CN220448793U - Double-deck conveying subassembly and transfer apparatus - Google Patents

Abstract

The application belongs to the technical field of conveying equipment, and provides a double-layer conveying assembly and conveying equipment, wherein the double-layer conveying assembly comprises a mounting seat, a first conveying assembly and a second conveying assembly; the mounting seat is provided with a first mounting surface and a second mounting surface which are oppositely arranged in a first preset direction; the first conveying assembly comprises a first conveying frame arranged on the first mounting surface and a first conveying mechanism arranged on the first conveying frame, the conveying direction of the first conveying mechanism is along a second preset direction, and the second preset direction is perpendicular to the first preset direction; the second conveying assembly comprises a second conveying frame arranged on the second mounting surface and a second conveying mechanism movably arranged on the second conveying frame, and the conveying direction of the second conveying mechanism is along a second preset direction; the second conveying mechanism can be switched among a plurality of adjusting positions along a third preset direction, and the third preset direction is perpendicular to the second preset direction and the first preset direction. The utility model aims at solving the technical problem that the alignment adjustment procedure of the double-layer conveying mechanism is complicated in the prior art.

Description

Double-deck conveying subassembly and transfer apparatus

Technical Field

The application belongs to the technical field of conveying and production equipment, and particularly relates to a double-layer conveying assembly and conveying equipment.

Background

Automation on a production line often has an automatic line composed of a plurality of devices, but different devices need to be connected, which involves a problem of splicing between the devices.

When splicing equipment with a conveyor, the problem of butt joint of positions between different conveying mechanisms or conveying tracks can be involved. When splicing is carried out on a conveying device with an upper conveying mechanism and a lower conveying mechanism, the alignment of the upper conveying mechanism and the alignment of the lower conveying mechanism are ensured; in addition, the upper and lower conveyor mechanisms of the individual conveyors also need to be arranged one above the other.

For the alignment adjustment of a plurality of conveying mechanisms, in the related art, between two adjacent conveying devices, the alignment adjustment of an upper conveying mechanism and the alignment adjustment of a lower conveying mechanism are respectively and independently carried out, and the alignment adjustment process of the whole production line is tedious, long in time consumption and influences the working efficiency.

Disclosure of Invention

The utility model aims at providing a bilayer conveying subassembly and transfer apparatus, aim at solving the technical problem that the alignment adjustment process is loaded down with trivial details, work efficiency is low when the conveying mechanism of upper and lower floor in the prior art when the concatenation.

A first object of the present application is to provide a dual layer transfer assembly comprising:

the mounting seat is provided with a first mounting surface and a second mounting surface which are oppositely arranged in a first preset direction;

the first conveying assembly comprises a first conveying frame and a first conveying mechanism, the first conveying frame is arranged on the first mounting surface, the first conveying mechanism is arranged on the first conveying frame, the conveying direction of the first conveying mechanism is along a second preset direction, and the second preset direction is perpendicular to the first preset direction; and

The second conveying assembly comprises a second conveying frame and a second conveying mechanism, the second conveying frame is arranged on the second mounting surface, the second conveying mechanism is movably arranged on the second conveying frame, and the conveying direction of the second conveying mechanism is along the second preset direction; the second conveying mechanism can be switched between a plurality of adjusting positions relative to the second conveying frame along a third preset direction, and the third preset direction is perpendicular to the second preset direction and perpendicular to the first preset direction.

In one embodiment, the dual-layer conveying assembly further comprises a first locking structure connected to the mounting base, wherein the first locking structure is provided with a first locking part on a first mounting surface of the mounting base, and a second locking part is provided on a second mounting surface, the first locking part is connected with the first conveying frame, and the second locking part is connected with the second conveying frame.

In one embodiment, the first locking structure includes a locking post and two locking nuts, where the locking post is connected to the mounting base, the first conveying frame and the second conveying frame simultaneously, and is screwed with the two locking nuts to fix the first conveying frame and the second conveying frame to the mounting base.

