guide posts (452) are connected through a connecting plate, and the upper end of the Z-axis screw rod (451) passes through the connecting plate;

a Z-axis sliding seat (459) sleeved on the two Z-axis guide posts (452) and in threaded connection with the Z-axis screw rod (451);

a Z-axis rotary handle (457) fixed with the upper end of the Z-axis screw rod (451);

a side plate which is laterally connected with the Z-axis sliding seat (459);

an X-axis screw (455) rotatably mounted to the side plate;

the X-axis guide post is fixed on the side plate;

an X-axis sliding seat (456) which is in threaded connection with the X-axis screw rod (455) and is movably sleeved on the X-axis guide post;

an X-axis rotary handle (454) and one end of the X-axis screw rod (455) are fixed;

the edging wheel set mounting plate is laterally fixed on the X-axis sliding seat (456), and the edging wheel set is mounted on the edging wheel set mounting plate.

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