CN219380328U - Material receiving device for water retaining polishing machine - Google Patents

Abstract

The embodiment of the application provides a receiving device for a water retaining polishing machine, which belongs to the technical field of polishing machines. The material receiving device is connected to the discharge end of the grinding and polishing machine and comprises a conveying line and a material receiving platform, the conveying line is connected to the discharge end of the grinding and polishing production line, and the conveying line is used for transferring the workpiece subjected to grinding and polishing treatment along a first direction; the material receiving platform is connected to the tail end of the conveying line and is provided with a material receiving station which is used for receiving the workpiece on the conveying line; the workpiece conveying device comprises a workpiece receiving platform, a workpiece receiving station and a temporary storage station, wherein the workpiece receiving platform is provided with a transfer assembly, and the transfer assembly is used for transferring the workpiece positioned at the workpiece receiving station on the workpiece receiving platform to the temporary storage station. The receiving device can automatically transfer and temporarily store the workpiece after the grinding and polishing processing is finished, and the phenomenon that the workpiece is damaged is avoided.

Description

Material receiving device for water retaining polishing machine

Technical Field

The application relates to the technical field of polishing machines, in particular to a receiving device for a water retaining polishing machine.

Background

In the course of working at the mesa, manger plate processing is indispensable process, because of workshop overall arrangement and realization equipment wiring are in order to reduce personnel's configuration as imperative, highly be less than the transfer chain to current grinding and polishing machine production line, when the stone material is through grinding and polishing processing back transfer to receiving the material platform from the transfer chain on, the stone material on the transfer chain is unanimous on receiving the material platform, the phenomenon that bump damage appears very easily because of two preceding and following adjacent stones are not in time transferred on receiving the material platform, consequently receiving material platform department always needs the staff to come timely with the stone material transfer to next process, thereby make this process very unrestrained manpower, the cost of labor is high.

Disclosure of Invention

The embodiment of the application provides a receiving device for manger plate grinds throwing machine, can carry out automatic transfer to the work piece after the processing of grinding and polishing and keep in, avoid the phenomenon that the work piece damaged to appear.

The embodiment of the application provides a receiving device for a water retaining polishing machine, which is connected to a discharge end of the polishing machine and comprises a conveying line and a receiving platform, wherein the conveying line is connected to the discharge end of the polishing machine and is used for transferring a polished workpiece along a first direction; the material receiving platform is connected to the tail end of the conveying line and is provided with a material receiving station which is used for receiving the workpiece on the conveying line; the workpiece receiving device comprises a receiving platform, a workpiece receiving station, a temporary storage station and a transfer assembly, wherein the receiving platform is provided with the transfer assembly, the transfer assembly is used for transferring workpieces located at the receiving station on the receiving platform to the temporary storage station, and the temporary storage station is used for accommodating at least a plurality of workpieces.

In this scheme, after the work piece is carried to the material station that connects on the material platform through the transfer chain behind the processing of polishing of polish machine, through being provided with transfer unit on material platform that connects, transfer unit can be timely will be located the work piece of material station and automatic transfer to the station department of keeping in the time carry out the temporary storage, under the continuous transport effect of work piece on the transfer chain like this, reduced the probability that two work pieces collision damage phenomenon appear because of the last work piece of material platform in time not shifts. And the temporary storage station can accommodate one or more workpieces, and the material receiving platform does not need the staff to stand by at any time to transfer the workpieces to the next procedure, so that the staff only needs to regularly transfer the workpieces of the temporary storage station to the next procedure, and the staff has spare time to perform other operations, thereby reducing the working intensity of the staff and correspondingly improving the working efficiency of the staff.

In some embodiments, the receiving stations and the temporary storage stations are distributed along a second direction on the receiving platform, and the second direction, the first direction and the vertical direction are perpendicular to each other.

In the above technical scheme, through distributing the material receiving station and the temporary storage station along the second direction on the material receiving platform, and the second direction is perpendicular to the first direction, the workpiece at the material receiving station can be transferred along the conveying direction perpendicular to the conveying line by the transferring assembly, so that the whole space layout of the material receiving device is facilitated, and the occupied space of the material receiving device in the direction (the first direction) of the conveying line is reduced.

In some embodiments, the transfer assembly includes a driving member and a push rod, the driving member is mounted on one side of the receiving platform, the push rod is disposed at a driving end of the driving member, and the driving member is used for driving the push rod to move between the receiving station and the temporary storage station along the second direction on the receiving platform.

