阅读说明：本技术 一种可压缩物料提高装载能力的节能降耗物料装载装置 (Energy-saving and consumption-reducing material loading device capable of compressing materials and improving loading capacity ) 是由 不公告发明人 于 2021-05-25 设计创作，主要内容包括：本发明公开一种可压缩物料提高装载能力的节能降耗物料装载装置,包括容器体、通过铰接结构铰接在所述容器体顶部侧面的盖体、用于驱动盖体打开的翻盖驱动机构以及设置在所述盖体上用于压缩容器体内物料的物料压缩机构；其中,所述物料压缩机构包括压实件以及用于驱动所述压实件沿着容器体向下运动的压缩驱动机构。该容器能够对物料进行压缩,从而避免物料外泄,同时也使得容器体内的空间得到充分利用,提高装载物料能力,减少了资源浪费。(The invention discloses an energy-saving and consumption-reducing material loading device capable of compressing materials and improving loading capacity, which comprises a container body, a cover body hinged on the side surface of the top of the container body through a hinge structure, a flip cover driving mechanism used for driving the cover body to open, and a material compression mechanism arranged on the cover body and used for compressing the materials in the container body; wherein the material compressing mechanism comprises a compacting member and a compression driving mechanism for driving the compacting member to move downwards along the container body. The container can compress materials, so that the materials are prevented from leaking, the space in the container body is fully utilized, the material loading capacity is improved, and the resource waste is reduced.)

1. An energy-saving and consumption-reducing material loading device capable of compressing materials and improving loading capacity is characterized by comprising a container body, a cover body hinged to the side face of the top of the container body through a hinged structure, a flip cover driving mechanism used for driving the cover body to be opened and a material compression mechanism arranged on the cover body and used for compressing the materials in the container body; wherein the material compressing mechanism comprises a compacting member and a compression driving mechanism for driving the compacting member to move downwards along the container body.

2. The energy-saving and consumption-reducing material loading device capable of compressing materials and improving loading capacity according to claim 1, wherein the compression driving mechanism comprises a scissor mechanism arranged between the cover body and the compacting member and a power mechanism used for driving the scissor mechanism to expand downwards and contract upwards, wherein the upper end of the scissor mechanism is connected with the cover body, and the lower end of the scissor mechanism is connected with the compacting member.

3. The energy-saving consumption-reducing material loading device capable of compressing materials and improving loading capacity of claim 2, wherein the power mechanism and the flip cover driving mechanism share one power source.

4. The energy saving and consumption reducing material loading device capable of improving the loading capacity of the compressible material as claimed in claim 2 or 3, wherein the hinge structure comprises a hinge seat fixedly arranged on the container body and a hinge arm fixedly arranged on the cover body, wherein the hinge seat and the hinge arm are rotatably connected through a hinge shaft.

5. The energy-saving and consumption-reducing material loading device capable of compressing materials and improving loading capacity of a material as claimed in claim 4, wherein the flip cover driving mechanism comprises a pedal rod, a connecting rod and a pull rod, wherein the pedal rod passes through the lower end of the container body, the pedal rod is provided with a first pivot, the pedal rod is rotatably connected to the front end of the container body through the first pivot, the connecting rod is provided with a second pivot, the connecting rod is rotatably connected to the rear end of the container body through the second pivot, the pull rod is arranged between the hinged arm and the connecting rod, the upper end of the pull rod is hinged to the hinged arm, the lower end of the pull rod is hinged to the rear end of the connecting rod, and the front end of the connecting rod is slidably and rotatably connected to the rear end of the pedal rod.

6. The energy-saving and consumption-reducing material loading device capable of improving loading capacity for compressible materials according to claim 5, wherein the pedal rod is provided at a rear end thereof with a first sliding hinge groove extending along an axial direction of the pedal rod, and the connecting rod is provided at a front end thereof with a first fixing shaft penetrating through the first sliding hinge groove.

7. The energy-saving and consumption-reducing material loading device capable of compressing materials and improving loading capacity according to claim 5 or 6, wherein the power mechanism comprises a push rod, a pressure rod, a pawl, a roller and an elastic reset assembly arranged in the scissor mechanism, wherein the hinged arm is provided with a third fulcrum, the middle part of the pressure rod is rotatably arranged on the hinged arm through the third fulcrum, the push rod is arranged between the scissor mechanism and the pressure rod, the front end of the push rod is connected with the sliding end of the scissor mechanism, the rear end of the push rod is hinged with the upper end of the pressure rod, and the pawl is arranged at the lower end of the pressure rod; the hinge arm is provided with a second fixed shaft, the upper end of the pull rod is provided with a second sliding hinge groove, the second fixed shaft is connected with the second sliding hinge groove in a sliding and rotating mode, and the second sliding hinge groove extends along the axis direction of the pull rod; the roller is rotatably arranged in the middle of the pull rod, and when the pull rod moves downwards, the roller tightly supports the pawl and drives the pawl to rotate around the third pivot.

8. The energy-saving and consumption-reducing material loading device capable of improving loading capacity for compressible materials according to claim 7, wherein an elastic limiting mechanism is arranged between the pawl and the compression bar, the pawl is rotatably connected to the lower end of the compression bar, the elastic limiting mechanism comprises a limiting portion arranged on the compression bar and used for limiting the position of the pawl, and a first torsion spring, one end of the first torsion spring acts on the pawl, the other end of the first torsion spring acts on the compression bar, and the first torsion spring enables the pawl to abut against the limiting portion.

9. An energy saving and consumption reducing material loading device capable of compressing material and improving loading capacity according to claim 7 or 8, wherein the elastic reset assembly comprises a lug arranged on the top of the cover body and a reset spring arranged between the lug and the push rod, one end of the reset spring acts on the lug, and the other end of the reset spring acts on the push rod.

10. The energy-saving and consumption-reducing material loading device capable of compressing materials and improving loading capacity of materials as claimed in claim 7, wherein the scissors mechanism is a multi-stage scissors mechanism, the multi-stage scissors mechanism is formed by hinging a plurality of scissors assemblies end to end, each scissors assembly comprises two scissors members hinged to each other in a cross manner, wherein the upper end of one of the scissors assemblies at the upper end is slidably connected to the cover body, the upper end of the other scissors assembly is hinged to the cover body, and the compacting member is connected to the scissors member of the scissors assembly at the lower end.

11. The energy-saving and consumption-reducing material loading device capable of compressing materials and improving loading capacity of claim 10, wherein a connecting shaft is arranged at the upper end of a scissor member slidably connected with the cover body, a guide assembly is arranged between the connecting shaft and the cover body, the guide assembly comprises two sliding guide grooves arranged on the cover body in parallel and a roller arranged on the connecting shaft and slidably matched with the sliding guide grooves, the connecting shaft and the guide assembly form the sliding end of the scissor mechanism, and the push rod is hinged with the connecting shaft;

and a guide rod is arranged between the connecting shaft and the convex block, wherein one end of the guide rod penetrates through the convex block, the other end of the guide rod is fixedly connected with the connecting shaft, and the reset spring is sleeved on the guide rod.

