CN214441392U - Vibration washing subassembly - Google Patents

Abstract

The utility model relates to a vibration washing component, which comprises a liquid tank filled with cleaning liquid, a clamping component used for clamping a workpiece, a vibration component and a moving component; the vibration assembly comprises a first mounting frame, a second mounting frame and a guide assembly; the first mounting frame is fixedly provided with a vibration motor; an output shaft of the vibration motor is fixedly connected with a transverse first rotating shaft; the rotating plane of the first rotating shaft is vertical and is parallel to the straight line of the sliding direction of the second mounting rack; the second mounting frame is rotatably provided with a second rotating shaft parallel to the first rotating shaft; the second rotating shaft is not collinear with the first rotating shaft; the second rotating shaft is connected with the first rotating shaft through a spacing adjusting assembly; because the amplitude that the centre gripping subassembly carried out reciprocating motion is positive correlation with the interval of first pivot and second pivot, so when needing the adjustment amplitude, utilize interval adjusting part to adjust the interval of first pivot and second pivot can, it is visible, the utility model provides a vibration washing subassembly can adjust the amplitude, and adaptability is good.

Description

Vibration washing subassembly

Technical Field

The utility model relates to a cleaning device technical field, more specifically say, relate to a vibration washing subassembly.

Background

The vibration washing subassembly is a subassembly that is used for carrying out the cleanness to the work piece, generally including the cistern that contains the cleaning solution, a vibration subassembly that is used for the centre gripping subassembly of centre gripping work piece and is used for driving the centre gripping subassembly and carries out reciprocating motion, the during operation utilizes the centre gripping subassembly to carry the work piece and immerses the work piece in the cleaning solution, then utilizes the vibration subassembly to drive the centre gripping subassembly and carry out reciprocating motion, thereby drive the work piece and carry out reciprocating motion in the cleaning solution, in order to reach the purpose of cleaning workpiece. However, the amplitude of the oscillating assembly of the existing oscillating water washing assembly is a fixed value and cannot be adjusted, resulting in poor adaptability.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in, to prior art's above-mentioned defect, provide a vibration washing subassembly.

The utility model provides a technical scheme that its technical problem adopted is:

constructing a vibration washing assembly, wherein the vibration washing assembly comprises a liquid tank containing cleaning liquid, a clamping assembly for clamping a workpiece, a vibration assembly for driving the clamping assembly to perform longitudinal reciprocating motion and a moving assembly for driving the vibration assembly to move; the vibration assembly comprises a first mounting frame fixedly connected with the moving assembly, a second mounting frame connected with the clamping assembly in a sliding mode and a guide assembly used for guiding the clamping assembly; the first mounting frame is fixedly provided with a vibration motor; an output shaft of the vibration motor is fixedly connected with a transverse first rotating shaft; the rotating plane of the first rotating shaft is vertical and is parallel to the straight line of the sliding direction of the second mounting rack; the second mounting frame is rotatably provided with a second rotating shaft parallel to the first rotating shaft; the second rotating shaft is not collinear with the first rotating shaft; the second rotating shaft is connected with the first rotating shaft through a spacing adjusting assembly; the distance adjusting assembly is used for adjusting the distance between the second rotating shaft and the first rotating shaft.

The vibration washing component of the utility model, wherein, the distance adjusting component comprises a first adjusting plate fixedly connected with the first rotating shaft and a second adjusting plate fixedly connected with the second rotating shaft; the first adjusting plate and the second adjusting plate are fixedly connected through adjusting screws; the first adjusting plate is provided with a threaded hole matched with the adjusting screw; the second adjusting plate is provided with a strip-shaped through hole matched with the adjusting screw; the extending direction of the strip-shaped through hole is perpendicular to the first rotating shaft.

The utility model discloses a vibration washing subassembly, wherein, threaded hole is equipped with a plurality ofly on the first regulating plate; the plurality of threaded holes are sequentially arranged in the direction perpendicular to the first rotating shaft.

The utility model discloses a vibration washing subassembly, wherein, first regulating plate is equipped with the activity groove with second regulating plate cooperation; the second adjusting plate is arranged in the movable groove.

