CN217417172U - Filter bridging pay-off transport mechanism - Google Patents

Abstract

The utility model relates to a technical field of wave filter transportation equipment especially relates to a wave filter bridging pay-off transport mechanism, including the conveyer of twice process around connecting, conveyer includes process transport mechanism and return stroke transport mechanism, and process transport mechanism includes the feeding transport assembly who is connected with the front process and reaches the material loading transport assembly who is connected with the back process, return stroke transport mechanism includes the feed back transport assembly who is connected with the front process and the unloading transport assembly who is connected with the back process, material loading transport assembly is connected with feeding transport assembly, unloading transport assembly is connected with feeding transport assembly. The utility model discloses make the wave filter pass through the process transportation subassembly and transport to next one in the process, realized the function of once accomplishing processing, but the base that bears the wave filter simultaneously continues to bear in the automatic return stroke to the previous process after the process is accomplished, need not manual operation, has realized the utility model discloses an automated production can effectively improve machining efficiency.

Description

Filter bridging pay-off transport mechanism

Technical Field

The utility model relates to a technical field of wave filter transportation equipment especially relates to a wave filter bridging pay-off transport mechanism.

Background

The filter is a filter circuit composed of a capacitor, an inductor and a resistor, and can effectively filter a frequency point of a specific frequency in a power line or frequencies except the frequency point so as to obtain a power signal of the specific frequency, and the filter is widely applied along with the development of the society;

the production of wave filter includes a plurality of process steps, and at present, the production of wave filter among the prior art mostly adopts assembly line and manual work complex mode operation, makes the wave filter in the processing of unified completion process earlier, and the wave filter that will accomplish this process by the workman is unified shifts to next manufacturing procedure in again and is processed, leads to the wave filter can't once only accomplish the processing of all processes, and efficiency is lower, and is difficult to realize automated production.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem in the above-mentioned background art, the utility model provides a filter bridging pay-off transport mechanism makes but automatic conveying carries out continuous processing to next procedure in one after the processing of last procedure is accomplished to the wave filter, and is efficient, and has realized automated production.

The utility model provides a scheme that its technical problem took is: the utility model provides a filter bridging pay-off transport mechanism, is including the conveyer of two processes around connecting, conveyer includes process transport mechanism and return stroke transport mechanism, process transport mechanism includes the feeding transport subassembly of being connected with the preceding process and the material loading transport subassembly of being connected with the next process, return stroke transport mechanism includes the material returning transport subassembly of being connected with the preceding process and the unloading transport subassembly of being connected with the next process, material loading transport subassembly is connected with feeding transport subassembly, unloading transport subassembly is connected with feeding transport subassembly.

Through adopting above-mentioned technical scheme, after the processing of the preceding process that makes the material is accomplished, can convey to next manufacturing procedure via process transport mechanism, can continue to bear in the preceding process by the automatic base that will bear the weight of the wave filter of return stroke transport mechanism after the completion of next process simultaneously, realized the function of once accomplishing processing to realized automated production, efficient.

Furthermore, the feeding conveying assembly and the return conveying assembly are arranged in parallel, the feeding conveying assembly is located above the return conveying assembly, and the feeding conveying assembly and the blanking conveying assembly are arranged on the side edge of the return conveying assembly side by side and are located on the same plane with the return conveying assembly.

By adopting the technical scheme, the base bearing the filter can be conveyed out from the feeding conveying assembly on the upper layer, and the unloaded filter base after being processed is conveyed back to the initial position of the previous process from the feeding conveying assembly on the lower layer to continuously bear the filter, so that the automatic return process of the base is realized, and the automatic production is further realized.

Furthermore, a slide way connected with the feeding conveying assembly is arranged at a position, close to one side of the feeding conveying assembly, of the feeding conveying assembly and corresponding to the feeding conveying assembly.

Furthermore, the opposite side that feeding conveying subassembly and material loading conveying subassembly are connected is equipped with the material loading promotion subassembly that is used for promoting material to the slide in, the slide both sides are equipped with and are used for the spacing subassembly of material loading to the material is spacing.

By adopting the technical scheme, materials in the previous procedure can enter the feeding conveying assembly through the slide way and are conveyed to the next procedure, and meanwhile, the materials can be limited through the feeding limiting assembly when being transferred to the feeding conveying assembly from the feeding conveying assembly, so that the successful transfer of the filter is ensured.

