CN220576208U - Tree pool brick processing equipment convenient to material loading - Google Patents

Abstract

The utility model discloses tree pool brick processing equipment convenient for feeding, which comprises a connecting frame, a storage bin, a placing plate, a connecting plate, a sealing component and a pushing component, wherein the storage bin is fixedly arranged on the upper surface of the connecting frame, the placing plate and the connecting plate are respectively and fixedly arranged at two ends of the connecting frame, the sealing component is movably arranged between the connecting plates, the sealing component can seal the storage bin, a forming template can be placed on the upper surface of the placing plate, and the pushing component is movably arranged at one end of the placing plate. The utility model has the advantages that when the tree pool bricks are manufactured, the loading operation can be completed only by applying the pushing force in the loading process, so that the working amount of workers can be reduced to increase the working efficiency of the workers, the auxiliary loading effect is realized, the surface of the template can be scraped after the loading is finished, the superfluous materials are smoothed, and the condition of waste caused by superfluous material overflow can be avoided.

Description

Tree pool brick processing equipment convenient to material loading

Technical Field

The utility model belongs to the technical field of urban greening, and particularly relates to tree pool brick processing equipment convenient for feeding.

Background

The method is characterized in that a large number of trees are planted at two sides of an urban road, in parks and green lands, tree planting is an important project for beautifying and optimizing urban environments in urban construction, in the past, a plurality of tree ponds are only provided with a soil pit, pavement cement bricks are arranged around the soil pit, and tree pond bricks appear along with the improvement of urban greening beautifying level, and the tree pond bricks play a role in protecting tree ponds to a certain extent and beautifying environments.

However, the prior art has some problems: when the tree pool brick is manufactured, workers need to use spade materials to pour into a forming die, the formed tree pool brick can be obtained after the materials are hardened, and the workers cannot accurately control the pouring amount of the materials in the manufacturing process, so that the situation that too much or too little materials are poured in the manufacturing process is caused, the materials overflow from a template to cause waste when too much materials are overflowed, and the quality of the tree pool brick is influenced when too little materials are poured in the template, and therefore the tree pool brick processing equipment convenient to feed is provided.

Disclosure of Invention

Aiming at the problems in the prior art, the utility model provides the tree pool brick processing equipment convenient for loading, which has the advantages that when the tree pool brick is manufactured, the loading operation can be completed only by applying the pushing force in the process of loading, so that the working quantity of workers can be reduced to increase the working efficiency of the workers, the loading assisting effect is achieved, the surface of a template can be scraped after the loading is achieved, the excessive materials are subjected to trowelling operation, the condition that the excessive materials overflow to cause waste is avoided, the problem that when the tree pool brick is manufactured, workers are required to use spades to pour the materials into a forming die, the formed tree pool brick can be obtained after the materials are hardened, and when the workers are manufactured, the pouring quantity of the materials cannot be accurately controlled, so that the condition that excessive or too little pouring of the materials occurs, the excessive materials overflow from the template to cause waste is caused, and the quality of the tree pool brick is affected when the excessive materials are too little is solved.

The utility model discloses tree pool brick processing equipment convenient for loading, which comprises a connecting frame, a storage bin, a placing plate, a connecting plate, a sealing component and a pushing component, wherein the storage bin is fixedly arranged on the upper surface of the connecting frame, the placing plate and the connecting plate are respectively and fixedly arranged at two ends of the connecting frame, the sealing component is movably arranged between the connecting plates and can seal the storage bin, a forming template can be placed on the upper surface of the placing plate, the pushing component is movably arranged at one end of the placing plate, and the forming template can be pushed to the lower end of the storage bin by the pushing component and can be extruded at one end of the sealing component so as to extrude the sealing component to one end of the connecting plate.

As the preferable seal assembly of the utility model, the seal assembly comprises a seal plate, the seal plate is movably arranged between the connecting plates, the seal plate can seal the storage bin, guide rail blocks are fixedly arranged at two ends of the seal plate, the guide rail blocks are movably arranged in guide rail grooves, and the guide rail grooves are formed in one side of the connecting plates.

As preferable in the utility model, the lower end of the connecting plate is provided with a mounting groove, a spring ejector rod is fixedly arranged in the mounting groove, one end of a piston rod of the spring ejector rod is fixedly arranged at one end of a fastening plate, the fastening plate is fixedly arranged at the lower surface of the sealing plate, and the fastening plate is movably arranged in the mounting groove.