The vibration washing component of the utility model, wherein, the vibration component also comprises a bearing seat matched with the first rotating shaft; the bearing block is fixedly arranged on the first mounting frame; the first rotating shaft penetrates through the bearing seat.

The utility model discloses a vibration washing subassembly, wherein, the second mounting bracket sets firmly horizontal slide rail; the sliding rail is perpendicular to the first rotating shaft; the clamping assembly is provided with a sliding groove matched with the sliding rail; the extending direction of the sliding groove is perpendicular to the first rotating shaft; the slide rail is arranged in the slide groove.

The vibration washing component of the utility model, wherein, the clamping component comprises a third mounting rack which is connected with the second mounting rack in a sliding way, a supporting plate for supporting a workpiece, a pressing plate which is arranged above the supporting plate and a longitudinal moving component for driving the pressing plate to move longitudinally; the supporting plate and the longitudinal moving assembly are fixedly arranged on the third mounting frame.

The utility model discloses a vibration washing subassembly, wherein, the third mount frame is located the top of clamp plate; the guide assembly comprises a vertical rod and a sleeve sleeved outside the vertical rod; the lower end of the vertical rod is fixedly connected with the supporting plate, and the upper end of the vertical rod is fixedly connected with the third mounting frame; the sleeve is fixedly arranged on the first mounting frame.

The utility model discloses a vibration washing subassembly, wherein, the centre gripping subassembly and the vibration subassembly all locate directly over the cistern; the moving assembly comprises a longitudinal moving cylinder and a fourth mounting frame for mounting the longitudinal moving cylinder; the movable end of the longitudinal moving cylinder moves longitudinally; the movable end of the longitudinal moving cylinder is fixedly connected with the vibration assembly.

The utility model discloses a vibration washing subassembly, wherein, the cistern is equipped with the air-blowing board; a cavity is arranged inside the air blowing plate; a plurality of air outlet holes are formed in the inner top surface of the cavity, and air inlet holes are formed in the inner side surface of the cavity; the device also comprises a blowing assembly; the air blowing assembly is connected with the air inlet hole through an air pipe; the liquid tank is provided with a via hole matched with the air pipe.

The beneficial effects of the utility model reside in that: when a workpiece is cleaned, the workpiece is clamped by the clamping assembly, then the moving assembly drives the vibrating assembly to move so as to immerse the workpiece into the cleaning solution in the liquid tank, and then the vibrating assembly drives the clamping assembly to do longitudinal reciprocating motion, so that the workpiece does longitudinal reciprocating motion, and the workpiece is cleaned; when the vibration component is required to drive the clamping component to do longitudinal reciprocating motion, the vibration motor is utilized to drive the first rotating shaft to rotate, and the second mounting frame is in sliding connection with the clamping component, the clamping component only can longitudinally move under the guiding action of the guiding component, the rotating plane of the first rotating shaft is vertical and parallel to the straight line of the sliding direction of the second mounting frame, the second rotating shaft and the second mounting frame can relatively rotate, and the second rotating shaft and the first rotating shaft are not collinear, so that when the vibration motor drives the first rotating shaft to rotate, the second mounting frame can transversely slide relative to the clamping component and can drive the clamping component to do longitudinal reciprocating motion; because the amplitude that the centre gripping subassembly carried out reciprocating motion is positive correlation with the interval of first pivot and second pivot, so when needing the adjustment amplitude, utilize interval adjusting part to adjust the interval of first pivot and second pivot can, it is visible, the utility model provides a vibration washing subassembly can adjust the amplitude, and adaptability is good.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be further described below with reference to the accompanying drawings and embodiments, wherein the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive work according to the drawings:

FIG. 1 is a schematic structural view of a vibratory water washing assembly according to a preferred embodiment of the present invention;

FIG. 2 is a schematic structural view of a vibrating assembly of the vibrating water washing assembly according to the preferred embodiment of the present invention;

FIG. 3 is a cross-sectional view of the vibrating assembly of the vibrating water washing assembly of the preferred embodiment of the present invention (after the vibrating motor and the first mounting bracket are hidden);

FIG. 4 is a schematic structural view of a clamping assembly of the vibratory washing assembly according to the preferred embodiment of the present invention;

fig. 5 is a schematic structural view of the blowing plate of the vibration water washing assembly according to the preferred embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, a clear and complete description will be given below with reference to the technical solutions of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