In the above technical scheme, through adopting the subassembly that shifts as thrust unit, under the driving effect of driving piece, driving piece drive push rod is in receiving the material station and is kept in between the station and remove to the work piece that will be located receiving the material station shifts to the station of keeping in, and compare in manipulator structure, thrust unit's structure is simpler, the cost is lower, and can promote the work piece on receiving the self horizontal plane of material platform and shift to the station of keeping in, the security is higher to the removal of work piece.

In some embodiments, the number of the driving members and the number of the pushing rods are multiple, the number and the positions of the pushing rods are in one-to-one correspondence with the number and the positions of the driving members, and the pushing rods are distributed on the material receiving platform in a straight line along the first direction.

In the above technical scheme, through the corresponding setting of the quantity of driving piece and push rod, through the common different point positions contact cooperation with the work piece of multiunit push rod, transfer the subassembly like this and have a plurality of contact point positions when promoting the work piece, can be more accurate shift the work piece to temporary storage station along the second direction, avoid appearing because of contact point position only one and appear the phenomenon that the work piece promotes the skew, even simultaneously in a plurality of driving pieces because of a driving piece appears mechanical failure, also can not influence transfer subassembly to the transfer of work piece.

In some embodiments, the number of driving members is plural, the driving ends of the driving members are commonly connected to a push rod, and the push rod is extended along the first direction.

Among the above-mentioned technical scheme, through being connected a plurality of driving pieces with same push rod to realize that the synchronism and the wholeness of a plurality of driving pieces are stronger, and same push rod is linear structure, more does benefit to keep extending along first direction, more does benefit to the synchronous promotion of assurance push rod to the work piece.

In some embodiments, the transfer assembly further comprises a mounting bracket on which the plurality of driving members are mounted at intervals along the first direction, the transfer assembly being connected to the receiving platform by the mounting bracket.

In the technical scheme, the transfer assembly is fixedly arranged on the receiving platform through the mounting bracket, and the plurality of driving pieces are integrally arranged on the receiving platform, so that the integral disassembly and the integral assembly of the transfer assembly are facilitated.

In some embodiments, a plurality of connecting holes are arranged on the mounting bracket at intervals along the first direction, and each connecting hole is used for allowing an adjusting screw to pass through so as to screw the mounting bracket to the material receiving platform.

Among the above-mentioned technical scheme, wear to be equipped with adjusting screw respectively through a plurality of connecting holes, utilize a plurality of adjusting screw can be more firm be fixed in on receiving the material platform with it, overall stability is better to adopt adjusting screw can adjust the installing support and connect the interval of material platform in the second direction, do benefit to the transfer that satisfies different production lines and use.

In some embodiments, the receiving device further comprises a detecting element and a controller, the detecting element is electrically connected with the controller, the detecting element is used for transmitting a trigger signal to the controller after the workpiece on the conveying line is transferred to the receiving station on the receiving platform, and the controller is used for controlling the transferring assembly to work after receiving the trigger signal so as to push the workpiece positioned at the receiving station to the temporary storage station.

According to the technical scheme, the detection element is electrically connected with the controller, the detection element can be used for monitoring whether a workpiece is arranged at the material receiving station on the material receiving platform or not, and timely feeding back signals to the controller when the workpiece is arranged, and the controller controls the transfer assembly to transfer the workpiece from the material receiving station to the temporary storage station, so that the next workpiece of the conveying line is in an idle state before falling to the material receiving station.

In some embodiments, there is a gap between the receiving platform and the conveyor line in a first direction, and the height of the receiving platform is lower than the height of the conveyor line, and the detection element is disposed at the gap of the receiving platform and the conveyor line, the detection element being configured to sense and transmit a trigger signal to the controller after the workpiece is completely separated from the conveyor line.

In the above technical scheme, the detecting element is arranged at the gap between the receiving platform and the conveying line, and because the height of the receiving platform is lower than that of the conveying line, the detecting element is configured to sense after the workpiece is completely separated from the conveying line and transmit a trigger signal to the controller, and thus the controller can control the driving piece in the transferring assembly to work, and the workpiece is pushed to be transferred by the push rod.

In some embodiments, the conveyor line has guide wheel sets for defining a conveyor channel on the conveyor line extending in a first direction for conveying workpieces in the first direction to a receiving station on the receiving platform.

