CN211417785U - Movable material receiving device - Google Patents

Abstract

The utility model relates to the technical field of filling material receiving, and discloses a movable material receiving device, when a material receiving container is conveyed below a discharge port, at the moment, a first guide rod is positioned at the bottom end of a first guide groove, the end part of the first guide rod is abutted against the lower end of a support lug of the material receiving container, a second guide rod is positioned at the front end of a second guide groove, an operating rod is pushed to drive the second guide rod to slide along the second guide groove, meanwhile, the first guide rod rises along the first guide groove, the material receiving container is driven to rise through the first guide rod until the material receiving container is abutted against the discharge port of a discharge mechanism, at the moment, the end of the second guide rod slides to the second guide groove, and the gravity of the material receiving container reaches stress balance to realize self-locking, the operation is simple, the production efficiency is improved, and because the material receiving port of the material receiving container and the discharge port of the discharge mechanism are matched, the contact between the filling, and also to prevent leakage of the potting material.

Description

Movable material receiving device

Technical Field

The utility model relates to a technical field that the filling connects the material especially relates to a remove receiving device.

Background

With the improvement and improvement of living standard of people, the food industry is also developing rapidly, and the filling and receiving of food seasonings become more important, such as soy sauce, vinegar, monosodium glutamate liquid, jam and the like in the aspect of seasonings in foods.

In practical production application, a plurality of discharge ports of a discharge mechanism which is fixedly butted by a feed port of a movable receiving container exist, during material receiving, the receiving container is conveyed to the discharge port to be aligned, and then material discharging and receiving are directly carried out, but in the material discharging mode, the butt clamping between the discharge port and the receiving port cannot be ensured, a certain gap exists between the discharge port and the receiving port, however, some filling materials need to ensure that the filling materials are reduced or are prevented from contacting with air in the material receiving process, the conventional method is to use soft cloth to be bound on the feed port and the fixed discharge port of the movable receiving container, so that the butt joint between the receiving port and the discharge port can be realized, the contact between the filling materials and the air is reduced, but the soft cloth fixed on the receiving port and the discharge port in a binding mode is easy to fall off, moreover, the cloth binding mode is complicated in operation process, and the production efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: when the existing feed inlet of the movable material receiving container is butted with the fixed discharge outlet of the discharge mechanism, the butt joint between the feed inlet and the discharge outlet cannot be guaranteed to be tight, the cloth binding mode is complex to operate, and the production efficiency is low.

In order to solve the technical problem, the utility model provides a movable material receiving device, which comprises a discharging mechanism, a movable material receiving container and a butting mechanism for butting and clamping the material receiving container and the discharging mechanism, wherein the discharging mechanism is provided with a discharging port, the upper end of the material receiving container is provided with a material receiving port matched with the discharging port, the material receiving container is provided with a support lug, the butting mechanism comprises an operating rod and two guide plates, the two guide plates are symmetrically arranged at two sides of the discharging port, each guide plate is provided with a first guide groove and a second guide groove, the first guide groove is arranged along the vertical direction, the tail end of the second guide groove and the first guide groove are positioned on the same vertical line, two ends of the operating rod are respectively provided with an arm rod, and each arm rod is provided with a first guide rod and a second guide rod, the first guide rod penetrates through the first guide groove in a sliding mode and then abuts against the support lug, and the second guide rod is arranged in the second guide groove in a sliding mode.

Further preferably, the second guide groove is provided in a horizontal direction.

Further preferably, the guide plate is "L" shaped, and includes a bottom wall and a side wall disposed on the bottom wall, the first guide groove is disposed on the side wall, and the second guide groove is disposed on the bottom wall.

Further preferably, the length of the first guide groove is H, the distance between the material receiving opening and the material outlet is D, and H is larger than or equal to D.

Further preferably, the first guide rod and the second guide rod are arranged on the arm rod in parallel at intervals and are perpendicular to the arm rod.