The structure of the vibrating water-washing assembly according to the preferred embodiment of the present invention is schematically shown in fig. 1, and refer to fig. 2 to 5; the device comprises a liquid tank 1 containing cleaning liquid, a clamping component 3 for clamping a workpiece 2, a vibration component 4 for driving the clamping component 3 to do longitudinal reciprocating motion, and a moving component 5 for driving the vibration component 4 to move; the vibration assembly 4 comprises a first mounting frame 6 fixedly connected with the moving assembly 5, a second mounting frame 7 connected with the clamping assembly 3 in a sliding manner, and a guide assembly 8 used for guiding the clamping assembly 3; the first mounting frame 6 is fixedly provided with a vibration motor 9; the output shaft of the vibrating motor 9 is fixedly connected with a transverse first rotating shaft 10; the rotating plane of the first rotating shaft 10 is vertical and parallel to the straight line of the sliding direction of the second mounting rack 7; the second mounting rack 7 is rotatably provided with a second rotating shaft 11 parallel to the first rotating shaft 10; the second rotating shaft 11 is not collinear with the first rotating shaft 10; the second rotating shaft 11 is connected with the first rotating shaft 10 through a spacing adjusting assembly 12; the spacing adjustment assembly 12 is used for adjusting the spacing between the second rotating shaft 11 and the first rotating shaft 10.

When the workpiece 2 is cleaned, the workpiece 2 is clamped by the clamping component 3, then the moving component 5 drives the vibrating component 4 to move so as to immerse the workpiece 2 into the cleaning solution in the liquid tank 1, and then the vibrating component 4 drives the clamping component 3 to do longitudinal reciprocating motion, and the workpiece 2 does longitudinal reciprocating motion along with the longitudinal reciprocating motion, so that the workpiece 2 is cleaned; when the vibration component 4 is required to drive the clamping component 3 to perform longitudinal reciprocating motion, the vibration motor 9 is used for driving the first rotating shaft 10 to rotate, the second mounting frame 7 is connected with the clamping component 3 in a sliding manner, the clamping component 3 only can longitudinally move under the guiding action of the guiding component 8, the rotating plane of the first rotating shaft 10 is vertical and is parallel to the straight line of the sliding direction of the second mounting frame 7, the second rotating shaft 11 and the second mounting frame 7 can relatively rotate, and the second rotating shaft 11 and the first rotating shaft 10 are not collinear, so that when the vibration motor 9 drives the first rotating shaft 10 to rotate, the second mounting frame 7 can transversely slide relative to the clamping component 3 and can drive the clamping component 3 to perform longitudinal reciprocating motion; because the amplitude that centre gripping subassembly 3 carried out reciprocating motion is positive correlation with the interval of first pivot 10 and second pivot 11, so when needing the adjustment amplitude, utilize interval adjusting part 12 to adjust first pivot 10 and second pivot 11 the interval can, it is visible, the utility model provides a vibration washing subassembly can adjust the amplitude, and adaptability is good.

It should be noted that the moving assembly 5 may be an existing multi-axis robot in addition to the structure mentioned below.

Preferably, the spacing adjustment assembly 12 includes a first adjustment plate 13 fixedly connected to the first rotating shaft 10 and a second adjustment plate 14 fixedly connected to the second rotating shaft 11; the first adjusting plate 13 and the second adjusting plate 14 are fixedly connected through an adjusting screw (not shown in the figure); the first adjusting plate 13 is provided with a threaded hole 15 matched with an adjusting screw; the second adjusting plate 14 is provided with a strip-shaped through hole 16 matched with the adjusting screw; the extending direction of the strip-shaped through hole 16 is vertical to the first rotating shaft 10; when the distance between the first rotating shaft 10 and the second rotating shaft 11 is adjusted, the adjusting screw is loosened, then the second adjusting plate 14 is moved to a proper position, and then the adjusting screw is screwed, so that the operation is simple.

Preferably, a plurality of threaded holes 15 are provided in the first adjustment plate 13; a plurality of threaded holes 15 are sequentially arranged in a direction perpendicular to the first rotating shaft 10; the adjusting range is larger.

