CN212711525U - Automatic bottom plate feeding device of grid plate machine - Google Patents

Abstract

The utility model relates to a grid plate concatenation technical field discloses an automatic bottom plate loading attachment of net trigger, including the frame, its characterized in that: a conveying plate is fixed on the rack, and a first clamping group and a second clamping group are respectively arranged on two sides of the conveying plate; a bracket is arranged between the first clamping group and the second clamping group, and a crank block mechanism for conveying the transverse plate and a power mechanism for driving the crank block mechanism are arranged on the bracket; a feeding plate is rotatably connected to a sliding block of the crank sliding block mechanism, and a first spring connected with the sliding block is fixed on the feeding plate; the first clamping group comprises first clamping plates positioned on two sides of the partition plate, and a second spring is fixed between each first clamping plate and the corresponding conveying plate; the second clamping group comprises second clamping plates positioned on two sides of the partition plate, and a third spring is fixed between the second clamping plates and the conveying plate. The utility model discloses simple structure can improve the pay-off efficiency of horizontal board to the quick material loading of horizontal board.

Description

Automatic bottom plate feeding device of grid plate machine

Technical Field

The utility model relates to a grid plate concatenation technical field, concretely relates to automatic bottom plate loading attachment of net trigger.

Background

The grid plate is a grid plate with a rectangular surface, has the characteristics of light weight, large bearing capacity, less material consumption and the like, and is widely applied to various factories at home and abroad at present. In the traditional method for manufacturing the grid plate, a plurality of identical and transversely-arranged grooves are formed in two transverse plates of the grid plate by manpower, and then matched vertical plates are vertically inserted into every two grooves to form the grid plate.

When the grid plate is spliced, the transverse plate (bottom plate) needs to be transported, however, the existing transportation mode is transported through manpower, the transportation mode is slow, more manpower needs to be consumed, and then the splicing efficiency of the grid plate is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model provides an automatic bottom plate loading attachment of net trigger to improve the conveying efficiency of horizontal board (bottom plate), in order to reach the efficiency that improves the grid plate concatenation.

In order to achieve the above object, the utility model provides a following technical scheme: an automatic bottom plate feeding device of a grid plate machine comprises a rack, wherein a conveying plate is fixed on the rack, and a first clamping group and a second clamping group are respectively arranged on two sides of the conveying plate; a bracket is arranged between the first clamping group and the second clamping group, and a crank block mechanism for conveying the transverse plate and a power mechanism for driving the crank block mechanism are arranged on the bracket; a feeding plate is rotatably connected to a sliding block of the crank sliding block mechanism, and a first spring connected with the sliding block is fixed on the feeding plate; the first clamping group comprises first clamping plates positioned on two sides of the partition plate, and a second spring is fixed between each first clamping plate and the corresponding conveying plate; the second clamping group comprises second clamping plates positioned on two sides of the partition plate, and a third spring is fixed between the second clamping plates and the conveying plate.

The utility model discloses a principle and beneficial effect:

(1) in this scheme, two first grip blocks are to the one end centre gripping of two horizontal plates, and the division board is located and separates two horizontal plates between two horizontal plates, and the second grip block is to the other end centre gripping of two horizontal plates, so reaches the purpose of first grip block, second grip block to horizontal plate centre gripping. According to the open distance of first grip block, second grip block, can place the transverse plate of different quantity, after the grip block that is close to the division board has used up, under the effect of second spring, third spring, the transverse plate that will keep away from the division board promotes to offset with the division board, so reaches autoloading's purpose.

(2) Power unit drive slider-crank mechanism reciprocating motion, slider-crank mechanism can drive the delivery sheet and promote the horizontal board, and then reach the purpose of material loading, so reach the purpose of carrying the horizontal board fast.

In conclusion, through the mode, the purpose of automatic feeding can be achieved, manual work is reduced, feeding efficiency of the transverse plates is improved, and splicing efficiency of the screen plates is further improved.

Furthermore, a first guide groove used for guiding the first clamping plate is formed in the conveying plate.

Has the advantages that: in this scheme, lead to first grip block through first guide way to avoid first grip block to take place the offset at the slip in-process.

Furthermore, a second guide groove for guiding the second clamping plate is formed in the conveying plate.

Has the advantages that: in this scheme, lead to the second grip block through the second guide way to avoid the second grip block to take place the offset at the slip in-process.

Furthermore, a guide shaft is fixed on the bracket and is horizontally connected with a slide block of the slider-crank mechanism in a sliding manner.