In one embodiment, the second conveying assembly further includes a second locking structure, the second conveying mechanism is slidably connected to the second conveying frame along the third preset direction, and the second locking structure is connected between the second conveying mechanism and the second conveying frame, so as to limit the second conveying mechanism.

In one embodiment, the second conveying assembly further comprises a first measuring structure connected to the second conveying frame, the first measuring structure being arranged between the first conveying frame and the second conveying mechanism for measuring a moving distance of the second conveying frame relative to the second conveying frame in the third preset direction.

In one embodiment, the second conveying frame includes a first frame structure, a second frame structure and a third locking structure, the second frame structure is slidably connected to the first frame structure along the first preset direction, and the third locking structure is connected between the first frame structure and the second frame structure, so as to limit the second frame structure; the second conveying mechanism is connected to the second frame body structure, and the first frame body structure is connected to the second mounting surface of the mounting base.

In one embodiment, the second conveying assembly further comprises a second measuring structure connected to the first frame structure, and the second measuring structure is disposed between the first frame structure and the second frame structure and is used for measuring a moving distance of the second frame structure relative to the first frame structure in the first preset direction.

In one embodiment, the mounting seat is plate-shaped, the first preset direction is a thickness direction of the mounting seat, and the two plate surfaces of the mounting seat along the thickness direction form the first mounting surface and the second mounting surface.

In one embodiment, the first conveying mechanism includes a first conveying part and a second conveying part both connected to the first conveying frame, the first conveying part and the second conveying part are arranged at intervals in the third preset direction, and the conveying directions of the first conveying part and the second conveying part are along the second preset direction; the second conveying mechanism comprises a third conveying part and a fourth conveying part which are both connected with the second conveying frame, the third conveying part and the fourth conveying part are arranged at intervals in a third preset direction, and the conveying directions of the third conveying part and the fourth conveying part are both along the second preset direction.

A second object of the present application is to provide a conveying apparatus, including a plurality of conveying units, each of the conveying units includes a double-layered conveying assembly as set forth in any one of the above, each of the first conveying assemblies is disposed flush in a transmission direction, and each of the second conveying assemblies is disposed flush in the transmission direction.

The double-deck conveying subassembly and the transfer apparatus of this application for prior art's beneficial effect is: compared with the prior art, in the double-layer conveying assembly and the conveying equipment, the first conveying mechanism and the second conveying mechanism are integrally arranged on the mounting seat by arranging the mounting seat, so that when two adjacent conveying devices are aligned and adjusted, the first conveying mechanism and the second conveying mechanism can be adjusted together by taking the first conveying mechanism as a reference, and the position of the mounting seat is only required to be adjusted during adjustment; because the relative positions of the first conveying mechanism and the second conveying mechanism are determined when the first conveying mechanism and the second conveying mechanism are connected with the mounting seat, after the position of the mounting seat is adjusted, the second conveying mechanism is subjected to fine adjustment of the position deviation relative to the second conveying frame in a third preset direction according to the actual position deviation, and therefore the assembly, the alignment and the precision deviation adjustment of the multiple groups of double-layer conveying assemblies in the conveying direction can be realized. This double-deck conveying subassembly's structural design can make the adjustment process more smooth and easy, is favorable to improving work efficiency.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings used in the embodiments of the present application or the description of the prior art will be briefly described below, and it is obvious that the drawings described below are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a dual layer transfer assembly according to an embodiment of the present application;

FIG. 2 is an isometric view of FIG. 1;

FIG. 3 is a second isometric view of FIG. 1;

FIG. 4 is an exploded view of FIG. 1;

fig. 5 is an exploded view of fig. 3.

Reference numerals illustrate: 1. a first transfer assembly; 11. a first transfer frame; 12. a first conveying mechanism; 121. a first conveying section; 122. a second conveying section; 2. a mounting base; 21. a first mounting surface; 22. a second mounting surface; 3. a second transfer assembly; 31. a second transfer frame; 311. a first frame structure; 312. a second frame structure; 313. a third locking structure; 32. a second conveying mechanism; 321. a third conveying section; 322. a fourth conveying section; 33. a second locking structure; 34. a first measurement structure; 35. a second measurement structure; 4. a first locking structure; x, a second preset direction; y, a first preset direction; z, a third preset direction.