12. The energy-saving and consumption-reducing material loading device capable of compressing materials and improving loading capacity of claim 5, wherein a fastening mechanism for fastening the cover body on the container body is arranged between the container body and the cover body, and the fastening mechanism comprises a locking sheet arranged on the cover body, a locking hook fastened on the locking sheet and a linkage mechanism arranged between the locking hook and the pedal rod; the linkage mechanism comprises a cross rod, a second torsion spring and a vertical pulling piece, one end of the cross rod is rotatably connected with the container body, the other end of the cross rod is slidably and rotatably connected with the upper end of the vertical pulling piece through a third fixed shaft, the lower end of the locking hook is fixedly connected with the middle part of the cross rod, a third sliding hinge groove is formed in the upper end of the vertical pulling piece, the third sliding hinge groove extends along the axis direction of the vertical pulling piece, one end of the third fixed shaft is fixed on the cross rod, and the other end of the third fixed shaft penetrates through the third sliding hinge groove; the lower end of the vertical pulling piece is hinged with the front end of the pedal rod; the second torsional spring is arranged between the container body and the cross rod, one end of the second torsional spring acts on the container body, the other end of the second torsional spring acts on the cross rod, and the elasticity of the second torsional spring enables the cross rod to swing upwards to drive the locking hook to be buckled on the locking piece.

13. The energy-saving and consumption-reducing material loading device capable of compressing materials and improving loading capacity according to claim 12, wherein the vertical pulling member comprises a first vertical pulling rod at the upper end and a second vertical pulling rod at the lower end, an adjusting mechanism for adjusting the height of the first vertical pulling rod is arranged between the first vertical pulling rod and the second vertical pulling rod, the third sliding hinge groove is formed in the upper end of the first vertical pulling rod, and the lower end of the second vertical pulling rod is hinged to the pedal rod; the adjusting mechanism comprises a positioning portion arranged at the upper end of the second vertical pulling rod and adjusting bolts arranged at the lower end of the first vertical pulling rod, wherein through holes are formed in the positioning portion, the lower end of the first vertical pulling rod penetrates through the through holes, the number of the adjusting bolts is two, and the two adjusting bolts are distributed at the upper end and the lower end of the through holes.

14. The energy-saving consumption-reducing material loading device capable of improving the loading capacity of compressible materials as claimed in claim 1, wherein the container body comprises an outer container and an inner container, the height of the container mouth of the inner container is higher than that of the container mouth of the outer container, wherein the container mouth edge of the inner container is provided with a plurality of groups of elastic clamping assemblies for clamping material bags, the plurality of groups of elastic clamping assemblies are uniformly distributed along the circumferential direction, each group of elastic clamping assemblies comprises a first clamping member and a second clamping member which are oppositely arranged, and the first clamping member and the second clamping member are elastically clamped;

the first clamping member comprises an elastic sheet; the second clamping piece comprises an installation column, a ball and a compression spring, wherein a guide hole is formed in the installation column, the ball and the compression spring are arranged in the guide hole, one end of the compression spring acts on the ball, the other end of the compression spring acts on the installation column, and the ball is enabled to be abutted against the elastic piece through the elastic force of the compression spring.

15. The energy-saving and consumption-reducing material loading device capable of improving loading capacity for compressible materials as claimed in claim 14, wherein the elastic piece comprises a guide opening part at the upper end, a vertical abutting part at the middle part and a storage part at the lower end, wherein the guide opening part extends obliquely upwards in a direction away from the mounting column, the ball abuts against the vertical abutting part, and the storage part has a storage space.

16. The energy-saving and consumption-reducing material loading device capable of improving loading capacity of compressible materials as claimed in claim 14, wherein a carrying handle is provided at a container opening of the inner container, the carrying handle is rotatably connected to the inner container, and a receiving groove for receiving the carrying handle is provided at the container opening of the inner container.

17. The energy-saving and consumption-reducing material loading device capable of compressing materials and improving loading capacity of a compressible material as claimed in claim 6, wherein the flip cover driving mechanism further comprises an electric driving mechanism arranged at the lower end of the container body, the electric driving mechanism comprises a driving motor and a swinging rod, wherein the front end of the swinging rod is fixedly connected with the main shaft of the driving motor, the rear end of the swinging rod is provided with a fourth sliding hinge groove, the fourth sliding hinge groove extends along the axial direction of the swinging rod, the first fixing shaft penetrates through the fourth sliding hinge groove, and the first fixing shaft is slidably and rotatably connected in the fourth sliding hinge groove.

18. The energy-saving and consumption-reducing material loading device capable of compressing materials and improving loading capacity of claim 1, wherein the cover body is provided with an ultraviolet lamp and an ozone generator for sterilization and disinfection.

19. An energy saving and consumption reducing material loading device capable of compressing materials and improving loading capacity according to claim 1, wherein the bottom of the container body is provided with one or more anti-skid suckers.

20. The energy-saving and consumption-reducing material loading device capable of compressing materials and improving loading capacity of claim 2, wherein a protective cover for protecting the power mechanism and the flip cover driving mechanism is arranged on the container body.

Technical Field

The invention relates to a material containing device, in particular to an energy-saving and consumption-reducing material loading device capable of compressing materials and improving loading capacity.

Background

The container has the effect of loading the material, however, at the in-process of loading the material, because the fluffy of material self, there is the clearance between material and the material for be in overhead structure between the material, lead to the material to occupy more space, make the container space can not obtain fine utilization, lead to the space of container to cause extravagantly, simultaneously, also lead to loading the material at every turn, need more container to load, cause the waste of container. In general, some containers need to be used together with a storage bag, and therefore, the storage bag is wasted, and resources are wasted.

For example, a trash can is a container for storing trash, which is a necessity in life and work of people, and in various occasions, in order to keep environmental sanitation, the trash can is required to be arranged, so that the trash can is convenient to collect, and when cleaning personnel clean the trash can, the trash in the trash can is uniformly recovered and treated. In daily life, when the garbage can is used, most of garbage is fluffy, and the garbage can is easily filled with the fluffy garbage when the garbage can is filled, so that the space utilization rate of the garbage can is very low, the frequency of replacing garbage bags by cleaning personnel is increased, and the resource waste is caused.

Disclosure of Invention

The invention aims to overcome the existing problems and provide the energy-saving and consumption-reducing material loading device capable of compressing materials and improving the loading capacity, and the device can compress the loaded materials, so that the materials are prevented from being fluffy and fully piled and leaking, meanwhile, the space in a container body is fully utilized, the material loading capacity is improved, the resource waste is reduced, and the energy is saved and the consumption is reduced.