Furthermore, the feeding conveying assembly, the discharging conveying assembly, the feeding conveying assembly and the returning conveying assembly all comprise conveying frames and conveying belts, the conveying belts are sleeved outside the conveying frames, and power assemblies used for driving the conveying belts to move are arranged on the conveying frames.

Further, power component includes motor power and driving roller, the driving roller rotates respectively and installs in each conveying frame both ends, the conveyer belt both ends suit respectively on the transfer roller at conveying frame both ends, motor power output shaft and transfer roller fixed connection.

Through adopting above-mentioned technical scheme, realize material loading conveying subassembly, unloading conveying subassembly, feeding conveying subassembly and feed back conveying subassembly's transfer function.

Furthermore, a feed back pushing assembly used for pushing the base to return to the previous procedure is arranged on one side of the feed back conveying assembly, and a feed back limiting assembly extending to the end face of the feed back conveying assembly is arranged on the side edge of the feed back pushing assembly.

Through adopting above-mentioned technical scheme, make the material base on the feed back conveying assembly return the preceding process under the effect of feed back promotion subassembly in, the spacing subassembly of feed back can restrict the unloading position of material base simultaneously, guarantees that the material base is accurate to return in the preceding process.

Furthermore, limiting baffles are arranged on two sides of one end, connected with the feeding conveying assembly, of the feeding conveying assembly and two sides of one end, connected with the blanking conveying assembly, of the blanking conveying assembly.

By adopting the technical scheme, the base can be limited by the limiting baffle when being transmitted to the feeding transmission assembly from the feeding transmission assembly and transmitted to the return transmission assembly from the discharging transmission assembly, so that the successful transfer of the base at the joint is ensured.

To sum up, the beneficial effects of the utility model are that: the utility model discloses a set up process transportation subassembly and return stroke transportation subassembly, make wave filter accessible process transportation subassembly in the process of the former way transport to next one, realized the function of once accomplishing processing, but the base that bears the weight of wave filter simultaneously continues to bear the weight of the wave filter in the process of the next way is accomplished back automatic return stroke to the former way, need not artifical returning charge, has realized the utility model discloses an automated production can effectively improve machining efficiency.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented according to the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more obvious and understandable, the following preferred embodiments are described in detail with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic structural diagram of the present embodiment;

FIG. 2 is an enlarged view of A in FIG. 1;

fig. 3 is an enlarged view of B in fig. 1.

In the figure: 1. a process transport mechanism; 11. a feed transfer assembly; 12. a feeding conveying assembly; 13. a slideway; 14. a feeding pushing assembly; 141. a feeding cylinder; 142. a feeding pushing block; 15. a feeding limiting component; 151. a feeding limit cylinder; 152. a feeding limit plate; 153. mounting blocks; 2. a return transport mechanism; 21. a feed back transfer assembly; 22. a blanking conveying assembly; 23. a feed back pushing assembly; 231. a material returning cylinder; 232. a feed back pushing block; 24. a material returning limiting component; 241. a material returning limit cylinder; 242. a material returning limiting plate; 3. a transfer frame; 4. a conveyor belt; 5. a power assembly; 51. a power motor; 52. a driving roller; 6. and a limiting baffle.

Detailed Description

In order that the present invention may be more readily and clearly understood, reference is now made to the following description taken in conjunction with the accompanying drawings.

It should be noted that the terms "center", "upper", "lower", "front", "rear", "left", "right", "inner", "outer", etc. used herein are used for indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. "plurality" means two or more unless otherwise specified.

Unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are intended to be inclusive and mean, for example, that they may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

As shown in fig. 1, a filter bridging feeding and transporting mechanism comprises a transporting device connecting a front process and a rear process, so that a filter can be automatically transported to the next process for processing through the transporting device after being processed in the front process, manual transfer is not needed, the processing efficiency can be improved, and automatic production can be realized; the conveying device in the embodiment comprises a process conveying mechanism 1 and a return conveying mechanism 2, wherein the process conveying mechanism 1 conveys the filter and the bearing base which finish the previous process to the next process, and the return conveying mechanism 2 conveys the bearing base to the previous process to continuously bear the filter, so that the function of automatic material return is realized.