Further preferably, the length of the first guide rod is L1, the length of the second guide rod is L2, and L1 > L2.

Further preferably, the action bars include horizontal pole portion and locate the vertical pole portion of horizontal pole portion both sides, the armed lever is located the tip of vertical pole portion, just the armed lever with horizontal pole portion with vertical pole portion encloses synthetic plane and has an contained angle theta, theta < 90 °.

Further preferably, θ is 30 ° to 60 °.

Further preferably, the support lug is U-shaped.

Further preferably, the mobile receiving device comprises at least one of the following components:

a sealing gasket is arranged at the discharge port;

a sealing gasket is arranged at the material receiving opening;

the receiving container is a metal container;

the discharging mechanism is made of metal materials; and the lower end of the material receiving container is provided with a roller.

The embodiment of the utility model provides a remove receiving device compares with prior art, and its beneficial effect lies in:

the utility model provides a remove receiving device, including discharge mechanism, receiving container and the docking mechanism that is used for connecting receiving container and discharge mechanism butt joint and presss from both sides tightly, wherein, discharge mechanism is fixed, discharge mechanism is equipped with the discharge gate, receiving container is portable transport to the discharge gate and connects the material, docking mechanism is used for connecting receiving container and discharge gate butt joint of discharge mechanism tightly, specifically, when receiving container is carried to the discharge gate below, at this moment, first guide arm is located the bottom of first guide way, and the tip butt of first guide arm is on receiving container's journal stirrup, the second guide arm is located the front end of second guide way, promote the action bars and drive the second guide arm and slide along the second guide way, meanwhile, first guide arm rises along first guide way, drive receiving container through first guide arm and rise until with discharge gate butt joint of discharge mechanism, at the moment, the second guide rod slides to the tail end of the second guide groove, and the tail end of the second guide groove and the first guide groove are positioned on the same plumb line, so that the first guide rod for supporting the material receiving container is vertically supported by the guide plate and is balanced with the gravity of the material receiving container in stress to realize self-locking.

Drawings

Fig. 1 is a schematic structural view of a mobile material receiving device in a material receiving state according to an embodiment of the present invention;

fig. 2 is a schematic side view of the movable material receiving device according to the embodiment of the present invention in a material receiving state;

fig. 3 is a schematic structural view of the movable material receiving device and the discharging mechanism in a separated state according to the embodiment of the present invention;

fig. 4 is a schematic side view of the separated state of the movable material receiving device and the discharging mechanism of the embodiment of the present invention.

In the figure, 10, a discharge mechanism; 20. a receiving container; 30. a docking mechanism; 101. a discharge port; 201. a material receiving port; 202. supporting a lug; 203. a roller; 301. a guide plate; 302. an operating lever; 303. an arm lever; 304. a first guide bar; 305. a second guide bar; 301a, sidewalls; 301b, a bottom wall; 3011. a first guide groove; 3012. a second guide groove; 3021. a transverse bar portion; 3022. a longitudinal stem portion.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In the description of the present invention, it should be understood that the terms "upper", "lower", "left", "right", and the like indicate orientations or positional relationships based on the orientations or positional relationships 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.

As shown in fig. 1 to 4, a mobile material receiving device according to a preferred embodiment of the present invention includes a discharging mechanism 10, a mobile material receiving container 20, and a docking mechanism 30 for docking and clamping the material receiving container 20 and the discharging mechanism 10, wherein the discharging mechanism 10 is fixed, the discharging mechanism 10 is provided with a discharging port 101, the upper end of the material receiving container 20 is provided with a material receiving port 201 matching with the discharging port 101, the material receiving container 20 is transported to the discharging port 101 for material receiving in a mobile manner, the material receiving container 20 is provided with a supporting lug 202, the docking mechanism 30 includes an operating rod 302 and two guide plates 301, the two guide plates 301 are symmetrically arranged at two sides of the discharging port 101, each guide plate 301 is provided with a first guide slot 3011 and a second guide slot 3012, the first guide slot 3011 is arranged in a vertical direction, the end of the second guide slot 3012 and the first guide slot 3011 are on the same vertical line, two ends of the operating rod 302 are respectively provided with an arm 303, each arm 303 is provided with a first guide rod 304 and a second guide rod 305, the first guide rod 304 penetrates through the first guide slot 3011 in a sliding manner and abuts against the support lug 202, and the second guide rod 305 is arranged in the second guide slot 3012 in a sliding manner.