Has the advantages that: the slide block is guided by the guide shaft so as to avoid the slide block from deviating in the sliding process.

Furthermore, the power mechanism comprises a power part, a second wheel and a first wheel coaxially fixed with an output shaft of the power part, a belt is sleeved on the first wheel and the second wheel, and the second wheel is coaxially and fixedly connected with a crank of the crank block mechanism.

Has the advantages that: the power part drives the first wheel, the first wheel drives the second wheel through the belt, and then the second wheel drives the crank of slider-crank to rotate to make slider-crank mechanism motion, reach slider-crank mechanism and drive the purpose of delivery sheet work.

Furthermore, a protective shell for protecting the first wheel and the second wheel is fixed on the support.

Has the advantages that: the protective housing protects first round, second round, avoids having the foreign object to carry out the striking to first round and second round.

Furthermore, a guide plate fixed on the bracket is arranged above the guide shaft.

Has the advantages that: the slide block is guided by the guide plate, the sliding stability of the slide block is further improved, and the probability of position deviation of the slide block in the sliding process is further reduced.

Furthermore, a groove is formed in the second clamping plate.

Has the advantages that: when the second clamping plate needs to be far away from the partition plate to move, an operator can conveniently pull the second clamping plate far away from the partition plate through the groove.

Further, the cross section of the first guide groove is inverted T-shaped.

Has the advantages that: set up the first guide way of T type, it is spacing to first grip block.

Further, a cushion layer is arranged in the groove.

Has the advantages that: when an operator pulls the second clamping plate through the groove, the acting force of the second clamping plate is received, and the acting force between the operator and the second clamping plate is buffered through the cushion layer.

Drawings

Fig. 1 is an isometric view of an automated bottom plate loading device of a grid plate machine in an embodiment of the present invention;

fig. 2 is a front view of an automatic bottom plate feeding device of a grid plate machine according to an embodiment of the present invention;

fig. 3 is a top view of an automatic bottom plate loading device of a grid plate machine according to an embodiment of the present invention;

FIG. 4 is a cross-sectional view taken along line E-E of FIG. 3;

fig. 5 is an enlarged view of a portion a of fig. 4.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a conveying plate 1, a bracket 2, a motor 3, a protective shell 31, a belt 32, a crank 33, a connecting rod 34, a sliding block 35, a feeding plate 36, a second wheel 37, a guide plate 38, a guide shaft 39, a first clamping plate 4, a first guide groove 42, a sliding plate 43, a second clamping plate 5, a groove 51, a second guide groove 52, a partition plate 6 and a transverse plate 7.

Example (b):

as shown in fig. 1, fig. 2, fig. 3 and fig. 4, the automatic bottom plate feeding device of the grid plate machine comprises a frame (not shown in the figure), wherein a conveying plate 1 is fixed on the frame through bolts, and a first clamping group and a second clamping group are respectively arranged on two sides of the conveying plate 1.

As shown in fig. 2 and fig. 3, the first clamping group includes a partition plate 6 and first clamping plates 4 located on two sides of the partition plate 6, in this embodiment, the partition plate 6 is bolted on the conveying plate 1, a first guide groove 42 located on two sides of the partition plate 6 and having an inverted T-shaped cross section is formed on the conveying plate 1, a sliding plate 43 located in the first guide groove 42 is bolted on the bottom of the first clamping plate 4, a second spring is welded on the sliding plate 43, and one end of the second spring is welded on the conveying plate 1 (not shown in the figure).

The second clamping group comprises second clamping plates 5 located on two sides of the partition plate 6, in this embodiment, the conveying plate 1 is provided with second guide grooves 52 located on two sides of the partition plate 6, a sliding plate located in the second guide grooves 52 is fixed to the bottom of the second clamping plates 5 through bolts, a third spring is welded to the sliding plate, one end of the third spring is welded to the conveying plate 1 (not shown in the figure), a groove 51 is formed in each second clamping plate 5, and a cushion layer made of a rubber material is fixed to the bolts in the groove 51. As shown in fig. 3, two first clamping plates 4 and two second clamping plates 5 are slid towards the direction away from the partition plate 6, a plurality of transverse plates 7 are placed on the conveying plate 1 and located on two sides of the partition plate 6, under the action of the second springs and the third springs, the first clamping plates 4 and the second clamping plates 5 move towards the transverse plates 7, the first clamping plates 4 and the second clamping plates 5 clamp the left ends and the right ends of the transverse plates 7 respectively, and when clamping is carried out, the partition plate 6 separates the adjacent transverse plates 7 to form the state shown in fig. 3.

