CN218344656U - Material conveying assembly and pumping equipment - Google Patents

Abstract

The utility model provides a defeated material subassembly and pumping equipment, wherein, defeated material subassembly includes: a first hopper comprising a work trough; the valve is detachably arranged in the working groove, and a first mounting hole is formed in the groove wall of the working groove; the first mounting seat is detachably mounted at the first mounting hole, and a second mounting hole is formed in the first mounting seat; one end of the valve is mounted in the second mounting hole through the second mounting seat; the diameter of the first mounting hole is larger than that of the second mounting hole, and the valve can enter or move out of the working groove through the first mounting hole. The utility model provides a defeated material subassembly, the first mounting hole of valve accessible are put into the work groove or are taken out from the work groove. One end of the valve is installed in the second installation hole through the second installation seat, so that the valve cannot slide out from the first installation hole after being placed into the working groove, and the valve can normally work.

Description

Defeated material subassembly and pumping equipment

Technical Field

The utility model relates to an engineering machine tool technical field particularly, relates to a defeated material subassembly and pumping equipment.

Background

In the related art, a valve body in a hopper belongs to a wearing part and needs to be replaced and maintained frequently. The valve body is usually taken out above the hopper when being assembled and disassembled, and is limited by space and position, so that the operation difficulty is higher.

SUMMERY OF THE UTILITY MODEL

In order to solve at least one of the above technical problems, a first object of the present invention is to provide a feeding assembly.

The utility model discloses a second purpose still provides a pumping equipment.

In view of this, according to the utility model discloses a first purpose, the utility model provides a defeated material subassembly, include: a first hopper comprising a working channel; the valve is detachably arranged in the working groove, and a first mounting hole is formed in the groove wall of the working groove; the first mounting seat is detachably mounted at the first mounting hole, and a second mounting hole is formed in the first mounting seat; one end of the valve is mounted in the second mounting hole through the second mounting seat; the diameter of the first mounting hole is larger than that of the second mounting hole, and the valve can enter or move out of the working groove through the first mounting hole.

The utility model provides a defeated material subassembly includes first hopper, valve, first mount pad and second mount pad. Wherein, first hopper includes the work groove, and valve detachably installs in the work groove, and then realizes the defeated material work in the work groove. Be provided with first mounting hole on the cell wall of work groove, first mount pad detachably in defeated material subassembly installs in first hopper to both realized being connected of first mount pad and first hopper, also realized removing to block first mounting hole and the outside intercommunication of work groove through first mount pad. A second mounting hole is formed in the first mounting seat; one end of the valve is mounted in the second mounting hole through the second mounting seat. The diameter of the first mounting hole is larger than that of the second mounting hole, and the valve can enter or move out of the working groove through the first mounting hole.

Through the setting of first mounting hole, when needs install the valve to first hopper, can directly put into the work groove by first mounting hole department with the valve, and then with valve installation in the work groove. The whole valve is convenient to send into the working groove. After placing the valve, install first mount pad in first mount pad department, and pack the valve into the second mount pad of first mount pad through the second mount pad, thereby make the valve obtain fixedly, and the diameter of first mount pad is greater than the diameter of second mount pad, make first mount pad play the effect of blockking at this moment, avoid the part that the valve lies in the work inslot after the installation to remove outside the work groove by first mount pad department, and then guarantee that the valve can normally work, carry out the distribution of material and carry.

The valve is dismantled from first hopper in needs, for example when needing to carry out maintenance or change to the valve, dismantle first mount pad from first hopper to dismantle the second mount pad, make valve and second mounting hole separation, disconnection and second mounting hole be connected, the valve can remove this moment, and then directly takes out the valve from first mounting hole department, and whole valve dismantlement process is convenient, and the degree of difficulty is lower.