As preferable in the utility model, the pushing component comprises a pushing rod, wherein the pushing rod is movably arranged at one end of the placing plate, one end of the pushing rod is fixedly provided with a connecting rod, and one end of the connecting rod is movably provided with a rotating wheel.

Preferably, the pushing rod can rotate to drive the rotating wheel movably arranged at one end of the connecting rod to prop against one end of the forming template, so that the forming template slides in the placing plate, and simultaneously can be extruded at one end of the sealing plate to extrude and slide the sealing plate to one end of the connecting plate, so that the storage bin is vertically opposite to the forming template.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, through the design of the storage bin, the placement plates, the connecting plates, the sealing assemblies, the pushing assemblies and the forming templates, when the device is used, the forming templates can be placed on the upper surfaces of the placement plates, then the pushing assemblies can be pushed to push the forming templates to slide between the placement plates, the forming templates can be extruded at one end of the sealing assemblies while sliding inwards at one end of the placement plates, and the sealing assemblies can be pushed to the topmost end of the connecting plates along with continuous pushing, so that the sealing assemblies can be separated from the sealing effect of the storage bin, and meanwhile, the forming templates are communicated with the storage bin, materials in the storage bin can enter the forming templates, then workers can release the pushing assemblies, the forming templates can be pushed by the sealing assemblies after being free of the limiting force, so that the sealing assemblies can push the forming templates to one end of the placement plates, and simultaneously the storage bin can perform trowelling operation on materials in the forming templates, and simultaneously the sealing assemblies can perform sealing operation on the storage bin, and simultaneously can automatically perform feeding operation on the forming templates, so that excessive trowelling operation on the materials can be performed, and the situation that excessive pushing operations can be increased, and the workers can finish the situation that the overflow can be avoided when the workers are required to finish the working efficiency.

2. According to the utility model, through the design of the sealing plate, the connecting plate, the storage bin, the guide rail blocks and the guide rail grooves, when the device is used, the forming template can be placed on the upper surface of the placing plate, then the pushing component can be pushed to push the forming template to slide between the placing plates, the forming template can be extruded at one end of the sealing plate while one end of the placing plate slides inwards, the sealing plate can be extruded and pushed to the topmost end of the connecting plate along with continuous pushing, so that the sealing plate can be separated from the sealing effect of the storage bin, and when the sealing plate is extruded and pushed, the guide rail blocks fixedly installed at two ends can slide in the guide rail grooves formed in the connecting plate, so that the sealing plate has a linear guide rail function during sliding, and the problem that the sealing plate is inclined during sliding to influence the sealing performance can be avoided.

3. According to the utility model, through the design of the connecting plate, the mounting groove, the spring ejector rod and the fastening plate, when the device is used, the forming template can be placed on the upper surface of the placing plate, then the pushing component can be pushed to push the forming template to slide between the placing plates, the forming template can be extruded at one end of the sealing plate while one end of the placing plate slides inwards, the sealing plate can be extruded to the topmost end of the connecting plate along with continuous pushing, and the sealing plate can be extruded at one end of the spring ejector rod through the fastening plate fixedly arranged on the lower surface, so that the spring ejector rod can apply a pushing force to the sealing plate, then the sealing plate can be separated from the sealing effect of the storage bin, and meanwhile, the forming template can be communicated with the storage bin, so that materials in the storage bin can enter the forming template, then a worker can release the pushing component, the sealing plate can push the forming template to one end of the placing plate through the pushing force exerted by the spring ejector rod, the forming template can be scraped on the surface of the forming template while the forming template is pushed, the material in the forming template can be smoothed, and meanwhile, the sealing plate can be automatically sealed to the storage bin, the material in the storage bin can be automatically, the material can be completely smoothed, the material can be completely and the excessive material can be completely and completely pushed by the worker when the worker is required to be completely and completely used.