Among the above-mentioned technical scheme, through being provided with the direction wheelset on the conveying line, the direction wheelset can provide the guide effect to the work piece on the conveying line for work piece on the conveying line falls to the material receiving platform with the mode of first direction distribution, does benefit to the transfer unit on the material receiving platform and can more accurate promote the work piece to the station of keeping in along the second direction, avoids appearing falling to the material receiving platform because of the mode that the work piece is the contained angle with first direction and appearing the phenomenon that the transfer unit drops with the work piece slope release.

Additional features and advantages of the present application will be set forth in the detailed description which follows.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered limiting the scope, and that other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a receiving device for a water retaining polishing machine according to some embodiments of the present disclosure;

fig. 2 is a schematic view of another angle of a receiving device for a water-retaining polishing machine according to some embodiments of the present disclosure;

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

fig. 4 is a schematic view of a material receiving device for a water blocking polishing machine according to another embodiment of the present disclosure.

Icon: 10-conveying lines; 11-a vertical frame; 12-driven wheel; 20-a material receiving platform; 21-flanging; 30-a transfer assembly; 31-a driving member; 32-pushing rod; 33-mounting a bracket; 34-adjusting the screw; 40-guiding wheels; x-a first direction; y-second direction.

Detailed Description

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, which are generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, as provided in the accompanying drawings, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the embodiments of the present application, it should be noted that, the indicated orientation or positional relationship is based on the orientation or positional relationship shown in the drawings, or the orientation or positional relationship that is conventionally put in use of the product of the application, only for convenience of description and simplification of the description, and is not indicative or implying that the apparatus or element in question must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present application. Furthermore, the terms "first," "second," "third," and the like are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

In the description of the present application, it should also be noted that, unless explicitly stated and limited otherwise, the terms "disposed" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

Examples

The embodiment of the application provides a receiving device for a water retaining polishing machine, which is connected to a discharge end of the polishing machine, referring to fig. 1 to 4, the receiving device comprises a conveying line 10 and a receiving platform 20, the conveying line 10 is connected to the discharge end of the polishing machine, and the conveying line 10 is used for transferring a polished workpiece along a first direction X; the material receiving platform 20 is connected to the tail end of the conveying line 10, and a material receiving station is arranged on the material receiving platform 20 and used for receiving workpieces on the conveying line 10; the material receiving platform 20 is provided with a transfer assembly 30, the transfer assembly 30 is used for transferring workpieces located at a material receiving station on the material receiving platform 20 to a temporary storage station, and the temporary storage station is used for accommodating at least a plurality of workpieces.

In this scheme, after the work piece is carried to the material receiving station on the material receiving platform 20 through the transfer chain 10 after the grinding of grinding and polishing machine, through being provided with transfer set 30 on material receiving platform 20, transfer set 30 can be timely will be located the work piece of material receiving station and automatic transfer to temporary storage station department carry out the temporary storage, like this under the continuous transport effect of work piece on transfer chain 10, reduced the probability that two work pieces collision damage phenomenon appear because of the last work piece of material receiving platform 20 is not in time transferred. And because the temporary storage station can hold a plurality of workpieces, the receiving platform 20 does not need the staff to stand by at any time to transfer the workpieces to the next procedure, so that the staff only needs to regularly transfer the workpieces of the temporary storage station to the next procedure, the staff has spare time to perform other operations, the working intensity of the staff is reduced, and the working efficiency of the staff is correspondingly improved.

Wherein the workpiece can be a metal piece, a rod piece or stone material, etc. In this embodiment, the workpiece is stone, after the stone is polished by the polishing machine, the stone is temporarily stored by the material receiving platform 20, the next procedure is a cutting process, and the worker only needs to transfer the workpiece located at the temporary storage station to the cutting station for cutting, so that the cut stone can be used as a finished product.

In some embodiments, the receiving stations and the temporary storage stations are distributed along the second direction Y on the receiving platform 20, and the second direction Y, the first direction X, and the vertical direction are perpendicular to each other. Through with receiving material station and temporary storage station at receiving material platform 20 along second direction Y distribution, and second direction Y is perpendicular with first direction X, transfer unit 30 like this can be with the work piece that is located receiving material station department along the direction of delivery of perpendicular to transfer chain 10 transfer, is favorable to receiving material device's whole spatial layout like this, has reduced receiving material device's occupation space in the direction (first direction X) that transfer chain 10 is located.