The process transport mechanism 1 of the embodiment includes a feeding transport assembly 11 connected to a previous process and a feeding transport assembly 12 connected to a subsequent process, the feeding transport assembly 12 is connected to one side of the feeding transport assembly 11, the previous process in the embodiment is a multi-station process, so that filters and bearing bases thereof processed at each station can enter the feeding transport assembly 11 and are sequentially transferred to the feeding transport assembly 12 from a connection position to be processed in the next process;

meanwhile, the return transport mechanism 2 comprises a return conveying assembly 21 connected with a previous process and a blanking conveying assembly 22 connected with a next process, the blanking conveying assembly 22 is connected with one side of the feeding conveying assembly 11, so that after the filter is processed in the next process, the bearing base of the filter can enter the blanking conveying assembly 22 and is transferred into the return conveying assembly 21 from the joint, the filter is transported to each station of the previous process by the return conveying assembly 21 respectively to continue bearing, the cyclic reciprocating automatic processing of the embodiment is realized, manual participation is not needed in the whole process, the automatic production is realized, and the production efficiency is effectively improved.

The previous process of this embodiment is a multi-station process, and in order to make the carrier base of the filter return to the processing station of the previous process accurately, the feeding and conveying assembly 11 and the return conveying assembly 21 are arranged in parallel, so that the feeding and conveying assembly 11 is located above the return conveying assembly 21; when the base bearing filter is transported to the next procedure, the base bearing filter can be jacked into the feeding conveying assembly 11 positioned on the upper layer by a jacking mechanism at each station of the previous procedure, and then the base bearing filter is sequentially transferred into the feeding conveying assembly 12 and conveyed to the next procedure for processing; when the bearing base vacated after the next working procedure is finished returns to the previous working procedure, the bearing base vacated after the next working procedure is finished can be transported to a material returning and conveying assembly 21 which is positioned at the lower layer and is flush with the plane of the previous working procedure through a material discharging and conveying assembly 22, and the bearing base vacated after the next working procedure returns to the processing station of the previous working procedure at the position corresponding to the position of the bearing base when the material is loaded in the material returning and conveying assembly 21 to continuously bear the filter.

The feeding conveying assembly 12 and the discharging conveying assembly 22 of the embodiment are arranged side by side on the side of the material returning conveying assembly 21 and are on the same plane with the material returning conveying assembly 21, so that a bearing base which is vacated after finishing processing in the next process can be directly transferred from the material returning conveying assembly 22 to each station in the material returning conveying assembly 21 and returned to the previous process, and automatic return of the base is facilitated; meanwhile, the feeding assembly and the discharging assembly are arranged side by side, so that a descending mechanism is not required to be arranged when the filter and the bearing base thereof enter the next procedure, and the size of equipment is reduced.

The feeding conveying component 11 is provided with a slide 13 connected with the feeding conveying component 12 at a position close to one side of the feeding conveying component 12 and corresponding to the feeding conveying component 12, in this embodiment, the connection between the feeding conveying component 12 and the feeding conveying component 11 is realized by arranging the slide 13, so that the base bearing the filter enters the feeding conveying component 11 and then can slide from the slide 13 to the feeding conveying component 12 at the lower layer, and the feeding of the next process of the filter is realized.

As shown in fig. 2, the other side of the feeding conveying component 11 connected to the feeding conveying component 12 of this embodiment is provided with a feeding pushing component 14, so that when the filter entering the feeding conveying component 11 in the previous process moves to the connecting position of the feeding conveying component 12 and the feeding conveying component 11, the filter can be pushed into the feeding conveying component 12 by the feeding pushing component 14 to realize feeding in the next process; the feeding pushing mechanism can be any structure capable of stretching forwards such as an electric cylinder, an air cylinder and a screw rod, the air cylinder structure is selected in the embodiment, the structure is simple, the response is rapid, and the filter and the base thereof can be accurately pushed into the slide channel 13 and enter the feeding conveying assembly 12; by installing the feeding cylinder 141 at the other side of the feeding conveying component connected with the feeding conveying component 12 and installing the feeding pushing block 142 at the piston rod of the feeding cylinder 141, when the base bearing filter reaches the position of the feeding conveying component 11 where the slideway 13 is arranged, the piston rod of the feeding cylinder 141 can be pushed forward, so that the filter is pushed into the slideway 13, and then the filter enters the feeding conveying component 12.