4. The utility model uses the design of the push rod, the placing plate, the connecting rod and the rotating wheel, when the device is used, the forming template is placed on the upper surface of the placing plate, then the push rod can be pushed to drive the rotating wheel movably arranged at one end of the connecting rod to prop against one end of the forming template, so that the forming template can prop against one end of the placing plate to carry out sliding operation, the forming template can be extruded at one end of the sealing plate while one end of the placing plate slides inwards, the sealing plate can be extruded and pushed to the topmost end of the connecting plate along with continuous pushing, the sealing plate can be extruded at one end of the spring ejector rod through the fastening plate fixedly arranged on the lower surface, so that the spring ejector rod can apply a pushing force to the sealing plate, then the sealing plate can be separated from the sealing effect of the storage bin, and meanwhile, the forming template can be communicated with the storage bin, the material in the storage bin can enter the forming template, then a worker can loosen the pushing rod, the forming template can be pushed by the sealing plate to slide to one end of the placing plate through the pushing force exerted by the spring ejector rod after the forming template is not limited, the storage bin can scrape the surface of the forming template while the forming template is pushed, so that the material in the forming template is trowelled, and meanwhile, the sealing plate can seal the storage bin again, thereby achieving the purposes of automatically feeding the forming template, trowelling the redundant material, avoiding the waste caused by excessive overflow of the material, and finishing the feeding operation by pushing the pushing assembly during feeding, thereby having the effect of assisting feeding, reducing the working amount of the worker, to increase the working efficiency of the staff.

5. The utility model can push the push rod to drive the rotating wheel movably installed at one end of the connecting rod to push the forming template to slide between the placing plates, the forming template can be extruded at one end of the sealing plate while sliding inwards at one end of the placing plates, the sealing plate can be extruded at one end of the spring ejector rod through the fastening plate fixedly installed at the lower surface along with continuous pushing to push the sealing plate to the topmost end of the connecting plate, the spring ejector rod can apply a pushing force to the sealing plate, then the sealing plate can be separated from the sealing effect of the storage bin, and meanwhile the forming template can be communicated with the storage bin, so that materials in the storage bin can enter the forming template, then a worker can release the push rod, the sealing plate can push the forming template to slide to one end of the placing plate through the pushing force applied by the spring ejector rod after the forming template is not limited, the storage bin can scrape the surface of the forming template, thus the material in the forming template can be extruded to the topmost end of the connecting plate, the material can be pushed by the lower surface of the sealing plate, the material can be completely pushed by the sealing assembly, the material can be completely and automatically pushed on the storage bin, the material can be completely and completely filled when the material is completely and completely filled, to increase the working efficiency of the staff.

Drawings

FIG. 1 is a schematic perspective view of an operation procedure structure according to an embodiment of the present utility model;

FIG. 2 is a schematic perspective view of a connection board and a placement board structure according to an embodiment of the present utility model;

FIG. 3 is a schematic perspective view of a seal assembly according to an embodiment of the present utility model;

fig. 4 is a schematic perspective view of a pushing assembly according to an embodiment of the present utility model.

In the figure: 1. a connecting frame; 101. a storage bin; 102. placing a plate; 103. a connecting plate; 104. a guide rail groove; 105. a mounting groove; 2. a push-in assembly; 201. a push rod; 202. a connecting rod; 203. a rotating wheel; 3. forming a template; 4. a seal assembly; 401. a spring ejector rod; 402. a sealing plate; 403. a fastening plate; 404. and a guide rail block.

Detailed Description

For a further understanding of the utility model, its features and advantages, reference is now made to the following examples, which are illustrated in the accompanying drawings.

The structure of the present utility model will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 4, the tree pool brick processing device convenient for loading provided by the embodiment of the utility model comprises a connecting frame 1, a storage bin 101, a placing plate 102, a connecting plate 103, a sealing assembly 4 and a pushing assembly 2, wherein the storage bin 101 is fixedly installed on the upper surface of the connecting frame 1, the placing plate 102 and the connecting plate 103 are respectively fixedly installed at two ends of the connecting frame 1, the sealing assembly 4 is movably installed between the connecting plates 103, the sealing assembly 4 can seal the storage bin 101, a forming template 3 can be placed on the upper surface of the placing plate 102, the pushing assembly 2 is movably installed at one end of the placing plate 102, the forming template 3 can be pushed to the lower end of the storage bin 101 by the pushing assembly 2, and meanwhile, the sealing assembly 4 can be extruded to one end of the connecting plate 103 by extruding the sealing assembly 4.