The first direction X is the conveying direction of the conveying line 10, i.e. the length direction, and the second direction Y is the width direction, so that the requirement of temporarily storing a plurality of workpieces can be met only by properly widening the width of the receiving platform 20.

In addition, the transfer assembly 30 may be a variety of mechanisms, for example, the transfer assembly 30 may be a robot that uses the clamping action of the robot to transfer a workpiece at the receiving station to the staging station. Of course, the transfer assembly 30 may also be a linear pushing device, and the workpiece located at the receiving station may be pushed to the temporary storage station along the second direction Y by using the pushing action of the linear pushing device.

In some embodiments, the transfer assembly 30 includes a driving member 31 and a push rod 32, the driving member 31 is mounted on one side of the receiving platform 20, the push rod 32 is disposed on the driving end of the driving member 31, and the driving member 31 is used for driving the push rod 32 to move on the receiving platform 20 along the second direction Y between the receiving station and the temporary storage station. Through adopting transfer unit 30 as thrust unit, under the driving effect of driving piece 31, driving piece 31 drive push rod 32 removes between receiving the material station and keeping in the station to the work piece that will be located receiving the material station shifts to the station of keeping in, and compare in the manipulator structure, thrust unit's structure is simpler, the cost is lower, and can promote the work piece on receiving the self horizontal plane of material platform 20 and shift to the station of keeping in, the security is higher for the removal of work piece.

The driving member 31 may be a variety of linear driving mechanisms, for example, the driving member 31 may be an electric push rod, a cylinder, a hydraulic cylinder, a rack and pinion mechanism, a linear module, a synchronous pulley structure, a screw-nut pair mechanism, or the like. In this embodiment, the driving member 31 is an air cylinder, and the driving end of the air cylinder is connected with the push rod 32, so that the push rod 32 pushes the workpiece in the second direction Y, and the workpiece at the receiving station is transferred to the temporary storage station.

It should be noted that when the pushing rod 32 is used to transfer the workpiece, the workpiece is only required to be transferred out of the receiving station along the second direction Y, so that the position of the receiving station is vacated, in the second direction Y, the space outside the receiving station can be referred to as a temporary storage station, the pushing rod 32 can push the workpiece which is located in the temporary storage station along the second direction Y when pushing the next workpiece at the receiving station, so that the stroke of the pushing rod 32 can be controlled in a smaller reasonable range, the time required by the pushing rod 32 to act once is reduced, the condition that the interval between two adjacent workpieces on a conveying line is smaller can be satisfied, and the idle receiving station can be vacated rapidly. The receiving platform 20 is provided with the turn-ups 21 in the both sides of second direction Y, wherein, be close to the turn-ups 21 of transferring the subassembly 30 and can supply transferring the subassembly 30 to install, keep away from the turn-ups 21 of transferring the subassembly 30 and can provide certain blocking effect, avoid the work piece to drop.

In addition, the cross-section of the pushrod 32 may be a variety of shapes, such as a rectangular, square, circular, etc. cross-section of the pushrod 32. In this embodiment, the cross section of the push rod 32 is a square cross section.

Alternatively, the number of the driving members 31 and the number of the pushing rods 32 are all set to be multiple, the number and the positions of the pushing rods 32 are in one-to-one correspondence with the number and the positions of the driving members 31, and the pushing rods 32 are distributed on the material receiving platform 20 in a straight line along the first direction X. Through the corresponding setting of the quantity of driving piece 31 and push rod 32, through the common different point positions contact cooperation with the work piece of multiunit push rod 32, transfer assembly 30 has a plurality of contact point positions when promoting the work piece like this, can be more accurate shift the work piece to the station of keeping in along second direction Y, avoid appearing because of the contact point only has one and appear the phenomenon that the work piece promotes the skew, even simultaneously in a plurality of driving pieces 31 because of the mechanical failure appears in one driving piece 31, also can not influence transfer assembly 30 to the transfer of work piece.

Alternatively, the number of the driving members 31 is plural, the driving ends of the driving members 31 are commonly connected to the pushing rod 32, and the pushing rod 32 is disposed to extend along the first direction X. Through being connected a plurality of driving pieces 31 and same push rod 32 to realize that the synchronism and the wholeness of a plurality of driving pieces 31 are stronger, and same push rod 32 is linear structure, more does benefit to and keeps extending along first direction X, more does benefit to the synchronous promotion of assurance push rod 32 to the work piece.