In order to ensure the successful transfer of the filter, in this embodiment, the feeding limiting assemblies 15 are further arranged on both sides of the slideway 13, so that when the filter is transferred from the feeding conveying assembly 11 to the feeding conveying assembly 12, the filter and the bearing base thereof can be limited by the feeding limiting assemblies 15, so that the filter can accurately enter the slideway 13 and then be transferred to the feeding conveying assembly 12, and the successful transfer of the filter is ensured; wherein, the spacing subassembly 15 of material loading of this embodiment includes the spacing cylinder 151 of material loading and material loading limiting plate 152, 11 lateral wall departments of feeding conveying subassembly are equipped with installation piece 153, the spacing cylinder 151 of material loading passes through screw fixed mounting on installation piece 153, the spacing cylinder 151 during operation of material loading, the piston rod of the spacing cylinder 151 of material loading extends to on the 11 terminal surfaces of feeding conveying subassembly, this embodiment is with the piston rod fixed connection of the spacing cylinder 151 of material loading limiting plate 152 and material loading, make the spacing cylinder 151 during operation of material loading, can drive material loading limiting plate 152 and remove to the 11 terminal surfaces of feeding conveying subassembly, thereby realize spacing to the wave filter.

As shown in fig. 1, the feeding conveying assembly 12, the discharging conveying assembly 22, the feeding conveying assembly 11, and the returning conveying assembly 21 of this embodiment all include a conveying frame 3 and a conveying belt 4, the conveying belt 4 is sleeved outside the conveying frame 3, and in this embodiment, the conveying belt 4 is supported by the conveying frame 3, so that the conveying belt 4 can have a certain supporting force, and a filter with a certain weight and a bearing base thereof can be supported conveniently; meanwhile, the power assembly 5 is arranged on the conveying frame 3, so that the conveying belt 4 can rotate under the action of the power assembly 5, and further the conveying of the filter or the base is realized.

The power assembly 5 of the embodiment includes a power motor 51 and a driving roller 52, wherein the driving roller 52 is respectively rotatably mounted at two ends of each conveying frame 3, two ends of the conveying belt 4 are respectively sleeved on conveying rollers at two ends of the conveying frame 3, and the conveying belt 4 is tensioned by the conveying rollers, so that when the conveying rollers rotate, the conveying belts 4 can be driven to rotate to further realize the transportation of the filter; the output shaft of the power motor 51 is fixedly connected with the conveying roller, so that when the power motor 51 rotates, the conveying roller can be driven to rotate, and the rotating conveying of the conveying belt 4 is further realized.

As shown in fig. 3, in order to make the base accurately return to each processing station of the previous process, the present embodiment is provided with a material returning pushing assembly 23 on the side of the material returning conveying assembly 21, so that the base of the filter returned to the material returning conveying assembly 21 can be pushed by the material returning pushing assembly 23 to return to the station of the previous process to bear the filter again, thereby realizing the automatic return of the base; the material returning pushing assembly 23 in this embodiment is a material returning cylinder 231 and a material returning pushing block 232 connected to a piston rod of the piston cylinder, and a fixing plate is disposed on a side wall of the material returning conveying assembly 21 corresponding to a processing station of a previous process, and the material returning cylinder 231 is fixedly mounted on the fixing plate, so that when the base is transported to the position by the material returning conveying assembly 21, the piston rod of the material returning cylinder 231 moves to an end face of the material returning conveying assembly 21, and the base is pushed back to the processing station of the previous process from the material returning conveying assembly 21.

In order to enable the base to be accurately pushed back to the processing station of the previous process, a material returning limiting assembly 24 is further arranged on one side of the material returning pushing assembly 23, so that when the base returns to the previous process under the action of the material returning pushing assembly 23, the blanking position of the base can be limited through the material returning limiting assembly 24, and the material base is ensured to accurately return to the station of the previous process to load the filter again; wherein, the spacing subassembly 24 of feed back in this embodiment includes the spacing cylinder 241 of feed back and feed back limiting plate 242, the spacing cylinder 241 of feed back locates one side of feed back conveying unit 21, and the piston rod of the spacing cylinder 241 of feed back can impel forward and be located feed back conveying unit 21, this embodiment is connected through the piston rod with the spacing cylinder 241 of feed back limiting plate 242 and feed back, when making base return stroke to feed back conveying unit 21 on, the spacing cylinder 241 of feed back can promote feed back limiting plate 242 to feed back conveying unit 21 on, prescribe a limit to the position of base, promote the processing station of the good base of location to the preceding process by feed back cylinder 231 again afterwards, can improve the precision of base return.