The scheme is adopted: through the design of storage bin 101, place the board 102, connecting plate 103, seal assembly 4, push the subassembly 2, shaping template 3, the accessible is placing shaping template 3 in place board 102 upper surface department when using this device, can promote afterwards and push subassembly 2 in order to promote shaping template 3 and carry out sliding operation between placing board 102, and shaping template 3 can extrude at seal assembly 4 one end when placing board 102 one end and inwards gliding, with the promotion that lasts in order to push seal assembly 4 to connecting plate 103 top end department, thereby seal assembly 4 can break away from the sealed effect to storage bin 101, and shaping template 3 can be linked together with storage bin 101 simultaneously, thereby material in the storage bin 101 can get into shaping template 3, afterwards the staff can loosen and push subassembly 2, shaping template 3 will be promoted by seal assembly 4 after the unrestricted power, thereby seal assembly 4 just can promote shaping template 3 to place board 102 one end department, and the material in the storage bin 101 can carry out the smoothing operation to shaping template 3 when promoting, and seal assembly 4 can carry out the automatic operation to storage bin again, thereby can be broken away from the sealed effect to the storage bin 101, thereby can be accomplished the material and the extra work personnel that can be done when the extra material is wasted in the realization of the operation of the improvement in the volume of the storage bin 101, can be avoided in the work that the extra material that can take place in the extra work of the operation when the extra work of the material is finished.

Referring to fig. 3, the sealing assembly 4 includes a sealing plate 402, the sealing plate 402 is movably mounted between the connecting plates 103, the sealing plate 402 can seal the storage bin 101, guide rail blocks 404 are fixedly mounted at two ends of the sealing plate 402, the guide rail blocks 404 are movably mounted in the guide rail grooves 104, and the guide rail grooves 104 are formed in one side of the connecting plates 103.

The scheme is adopted: through the design of closing plate 402, connecting plate 103, storehouse 101, guide rail piece 404, guide rail groove 104, the shaping template 3 is placed in place board 102 upper surface department when this device is used, can promote afterwards and push subassembly 2 in order to promote shaping template 3 and carry out sliding operation between placing board 102, and shaping template 3 can extrude at closing plate 402 one end when placing board 102 one end and inwards slide, with continuous promotion in order to can extrude the closing plate 402 and promote to connecting plate 103 top department, thereby closing plate 402 can break away from the sealed effect to storehouse 101, and the closing plate 402 can carry out sliding operation in guide rail groove 104 that the guide rail piece 404 that the both ends fixed mounting was offered in connecting plate 103 when being extruded and promote, thereby make closing plate 402 have the linear guide function when sliding, in order to avoid closing plate 402 to appear the circumstances of slope in the time of sliding so as to cause the problem that influences the leakproofness.

Referring to fig. 3, a mounting groove 105 is formed at the lower end of the connecting plate 103, a spring ejector rod 401 is fixedly mounted in the mounting groove 105, one end of a piston rod of the spring ejector rod 401 is fixedly mounted at one end of a fastening plate 403, the fastening plate 403 is fixedly mounted at the lower surface of the sealing plate 402, and the fastening plate 403 is movably mounted in the mounting groove 105.

The scheme is adopted: by the design of the connecting plate 103, the mounting groove 105, the spring ejector rod 401 and the fastening plate 403, when the device is used, the molding template 3 can be placed on the upper surface of the placing plate 102, then the pushing component 2 can be pushed to push the molding template 3 to slide between the placing plates 102, the molding template 3 can be extruded on one end of the sealing plate 402 while one end of the placing plate 102 slides inwards, the sealing plate 402 can be extruded to the topmost end of the connecting plate 103 along with continuous pushing, the sealing plate 402 can be extruded on one end of the spring ejector rod 401 through the fastening plate 403 fixedly arranged on the lower surface, so that the spring ejector rod 401 can apply a pushing force on the sealing plate 402, then the sealing plate 402 can be separated from the sealing effect on the storage bin 101, and meanwhile, the molding template 3 can be communicated with the storage bin 101, so that materials in the storage bin 101 can enter the molding template 3, the operator can release the pushing assembly 2, the sealing plate 402 can push the molding template 3 to slide to one end of the placing plate 102 through the pushing force exerted by the spring ejector rod 401 after the molding template 3 is not limited, the storage bin 101 can scrape the surface of the molding template 3 while the molding template 3 is pushed, so as to perform trowelling operation on the material in the molding template 3, and the sealing plate 402 can perform sealing operation on the storage bin 101 again, so that the automatic feeding operation on the molding template 3 can be realized, and meanwhile, the trowelling operation on the redundant material can be performed, so that the condition of waste caused by excessive overflow of the material can be avoided, and the feeding operation can be completed only by pushing the pushing assembly 2 during feeding, thereby having the effect of assisting feeding, reducing the working amount of the operator, to increase the working efficiency of the staff.

Referring to fig. 4, the push-in assembly 2 includes a push rod 201, wherein the push rod 201 is movably mounted at one end of the placement plate 102, a connecting rod 202 is fixedly mounted at one end of the push rod 201, and a rotating wheel 203 is movably mounted at one end of the connecting rod 202.