The purpose of the invention is realized by the following technical scheme:

an energy-saving and consumption-reducing material loading device capable of compressing materials and improving loading capacity comprises a container body, a cover body hinged to the side face of the top of the container body through a hinge structure, a flip cover driving mechanism used for driving the cover body to be opened and a material compression mechanism arranged on the cover body and used for compressing the materials in the container body; wherein the material compressing mechanism comprises a compacting member and a compression driving mechanism for driving the compacting member to move downwards along the container body.

The working principle of the energy-saving and consumption-reducing material loading device capable of compressing materials and improving loading capacity is as follows:

when the device is used, the compression driving mechanism drives the compression part to move downwards along the container body to extrude the materials in the container body, then the cover body is driven to rotate upwards along the hinge structure through the flip cover driving mechanism, the cover body is opened, and the materials can be put into the container body; in the device, the material can be compressed through the compression driving mechanism, so that the space in the container body is fully utilized, the resource waste is reduced, and the energy conservation and consumption reduction are realized.

In a preferred embodiment of the present invention, the compression driving mechanism includes a scissors mechanism disposed between the cover and the compacting member, and a power mechanism for driving the scissors mechanism to expand downward and contract upward, wherein an upper end of the scissors mechanism is connected to the cover, and a lower end of the scissors mechanism is connected to the compacting member.

Preferably, the power mechanism and the flip cover driving mechanism share one power source.

Preferably, the hinge structure comprises a hinge seat fixedly arranged on the container body and a hinge arm fixedly arranged on the cover body, wherein the hinge seat and the hinge arm are rotatably connected through a hinge shaft.

Preferably, flip actuating mechanism includes pedal lever, connecting rod and pull rod, wherein, pedal lever passes the lower extreme of the container body, this pedal lever is equipped with first fulcrum, pedal lever passes through first fulcrum rotation and connects the front end of the container body, the connecting rod is equipped with the second fulcrum, and this connecting rod passes through the second fulcrum rotation and connects the container body rear end, the pull rod sets up the articulated arm with between the connecting rod, the upper end of this pull rod with the articulated arm is articulated, the lower extreme with the rear end of connecting rod is articulated, the front end of connecting rod with the rear end of pedal lever slides and rotates and connects.

Furthermore, a first sliding hinge groove is formed in the rear end of the pedal rod, the first sliding hinge groove extends along the axis direction of the pedal rod, a first fixing shaft is arranged at the front end of the connecting rod, and the first fixing shaft penetrates through the first sliding hinge groove.

Preferably, the power mechanism comprises a push rod, a pressure rod, a pawl, a roller and an elastic reset assembly arranged in the scissor mechanism, wherein the hinged arm is provided with a third fulcrum, the middle part of the pressure rod is rotatably arranged on the hinged arm through the third fulcrum, the push rod is arranged between the scissor mechanism and the pressure rod, the front end of the push rod is connected with the sliding end of the scissor mechanism, the rear end of the push rod is hinged with the upper end of the pressure rod, and the pawl is arranged at the lower end of the pressure rod; the hinge arm is provided with a second fixed shaft, the upper end of the pull rod is provided with a second sliding hinge groove, the second fixed shaft is connected with the second sliding hinge groove in a sliding and rotating mode, and the second sliding hinge groove extends along the axis direction of the pull rod; the roller is rotatably arranged in the middle of the pull rod, and when the pull rod moves downwards, the roller tightly supports the pawl and drives the pawl to rotate around the third pivot.

Preferably, an elastic limiting mechanism is arranged between the pawl and the compression bar, the pawl is rotatably connected to the lower end of the compression bar, the elastic limiting mechanism comprises a limiting part and a first torsion spring, the limiting part is arranged on the compression bar and used for limiting the position of the pawl, one end of the first torsion spring acts on the pawl, the other end of the first torsion spring acts on the compression bar, and the first torsion spring enables the pawl to be tightly abutted to the limiting part.

Preferably, the elastic return assembly comprises a projection arranged at the top of the cover body and a return spring arranged between the projection and the push rod, one end of the return spring acts on the projection, and the other end of the return spring acts on the push rod.

Preferably, the scissors mechanism is a multi-stage scissors mechanism, the multi-stage scissors mechanism is formed by hinging a plurality of scissors assemblies end to end, each scissors assembly comprises two scissors members which are hinged in a crossed manner, the upper end of one of the scissors members at the upper end is slidably connected to the cover body, the upper end of the other scissors member is hinged to the cover body, and the compacting member is connected to the scissors member in the scissors assembly at the lower end.

Preferably, a connecting shaft is arranged at the upper end of the scissors component which is connected with the cover body in a sliding manner, a guide component is arranged between the connecting shaft and the cover body, the guide component comprises two sliding guide grooves which are arranged on the cover body in parallel and a roller which is arranged on the connecting shaft and is in sliding fit with the sliding guide grooves, the connecting shaft and the guide component form a sliding end of the scissors mechanism, and the push rod is hinged to the connecting shaft.

Preferably, a guide rod is arranged between the connecting shaft and the convex block, wherein one end of the guide rod penetrates through the convex block, the other end of the guide rod is fixedly connected with the connecting shaft, and the reset spring is sleeved on the guide rod.

Preferably, a fastening mechanism for fastening the cover body on the container body is arranged between the container body and the cover body, and the fastening mechanism comprises a locking sheet arranged on the cover body, a locking hook buckled on the locking sheet and a linkage mechanism arranged between the locking hook and the pedal rod; the linkage mechanism comprises a cross rod, a second torsion spring and a vertical pulling piece, one end of the cross rod is rotatably connected with the container body, the other end of the cross rod is slidably and rotatably connected with the upper end of the vertical pulling piece through a third fixed shaft, the lower end of the locking hook is fixedly connected with the middle part of the cross rod, a third sliding hinge groove is formed in the upper end of the vertical pulling piece, the third sliding hinge groove extends along the axis direction of the vertical pulling piece, one end of the third fixed shaft is fixed on the cross rod, and the other end of the third fixed shaft penetrates through the third sliding hinge groove; the lower end of the vertical pulling piece is hinged with the front end of the pedal rod; the second torsional spring is arranged between the container body and the cross rod, one end of the second torsional spring acts on the container body, the other end of the second torsional spring acts on the cross rod, and the elasticity of the second torsional spring enables the cross rod to swing upwards to drive the locking hook to be buckled on the locking piece.

Preferably, the vertical pulling part comprises a first vertical pulling rod positioned at the upper end and a second vertical pulling rod positioned at the lower end, wherein an adjusting mechanism for adjusting the height of the first vertical pulling rod is arranged between the first vertical pulling rod and the second vertical pulling rod, the third sliding hinge groove is arranged at the upper end of the first vertical pulling rod, and the lower end of the second vertical pulling rod is hinged to the pedal rod; the adjusting mechanism comprises a positioning portion arranged at the upper end of the second vertical pulling rod and adjusting bolts arranged at the lower end of the first vertical pulling rod, wherein through holes are formed in the positioning portion, the lower end of the first vertical pulling rod penetrates through the through holes, the number of the adjusting bolts is two, and the two adjusting bolts are distributed at the upper end and the lower end of the through holes. .