Therefore, the utility model provides a defeated material subassembly is through being provided with first mounting hole on the cell wall at the work groove for the first mounting hole of valve accessible directly puts into the work groove or takes out from the work groove. The first mounting seat is detachably mounted at the first mounting hole, and a second mounting hole is formed in the first mounting seat; one end of the valve is installed in the second installation hole through the second installation seat, so that the valve cannot slide out from the first installation hole after being placed in the working groove, and the valve is fixed in position. And then the valve can normally work, and the dismouting process of whole valve is convenient, and the degree of difficulty is lower.

Additionally, the utility model provides a defeated material subassembly in the above-mentioned embodiment can also have following additional technical characterstic:

in the above technical solution, the first hopper includes: a base plate; the enclosing plate is arranged on the bottom plate, the bottom plate and the enclosing plate enclose the working groove, the first mounting seat is mounted on the enclosing plate, and the enclosing plate is provided with a first mounting hole.

In this technical scheme, first hopper includes bottom plate and bounding wall, and wherein the bottom plate is as the load-bearing member in the first hopper, and on the bounding wall set up the bottom plate, the bottom plate and bounding wall enclosed out the work groove, and first mount pad is installed on the bounding wall, is provided with first mounting hole on the bounding wall. The enclosing plate is arranged on the bottom plate which plays a supporting role, namely the enclosing plate is a plate body which forms the peripheral side part of the first hopper. The first mounting hole is formed in the side face of the first hopper, and a user can more conveniently place the valve into the working groove from the first mounting hole or take the valve out from the first mounting hole.

In any of the above technical solutions, the shroud includes: a first side plate; the second side plate is arranged opposite to the first side plate, and the first mounting hole is formed in the first side plate.

In this technical scheme, the bounding wall includes first curb plate and second curb plate, and wherein, the second curb plate sets up with first curb plate is relative. First mounting hole sets up in first curb plate, has promoted the convenience of valve dismouting, has reduced intensity of labour, has enlarged the application scope of product.

In any of the above solutions, the valve comprises: the valve body is positioned in the working groove, one end of the valve body is a discharge end, and the other end of the valve body is a transmission end; at least one part of the discharge end is detachably arranged in the second mounting hole through the second mounting seat.

In this solution, the valve comprises a valve body. One end of the valve body is a discharge end, and the other end of the valve body is a transmission end. The valve body is located in the working tank and can swing. At least one part of the discharge end is detachably arranged in the second mounting hole through the second mounting seat, so that the whole valve is fixed through the discharge end.

In any of the above technical solutions, the second side plate is further provided with a third mounting hole, an axis of the third mounting hole coincides with an axis of the second mounting hole, and at least a part of the transmission end is located in the third mounting hole.

In this technical scheme, still seted up the third mounting hole on the second curb plate, at least a part of transmission end is located the third mounting hole for the transmission end is connected in the second curb plate through wearing to establish the third mounting hole, and then makes the transmission end can not produce the removal on the position for the second curb plate.

In any of the above technical solutions, the bottom plate includes: the first sub-board is horizontally arranged; and the second sub-board is connected with the first sub-board and is obliquely arranged relative to the first sub-board, so that the depth of the working groove at the first sub-board is greater than that of the working groove at the second sub-board.

In this solution, the bottom plate includes a first sub-plate and a second sub-plate, and the first sub-plate is arranged horizontally, that is, the first sub-plate extends in a direction parallel to the axis of the first mounting hole. The second sub-board is connected with the first sub-board, and the second sub-board is obliquely arranged relative to the first sub-board, so that the depth of the working groove at the first sub-board is larger than that of the working groove at the second sub-board. Therefore, when the valve is placed into the working groove through the first mounting hole, the valve body can be firstly sent into the working groove in the axial direction away from the first mounting hole in an inclined manner, and when the wider part of the valve enters the working groove, the valve position is adjusted so that the valve can smoothly enter the working groove. Through the slope setting of second daughter board for first daughter board for the valve is more convenient when getting into the work inslot through first mounting hole, need not too big that the size of first mounting hole was seted up and can make the first mounting hole of passing through that the valve body can be smooth.