In some embodiments, transfer set 30 further includes a mounting bracket 33, and a plurality of driving members 31 are mounted on mounting bracket 33 at intervals along first direction X, and transfer set 30 is connected to receiving platform 20 by mounting bracket 33. The transfer assembly 30 is fixedly mounted on the receiving platform 20 through the mounting bracket 33, and the plurality of driving members 31 are integrally mounted on the receiving platform 20, so that the transfer assembly 30 is convenient to integrally detach and mount.

In some embodiments, a plurality of connecting holes are disposed on the mounting bracket 33 at intervals along the first direction X, and each connecting hole is used for passing an adjusting screw 34 to screw the mounting bracket 33 to the receiving platform 20. The adjusting screws 34 are respectively arranged through the connecting holes in a penetrating way, the adjusting screws 34 are utilized to be more firmly fixed on the material receiving platform 20, the overall stability is better, the distance between the mounting bracket 33 and the material receiving platform 20 in the second direction Y can be adjusted through the adjusting screws, and the transfer and use of different production lines can be met.

It should be noted that, the thread length of the adjusting screw 34 may be used to adjust the distance between the mounting bracket 33 and the receiving platform 20 in the second direction Y, and the relative positions of the receiving platform 20 and the conveying line have been determined in different existing production lines, so as to ensure the relative positional relationship between the push plate of the transferring assembly 30 and the conveying channel on the conveying line, the adjusting screw 34 may be used to adjust, so that the application range of the transferring assembly 30 is wider, and the method is applicable to different production lines.

In some embodiments, the receiving device further includes a detecting element and a controller, the detecting element is electrically connected with the controller, the detecting element is used for transmitting a trigger signal to the controller after the workpiece on the conveying line 10 is transferred to the receiving station on the receiving platform 20, and the controller is used for controlling the transferring assembly 30 to work after receiving the trigger signal so as to push the workpiece located at the receiving station to the temporary storage station. Through being provided with detecting element, detecting element is connected with the controller electricity, and detecting element can be used for monitoring and connects the work piece that connects the material station department on the material platform 20 to in time feed back the controller with the signal when having the work piece, and control transfer unit 30 through the controller and shift the work piece from receiving the material station to temporary storage station, guarantee that the next work piece of transfer chain is idle state before falling to receiving the material station.

In this embodiment, the detecting element is an infrared sensor, and when the infrared ray emitted by the infrared sensor is blocked by the workpiece, the infrared sensor transmits a signal to the controller, so that the controller controls the transfer assembly 30 to work, and the transfer assembly 30 pushes the workpiece to the temporary storage station and then automatically resets to wait for the next trigger instruction.

In some embodiments, there is a gap between the receiving platform 20 and the conveyor line 10 in the first direction X, and the height of the receiving platform 20 is lower than the height of the conveyor line 10, and a detection element is disposed at the gap between the receiving platform 20 and the conveyor line 10, and the detection element is configured to sense and transmit a trigger signal to the controller after the workpiece is completely separated from the conveyor line 10. The detection element is arranged at the gap between the receiving platform 20 and the conveying line 10, and the height of the receiving platform 20 is lower than that of the conveying line 10, so that the detection element is configured to sense and transmit a trigger signal to the controller after the workpiece is completely separated from the conveying line 10, and the controller can control the driving piece 31 in the transferring assembly 30 to work, so that the workpiece is pushed to be transferred by the push rod 32.

In some embodiments, the conveyor line 10 has guide wheel sets for defining a conveyor channel on the conveyor line 10 extending in the first direction X for conveying workpieces in the first direction X to a receiving station on the receiving platform 20. Through being provided with the direction wheelset on transfer chain 10, the direction wheelset can provide the guide effect to the work piece on the transfer chain 10 for work piece on the transfer chain 10 falls to on receiving the material platform 20 with the mode of first direction X distribution, does benefit to the transfer unit 30 on receiving the material platform 20 and can more accurate promote the work piece to the station of registering along second direction Y, avoids appearing falling to receiving the material platform 20 because of the mode that work piece is the contained angle with first direction X and appears transferring the unit 30 and release the work piece slope and drop the phenomenon.