Furthermore, a 7-shaped connecting arm is arranged between the pedal rod and the second vertical pulling rod, wherein the upper end of the 7-shaped connecting arm is hinged to the second vertical pulling rod, and the lower end of the 7-shaped connecting arm is fixedly connected with the pedal rod.

Preferably, the container body comprises an outer container and an inner container, the height of the container mouth of the inner container is higher than that of the container mouth of the outer container, wherein the edge of the container mouth of the inner container is provided with a plurality of groups of elastic clamping assemblies for clamping the material bag, the plurality of groups of elastic clamping assemblies are uniformly distributed along the circumferential direction, each group of elastic clamping assemblies comprises a first clamping member and a second clamping member which are oppositely arranged, and the first clamping member and the second clamping member are elastically clamped.

Preferably, the first clamping member comprises a resilient sheet; the second clamping piece comprises an installation column, a ball and a compression spring, wherein a guide hole is formed in the installation column, the ball and the compression spring are arranged in the guide hole, one end of the compression spring acts on the ball, the other end of the compression spring acts on the installation column, and the ball is enabled to be abutted against the elastic piece through the elastic force of the compression spring.

Preferably, the elastic piece comprises a guide opening part at the upper end, a pressing part at the middle part and a storage part at the lower end, wherein the guide opening part extends upwards in an inclined way towards the direction far away from the mounting column, the ball is pressed against the pressing part, and the storage part is provided with a storage space.

Further, the storage part is fixedly connected with the mounting column.

Preferably, the container body is provided with a mounting hole for mounting the mounting post.

Preferably, first clamping piece and second clamping piece are the clamping piece, and two clamping pieces symmetry each other just integrative setting constitute the elastic clamp, the elastic clamp is "hourglass" type elastic clamp, and the upper end of this elastic clamp has the guide part, and the middle part has the portion of compressing tightly, and the lower extreme has the portion of gradually expanding, wherein, the opening of guide part reduces downwards gradually, the portion of compressing tightly is used for pressing from both sides the storage bag tightly, is equipped with storage space in this portion of gradually expanding. Through setting up the elasticity and pressing from both sides, can press from both sides the sack of accomodating the bag tightly on the elasticity presss from both sides, can be fine will accomodate the bag sack and fix for when loading the material, accomodate the bag sack and can not take place the skew.

Preferably, a carrying handle is arranged at the container opening of the inner container and is rotatably connected to the inner container, wherein a receiving groove for receiving the carrying handle is arranged on the container opening of the inner container.

Preferably, the flip driving mechanism further includes an electric driving mechanism disposed at the lower end of the container body, the electric driving mechanism includes a driving motor and a swing rod, wherein the front end of the swing rod is fixedly connected to the driving motor spindle, the rear end of the swing rod is provided with a fourth sliding hinge groove, the fourth sliding hinge groove extends along the axial direction of the swing rod, the first fixing shaft penetrates through the fourth sliding hinge groove, and the first fixing shaft is slidably and rotatably connected to the fourth sliding hinge groove.

Preferably, the electric drive mechanism or the foot lever constitutes the power source.

Preferably, the cover body is provided with an ultraviolet lamp and an ozone generator for sterilization and disinfection.

Preferably, the bottom of the container body is provided with one or more anti-slip suckers, so that the anti-slip suckers can stably fix the container on the ground when the container is trodden, and the use stability of the container is improved.

Preferably, a protective cover for protecting the power mechanism and the flip cover driving mechanism is arranged on the container body.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the container, the compression driving mechanism drives the compression part to move downwards along the container body to extrude materials in the container body, and then the flip cover driving mechanism drives the cover body to rotate upwards along the hinge structure to open the cover body; the container can compress materials, so that secondary pollution caused by leakage of the materials is avoided, meanwhile, the space in the container body is fully utilized, the material loading capacity is improved, and the resource waste is reduced.

2. According to the preferred scheme, the material can be compressed and the cover body can be opened through one power source, so that the mechanism can be simplified, the structure is simpler, the manufacturing cost is greatly reduced, the energy consumption is reduced, and the resources are saved; in addition, through trampling the foot rest lever, can realize compressing the material earlier, open the function of lid afterwards, the practicality is strong.

Drawings

Fig. 1-2 are schematic structural views of a first embodiment of an energy-saving consumption-reducing material loading device capable of compressing materials and improving loading capacity according to the present invention, wherein fig. 1 is a front view, and fig. 2 is a perspective view.

Fig. 3-4 are schematic structural views of the container of the present invention without the protective cover, wherein fig. 3 is a front view and fig. 4 is a perspective view.

Fig. 5 is a schematic view of the internal structure of the container of the present invention with the shield omitted in the initial state.

Fig. 6 is a schematic view of the internal structure of the container of the present invention with the shield removed and in a compressed material state.

Fig. 7 is a schematic structural view of the container of the present invention with the protective cover omitted in the open state of the cover.

Fig. 8 is a schematic perspective view of a part of the flip cover driving mechanism (hidden electric driving mechanism) in the present invention.

Fig. 9 is a schematic perspective view of a part of the flip driving mechanism in the present invention.

Fig. 10 is a partial enlarged view of a portion a in fig. 6.

Fig. 11 is a schematic structural view of the elastic limiting mechanism in the present invention.

Fig. 12 is a schematic perspective view of the material compressing mechanism according to the present invention.

Fig. 13 is a schematic perspective view of the cover in the present invention.

Fig. 14 is a schematic view of the internal structure of the material compressing mechanism in the present invention.

Fig. 15 is a schematic perspective view of the scissors mechanism in a compressed state.

Fig. 16 is a schematic perspective view of the cover, the scissors mechanism and the fastening mechanism of the present invention.

Figure 17 is a perspective view of a fastening mechanism of the present invention.

Fig. 18 is a partial enlarged view at B in fig. 17.

Fig. 19 is a perspective view of the container of the present invention in an open position.

Fig. 20 is a schematic view of the structure of the elastic clamping assembly of the present invention.

FIG. 21 is a schematic structural view of another embodiment of the resilient clamping assembly of the present invention.

Detailed Description

In order to make those skilled in the art understand the technical solutions of the present invention well, the following description of the present invention is provided with reference to the embodiments and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

Example 1

Referring to fig. 1 to 5, the embodiment discloses an energy-saving and consumption-reducing material loading device capable of compressing materials and improving loading capacity, which comprises a container body 1, a cover body 2 hinged to the side surface of the top of the container body 1 through a hinge structure, a flip cover driving mechanism 3 for driving the cover body 2 to open, and a material compressing mechanism arranged on the cover body 2 for compressing materials in the container body 1; wherein the material compressing mechanism comprises a compacting member 4 and a compression driving mechanism for driving the compacting member 4 to move downwards along the container body 1; the compression driving mechanism comprises a scissor mechanism 5 arranged between the cover body 2 and the compacting piece 4 and a power mechanism 6 used for driving the scissor mechanism 5 to expand downwards and contract upwards, wherein the upper end of the scissor mechanism 5 is connected with the cover body 2, and the lower end of the scissor mechanism 5 is connected with the compacting piece 4. Through setting up above-mentioned mechanism, power unit 6 provides power for cutting fork mechanism 5, can realize compacting 4 downstream and upward movement to the realization is to the compression of material.