In any one of the above technical solutions, the first mounting seat includes a flange seat, and the flange seat is provided with a second mounting hole.

In this technical scheme, first mount pad includes the flange seat, and the flange seat is provided with the second mounting hole, and when the installation fixed valve, on the second mounting hole on the flange seat is installed the valve through the second mount pad, and then the realization is injectd the position of valve.

In any of the above technical solutions, the shape of the flange seat is circular or rectangular.

In this technical scheme, on the one hand, the shape of flange seat is circular, is circular flange seat and can guarantee to have sufficient structural strength and stabilize the installation, and then goes the basis of standing valve, can also reduce the processing material, reduces the processing cost. Further, the shape of the flange seat can also be rectangular.

In any one of the above technical solutions, the second mounting seat includes a bearing seat, a fourth mounting hole is provided on the bearing seat, and one end of the valve penetrates through the fourth mounting hole.

In this technical scheme, the second mount pad includes the bearing frame, is provided with the fourth mounting hole on the bearing frame, and the fourth mounting hole is worn to locate by the one end of valve to realize being connected of valve and bearing frame, and then can install in the second mounting hole.

When the valve seat is installed in the second installation hole through the bearing seat, one end of the valve can rotate in the fourth installation hole, and therefore the requirement that part of the valve can swing is met.

In any one of the above-mentioned technical scheme, defeated material subassembly still includes: and the second hopper is detachably arranged on the first hopper and communicated with the working groove.

In this technical scheme, defeated material subassembly still includes the second hopper that detachable installed on first hopper, and the second hopper is linked together with the work groove, and then, when the defeated material subassembly of needs carried materials such as concrete, the material can be by the second hopper department pour into defeated material subassembly in to flow to the work inslot, distribute by the valve, thereby export outside the work groove. The second hopper is detachably mounted on the first hopper, so that the first hopper and the second hopper can be detached to be maintained respectively when the first hopper or the second hopper breaks down or parts arranged in the first hopper or the second hopper break down, and the difficulty in maintenance is reduced.

According to the utility model discloses a second purpose, the utility model discloses still provide a pumping equipment, include the defeated material subassembly among the aforesaid arbitrary technical scheme.

The utility model discloses pumping equipment that second purpose provided, because of including the defeated material subassembly as in above-mentioned arbitrary technical scheme, consequently have the whole beneficial effect of defeated material subassembly in above-mentioned arbitrary technical scheme, do not do here and describe repeatedly.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural view of a feeding assembly according to an embodiment of the present invention;

FIG. 2 is an axial view of the feed delivery assembly of the embodiment of FIG. 1;

FIG. 3 showsbase:Sub>A cross-sectional view taken along the line A-A of the feeding module in the embodiment of FIG. 2;

FIG. 4 shows an exploded view of the feed delivery assembly of the embodiment of FIG. 1;

FIG. 5 is a schematic view of the first hopper of the feeding assembly of the embodiment of FIG. 1;

fig. 6 is a schematic structural view of a feeding assembly according to an embodiment of the present invention;

fig. 7 shows a cross-sectional view in the direction B-B of the feed delivery assembly in the embodiment of fig. 6.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 to 7 is:

the automatic feeding device comprises a feeding component 1, a first hopper 10, a working groove 100, a first mounting hole 120, a bottom plate 140, a first sub-plate 142, a second sub-plate 144, a surrounding plate 160, a first side plate 162, a second side plate 164, a third mounting hole 1640, a valve 20, a valve body 200, a discharge end 220, a transmission end 240, a first mounting seat 40, a second mounting hole 400, a second hopper 60, a second mounting seat 80 and a fourth mounting hole 800.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

The feed delivery assembly 1 and the pumping apparatus (not shown) according to some embodiments of the present invention will be described with reference to fig. 1 to 7.