Preferably, the first adjusting plate 13 is provided with a movable slot 17 matched with the second adjusting plate 14; the second adjusting plate 14 is arranged in the movable groove 17; when the second adjusting plate 14 is moved, the second adjusting plate 14 can move along the movable groove 17, and the movable groove 17 plays a role in limiting the second adjusting plate 14 so as to be conveniently aligned with the strip-shaped through hole 16 and the threaded hole 15.

Preferably, the oscillating assembly 4 further comprises a bearing seat 18 cooperating with the first rotating shaft 10; the bearing block 18 is fixedly arranged on the first mounting frame 6; the first shaft 10 penetrates the bearing seat 18; the bearing seat 18 is arranged to support the first rotating shaft 10, so that the first rotating shaft 10 operates more stably.

Preferably, the second mounting frame 7 is fixedly provided with a transverse slide rail 19; the slide rail 19 is perpendicular to the first rotating shaft 10; the clamping component 3 is provided with a sliding groove 20 matched with the sliding rail 19; the extending direction of the chute 20 is perpendicular to the first rotating shaft 10; the slide rail 19 is arranged in the slide groove 20; the second mounting frame 7 and the clamping component 3 are connected in a sliding mode through the sliding rail 19 and the sliding groove 20, and the structure is simple.

Preferably, the clamping assembly 3 comprises a third mounting frame 21 connected with the second mounting frame 7 in a sliding manner, a supporting plate 22 for supporting the workpiece 2, a pressing plate 23 arranged above the supporting plate 22, and a longitudinal moving assembly 24 for driving the pressing plate 23 to move longitudinally; the supporting plate 22 and the longitudinal moving component 24 are fixedly arranged on the third mounting frame 21; when the clamping assembly 3 clamps the workpiece 2, the workpiece 2 is firstly placed on the supporting plate 22, and then the longitudinal moving assembly 24 drives the pressing plate 23 to move downwards until the workpiece 2 is clamped.

The longitudinal movement assembly 24 may be of any conventional structure, such as a cylinder.

Preferably, the third mounting frame 21 is arranged above the pressing plate 23; the guide assembly 8 comprises a vertical rod 25 and a sleeve 26 sleeved outside the vertical rod 25; the lower end of the vertical rod 25 is fixedly connected with the supporting plate 22, and the upper end of the vertical rod is fixedly connected with the third mounting frame 21; the sleeve 26 is fixedly arranged on the first mounting frame 6; the upright 25 not only serves to connect the support plate 22 and the third mounting frame 21, but also serves as a guide.

Preferably, the clamping component 3 and the vibrating component 4 are both arranged right above the liquid tank 1; the moving assembly 5 comprises a longitudinal moving cylinder 27 and a fourth mounting frame 28 for mounting the longitudinal moving cylinder 27; the movable end of the longitudinal moving cylinder 27 moves longitudinally; the movable end of the longitudinal moving cylinder 27 is fixedly connected with the vibration component 4; when the moving component 5 drives the vibrating component 4 to move so as to immerse the workpiece 2 into the cleaning liquid in the liquid tank 1, the longitudinal moving cylinder 27 is used for driving the vibrating component 4 to move downwards.

It should be noted that the fourth mounting bracket 28 may be directly fixed to the ground, or may be fixed to the liquid tank 1, and if a workbench is further provided and the liquid tank 1 is fixed to the workbench, the fourth mounting bracket 28 may also be fixed to the workbench.

Preferably, an air blowing plate 29 is fixedly arranged in the liquid tank 1; the interior of the blowing plate 29 is provided with a cavity (not shown in the figure); a plurality of air outlet holes 30 are arranged on the inner top surface of the cavity, and air inlet holes 31 are arranged on the inner side surface; a blowing assembly (not shown in the figures); the air blowing assembly is connected with the air inlet hole 31 through an air pipe (not shown in the figure); the liquid tank 1 is provided with a through hole (not shown in the figure) matched with the air pipe; the air blowing component is used for blowing air into the air blowing plate 29, and the cleaning solution can be overturned after the air is blown out through the air outlet 30, so that the cleaning effect on the workpiece 2 is better.