Referring to fig. 4 to 5, the power mechanism 6 and the flip cover driving mechanism 3 share one power source; the cover has the advantages that the material can be compressed and the cover body 2 can be opened through one power source, the mechanism can be simplified, the structure is simpler, the manufacturing cost is greatly reduced, the energy consumption is reduced, and the resources are saved.

Referring to fig. 5 to 6 and 10, the hinge structure includes a hinge base 7 fixedly provided on the container body 1 and a hinge arm 8 fixedly provided on the lid body 2, wherein the hinge base 7 and the hinge arm 8 are rotatably connected by a hinge shaft 9. With the above structure, the lid body 2 can rotate around the hinge shaft 9, and the opening and closing of the lid body 2 is realized.

Referring to fig. 5 to 9, the folder driving mechanism 3 includes a foot lever 3-1, a link 3-2, and a pull lever 3-3, wherein the lower end of the container body 1 is provided with a mounting groove 1-11, the foot lever 3-1 passes through the mounting groove 1-11, a first fulcrum 3-11 is provided at the middle of the foot lever 3-1, the foot lever 3-1 is rotatably connected to the front end of the container body 1 through the first fulcrum 3-11, a second fulcrum 3-21 is provided at the middle of the link 3-2, the link 3-2 is rotatably connected to the rear end of the container body 1 through the second fulcrum 3-21, the pull lever 3-3 is provided between the hinge arm 8 and the link 3-2, and the upper end of the pull lever 3-3 is hinged to the hinge arm 8, the lower end of the connecting rod is hinged with the rear end of the connecting rod 3-2, and the front end of the connecting rod 3-2 is connected with the rear end of the pedal rod 3-1 in a sliding and rotating manner. In the mechanism, the front end of the pedal rod 3-1 is stepped by feet, the front end of the pedal rod 3-1 swings downwards around the first pivot 3-11, the rear end of the pedal rod 3-1 swings upwards to drive the front end of the connecting rod 3-2 to swing upwards around the second pivot 3-21, the rear end of the connecting rod 3-2 swings downwards to drive the pull rod 3-3 to move downwards, so that the hinged arm 8 is driven to rotate around the hinged structure, the cover body 2 is finally driven to turn upwards to open, and when the feet are loosened, the cover body is closed under the action of the self gravity of the cover body 2.

Referring to fig. 8, a first sliding hinge groove 3-12 is formed at a rear end of the foot lever 3-1, the first sliding hinge groove 3-12 extends along an axial direction of the foot lever 3-1, a first fixing shaft 3-22 is formed at a front end of the connecting rod 3-2, and the first fixing shaft 3-22 passes through the first sliding hinge groove 3-12. By the arrangement of the structure, when the pedal rod 3-1 is stepped on, the pedal rod 3-1 swings, the first sliding hinge groove 3-12 drives the first fixing shaft 3-22 to move upwards, and the first fixing shaft 3-22 can slide in the first sliding hinge groove 3-12, so that the function of swinging the rear end of the connecting rod 3-2 downwards is realized, and the pull rod 3-3 is driven to move.

Referring to fig. 8, the flat treading part 3-13 is provided at the front end of the treading rod 3-1, which is advantageous in that the force bearing area of the flat treading part 3-13 is increased when treading, thereby facilitating treading with feet.

Referring to fig. 5-10, the power mechanism 6 includes a push rod 6-1, a pressure lever 6-2, a pawl 6-3, a roller 6-4 and an elastic reset component arranged in the scissors mechanism 5, wherein the hinge arm 8 is provided with a third pivot 8-1, the middle part of the pressure lever 6-2 is rotatably arranged on the hinge arm 8 through the third pivot 8-1, the push rod 6-1 is arranged between the scissors mechanism 5 and the pressure lever 6-2, the front end of the push rod 6-1 is connected with the sliding end of the scissors mechanism 5, the rear end is hinged with the upper end of the pressure lever 6-2, and the pawl 6-3 is arranged at the lower end of the pressure lever 6-2; a second fixed shaft 8-2 is arranged on the hinged arm 8, a second sliding hinge groove 3-31 is arranged at the upper end of the pull rod 3-3, the second fixed shaft 8-2 is connected with the second sliding hinge groove 3-31 in a sliding and rotating manner, and the second sliding hinge groove 3-31 extends along the axial direction of the pull rod 3-3; the roller 6-4 is rotatably arranged in the middle of the pull rod 3-3, and when the pull rod 3-3 moves downwards, the roller 6-4 tightly supports the pawl 6-3 and drives the pawl 6-3 to rotate around the third pivot 8-1. In the mechanism, when a pedal lever 3-1 is stepped on, the pull rod 3-3 moves downwards along the second sliding hinge groove 3-31 under the action of the second sliding hinge groove 3-31 to drive the roller 6-4 to move downwards, the pawl 6-3 is driven to move in the downward movement process of the roller 6-4, the pawl 6-3 swings outwards along with the movement of the roller 6-4 to drive the compression rod 6-2 to rotate around the third pivot 8-1, so that the upper end of the compression rod 6-2 swings forwards to push the push rod 6-1 to move forwards, and the scissor mechanism 5 opens downwards to compress materials; the roller 6-4 passes over the pawl 6-3 along with the downward movement of the roller 6-4, at the moment, under the action of the elastic reset component, the scissor mechanism 5 is reset to drive the push rod 6-1, the press rod 6-2 and the pawl 6-3 to reset, and along with the downward movement of the pull rod 3-3, the top of the second sliding hinge groove 3-31 is contacted with the second fixed shaft 8-2, so that the hinge arm 8 is driven to rotate along the hinge structure, and the opening of the cover body 2 is realized; in the structure, the downward movement of the pedal rod 3-1 comprises two strokes, wherein the first stroke realizes the material compression of the container, and the second stroke realizes the opening of the cover body 2 of the container; through driving a power source of the pedal rod 3-1, the functions of firstly compressing materials and then opening the cover body 2 can be realized, the use is convenient, and the practicability is strong.

Referring to fig. 10, the articulated arm 8 is triangularly disposed with respect to the axial center of the articulated shaft 9, the axial center of the second fixed shaft 8-2, and the third pivot 8-1. Set up above-mentioned structure for articulated arm 8 can act as the hinge, guarantees to realize the function of uncapping after compressing earlier.