The scheme is adopted: by the design of the push rod 201, the placing plates 102, the connecting rods 202 and the rotating wheels 203, when the device is used, the forming template 3 can be placed on the upper surface of the placing plates 102, then the push rod 201 can be pushed to drive the rotating wheels 203 movably mounted at one ends of the connecting rods 202 to prop against one ends of the forming template 3 so as to push the forming template 3 to slide between the placing plates 102, the forming template 3 can be extruded at one ends of the sealing plates 402 while one ends of the placing plates 102 slide inwards, the sealing plates 402 can be extruded to the top ends of the connecting plates 103 along with continuous pushing, the sealing plates 402 can be extruded at one ends of the spring ejector rods 401 through the fastening plates 403 fixedly mounted on the lower surface, so that the spring ejector rods 401 can apply a pushing force to the sealing plates 402, then the sealing plates 402 can be separated from the sealing effect on the storage bins 101, and meanwhile, the forming template 3 can be communicated with the storage bins 101, so that the material in the storage bin 101 can enter the forming template 3, then a worker can loosen the pushing rod 201, the forming template 3 can be pushed by the sealing plate 402 to slide to one end of the placing plate 102 through the pushing force exerted by the spring ejector rod 401 after the forming template 3 is not limited, the surface of the forming template 3 can be scraped by the storage bin 101 while the forming template 3 is pushed, the material in the forming template 3 is screeded, the sealing plate 402 can seal the storage bin 101 again, the automatic feeding operation of the forming template 3 is realized, the screeding operation can be carried out on redundant material, the waste caused by excessive overflow of the material can be avoided, the feeding operation can be completed only by pushing the pushing component 2 during feeding, the auxiliary feeding effect is realized, and the working amount of the staff can be reduced, so that the working efficiency of the staff is increased.

Referring to fig. 4, the pushing rod 201 is rotatable to drive the rotating wheel 203 movably mounted at one end of the connecting rod 202 to push against one end of the forming template 3, so that the forming template 3 slides in the placing plate 102, and simultaneously presses against one end of the sealing plate 402 to press and slide the sealing plate 402 to one end of the connecting plate 103, so that the storage bin 101 is vertically opposite to the forming template 3.

The scheme is adopted: through the design of the push rod 201, the connecting rod 202, the rotating wheel 203 and the forming template 3, when the device is used, the forming template 3 can be placed on the upper surface of the placing plate 102, then the push rod 201 can be pushed to drive the rotating wheel 203 movably mounted at one end of the connecting rod 202 to prop against one end of the forming template 3 so as to prop against the forming template 3 to slide between the placing plates 102, the forming template 3 can be extruded at one end of the sealing plate 402 while one end of the placing plate 102 slides inwards, the sealing plate 402 can be extruded and pushed to the topmost end of the connecting plate 103 along with continuous pushing, and the sealing plate 402 can be extruded at one end of the spring ejector rod 401 through the fastening plate 403 fixedly mounted on the lower surface, so that the spring ejector rod 401 can apply a pushing force to the sealing plate 402, and then the sealing plate 402 can be separated from the sealing effect on the storage bin 101, and simultaneously the forming template 3 is communicated with the storage bin 101, so that the material in the storage bin 101 can enter the forming template 3, then a worker can loosen the pushing rod 201, the sealing plate 402 can push the forming template 3 to slide to one end of the placing plate 102 through the pushing force exerted by the spring ejector rod 401 after the forming template 3 is not limited, the storage bin 101 can scrape the surface of the forming template 3 while the forming template 3 is pushed, the material in the forming template 3 is screeded, and simultaneously the sealing plate 402 can seal the storage bin 101 again, so that the automatic feeding operation of the forming template 3 can be realized, and simultaneously, the screeding operation can be carried out on redundant material, so that the condition that the waste is caused by excessive overflow of the material can be avoided, and the feeding operation can be completed only by pushing the pushing component 2 during feeding, therefore, the feeding device has the effect of assisting feeding, and the working amount of workers can be reduced, so that the working efficiency of the workers is improved.