Specifically, in fig. 1 to 7, a portion indicated by an indicator line (curved line) with an arrow is a groove structure or a hole structure, and a portion indicated by an indicator line (curved line) without an arrow is a solid structure. In which the indication lines with relatively large arrows are directed to the entire structure appearing in the drawing, for example, the indication lines with large arrows in fig. 1 are directed to the entire structure, indicating that the structures in fig. 1 are all constituent structures of the feed delivery assembly 1, and the indication lines with large arrows in fig. 5 are directed to the entire structure, indicating that the structures in fig. 5 are all constituent structures of the first hopper 10.

As shown in fig. 1 and 5, in an embodiment of the present invention, the present invention provides a material conveying assembly 1, including: a first hopper 10, the first hopper 10 comprising a working channel 100; the valve 20, the valve 20 is installed in the working tank 100 removably, there is the first mounting hole 120 on the tank wall of the working tank 100; the first mounting seat 40, the first mounting seat 40 is detachably mounted at the first mounting hole 120, and the first mounting seat 40 is provided with a second mounting hole 400; a second mounting seat 80 through which one end of the valve 20 is mounted to the second mounting hole 400; wherein the first mounting hole 120 has a diameter larger than that of the second mounting hole 400, the valve 20 can be moved into or out of the working tank 100 through the first mounting hole 120.

The utility model provides a defeated material subassembly 1 includes first hopper 10, valve 20, first mount pad 40 and second mount pad 80. Wherein the first hopper 10 includes a work tank 100, and the valve 20 is detachably installed in the work tank 100 to perform a feeding work in the work tank 100. The wall of the working groove 100 is provided with a first mounting hole 120, and the first mounting seat 40 of the feeding assembly 1 is detachably mounted on the first hopper 10, so that the connection between the first mounting seat 40 and the first hopper 10 is realized, and the communication between the first mounting hole 120 and the outside of the working groove 100 is blocked by the first mounting seat 40. The first mounting seat 40 is provided with a second mounting hole 400; one end of the valve 20 is mounted to the second mounting hole 400 through the second mounting seat 80. Wherein the first mounting hole 120 has a diameter larger than that of the second mounting hole 400, the valve 20 can be moved into or out of the working tank 100 through the first mounting hole 120.

Through the arrangement of the first mounting hole 120, when the valve 20 needs to be mounted on the first hopper 10, the valve 20 can be directly placed into the working tank 100 from the first mounting hole 120, and then the valve 20 is mounted in the working tank 100, so that the whole process of feeding the valve 20 into the working tank 100 is convenient. After the valve 20 is placed, the first mounting seat 40 is mounted to the first hopper 10 through the first mounting hole 120, and the valve 20 is mounted into the second mounting hole 400 through the second mounting seat 80, so that the valve 20 is fixed, and the diameter of the first mounting hole 120 is larger than that of the second mounting hole 400, so that the first mounting seat 40 can play a role in blocking at the moment, the part, located in the working groove 100 after mounting, of the valve 20 is prevented from being moved out of the working groove 100 from the first mounting hole 120, and the valve 20 can be guaranteed to normally work, and materials are distributed and conveyed.

When the valve 20 needs to be removed from the first hopper 10, for example, when the valve 20 needs to be repaired or replaced, the first mounting seat 40 is removed from the first hopper 10, and the second mounting seat 80 is removed, so that the valve 20 is separated from the second mounting hole 400 and disconnected from the second mounting hole 400, and at this time, the valve 20 can be moved, and the valve 20 can be directly taken out from the first mounting hole 120, and the whole valve 20 removal process is convenient.

Therefore, the present invention provides a material transporting assembly 1, which is provided with a first mounting hole 120 on the wall of the working tank 100, so that the valve 20 can be directly put into the working tank 100 or taken out from the working tank 100 through the first mounting hole 120. The first mounting seat 40 is detachably mounted on the first hopper 10, and the first mounting seat 40 is provided with a second mounting hole 400; one end of the valve 20 is mounted to the second mounting hole 400 through the second mounting seat 80, so that the valve 20 cannot slide out from the first mounting hole 120 after being placed in the working tank 100, and is fixed in position. And then valve 20 can normally work, and the dismouting process of whole valve 20 is convenient. In one embodiment of the present invention, as shown in fig. 1, 3 and 5, the first hopper 10 includes a bottom plate 140 and an enclosure 160.