Detailed Description

Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary and intended for the purpose of explaining the present application and are not to be construed as limiting the present application.

In the description of the present application, it should be understood that the terms "length," "width," "upper," "lower," "upward," "vertical," "horizontal," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate description of the present application and simplify description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be configured and operated in a particular orientation, and therefore should not be construed as limiting the present application.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In this application, unless specifically stated and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art as the case may be.

One conveying production line is generally formed by assembling a plurality of conveying devices in the conveying direction, one conveying device is provided with a first conveying mechanism positioned on an upper layer and a second conveying mechanism positioned on a lower layer, in the related technology, the first conveying mechanism and the second conveying mechanism are independently installed, so when the upper layer and the lower layer are aligned and adjusted, a bolt assembly is firstly loosened, the conveying mechanism on one layer is adjusted to be aligned, then the bolt on the other layer is loosened, the conveying mechanism on the other layer is adjusted to be aligned, meanwhile, the corresponding positions of the conveying mechanisms on the upper layer and the lower layer are also needed to be taken into consideration, the bolt connection assemblies of the conveying mechanisms on the upper layer and the lower layer are all required to be repeatedly disassembled and assembled, the adjusting process is complicated, and the alignment adjustment and installation efficiency is low.

Therefore, the double-layer conveying assembly improves the structural design of the upper and lower layers of conveying devices, and the first conveying mechanism and the second conveying mechanism are integrally arranged on one mounting seat, so that when two adjacent conveying devices are aligned and adjusted, the first conveying mechanism is used as a reference, the conveying mechanisms of the upper layer and the lower layer can be adjusted together, and the position of the mounting seat is only required to be adjusted during adjustment; since the relative positions of the first conveying mechanism and the second conveying mechanism are determined when the first conveying mechanism and the second conveying mechanism are connected with the mounting seat, the position deviation of the second conveying mechanism can be finely adjusted according to the actual position deviation after the position of the mounting seat is adjusted. This double-deck conveying subassembly's structural design can make the adjustment process more smooth and easy, is favorable to improving work efficiency.

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be further described in detail with reference to the accompanying drawings and examples.

Referring to fig. 1-3, the embodiment of the present application provides a dual-layer transmission assembly, which includes a mounting base 2, a first transmission assembly 1 and a second transmission assembly 3; the mount 2 has a first mounting surface 21 and a second mounting surface 22 disposed opposite to each other in a first preset direction Y; the first conveying assembly 1 comprises a first conveying frame 11 and a first conveying mechanism 12, the first conveying frame 11 is installed on a first installation surface 21, the first conveying mechanism 12 is installed on the first conveying frame 11, the conveying direction of the first conveying mechanism 12 is along a second preset direction X, and the second preset direction X is perpendicular to the first preset direction Y; the second conveying assembly 3 comprises a second conveying frame 31 and a second conveying mechanism 32, the second conveying frame 31 is arranged on the second mounting surface 22, the second conveying mechanism 32 is movably arranged on the second conveying frame 31, and the conveying direction of the second conveying mechanism 32 is along a second preset direction X; the second conveying mechanism 32 is capable of switching between a plurality of adjustment positions with respect to the second conveying frame 31 along a third preset direction Z, which is perpendicular to the second preset direction X and perpendicular to the first preset direction Y.

Specifically, the mounting base 2 may adopt a plate structure or a frame structure, two mounting surfaces are formed on the mounting base 2, the two mounting surfaces are a first mounting surface 21 and a second mounting surface 22, the first mounting surface 21 and the second mounting surface 22 are oppositely arranged in a first preset direction Y, and the first mounting surface 21 and the second mounting surface 22 may be a plane, a curved surface or a special-shaped surface, wherein, referring to fig. 1, the first preset direction Y may be a vertical (or vertical) direction.