The working principle of the utility model is as follows:

in use, the device can be used by placing the molding template 3 on the upper surface of the placing plate 102, then pushing the pushing rod 201 to drive the rotating wheel 203 movably mounted at one end of the connecting rod 202 to prop against one end of the molding template 3 so as to push the molding template 3 to slide between the placing plates 102, the molding template 3 can be extruded at one end of the sealing plate 402 while one end of the placing plate 102 slides inwards, the sealing plate 402 can be pushed to the topmost end of the connecting plate 103 along with continuous pushing, the sealing plate 402 can be extruded at one end of the spring push rod 401 through the fastening plate 403 fixedly mounted on the lower surface, thus the spring push rod 401 can apply a pushing force to the sealing plate 402, then the sealing plate 402 can be separated from the sealing effect on the storage bin 101, and meanwhile the molding template 3 can be communicated with the storage bin 101, so that the material in the storage bin 101 can enter the forming template 3, then a worker can loosen the pushing rod 201, the forming template 3 can be pushed by the sealing plate 402 to slide to one end of the placing plate 102 through the pushing force exerted by the spring ejector rod 401 after the forming template 3 is not limited, the surface of the forming template 3 can be scraped by the storage bin 101 while the forming template 3 is pushed, the trowelling operation of the material in the forming template 3 is realized, the sealing plate 402 can seal the storage bin 101 again at the same time, the automatic feeding operation of the forming template 3 is realized, the trowelling operation of redundant materials can be realized at the same time, the waste caused by excessive overflow of the material can be avoided, the feeding operation can be completed only by pushing the pushing component 2 during feeding, the auxiliary feeding effect is realized, the working amount of the worker can be reduced, to increase the working efficiency of the staff.

To sum up: this tree pond brick processing equipment convenient to material loading through link 1, storage bin 101, place board 102, connecting plate 103, guide rail groove 104, mounting groove 105, push the cooperation between subassembly 2, shaping template 3 and seal assembly 4, has solved when making the tree pond brick and has required the staff to use spade material in order to empty into forming die, can obtain fashioned tree pond brick after waiting for the material hardening, and the in-process staff of preparation can not be accurate the volume of toppling of accuse material to will cause the material to empty too much or too little condition to appear when the preparation, the material will overflow in the template in order to cause extravagant when too much, and the problem that can influence the quality of tree pond brick too little.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. Tree pool brick processing equipment convenient to material loading, including link (1), storage storehouse (101), place board (102), connecting plate (103), seal assembly (4) and push-in subassembly (2), its characterized in that: the utility model discloses a storage bin, including storage bin (101) and connecting plate (103), connecting frame (1) upper surface fixed mounting has storage bin (101), connecting frame (1) both ends are fixed mounting respectively has place board (102) and connecting plate (103), movable mounting has seal assembly (4) between connecting plate (103), seal assembly (4) can seal storage bin (101), shaping template (3) can be placed to place board (102) upper surface, place board (102) one end movable mounting has push subassembly (2), shaping template (3) can be pushed subassembly (2) and promote storage bin (101) lower extreme department, and can extrude simultaneously at seal assembly (4) one end in order to extrude seal assembly (4) to connecting plate (103) one end department.

2. A tree pool brick processing apparatus for facilitating loading as defined in claim 1, wherein: seal assembly (4) are including closing plate (402), closing plate (402) movable mounting is between connecting plate (103), closing plate (402) can seal storage bin (101), equal fixed mounting in closing plate (402) both ends has guide rail block (404), guide rail block (404) movable mounting is in guide rail groove (104), one side in connecting plate (103) is seted up in guide rail groove (104).

3. A tree pool brick processing apparatus for facilitating loading as defined in claim 2, wherein: the mounting groove (105) has been seted up to connecting plate (103) lower extreme, fixed mounting has spring ejector pin (401) in mounting groove (105), spring ejector pin (401) piston rod one end fixed mounting is in fastening plate (403) one end, fastening plate (403) fixed mounting is in closing plate (402) lower surface department, fastening plate (403) movable mounting is in mounting groove (105).

4. A tree pool brick processing apparatus for facilitating loading as defined in claim 1, wherein: the pushing assembly (2) comprises a pushing rod (201), the pushing rod (201) is movably mounted at one end of the placing plate (102), a connecting rod (202) is fixedly mounted at one end of the pushing rod (201), and a rotating wheel (203) is movably mounted at one end of the connecting rod (202).

5. A tree pool brick processing apparatus for facilitating loading as defined in claim 4, wherein: the pushing rod (201) can rotate to drive the rotating wheel (203) movably mounted at one end of the connecting rod (202) to prop against one end of the forming template (3), so that the forming template (3) slides in the placing plate (102), and meanwhile, one end of the sealing plate (402) can be extruded to enable the sealing plate (402) to be extruded and slide to one end of the connecting plate (103), and therefore the storage bin (101) is vertically opposite to the forming template (3).