Specifically, the enclosing plate 160 is disposed on the bottom plate 140, the bottom plate 140 and the enclosing plate 160 enclose the working slot 100, the first mounting seat 40 is mounted on the enclosing plate 160, and the enclosing plate 160 is provided with the first mounting hole 120.

In this embodiment, the first hopper 10 comprises a base plate 140 and an enclosure 160, wherein the base plate 140 acts as a load bearing member in the first hopper 10, the enclosure 160 is provided on the base plate 140, the base plate 140 and the enclosure 160 enclose the working channel 100, the first mounting block 40 is mounted on the enclosure 160, and the enclosure 160 is provided with the first mounting hole 120. The shroud 160 is provided above the bottom plate 140 which serves a supporting function, i.e., the shroud 160 is a plate body constituting a peripheral side portion of the first hopper 10. The first receiving hole 120 is formed on the side of the first hopper 10, so that it is more convenient for a user to put the valve 20 into the work tank 100 through the first receiving hole 120 or take out the valve 20 through the first receiving hole 120.

Further, the bottom plate 140 and the shroud 160 are of an integral structure, which improves the structural strength of the first hopper 10.

In one embodiment of the present invention, as shown in fig. 1, 3 and 6, the enclosure 160 comprises: a first side plate 162; and a second side plate 164 disposed opposite the first side plate 162. The first mounting hole 120 is disposed on the first side plate 162.

In this embodiment, the shroud 160 includes a first side plate 162 and a second side plate 164, wherein the first side plate 162 is disposed opposite the second side plate 164. The first mounting hole 120 is formed in the first side plate 162, so that convenience in dismounting and mounting the valve 20 is improved, labor intensity is reduced, and the application range of the product is expanded.

In one embodiment of the present invention, as shown in fig. 1, 3 and 4, the valve 20 includes a valve body 200, one end of the valve body 200 is a discharge end 220, and the other end is a transmission end 240; at least a portion of the discharge end 220 is removably mounted to the second mounting aperture 400 by the second mounting socket 80.

In this embodiment, the valve 20 includes a valve body 200. One end of the valve body 200 is a discharge end 220 and the other end of the valve body is a drive end 240. The valve body 200 is located within the working channel 100 and is capable of oscillating. At least a portion of the discharge end 220 is removably mounted to the second mounting hole 400 via the second mounting seat 80, thereby allowing the valve body 200 to be secured via the discharge end 220.

In an embodiment of the present invention, as shown in fig. 1 and fig. 4, a third mounting hole 1640 is further formed on the second side plate 164, an axis of the third mounting hole 1640 coincides with an axis of the second mounting hole 400, and at least a portion of the transmission end 240 is located in the third mounting hole 1640.

In this embodiment, the second side plate 164 further has a third mounting hole 1640, and at least a portion of the driving end 240 is located in the third mounting hole 1640, so that the driving end 240 is connected to the second side plate 164 by passing through the third mounting hole 1640, and further the driving end 240 cannot move in position relative to the second side plate 164.

Drive end 240 is rotatable within third mounting hole 1640. In operation, drive end 240 is coupled to an external power take off such that drive end 240 rotates within third mounting hole 1640, which in turn rotates valve body 200.

In an embodiment of the present invention, as shown in fig. 1, 3 and 5, the bottom plate 140 includes: a first sub-panel 142 and a second sub-panel 144.

Specifically, the first sub-board 142 is arranged horizontally; the second sub-plate 144 is connected to the first sub-plate 142, and the second sub-plate 144 is disposed obliquely with respect to the first sub-plate 142 such that the depth of the working groove 100 at the first sub-plate 142 is greater than the depth of the working groove 100 at the second sub-plate 144.