The double-layer conveying assembly comprises two conveying assemblies, namely a first conveying assembly 1 and a second conveying assembly 3, which are respectively connected to a first mounting surface 21 and a second mounting surface 22, wherein the first conveying assembly 1 and the second conveying assembly 3 are respectively positioned above and below a mounting seat 2; specifically, the first conveying mechanism 12 in the first conveying assembly 1 is mounted on the first mounting surface 21 of the mounting base 2 through the first conveying frame 11, and the second preset direction X is perpendicular to the first preset direction Y, that is, the second preset direction X is parallel to the horizontal direction, so that the conveying direction of the first conveying mechanism 12 is along the horizontal direction.

The second conveying mechanism 32 in the second conveying assembly 3 is mounted on the second mounting surface 22 of the mounting seat 2 through the second conveying frame 31, and the conveying direction of the second conveying mechanism 32 is along the second preset direction X, that is, the conveying direction of the second conveying mechanism 32 is also along the horizontal direction, and the conveying direction of the second conveying mechanism 32 is the same as the conveying direction of the first conveying mechanism 12.

The second conveying mechanism 32 is movably connected to the second conveying frame 31, so that the second conveying mechanism 32 can be switched between a plurality of adjustment positions relative to the second conveying frame 31 along a third preset direction Z, the third preset direction Z is perpendicular to the first preset direction Y and the second preset direction X, and it can be seen that the second conveying mechanism 32 is switched between a plurality of adjustment positions relative to the second conveying frame 31 along the third preset direction Z, the second conveying mechanism 32 is parallel to the horizontal direction relative to the second conveying frame 31, and moves along the directions towards the left and right sides of the conveying direction of the first conveying mechanism 12, and when the conveying direction of the second conveying mechanism 32 is set to be longitudinal, the moving direction of the second conveying mechanism 32 relative to the second conveying frame 31 is transverse.

Wherein, the first conveying mechanism 12 and the second conveying mechanism 32 can both adopt a belt transmission mechanism, a chain transmission mechanism and the like; the first and second transfer frames 11 and 31 may each employ a leg structure, a frame structure, or the like.

In the present embodiment, by providing the mounting base 2, the first conveying mechanism 12 and the second conveying mechanism 32 are integrally mounted on one mounting base 2, so that when two adjacent conveying devices perform alignment adjustment, the first conveying mechanism 12 and the second conveying mechanism 32 can be adjusted together with reference to the first conveying mechanism 12, and only the position of the mounting base 2 needs to be adjusted during adjustment; since the relative positions of the first conveying mechanism 12 and the second conveying mechanism 32 are determined when the first conveying mechanism and the second conveying mechanism are connected with the mounting seat 2, after the position of the mounting seat 2 is adjusted, the second conveying mechanism 32 is subjected to fine adjustment of the position deviation relative to the second conveying frame 31 in the third preset direction Z according to the actual position deviation, so that the alignment, the alignment and the precision deviation adjustment of the multiple groups of double-layer conveying assemblies in the conveying direction can be realized. This double-deck conveying subassembly's structural design can make the adjustment process more smooth and easy, is favorable to improving work efficiency.

In one embodiment, referring to fig. 2, the dual-layer conveying assembly further includes a first locking structure 4 connected to the mounting base 2, the first locking structure 4 has a first locking portion formed on the first mounting surface 21 of the mounting base 2 and a second locking portion formed on the second mounting surface 22, the first locking portion is connected to the first conveying frame 11, and the second locking portion is connected to the second conveying frame 31.

Specifically, the first locking structure 4 is mounted on the mounting base 2 and is used for respectively connecting the first conveying frame 11 and the second conveying frame 31 for integrally fixing the first conveying assembly 1 and the second conveying assembly 3.

After the first locking structure 4 is mounted on the mounting seat 2, a first locking portion is formed on the first mounting surface 21 and is directly connected with the first conveying frame 11 through the first locking portion, so that the first conveying mechanism 12 is fixed; meanwhile, the first locking structure 4 forms a second locking portion on the second mounting surface 22, and is directly connected with the second conveying frame 31 through the second locking portion, so as to fix the second transmission mechanism.