Specifically, when the material receiving container 20 is conveyed to the lower side of the discharge port 101, at this time, the first guide rod 304 is located at the bottom end of the first guide slot 3011, and the end of the first guide rod 304 abuts against the lug 202 of the material receiving container 20, generally abuts against the lower side of the lug 202, it should be noted that the end of the first guide rod 304 abuts against the lug 202 of the material receiving container 20, and the lug 202 of the material receiving container 20 includes that the end of the first guide rod 304 is connected with the lug 202 of the material receiving container 20 in a detachable, sliding, and nested manner, and the second guide rod 305 is located at the front end of the second guide slot 3012, the operating rod 302 is pushed to drive the second guide rod 305 to slide along the second guide slot 3012, and at the same time, the first guide rod 304 rises along the first guide slot 3011, the material receiving container 20 is driven by the first guide rod 304 to rise until it abuts against the discharge port 101 of the discharge mechanism 10, at this time, the second guide rod 305 slides to, because the end of the second guide slot 3012 and the first guide slot 3011 are located on the same plumb line, so that the first guide rod 304 for supporting the receiving container 20 is vertically supported by the guide plate 301, and is balanced with the gravity of the receiving container 20 to realize self-locking, the operation is simple, the production efficiency is improved, and because the receiving port 201 of the receiving container 20 and the discharge port 101 of the discharging mechanism 10 are in a matched butt-joint clamping state, the contact between the filling material and air can be effectively reduced, and the leakage of the filling material can be prevented, and the receiving container 20 and the discharge port 101 are both made of rigid materials, generally, the receiving container 20 is a metal container, and the discharging mechanism 10 is also made of metal materials, so that the joint of the receiving port 201 and the discharge port 101 is not as soft as a flexible material and is easy to leak, the sealing effect is better, and in addition, because the first guide rod 304 is matched with the first guide slot 3011, the receiving container 20 is connected with the first guide rod 304 through the support lug 202, so that the lifting track of the receiving container 20 is fixed and controllable, and can be automatically matched with and embedded into the discharge hole 101, and the operation is convenient.

In order to further improve the sealing performance between the material receiving opening 201 and the material outlet 101, it is preferable to provide a sealing structure at the material outlet 101, or provide a sealing structure at the material receiving opening 201, or provide both sealing structures, wherein the sealing structure includes, but is not limited to, a sealing ring, a sealing gasket, etc.

Preferably, the second guide slot 3012 is arranged along the horizontal direction, so that the second guide bar 305 slides horizontally along the second guide slot 3012 to drive the first guide bar 304 to vertically ascend along the first guide slot 3011, that is, the operator only needs to push the operating rod 302 to drive the second guide bar 305 to horizontally slide, and the operation is labor-saving.

In this embodiment, the guide plate 301 is in an "L" shape, and includes a bottom wall 301b and a side wall 301a disposed on the bottom wall 301b, wherein the first guide slot 3011 is disposed on the side wall 301a, and the second guide slot 3012 is disposed on the bottom wall 301b, so as to reduce the structural interference while ensuring the structural strength of the guide plate 301.