In this embodiment, the bottom plate 140 includes a first sub-plate 142 and a second sub-plate 144, and the first sub-plate 142 is horizontally arranged, that is, the first sub-plate 142 extends in a direction parallel to the axis of the first mounting hole 120. The second sub-plate 144 is connected to the first sub-plate 142, and the second sub-plate 144 is disposed obliquely with respect to the first sub-plate 142 such that the depth of the working groove 100 at the first sub-plate 142 is greater than the depth of the working groove 100 at the second sub-plate 144. Thus, when the valve 20 enters the working tank 100 through the first mounting hole 120, the valve 20 is fed into the working tank 100 in an inclined manner in the axial direction away from the first mounting hole 120, and when the wider portion of the valve 20 enters the working tank 100, the position of the valve 20 is adjusted so that the valve 20 can smoothly enter the working tank 100. Due to the inclined arrangement of the second sub-plate 144 relative to the first sub-plate 142, when the valve 20 enters the working tank 100 through the first mounting hole 120, the valve 20 can pass through the first mounting hole 120 smoothly without the need of oversizing the first mounting hole 120.

Specifically, the second sub-board 144 and the first sub-board 142 are an integrated structure, thereby improving the structural strength of the bottom board 140.

In one embodiment of the present invention, as shown in fig. 1 and 4, the valve 20 is S-shaped, and the maximum value of the distance between any two points on the sidewall of the valve 20 in the axial direction perpendicular to the discharge end 220 is smaller than the diameter of the first mounting hole 120.

In this embodiment, the valve 20 is S-shaped, and the maximum value of the distance between any two points on the sidewall of the valve 20 along the axial direction perpendicular to the discharging end 220 is smaller than the diameter of the first mounting hole 120, that is, the width of the valve 20 is smaller than the diameter of the first mounting hole 120, so that the valve 20 can be smoothly placed in the working tank 100 through the first mounting hole 120.

Specifically, the diameter of the first mounting hole 120 is 1.05 times the maximum value of the distance between any two points on the sidewall of the valve 20, ensuring that the valve 20 can pass through the first mounting hole 120.

In an embodiment of the present invention, as shown in fig. 1 and 2, the first mounting seat 40 includes a flange seat, and the flange seat is provided with a second mounting hole 400.

In this embodiment, the first mounting seat 40 includes a flange seat provided with a second mounting hole 400, and the valve 20 is mounted on the second mounting hole 400 of the flange seat through the second mounting seat 80 when the fixed valve 20 is mounted. Thereby achieving position definition of the valve 20.

In one embodiment of the present invention, as shown in fig. 1 and 2, the flange seat is circular or rectangular in shape.

In this embodiment, on the one hand, the shape of flange seat is circular, and the circular flange seat can guarantee to have sufficient structural strength and stabilize the installation, and then goes the basis of standing valve 20, can also reduce the processing material, reduces the processing cost. Further, the shape of the flange seat may also be rectangular (not shown in the figures).

In an embodiment of the present invention, as shown in fig. 1, fig. 2 and fig. 4, the second mounting seat 80 includes a bearing seat, the bearing seat is provided with a fourth mounting hole 800, and one end of the valve 20 is inserted into the fourth mounting hole 800.

In this embodiment, the second mounting seat 80 includes a bearing seat, the bearing seat is provided with a fourth mounting hole 800, and one end of the valve 20 is inserted into the fourth mounting hole 800 to connect the valve 20 and the bearing seat, so as to be mounted in the second mounting hole;

when the valve 20 is mounted to the second mounting hole through the bearing housing, one end of the valve 20 may rotate in the fourth mounting hole 800, so that a portion of the valve 20 may swing.

In an embodiment of the present invention, as shown in fig. 1, fig. 6 and fig. 7, the material conveying assembly 1 further includes: and a second hopper 60 detachably attached to the first hopper 10, the second hopper 60 being communicated with the work tank 100.