Specifically, the first locking structure 4 includes a locking post and two locking nuts, the locking post may employ bolts, the locking nuts may employ nuts, the locking post is connected in a mounting hole formed on the mounting base 2 in a penetrating manner, two ends of the locking post respectively protrude outwards on the surfaces of the first mounting surface 21 and the second mounting surface 22, that is, a first locking portion and a second locking portion are formed, the locking post is simultaneously connected with the mounting base 2, the first conveying frame 11 and the second conveying frame 31, and is connected with two ends of the locking post in a threaded manner through the two locking nuts respectively, so that the first conveying frame 11 and the second conveying frame 31 are fixed on the mounting base 2.

In this embodiment, through setting up first lock joint structure 4, realized carrying out fixed connection's purpose with first conveying frame 11 and second conveying frame 31 and mount pad 2 simultaneously, guaranteed symmetry and installation accuracy of two-layer conveying subassembly in the mount pad 2 both sides for first conveying subassembly 1 and second conveying subassembly 3 can align the setting, and installation convenient operation need not to adjust repeatedly, saves installation time, improves installation effectiveness.

In one embodiment, referring to fig. 3, the second conveying assembly 3 further includes a second locking structure 33, the second conveying mechanism 32 is slidably connected to the second conveying frame 31 along the third preset direction Z, and the second locking structure 33 is connected between the second conveying mechanism 32 and the second conveying frame 31 for limiting the second conveying mechanism 32.

Specifically, the second locking structure 33 includes a connecting post and two connecting nuts, the connecting post may use a bolt or a stud, the connecting nut may use a nut, the connecting post is connected in a connecting hole formed on the second conveying frame 31 in a penetrating manner, and an orifice of the connecting hole may be formed along a third preset direction Z in an extending manner, so that the connecting post may move in the connecting hole along the third preset direction Z to a plurality of positions, that is, the plurality of positions are a plurality of adjusting positions in the above embodiment, at least one end of the connecting post protrudes outside the connecting hole, and the connecting post is simultaneously connected with the second conveying frame 31 and the second conveying mechanism 32, and is connected with an end threaded connection of the connecting post through the connecting nut, so that the second conveying frame 31 and the second conveying mechanism are fixed, and the second conveying mechanism 32 is connected to the second conveying frame 31.

In the present embodiment, by sliding the second conveying mechanism 32 with respect to the second conveying frame 31, the second conveying mechanism 32 can be adjusted in position with respect to the second conveying frame 31 in the third preset direction Z, so that when the adjacent double-layer conveying assembly is docked, fine adjustment can be performed with respect to the deviation between the second conveying mechanisms 32, so as to achieve the purpose of improving the pairing accuracy between the adjacent two double-layer conveying assemblies.

In one embodiment, referring to fig. 3, the second conveying assembly 3 further comprises a first measuring structure 34 connected to the second conveying frame 31, the first measuring structure 34 being arranged between the first conveying frame 11 and the second conveying mechanism 32 for measuring the moving distance of the second conveying frame 31 relative to the second conveying frame 31 in the third preset direction Z.

Specifically, the first measuring structure 34 may be mounted on the first conveying frame 11, and the first measuring structure 34 may employ a measuring ruler, and by mounting the measuring ruler at the hole opening position of the connecting hole, the length direction of the measuring ruler is set along the hole opening extending direction (i.e. the third preset direction Z) of the connecting hole, so that when the second conveying mechanism 32 moves along the third preset direction Z, measurement can be performed by the first measuring structure 34, and the assembly accuracy is ensured.

In the present embodiment, by providing the first measuring structure 34, it is possible to perform distance measurement on the second conveying mechanism 32 in the process of moving in the third preset direction Z, and to ensure alignment accuracy between adjacent second conveying mechanisms 32.