Referring to fig. 11, an elastic limiting mechanism is arranged between the pawl 6-3 and the compression bar 6-2, the pawl 6-3 is rotatably connected to the lower end of the compression bar 6-2, the elastic limiting mechanism comprises a limiting portion 6-21 arranged on the compression bar 6-2 and used for limiting the position of the pawl 6-3 and a first torsion spring 6-7, one end of the first torsion spring 6-7 acts on the pawl 6-3, the other end of the first torsion spring acts on the compression bar 6-2, and the first torsion spring 6-7 urges the pawl 6-3 to abut against the limiting portion 6-21. In the mechanism, in the process of compressing materials, the roller 6-4 acts on the pawl 6-3 in a return mode, so that the pawl 6-3 drives the pressure rod 6-2 to swing, the roller 6-4 can pass over the pawl 6-3 along with the downward movement of the roller 6-4, the scissor mechanism 5 is reset under the action of the elastic reset component to drive the push rod 6-1, the pressure rod 6-2 and the pawl 6-3 to reset, the top of the second sliding hinge groove 3-31 can be contacted with the second fixed shaft 8-2 along with the continuous downward movement of the pull rod 3-3, so that the hinge arm 8 is driven to rotate along the hinge structure to open the cover body 2, when the pedal rod 3-1 is released, the cover body 2 is closed, the pull rod 3-3 is reset, the upward movement is realized, the roller 6-4 can be contacted with the pawl 6-3 in the upward movement process, with the continuous upward movement of the roller 6-4, the pawl 6-3 can overcome the elastic force of the first torsion spring 6-7 to rotate upward until the roller 6-4 passes over the pawl 6-3, the pawl 6-3 resets under the action of the first torsion spring 6-7 and abuts against the limiting part 6-21, the cover body 2 is closed, and the pull rod 3-3 also moves to the initial position to reset. Through setting up elasticity stop gear, can circulate and realize the container and compress the material earlier, open the function of lid 2 again.

Referring to fig. 5-6 and 12-14, the elastic return assembly includes a projection 2-1 disposed on the top of the cover 2 and a return spring 6-5 disposed between the projection 2-1 and the push rod 6-1, one end of the return spring 6-5 acting on the projection 2-1 and the other end acting on the push rod 6-1. By adopting the structure, when the scissor mechanism 5 is opened, the reset spring 6-5 can be compressed, after the material compression is completed, the scissor mechanism 5 is contracted under the driving of the reset spring 6-5, the push rod 6-1 is reset at the same time, then the cover body 2 of the container is opened, and the resetting of the scissor mechanism 5 is realized by arranging the reset spring 6-5, so that the cover body 2 can be ensured to be opened smoothly.

Referring to fig. 12, the scissors mechanism 5 is a three-stage scissors mechanism 5, and includes a first scissors mechanism 5-1, a second scissors mechanism 5-2, and a third scissors mechanism 5-3, wherein an upper end of the first scissors mechanism 5-1 is connected to the cover 2, a lower end of the first scissors mechanism 5-1 is connected to an upper end of the second scissors mechanism 5-2, an upper end of the third scissors mechanism 5-3 is connected to a lower end of the second scissors mechanism 5-2, and a lower end of the third scissors mechanism 5-3 is connected to the compacting member 4.

Referring to fig. 12-15, the first scissors mechanism 5-1 comprises a first scissors member 5-11 and a second scissors member 5-12, the second scissors mechanism 5-2 comprises a third scissors member 5-21 and a fourth scissors member 5-22, the third scissors mechanism 5-3 comprises a fifth scissors member 5-31 and a sixth scissors member 5-32, wherein,

the middle parts of the first scissors pieces 5-11 and the second scissors pieces 5-12 are hinged with each other through a first connecting shaft 10; the upper end of the first scissor piece 5-11 is hinged with the cover body 2, and the lower end is hinged with the upper end of the fourth scissor piece 5-22 through a second connecting shaft 11; the upper ends of the second scissor pieces 5-12 are connected with the cover body 2 in a sliding manner, and the lower ends of the second scissor pieces 5-12 are hinged with the upper ends of the third scissor pieces 5-21 through third connecting shafts 12;

the middle parts of the third scissor parts 5-21 and the middle parts of the fourth scissor parts 5-22 are hinged with each other through a fourth connecting shaft 13; the middle parts of the fifth scissors elements 5-31 and the middle parts of the sixth scissors elements 5-32 are hinged with each other through a fifth connecting shaft 14; the upper end of the fifth shearing fork 5-31 is hinged with the lower end of the fourth shearing fork 5-22 through a sixth connecting shaft 15, and the upper end of the sixth shearing fork 5-32 is hinged with the lower end of the third shearing fork 5-21 through a seventh connecting shaft 16; the lower ends of the fifth scissors pieces 5 to 31 are provided with eighth connecting shafts 17, and the lower ends of the sixth scissors pieces 5 to 32 are provided with ninth connecting shafts 18; the compacting piece 4 comprises a first compacting piece 4-1 and a second compacting piece 4-2, wherein one end of the first compacting piece 4-1 is hinged with the ninth connecting shaft 18, and the other end is hinged with the fifth connecting shaft 14; one end of the second compression part 4-2 is hinged to the fifth connecting shaft 14, and the other end is hinged to the eighth connecting shaft 17. In the structure, the three-stage scissor mechanism 5 is arranged, so that the sufficient compression distance can be ensured, and the first compaction piece 4-1 and the second compaction piece 4-2 are arranged, so that the compaction piece 4 can be conveniently accommodated in the cover body 2 while the material can be compressed.

Referring to fig. 15, the first fork 5-11, the second fork 5-12, the third fork 5-21, the fourth fork 5-22, the fifth fork 5-31 and the sixth fork 5-32 are each formed by two oppositely arranged fork bars.

Referring to fig. 12 to 15, a tenth connecting shaft 19 is disposed at an upper end of the second scissors element 5-12, a guide assembly is disposed between the tenth connecting shaft 19 and the cover body 2, the guide assembly includes two sliding guide grooves 2-2 disposed in parallel on the cover body 2, and a pulley 20 disposed on the tenth connecting shaft 19 and slidably engaged with the sliding guide grooves 2-2, and the tenth connecting shaft 19 and the guide assembly constitute a sliding end of the scissors mechanism 5. By arranging the guide assembly, the upper ends of the second scissors elements 5-12 slide on the cover body 2, so that the opening and the contraction of the scissors mechanism 5 are realized.

Referring to fig. 14-15, the push rod 6-1 is hinged to the tenth connecting shaft 19, a guide rod 6-6 is disposed between the tenth connecting shaft 19 and the protrusion 2-1, wherein one end of the guide rod 6-6 penetrates through the protrusion 2-1, the other end of the guide rod is fixedly connected to the tenth connecting shaft 19, and the return spring 6-5 is sleeved on the guide rod 6-6. In the structure, the reset spring 6-5 is convenient to mount, and the reset of the power mechanism 6 is further realized.