In order to realize good tight butt joint between the material receiving opening 201 and the material outlet 101 of the material receiving container 20 and ensure the sealing performance in the filling process, the length of the first guide groove 3011 is set to be H, the distance between the material receiving opening 201 and the material outlet 101 is D, H is greater than or equal to D, that is, the first guide rod 304 drives the material receiving container 20 to rise along the first guide groove 3011 by a distance greater than the distance between the material receiving opening 201 and the material outlet 101, so that the material receiving container 20 can be smoothly butted with the material outlet 101 after rising.

In this embodiment, the arm bars 303 are respectively disposed at two sides of the discharging mechanism 10, and the first guide bar 304 and the second guide bar 305 are disposed on the arm bars 303 at intervals in parallel and perpendicular to the arm bars 303, so as to better match with the first guide slot 3011 and the second guide slot 3012 on the guide plate 301. In this embodiment, since the first guide rod 304 passes through the first guide slot 3011 and is connected to the support lug 202, and the second guide rod 305 is slidably disposed in the second guide slot 3012, the length of the first guide rod 304 is L1, the length of the second guide rod 305 is L2, and L1 is greater than L2, which can effectively prevent the second guide rod 305 from blocking the ascending of the material container 20 due to an excessively long length, and reduce the structural interference.

Further, the operating lever 302 includes a transverse lever portion 3021 and a longitudinal lever portion 3022 disposed on both sides of the transverse lever portion 3021, the arm 303 is disposed at an end of the longitudinal lever portion 3022, and an included angle θ is formed between the arm 303 and a plane defined by the transverse lever portion 3021 and the longitudinal lever portion 3022, θ is less than 90 °, so that when the first guide rod 304 is located at the lower end of the first guide slot 3011, the transverse lever portion 3021 is located above, and in operation, the transverse lever portion 3021 is pressed downward, which may drive the longitudinal lever portion 3022 to move and further drive the second guide rod 305 to horizontally slide along the second guide slot 3012, so as to further save labor, in this embodiment, θ is preferably 30 to 60 °.

In this embodiment, it is preferable that the support lug 202 on the material receiving container 20 is U-shaped, so that the overall weight of the material receiving container 20 can be reduced, the U-shaped support lug 202 is convenient for being connected with the first guide rod 304, the material receiving container 20 is driven to ascend integrally to be in butt joint with the material outlet 101, and meanwhile, an operator can move the material receiving container 20 conveniently. In order to facilitate the movement of the receiving container 20, a roller 203 is provided at the lower end of the receiving container 20.

The utility model discloses a working process does: when the material receiving container 20 is conveyed to the lower part of the discharge hole 101, the end part of the first guide rod 304 abuts against the lower part of the support lug 202 of the material receiving container 20, then the operating rod 302 is pushed to drive the second guide rod 305 to slide along the second guide groove 3012, at this time, the first guide rod 304 rises along the first guide groove 3011, the material receiving container 20 is driven by the first guide rod 304 to rise until the material receiving container is abutted against the discharge hole 101 of the discharge mechanism 10, and the second guide rod 305 slides to the tail end of the second guide groove 3012 to achieve a self-locking state, so that the automatic matching and locking of the material receiving container 20 and the discharge hole 101 are ensured.