In one embodiment, referring to fig. 1 and 3, the second conveying frame 31 includes a first frame structure 311, a second frame structure 312, and a third locking structure 313, the second frame structure 312 is slidably connected to the first frame structure 311 along a first preset direction Y, and the third locking structure 313 is connected between the first frame structure 311 and the second frame structure 312 for limiting the second frame structure 312; the second transfer mechanism 32 is connected to the second frame structure 312, and the first frame structure 311 is connected to the second mounting surface 22 of the mounting base 2.

Specifically, the second frame body includes two moving arms and a connecting arm connected between the two moving arms, the two moving arms are spaced apart and arranged in parallel, and the connecting arm is vertically connected with the two moving arms, so that the second frame body forms a structure similar to a door shape, and the second conveying mechanism 32 is connected to the moving arms.

The first frame structure 311 includes two mounting seats 2, the mounting seats 2 are provided with assembly holes, the extending direction of the orifice of each assembly hole is along a first preset direction Y, the end parts of the two moving arms are respectively connected with the two mounting seats 2, and the end parts of the moving arms are connected with the mounting seats 2 through third locking structures 313.

The third locking structure 313 may be a bolt assembly, which includes a bolt and a nut, so that the bolt is inserted into the assembly hole, and the position of the moving arm relative to the mounting seat 2 in the first preset direction Y is adjusted, and then the moving arm and the mounting seat 2 are fixed by the bolt assembly, so as to achieve the purpose of adjusting the position of the moving arm and the second conveying mechanism 32 connected thereto in the first preset direction Y.

The second conveying frames 31 may be provided with a plurality of groups, and the plurality of groups of second conveying frames 31 are arranged at intervals in the second preset direction X to be simultaneously connected with the second conveying mechanism 32, and the second preset direction X is the conveying direction of the second conveying mechanism 32, so it is known that the plurality of groups of second conveying frames 31 are arranged at intervals in the conveying direction of the second conveying mechanism 32 and are respectively connected with the second conveying mechanism 32.

In the present embodiment, the second frame structure 312 is slid along the first preset direction Y relative to the first frame structure 311, so that the second frame structure 312 can move together with the second conveying mechanism 32, thereby achieving the purpose of adjusting the position of the second conveying mechanism in the first preset direction Y; the third locking structure 313 is adopted to fix the first frame structure 311 and the second frame structure 312, and the third locking structure 313 adopts a bolt assembly, so that the first frame structure 311 and the second frame structure 312 are more flexible and convenient to install and detach.

In one embodiment, referring to fig. 3, 4 and 5, the second conveying assembly 3 further includes a second measuring structure 35 connected to the first frame structure 311, the second measuring structure 35 being disposed between the first frame structure 311 and the second frame structure 312 for measuring a moving distance of the second frame structure 312 in the first preset direction Y relative to the first frame structure 311.

Specifically, the second measuring structure 35 may be mounted on the first frame structure 311, and the second measuring structure 35 may employ a measuring ruler, and by mounting the measuring ruler at the hole opening position of the assembly hole, the length direction of the measuring ruler is set along the hole opening extending direction (i.e., the first preset direction Y) of the assembly hole, so that when the second conveying mechanism 32 moves along the first preset direction Y, measurement can be performed through the second measuring structure 35, and assembly accuracy is ensured.

In the present embodiment, by providing the second measuring structure 35, it is possible to perform distance measurement on the second conveying mechanism 32 in the process of moving in the first preset direction Y, and to ensure alignment accuracy between adjacent second conveying mechanisms 32.

In one embodiment, referring to fig. 3 and 4, the mount 2 is plate-shaped, the first preset direction Y is a thickness direction of the mount 2, and two plate surfaces of the mount 2 in the thickness direction form a first mounting surface 21 and a second mounting surface 22.

Specifically, the mounting base 2 is flat, the plate direction of the mounting base 2 is along the second preset direction X, and when the second preset direction X is the horizontal direction, it can be known that the first conveying component 1 and the second conveying component 3 are respectively connected above and below the mounting base 2.