Referring to fig. 5 and 16-18, a fastening mechanism 21 for fastening the cover body 2 to the container body 1 is arranged between the container body 1 and the cover body 2, and the fastening mechanism 21 comprises a locking sheet 21-1 arranged on the cover body 2, a locking hook 21-2 buckled on the locking sheet 21-1, and a linkage mechanism arranged between the locking hook 21-2 and the pedal lever 3-1; the linkage mechanism comprises a cross rod 21-3, a second torsion spring 21-4 and a vertical pulling part 21-5, one end of the cross rod 21-3 is rotatably connected with the container body 1, the other end of the cross rod 21-3 is slidably and rotatably connected with the upper end of the vertical pulling part 21-5 through a third fixing shaft 21-6, the lower end of the locking hook 21-2 is fixedly connected with the middle part of the cross rod 21-3, a third sliding hinge groove 21-7 is formed in the upper end of the vertical pulling part 21-5, the third sliding hinge groove 21-7 extends along the axial direction of the vertical pulling part 21-5, one end of the third fixing shaft 21-6 is fixed on the cross rod 21-3, and the other end of the third fixing shaft 21-6 penetrates through the third sliding hinge groove 21-7; the lower end of the vertical pulling piece 21-5 is hinged with the front end of the pedal rod 3-1; the second torsion spring 21-4 is arranged between the container body 1 and the cross bar 21-3, one end of the second torsion spring 21-4 acts on the container body 1, the other end acts on the cross bar 21-3, the elasticity of the second torsion spring urges the cross bar 21-3 to swing upwards, and the locking hook 21-2 is driven to be buckled on the locking plate 21-1. In the mechanism, when the pedal rod 3-1 is stepped downwards, the pedal rod 3-1 moves downwards for the first stroke, the scissor mechanism 5 opens downwards, at the moment, the pedal rod 3-1 can drive the vertical pulling piece 21-5 to move downwards, as the upper end of the vertical pulling piece 21-5 is provided with the third sliding hinge groove 21-7, at the beginning, the third fixing shaft 21-6 is positioned at the lower end position of the third sliding hinge groove 21-7, and when the pedal rod 3-1 moves for the first stroke, the third sliding hinge groove 21-7 can move downwards for an empty stroke along with the vertical pulling piece 21-5, at the moment, the locking hook 21-2 can be buckled on the locking piece 21-1 all the time, so that the cover body 2 can be effectively prevented from being jacked up in the compression process; when the pedal rod 3-1 moves to a second stroke, the top of the third sliding hinge groove 21-7 is contacted with the third fixed shaft 21-6, and overcomes the elasticity of the second torsion spring 21-4 to drive the cross rod 21-3 to swing downwards, so as to drive the locking hook 21-2 to swing downwards, the locking hook 21-2 is separated from the locking sheet 21-1, and the cover body 2 is opened; when the cover body 2 is closed, the locking plate 21-1 will contact with the locking hook 21-2, and with the continuous downward movement of the locking plate 21-1, the locking hook 21-2 will be driven to swing downward, and under the elastic force of the second torsion spring 21-4, the locking plate 21-1 and the locking hook 21-2 will be buckled, and the cover body 2 will be locked on the container body 1.

Referring to fig. 18, the vertical pulling member 21-5 includes a first vertical pulling rod 21-51 located at an upper end and a second vertical pulling rod 21-52 located at a lower end, wherein an adjusting mechanism for adjusting the height of the first vertical pulling rod 21-51 is disposed between the first vertical pulling rod 21-51 and the second vertical pulling rod 21-52, the third sliding hinge slot 21-7 is disposed at the upper end of the first vertical pulling rod 21-51, and the lower end of the second vertical pulling rod 21-52 is hinged to the foot lever 3-1; the adjusting mechanism comprises positioning parts 21-54 arranged at the upper ends of the second vertical pulling rods 21-52 and adjusting bolts 21-53 arranged at the lower ends of the first vertical pulling rods 21-51, wherein through holes are formed in the positioning parts 21-54, the lower ends of the first vertical pulling rods 21-51 penetrate through the through holes, the number of the adjusting bolts 21-53 is two, and the two adjusting bolts 21-53 are distributed at the upper end and the lower end of the through holes. The positions of the first vertical pulling rods 21-51 on the second vertical pulling rods 21-52 can be flexibly adjusted through the adjusting bolts 21-53, so that the position relation between the third sliding hinge grooves 21-7 and the third fixed shafts 21-6 is realized, the loosening time of the fastening mechanism 21 is better adjusted, the treading stroke of the pedal rod 3-1 is better matched, the treading stroke and the loosening time are mutually corresponding, and the function of opening the cover body 2 after the scissor mechanism 5 is contracted is realized.

Referring to fig. 17, a 7-shaped connecting arm 2-56 is arranged between the pedal lever 3-1 and the second vertical pulling lever 21-52, wherein the upper end of the 7-shaped connecting arm 2-56 is hinged to the second vertical pulling lever 21-52, and the lower end is fixedly connected to the pedal lever 3-1. By adopting the structure, the structure becomes more compact, the length of the second vertical pull rod 3-3 is effectively shortened, and the swing amplitude of the second vertical pull rod 3-3 is reduced.

Referring to fig. 5-7 and 19-20, the container body 1 comprises an outer container 1-1 and an inner container 1-2, the height of the container mouth of the inner container 1-2 is higher than that of the container mouth of the outer container 1-1, wherein the edge of the container mouth of the inner container 1-2 is provided with a plurality of groups of elastic clamping assemblies 22 for clamping a material bag, the plurality of groups of elastic clamping assemblies 22 are uniformly distributed along the circumferential direction, each group of elastic clamping assemblies 22 comprises a plurality of elastic clamping assemblies, each elastic clamping assembly comprises a first clamping piece and a second clamping piece which are oppositely arranged, and the first clamping piece and the second clamping piece are elastically clamped. The sack that a plurality of elastic clamping components will accomodate the bag is outwards pressed from both sides tightly, and at the in-process of loading the material, the sack of accomodating the bag is in the state of opening all the time, makes things convenient for the material to get into and accomodates the bag in, has improved material loading efficiency, and it is also very convenient to use.

Referring to fig. 5-7 and 19-20, the first clamping member includes a resilient tab 22-1; the second clamping piece comprises a mounting column 22-5, a ball 22-3 and a compression spring 22-4, wherein the mounting column 22-5 is provided with a guide hole 22-2, the ball 22-3 and the compression spring 22-4 are arranged in the guide hole 22-2, one end of the compression spring 22-4 acts on the ball 22-3, the other end of the compression spring acts on the mounting column 22-5, and the elastic force of the compression spring 22-4 urges the ball 22-3 to abut against the elastic sheet 22-1. Through the structure, the balls 22-3 can overcome the elasticity of the compression spring 22-4 and slide in the guide holes 22-2, the bag opening of the storage bag can downwards penetrate between the elastic sheet 22-1 and the balls 22-3, the storage bag can be clamped tightly under the action of the compression spring 22-4, the bag opening of the storage bag can be well fixed, the bag opening is opened under the action of the elastic clamping assemblies, and the bag opening of the storage bag cannot deviate when materials are loaded.