In this embodiment, the material transporting assembly 1 further comprises a second hopper 60 detachably mounted on the first hopper 10, the second hopper 60 is communicated with the working slot 100, and further, when the material transporting assembly 1 is required to transport materials such as concrete, the materials can be injected into the material transporting assembly 1 from the second hopper 60, flow into the working slot 100, and be distributed by the valve 20, so as to be output to the outside of the working slot 100. The second hopper 60 is detachably mounted on the first hopper 10, so that when the first hopper 10 or the second hopper 60 fails or a component arranged in the first hopper 10 or the second hopper 60 fails, the first hopper 10 and the second hopper 60 can be detached to be respectively maintained, and the maintenance difficulty is reduced.

In an embodiment of the present invention, there is also provided a pumping device, comprising the material conveying assembly 1 as shown in fig. 1 in any of the above embodiments.

In this embodiment, the pumping device comprises the material conveying assembly 1 as in any one of the above-mentioned embodiments, so that the beneficial effects of the material conveying assembly 1 as in any one of the above-mentioned embodiments are achieved, the valve 20 of the pumping device can enter the first hopper 10 through the first mounting hole 120, the first hopper 10 and the second hopper 60 do not need to be disassembled to enter from above the hoppers, the second hopper 60 does not need to be lifted during disassembly, and the valve 20 is convenient to disassemble.

In the present application, the term "plurality" is intended to mean two or more, unless explicitly defined otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

In the description of the present specification, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A feeding assembly, comprising:

a first hopper comprising a work tank;

the valve is detachably mounted in the working groove, and a first mounting hole is formed in the groove wall of the working groove;

the first mounting seat is detachably mounted at the first mounting hole, and a second mounting hole is formed in the first mounting seat;

a second mounting seat through which one end of the valve is mounted to the second mounting hole;

wherein the diameter of the first mounting hole is larger than the diameter of the second mounting hole, and the valve can enter or move out of the working tank through the first mounting hole.

2. The delivery assembly of claim 1, wherein said first hopper comprises:

a base plate;

the coaming is arranged on the bottom plate, the bottom plate and the coaming are encircled by the working groove, the first mounting seat is mounted on the coaming, and the coaming is provided with the first mounting hole.

3. The delivery assembly of claim 2, wherein said shroud comprises:

a first side plate;

a second side plate disposed opposite to the first side plate;

the first mounting hole is arranged on the first side plate.

4. The feed delivery assembly of claim 3, wherein the valve comprises:

the valve body is positioned in the working groove, one end of the valve body is a discharge end, and the other end of the valve body is a transmission end;

at least a portion of the discharge end is detachably mounted to the second mounting hole via the second mounting seat.

5. The delivery assembly of claim 4,

a third mounting hole is formed in the second side plate, and the axis of the third mounting hole is overlapped with the axis of the second mounting hole;

at least a portion of the drive end is positioned within the third mounting hole.

6. The delivery assembly of claim 2, wherein said base comprises:

a first sub-board horizontally arranged;

and the second sub-plate is connected with the first sub-plate and is obliquely arranged relative to the first sub-plate, so that the depth of the working groove at the first sub-plate is greater than that of the working groove at the second sub-plate.

7. The delivery assembly of any one of claims 1 to 6,

the first mounting seat comprises a flange seat, and the flange seat is provided with the second mounting hole.

8. The delivery assembly of any one of claims 1 to 6,

the second mounting seat comprises a bearing seat, a fourth mounting hole is formed in the bearing seat, and one end of the valve penetrates through the fourth mounting hole.

9. A delivery assembly as claimed in any one of claims 1 to 6, further comprising:

and the second hopper is detachably arranged on the first hopper, and the second hopper is communicated with the working groove.

10. A pumping apparatus, comprising:

a delivery assembly as claimed in any one of claims 1 to 9.

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