To sum up, the embodiment of the present invention provides a mobile material receiving device, when a material receiving container 20 is conveyed below a material outlet 101, at this time, a first guide rod 304 is located at the bottom end of a first guide slot 3011, and the end of the first guide rod 304 abuts against a support lug 202 of the material receiving container 20, a second guide rod 305 is located at the front end of the second guide slot 3012, the operating rod 302 is pushed to drive the second guide rod 305 to slide along the second guide slot 3012, and at the same time, the first guide rod 304 rises along the first guide slot 3011, the material receiving container 20 is driven by the first guide rod 304 to rise until it abuts against the material outlet 101 of the material discharging mechanism 10, at this time, the second guide rod 305 slides to the end of the second guide slot 3012, because the end of the second guide slot 3012 and the first guide slot 3011 are located on the same vertical line, the first guide rod 304 for supporting the material receiving container 20 is vertically supported by a guide plate 301, and achieves a force balance with the gravity of the material receiving container 20 to achieve self-locking, the operation is simple, the production efficiency is improved, in addition, the material receiving opening 201 of the material receiving container 20 and the material outlet 101 of the material discharging mechanism 10 are matched, butted and clamped, the contact between the filling material and air can be effectively reduced, meanwhile, the leakage of the filling material can be prevented, the material receiving container 20 and the material outlet 101 are both made of rigid materials, the joint cannot be soft and easy to leak like a flexible material, the sealing effect is better, in addition, the first guide rod 304 is matched with the first guide groove 3011, the material receiving container 20 is connected with the first guide rod 304 through the support lug 202, therefore, the lifting track of the material receiving container 20 is fixed and controllable, the material receiving container can be automatically matched and embedded into the material outlet 101, and the operation is convenient.

It should be understood that the terms "first", "second", etc. are used herein to describe various information, but the information should not be limited to these terms, and these terms are only used to distinguish one type of information from another. For example, "first" information may also be referred to as "second" information, and similarly, "second" information may also be referred to as "first" information, without departing from the scope of the present invention.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and substitutions can be made without departing from the technical principle of the present invention, and these modifications and substitutions should also be regarded as the protection scope of the present invention.

Claims (10)

1. A movable material receiving device is characterized by comprising a discharging mechanism, a movable material receiving container and a butting mechanism for butting and clamping the material receiving container and the discharging mechanism, wherein the discharging mechanism is provided with a discharge port, the upper end of the material receiving container is provided with a material receiving port matched with the discharge port, the material receiving container is provided with a support lug, the butting mechanism comprises an operating rod and two guide plates, the two guide plates are symmetrically arranged at two sides of the discharge port, each guide plate is provided with a first guide groove and a second guide groove, the first guide grooves are arranged along the vertical direction, the tail ends of the second guide grooves and the first guide grooves are positioned on the same plumb line, two ends of the operating rod are respectively provided with an arm rod, each arm rod is provided with a first guide rod and a second guide rod, the first guide rods penetrate through the first guide grooves in a sliding manner and then are butted with the support lugs, the second guide rod is arranged in the second guide groove in a sliding mode.

2. The mobile receiving device according to claim 1, wherein the second guide slot is arranged in a horizontal direction.

3. The mobile receiving device according to claim 2, wherein the guide plate is L-shaped and includes a bottom wall and a side wall disposed on the bottom wall, the first guide groove is disposed on the side wall, and the second guide groove is disposed on the bottom wall.

4. The movable material receiving device according to claim 3, wherein the length of the first guide groove is H, the distance between the material receiving opening and the material outlet is D, and H is larger than or equal to D.

5. The mobile receiving device according to claim 4, wherein the first guide bar and the second guide bar are arranged on the arm in parallel and spaced apart and perpendicular to the arm.

6. The mobile receiving device of claim 5, wherein the first guide bar has a length of L1, the second guide bar has a length of L2, and L1 > L2.

7. The mobile material receiving device according to claim 6, wherein the operating rod includes a transverse rod portion and longitudinal rod portions disposed on both sides of the transverse rod portion, the arm is disposed at an end of the longitudinal rod portion, and an included angle θ is formed between the arm and a plane defined by the transverse rod portion and the longitudinal rod portion, and θ is less than 90 °.

8. The mobile receiving device of claim 7, wherein θ is 30 ° to 60 °.

9. The mobile receiving device according to any one of claims 1 to 8, wherein the support lug is U-shaped.

10. The mobile receiving device according to any one of claims 1 to 8, comprising at least one of:

a sealing gasket is arranged at the discharge port;

a sealing gasket is arranged at the material receiving opening;

the receiving container is a metal container;

the discharging mechanism is made of metal materials; and

the lower end of the material receiving container is provided with a roller.

Images