In this embodiment, the flat plate-shaped mounting seat 2 has a simpler structure, the first conveying component 1 and the second conveying component 3 are integrally mounted on the mounting seat 2, and the positions of the first conveying component 1 and the second conveying component 3 can be adjusted through the integration of the mounting seat 2, so that the alignment, the alignment and the precision deviation adjustment of the multiple groups of double-layer conveying components in the conveying direction are realized.

In one embodiment, referring to fig. 2 and 3, the first conveying mechanism 12 includes a first conveying part 121 and a second conveying part 122 both connected to the first conveying frame 11, the first conveying part 121 and the second conveying part 122 being disposed at intervals in a third preset direction Z, the conveying directions of the first conveying part 121 and the second conveying part 122 being along a second preset direction X; the second conveying mechanism 32 includes a third conveying portion 321 and a fourth conveying portion 322 both connected to the second conveying frame 31, the third conveying portion 321 and the fourth conveying portion 322 are disposed at intervals in a third preset direction Z, and conveying directions of the third conveying portion 321 and the fourth conveying portion 322 are along a second preset direction X.

Specifically, the first conveying portion 121, the second conveying portion 122, the third conveying portion 321, and the fourth conveying portion 322 may be belt conveying structures or chain conveying structures, and the first conveying portion 121 and the second conveying portion 122 are disposed on the first mounting surface 21 at intervals in the third preset direction Z; the third conveying portion 321 is located below the first conveying portion 121, and the fourth conveying portion 322 is located below the second conveying portion 122, so the third conveying portion 321 and the fourth conveying portion 322 are disposed at intervals in the third preset direction Z.

In the present embodiment, the first conveying mechanism 12 and the second conveying mechanism 32 are both configured by a double conveyor belt or a double conveyor chain, and the first conveying mechanism 12 and the second conveying mechanism 32 are symmetrically disposed on the upper and lower sides of the mounting base 2.

The embodiment of the application also provides a conveying device, which comprises a plurality of conveying units, wherein each conveying unit comprises the double-layer conveying assembly in any embodiment, each first conveying assembly 1 is arranged in a flush manner in the transmission direction, and each second conveying assembly 3 is arranged in a flush manner in the transmission direction.

In this embodiment, the conveying units can be assembled in the second preset direction X, and the double-layer conveying assemblies in the conveying units are integrally mounted on one mounting seat 2 by arranging the mounting seat 2, so that when two adjacent conveying devices are aligned and adjusted, the first conveying mechanism 12 can be used as a reference to adjust the first conveying mechanism 12 and the second conveying mechanism 32 together, and only the position of the mounting seat 2 needs to be adjusted during adjustment; since the relative positions of the first conveying mechanism 12 and the second conveying mechanism 32 are determined when the first conveying mechanism and the second conveying mechanism are connected with the mounting seat 2, after the position of the mounting seat 2 is adjusted, the second conveying mechanism 32 is subjected to fine adjustment of the position deviation relative to the second conveying frame 31 in the third preset direction Z according to the actual position deviation, so that the alignment, the alignment and the precision deviation adjustment of the multiple groups of double-layer conveying assemblies in the conveying direction can be realized. The structural design of the conveying equipment can enable the adjusting process to be smoother, and is beneficial to improving the working efficiency.

The foregoing description of the preferred embodiments of the present application has been provided for the purpose of illustrating the general principles of the present application and is not meant to limit the scope of the present application in any way. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present application, and other embodiments of the present application, which may occur to those skilled in the art without the exercise of inventive faculty, are intended to be included within the scope of the present application, based on the teachings herein.

Claims (10)

1. A dual layer transfer assembly comprising:

a mounting base (2) having a first mounting surface (21) and a second mounting surface (22) which are disposed opposite to each other in a first preset direction;

the first conveying assembly (1) comprises a first conveying frame (11) and a first conveying mechanism (12), wherein the first conveying frame (11) is installed on the first installation surface (21), the first conveying mechanism (12) is installed on the first conveying frame (11), the conveying direction of the first conveying mechanism (12) is along a second preset direction, and the second preset direction is perpendicular to the first preset direction; and

The second conveying assembly (3) comprises a second conveying frame (31) and a second conveying mechanism (32), the second conveying frame (31) is installed on the second installation surface (22), the second conveying mechanism (32) is movably installed on the second conveying frame (31), and the conveying direction of the second conveying mechanism (32) is along the second preset direction; the second conveying mechanism (32) is switchable between a plurality of adjustment positions relative to the second conveying frame (31) along a third preset direction, which is perpendicular to the second preset direction and perpendicular to the first preset direction.