It should be noted that: the blowing assembly is of an existing structure.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are considered to be within the scope of the invention as defined by the following claims.

Claims (10)

1. A vibration washing component is characterized by comprising a liquid tank containing cleaning liquid, a clamping component for clamping a workpiece, a vibration component for driving the clamping component to do longitudinal reciprocating motion and a moving component for driving the vibration component to move; the vibration assembly comprises a first mounting frame fixedly connected with the moving assembly, a second mounting frame connected with the clamping assembly in a sliding mode and a guide assembly used for guiding the clamping assembly; the first mounting frame is fixedly provided with a vibration motor; an output shaft of the vibration motor is fixedly connected with a transverse first rotating shaft; the rotating plane of the first rotating shaft is vertical and is parallel to the straight line of the sliding direction of the second mounting rack; the second mounting frame is rotatably provided with a second rotating shaft parallel to the first rotating shaft; the second rotating shaft is not collinear with the first rotating shaft; the second rotating shaft is connected with the first rotating shaft through a spacing adjusting assembly; the distance adjusting assembly is used for adjusting the distance between the second rotating shaft and the first rotating shaft.

2. The vibratory water wash assembly of claim 1 wherein the spacing adjustment assembly includes a first adjustment plate fixedly connected to the first rotating shaft and a second adjustment plate fixedly connected to the second rotating shaft; the first adjusting plate and the second adjusting plate are fixedly connected through adjusting screws; the first adjusting plate is provided with a threaded hole matched with the adjusting screw; the second adjusting plate is provided with a strip-shaped through hole matched with the adjusting screw; the extending direction of the strip-shaped through hole is perpendicular to the first rotating shaft.

3. The vibratory water wash assembly as defined in claim 2 wherein the threaded aperture is provided in plurality on the first adjustment plate; the plurality of threaded holes are sequentially arranged in the direction perpendicular to the first rotating shaft.

4. The vibratory water wash assembly as in claim 2 wherein the first adjustment plate is provided with a movable slot that cooperates with the second adjustment plate; the second adjusting plate is arranged in the movable groove.

5. The vibratory water wash assembly as defined in claim 1 wherein the vibratory assembly further comprises a bearing housing engaged with the first shaft; the bearing block is fixedly arranged on the first mounting frame; the first rotating shaft penetrates through the bearing seat.

6. The vibratory water wash assembly as in claim 1 wherein the second mounting bracket has a transverse slide rail secured thereto; the sliding rail is perpendicular to the first rotating shaft; the clamping assembly is provided with a sliding groove matched with the sliding rail; the extending direction of the sliding groove is perpendicular to the first rotating shaft; the slide rail is arranged in the slide groove.

7. The vibratory water washing assembly of claim 1 wherein the clamping assembly includes a third mounting bracket slidably connected to the second mounting bracket, a support plate for supporting a workpiece, a pressure plate disposed above the support plate, and a longitudinal movement assembly for moving the pressure plate longitudinally; the supporting plate and the longitudinal moving assembly are fixedly arranged on the third mounting frame.

8. The vibratory water wash assembly as defined in claim 7 wherein the third mounting bracket is disposed above the pressure plate; the guide assembly comprises a vertical rod and a sleeve sleeved outside the vertical rod; the lower end of the vertical rod is fixedly connected with the supporting plate, and the upper end of the vertical rod is fixedly connected with the third mounting frame; the sleeve is fixedly arranged on the first mounting frame.

9. The vibratory water wash assembly as in claim 1 wherein the clamping assembly and the vibratory assembly are both disposed directly above the sump; the moving assembly comprises a longitudinal moving cylinder and a fourth mounting frame for mounting the longitudinal moving cylinder; the movable end of the longitudinal moving cylinder moves longitudinally; the movable end of the longitudinal moving cylinder is fixedly connected with the vibration assembly.

10. The vibratory water wash assembly as in claim 1 wherein a blow plate is secured within the sump; a cavity is arranged inside the air blowing plate; a plurality of air outlet holes are formed in the inner top surface of the cavity, and air inlet holes are formed in the inner side surface of the cavity; the device also comprises a blowing assembly; the air blowing assembly is connected with the air inlet hole through an air pipe; the liquid tank is provided with a via hole matched with the air pipe.

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