Referring to fig. 19-20, the elastic piece 22-1 includes a guiding opening 22-11 at the upper end, a pressing portion 22-12 at the middle portion, and a storage portion 22-13 at the lower end, wherein the guiding opening 22-11 extends obliquely upward away from the mounting post 22-5, the ball 22-3 presses against the pressing portion 22-12, and the storage portion 22-13 has a storage space 22-14. By arranging the guide opening part 22-11, the containing bag can conveniently enter between the elastic sheet 22-1 and the ball 22-3, and the guide function is realized; through setting up storage part 22-13, can hold in storage space 22-14 after folding the unnecessary part in the sack of accomodate the bag, along with accomodate the bag and use, the material is more and more, accomodates the bag and extrudes downwards, can remove the unnecessary part accomodate the bag before accomodating in storage space 22-14, guaranteed that the accomodate the bag has sufficient space and deposit the material.

Further, the storage part 22-13 is fixedly connected with the mounting post 22-5. The advantage is that the elastic clamping component is formed into one part, and the elastic clamping component is convenient to replace integrally.

Referring to fig. 5-7 and 19-20, the container body is provided with a mounting hole for mounting the mounting post 22-5. Through setting up above-mentioned structure, be convenient for install the elasticity clamping component.

Further, the linkage mechanism is positioned between the outer container 1-1 and the inner container 1-2, wherein the cross bar 21-3 is rotatably connected to the inner wall of the outer container 1-1.

Referring to fig. 19, a carrying handle 23 is provided at the container mouth of the inner container 1-2, and the carrying handle 23 is rotatably connected to the inner container 1-2, wherein a receiving groove 1-21 for receiving the carrying handle 23 is provided at the container mouth of the inner container 1-2. The arrangement of the lifting handle 23 is convenient for the inner container 1-2 to be lifted away from the outer container 1-1, and the arrangement of the accommodating grooves 1-21 is convenient for the lifting handle 23 to be accommodated in the accommodating grooves 1-21, so that the structure of the container becomes more compact, and the layout is more reasonable.

Referring to fig. 9, the flip cover driving mechanism 3 further includes an electric driving mechanism disposed on a mounting groove 1-11 at the lower end of the container body 1, the electric driving mechanism including a driving motor 3-4 and a swing lever 3-5, wherein a front end of the swing lever 3-5 is fixedly connected to a main shaft of the driving motor 3-4, a rear end of the swing lever 3-5 is provided with a fourth sliding hinge groove 3-51, the fourth sliding hinge groove 3-51 extends along an axial direction of the swing lever 3-5, the first fixing shaft 3-22 passes through the fourth sliding hinge groove 3-51, and the first fixing shaft 3-22 is slidably and rotatably connected in the fourth sliding hinge groove 3-51. By the arrangement of the structure, the driving motor 3-4 drives the swinging rod 3-5 to swing, so that the swinging of the connecting rod 3-2 is realized, and the functions of compressing materials and opening the cover of the cover body 2 are further realized; the function of manually or electrically controlling the compression of the materials and the uncovering of the cover body 2 can be realized by treading the pedal rod 3-1 or driving the driving motor 3-4.

Furthermore, the electric driving mechanism also comprises a battery and a circuit board which are arranged on the mounting grooves 1-11, and the circuit board is electrically connected with the battery and the driving motors 3-4 respectively.

Specifically, the electric drive mechanism or the foot lever 3-1 constitutes the above-described power source.

Referring to fig. 13, the cover 2 is provided with an ultraviolet lamp 24 and an ozone generator 25 for sterilization. Through setting up above-mentioned structure, can disinfect the deodorization to the material in the container, avoid bacterial growing.

Referring to fig. 1, the container body 1 is provided at the bottom thereof with one or more anti-slip suction cups 26, so that when the container is stepped on, the anti-slip suction cups 26 can stably fix the container on the ground, thereby improving the stability of the container in use.

Referring to fig. 1, a protective cover 27 for protecting the power mechanism 6 and the flip cover driving mechanism 3 is disposed on the container body 1. Its aim at, on the one hand play safety protection's effect, on the other hand can prevent to get into the dust in the mechanism to influence the life of mechanism.

Furthermore, the container adopts waterproof and antirust treatment to prevent the pollutants from leaking.

Further, the container is a garbage can and is used for collecting garbage, when the garbage can is used, the compression driving mechanism drives the compression part 4 to move downwards along the container body 1 to extrude the garbage in the container body 1, then the cover body 2 is driven to rotate upwards along the hinge structure through the flip cover driving mechanism 3, the cover body 2 is opened, and the garbage can be put into the garbage bag in the container body 1; among the above-mentioned garbage bin, can compress rubbish to avoid rubbish to leak and cause secondary pollution, make the space in the garbage bin obtain make full use of, reduced the wasting of resources.

Referring to fig. 1 to 5, the working principle of the energy-saving consumption-reducing material loading device capable of compressing materials and improving loading capacity is as follows:

when the device is used, the compression driving mechanism drives the compression element 4 to move downwards along the container body 1 to extrude the materials in the container body 1, then the cover body 2 is driven to rotate upwards along the hinge structure through the flip cover driving mechanism 3 to open the cover body 2, and the materials can be put into the container body 1; among the above-mentioned device, can compress the material for the internal space of container obtains make full use of, has reduced the wasting of resources.

Example 2

Referring to fig. 21, the other structure in the present embodiment is the same as embodiment 1 except that: the first clamping piece and the second clamping piece are clamping pieces 22-6, the two clamping pieces 22-6 are mutually symmetrical and integrally arranged to form an elastic clamp, and the elastic clamp is an hourglass-shaped elastic clamp. Through setting up above-mentioned structure, be convenient for on the one hand stretch into the material bag in the elasticity presss from both sides, fix the material bag, on the other hand for the elasticity presss from both sides the lower extreme and has great space, can hold more material bag, fold the space of accomodating the elasticity and pressing from both sides the lower extreme with unnecessary material bag, along with the material bag uses, the material is more and more, and the material bag extrudees downwards, can remove the part of accomodating before with, has guaranteed that the material bag has sufficient space and has deposited the material.

Example 3

The other structures in this embodiment are the same as embodiment 1, except that: the elastic clamping assemblies are arranged on the inlet edge of the outer container, and the aim of the elastic clamping assemblies is to fix the garbage bag on the outer container and cover the inlet of the whole outer container, so that when garbage is thrown into the garbage bag, the inlet edge of the outer container can be effectively kept clean and sanitary, and the breeding of bacteria is reduced.

The present invention is not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be construed as equivalents and are included in the scope of the present invention.