The conveying line 10 is in the prior art, and may be in a conveyor belt mode or in a driven wheel conveying mode, in this embodiment, the conveying line 10 includes a stand 11 and multiple rows of driven wheels 12 rotatably mounted on the stand 11, each row of driven wheels 12 includes multiple driven wheels 12 distributed along a second direction Y, each row of driven wheels 12 is rotatably mounted on the stand 11 through a rotating shaft or a bearing, and the multiple rows of driven wheels 12 are distributed at intervals along a first direction X for conveying workpieces. The guide wheel set may include a plurality of guide wheels 40 and a plurality of wheel carriers, the plurality of guide wheels 40 being spaced apart on the conveyor line 10 along the first direction X, the guide wheels 40 being disposed between adjacent two rows of the driven wheels 12 so as not to interfere with the driven wheels 12. The wheel surface of the guide wheel 40 is arranged in the vertical direction, and the guide wheel 40 is rotatably mounted on the wheel frame. The guide wheel 40 is rotated when the workpiece moves along the conveyor line 10 in the first direction X, and a conveying passage is defined between the guide wheel 40 and a side wall of the conveyor line 10 in the second direction Y.

It should be noted that, without conflict, features in the embodiments of the present application may be combined with each other.

The foregoing description is only of the preferred embodiments of the present application and is not intended to limit the same, but rather, various modifications and variations may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present application should be included in the protection scope of the present application.

Claims (10)

1. A connect material device for manger plate grinds machine of throwing links up in the discharge end of grinding machine of throwing, its characterized in that includes:

the conveying line is connected to the discharge end of the polishing machine and is used for transferring the polished workpiece along a first direction;

the material receiving platform is connected to the tail end of the conveying line and is provided with a material receiving station, and the material receiving station is used for receiving workpieces on the conveying line;

the workpiece transfer device comprises a receiving platform, wherein a transfer assembly is arranged on the receiving platform and used for transferring a workpiece positioned at the receiving station on the receiving platform to a temporary storage station.

2. The receiving device for a water-retaining polishing machine of claim 1, wherein the receiving stations and the temporary storage stations are distributed on the receiving platform along a second direction, and the second direction, the first direction and the vertical direction are perpendicular to each other.

3. The receiving device for a water-retaining polishing machine of claim 2, wherein the transfer assembly comprises a driving member and a push rod, the driving member is mounted on one side of the receiving platform, the push rod is arranged at the driving end of the driving member, and the driving member is used for driving the push rod to move on the receiving platform along the second direction between the receiving station and the temporary storage station.

4. The receiving device for a water-retaining polishing machine as claimed in claim 3, wherein the number of the driving members and the number of the pushing rods are plural, the number and the positions of the pushing rods are in one-to-one correspondence with the number and the positions of the driving members, and the plurality of pushing rods are linearly distributed on the receiving platform along the first direction.

5. A receiving device for a water deflector polishing machine as recited in claim 3, wherein the number of driving members is plural, the driving ends of the plural driving members are commonly connected to the push rod, and the push rod is disposed to extend in the first direction.

6. The material receiving apparatus for a water deflector polishing machine as recited in claim 4 or 5, wherein the transfer assembly further comprises a mounting bracket on which a plurality of the driving members are mounted at intervals along the first direction, the transfer assembly being connected to the material receiving platform by the mounting bracket.

7. The material receiving device for a water retaining polishing machine of claim 6, wherein a plurality of connecting holes are formed in the mounting bracket at intervals along the first direction, and each connecting hole is used for allowing an adjusting screw to pass through so as to screw the mounting bracket to the material receiving platform.

8. The material receiving device for a water retaining polishing machine according to claim 1, further comprising a detection element and a controller, wherein the detection element is electrically connected with the controller, the detection element is used for transmitting a trigger signal to the controller after a workpiece on the conveying line is transferred to the material receiving station on the material receiving platform, and the controller is used for controlling the transfer assembly to work after receiving the trigger signal so as to push the workpiece positioned at the material receiving station to the temporary storage station.

9. The material receiving device for a water deflector polishing machine of claim 8, wherein a gap is provided between the material receiving platform and the conveyor line in the first direction, the material receiving platform is lower than the conveyor line, the detection element is disposed at the gap between the material receiving platform and the conveyor line, and the detection element is configured to sense and transmit the trigger signal to the controller after the workpiece is completely separated from the conveyor line.

10. The receiving device for a water deflector polishing machine of claim 1, wherein the conveyor line has guide wheel sets for defining a conveyor channel on the conveyor line extending in the first direction for conveying workpieces in the first direction to the receiving station on the receiving platform.