2. The double-deck transfer assembly according to claim 1, further comprising a first locking structure (4) connected to the mounting base (2), the first locking structure (4) being formed with a first locking portion on a first mounting surface (21) of the mounting base (2) and a second locking portion on the second mounting surface, the first locking portion being connected to the first transfer frame (11) and the second locking portion being connected to the second transfer frame (31).

3. The double-layer transfer assembly of claim 2, wherein the first locking structure (4) comprises a locking post and two locking nuts, the locking post being simultaneously connected with the mounting base (2), the first transfer frame (11) and the second transfer frame (31) and being screwed with the two locking nuts to fix the first transfer frame (11) and the second transfer frame (31) to the mounting base (2).

4. A double-deck transfer assembly according to any one of claims 1-3, wherein the second transfer assembly (3) further comprises a second locking structure (33), the second transfer mechanism (32) being slidingly connected to the second transfer frame (31) along the third predetermined direction, the second locking structure (33) being connected between the second transfer mechanism (32) and the second transfer frame (31) for limiting the second transfer mechanism (32).

5. The double-deck transfer assembly according to claim 4, wherein the second transfer assembly (3) further comprises a first measuring structure (34) connected to the second transfer frame (31), the first measuring structure (34) being arranged between the first transfer frame (11) and the second transfer mechanism (32) for measuring the distance of movement of the second transfer frame (31) relative to the second transfer frame (31) in the third predetermined direction.

6. A double-deck transfer assembly according to any one of claims 1-3, wherein the second transfer frame (31) comprises a first frame structure (311), a second frame structure (312) and a third locking structure (313), the second frame structure (312) being slidably connected to the first frame structure (311) along the first preset direction, the third locking structure (313) being connected between the first frame structure (311) and the second frame structure (312) for limiting the second frame structure (312); the second conveying mechanism (32) is connected to the second frame structure (312), and the first frame structure (311) is connected to the second mounting surface (22) of the mounting base (2).

7. The double-layer transfer assembly of claim 6, wherein the second transfer assembly (3) further comprises a second measurement structure (35) connected to the first frame structure (311), the second measurement structure (35) being arranged between the first frame structure (311) and the second frame structure (312) for measuring a movement distance of the second frame structure (312) relative to the first frame structure (311) in the first preset direction.

8. A double-deck transfer assembly according to any one of claims 1-3, wherein the mounting base (2) has a plate shape, the first preset direction is a thickness direction of the mounting base (2), and two plate surfaces of the mounting base (2) in the thickness direction form the first mounting surface (21) and the second mounting surface (22).

9. A double-deck transfer assembly according to any one of claims 1-3, wherein the first transfer mechanism (12) comprises a first transfer portion (121) and a second transfer portion (122) each connected to the first transfer frame (11), the first transfer portion (121) and the second transfer portion (122) being arranged at intervals in the third preset direction, the transfer directions of the first transfer portion and the second transfer portion (122) being along the second preset direction; the second conveying mechanism (32) comprises a third conveying part (321) and a fourth conveying part (322) which are both connected to the second conveying frame (31), the third conveying part (321) and the fourth conveying part (322) are arranged at intervals in a third preset direction, and the conveying directions of the third conveying part and the fourth conveying part (322) are both along the second preset direction.

10. A transfer device comprising a plurality of transfer units, each of said transfer units comprising a double-layered transfer assembly according to any one of claims 1-9, each of said first transfer assemblies (1) being arranged flush in the transmission direction and each of said second transfer assemblies (3) being arranged flush in the transfer direction.