In order to ensure that the base can keep a correct posture when being transferred from the feeding conveying component 11 to the feeding conveying component 12 and the blanking conveying component 22 is transferred to the return conveying component 21, in the embodiment, the two sides of one end, connected with the feeding conveying component 11, of the feeding conveying component 12 and the two sides of one end, connected with the return conveying component 21, of the blanking conveying component 22 are respectively provided with the limiting baffle 6, so that when a filter or a base is transferred through each connection part, the position after transfer can be limited through the limiting baffle 6, the base of the filter can keep a correct position and enter the next process or return to the previous process, and the position deviation in the transfer process is avoided.

The working principle of the embodiment is as follows: this embodiment is through setting up process transport mechanism 1 and return stroke transport mechanism 2, makes filter accessible process transport mechanism 1 transport to next process from the previous process in, has realized once accomplishing the function of processing, and the base that bears the weight of the filter simultaneously continues to bear the weight of the filter in the automatic return stroke of accessible return stroke transport mechanism 2 to the previous process after the next process is accomplished, need not artifical returning charge, has realized the automated production of this embodiment, can effectively improve machining efficiency.

The above-mentioned embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and modifications made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (8)

1. The utility model provides a filter bridging pay-off transport mechanism, is including the conveyer of two processes around connecting, its characterized in that: the conveying device comprises a process conveying mechanism (1) and a return conveying mechanism (2), wherein the process conveying mechanism (1) comprises a feeding conveying assembly (11) connected with a previous process and a feeding conveying assembly (12) connected with a next process, the return conveying mechanism (2) comprises a return conveying assembly (21) connected with the previous process and a discharging conveying assembly (22) connected with the next process, the feeding conveying assembly (12) is connected with the feeding conveying assembly (11), and the discharging conveying assembly (22) is connected with the feeding conveying assembly (11).

2. The filter bridge feed conveyor of claim 1, wherein: the feeding conveying assembly (11) and the return conveying assembly (21) are arranged in parallel, the feeding conveying assembly (11) is located above the return conveying assembly (21), and the feeding conveying assembly (12) and the blanking conveying assembly (22) are arranged on the side edge of the return conveying assembly (21) side by side and are located on the same plane with the return conveying assembly (21).

3. The filter bridge feed conveyor of claim 2, wherein: the feeding conveying assembly (11) is close to one side of the feeding conveying assembly (12) and provided with a slide way (13) connected with the feeding conveying assembly (12) at a position corresponding to the feeding conveying assembly (12).

4. The filter bridge feed conveyor of claim 3, wherein: the other side that feeding conveying subassembly (11) and material loading conveying subassembly (12) are connected is equipped with material loading promotion subassembly (14) that are used for promoting material to in slide (13), slide (13) both sides are equipped with and are used for spacing material loading spacing subassembly (15).

5. The filter bridge feed conveyor of claim 1, wherein: the feeding conveying assembly (12), the blanking conveying assembly (22), the feeding conveying assembly (11) and the feeding returning conveying assembly (21) comprise conveying frames (3) and conveying belts (4), the conveying belts (4) are sleeved outside the conveying frames (3), and power assemblies (5) used for driving the conveying belts (4) to move are arranged on the conveying frames (3).

6. The filter bridge feed conveyor of claim 5, wherein: power component (5) include motor power (51) and driving roller (52), driving roller (52) rotate respectively and install in each conveying frame (3) both ends, conveyer belt (4) both ends suit respectively on the transfer roller at conveying frame (3) both ends, motor power (51) output shaft and transfer roller fixed connection.

7. The filter bridge feed conveyor of claim 1, wherein: and a material return pushing assembly (23) used for pushing the base to return to the previous procedure is arranged on one side of the material return conveying assembly (21), and a material return limiting assembly (24) extending to the end face of the material return conveying assembly (21) is arranged on the side edge of the material return pushing assembly (23).

8. The filter bridge feed conveyor of claim 1, wherein: and both sides of one end of the feeding conveying assembly (12) connected with the feeding conveying assembly (11) and both sides of one end of the discharging conveying assembly (22) connected with the material returning conveying assembly (21) are provided with limit baffles (6).

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