As shown in fig. 2, 4 and 5, a bracket 2 is fixed on the transmission plate 1 through bolts, and a crank block mechanism and a power mechanism for driving the crank block mechanism are arranged on the bracket 2.

The power mechanism comprises a motor 3 fixed on the support 2 through a bolt, a first wheel is fixed on an output shaft of the motor 3 through a coaxial bolt, a rotating shaft penetrating through the support 2 is connected on the support 2 in a rotating mode, a second wheel 37 is fixed on one end of the rotating shaft through a coaxial bolt, and a belt 32 is sleeved on the first wheel and the second wheel 37. When the motor 3 drives the first wheel to rotate, the first wheel drives the second wheel 37 to rotate through the belt 32. A protective shell 31 is fixed on the bracket 2 through bolts, the protective shell 31 is positioned on the outer sides of the first wheel and the second wheel 37, and the protective shell 31 protects the first wheel and the second wheel 37.

The crank sliding block mechanism comprises a crank 33 coaxially fixed with the rotating shaft through a bolt, the crank 33 is located on the other side of the support 2, the crank 33 is a rotating disc with a circular longitudinal section in the embodiment, a connecting rod 34 is hinged to the position, deviating from the center of the circle, of the rotating disc, and a sliding block 35 is hinged to the other end of the connecting rod 34. A guide plate 38 is fixed on the support 2 through bolts, a guide groove is formed in the guide plate 38, the upper portion of the sliding block 35 is located in the guide groove, a guide shaft 39 welded with the support 2 is arranged below the guide plate 38, and the guide shaft 39 is horizontally connected with the sliding block 35 in a sliding mode. The slider 35 is rotatably connected with a feeding plate 36 positioned above the transverse plate 7, a first spring is arranged on the feeding plate 36, one end of the first spring is welded on the feeding plate 36, and the other end of the first spring is welded with the slider 35.

The specific implementation process is as follows:

as shown in fig. 5, a groove having a Y-shaped longitudinal section is formed in the upper portion of the horizontal plate 7. The motor 3 is started, the motor 3 drives the second wheel 37 through the first wheel and the belt 32, the second wheel 37 drives the crank 33 through the rotating shaft, and the crank 33 horizontally reciprocates on the guide plate 38 and the guide shaft 39 through the connecting rod 34 and the sliding block 35.

When the feeding plate 36 slides to the right, the feeding plate 36 extends into the groove under the action of gravity, and the feeding plate 36 pushes the transverse plate 7 to move to the right. When the feeding plate 36 slides to the left side, the edge of the groove can upwards push the feeding plate 36, the feeding plate 36 moves on the transverse plate 7, and when the feeding plate 36 moves to the next groove, the feeding plate 36 extends into the groove again under the action of gravity, so that the transverse plate 7 is fed through the feeding plate 36 in a reciprocating mode.

As shown in fig. 3, after the two transverse plates 7 close to the partition plate 6 are transported away, the two transverse plates 7 far away from the partition plate 6 are extruded to the partition plate 6 under the action of the first clamping plate 4 and the second clamping plate 5, and the two transverse plates 7 are abutted against the partition plate 6, so that the work is repeated, and the purpose of continuous feeding is achieved. As shown in fig. 5, the feeding plate 36 is always located above the transverse plate 7 under the action of the first spring, so that no block is formed when the transverse plate 7 moves towards the partition plate 6.

The above is only the preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, without departing from the concept of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The technology, shape and construction parts which are not described in the present invention are all known technology.

Claims (10)

1. Automatic bottom plate loading attachment of net trigger, including the frame, its characterized in that: a conveying plate is fixed on the rack, and a first clamping group and a second clamping group are respectively arranged on two sides of the conveying plate;

a bracket is arranged between the first clamping group and the second clamping group, and a crank block mechanism for conveying the transverse plate and a power mechanism for driving the crank block mechanism are arranged on the bracket;

a feeding plate is rotatably connected to a sliding block of the crank sliding block mechanism, and a first spring connected with the sliding block is fixed on the feeding plate;

the first clamping group comprises first clamping plates positioned on two sides of the partition plate, and a second spring is fixed between each first clamping plate and the corresponding conveying plate;

the second clamping group comprises second clamping plates positioned on two sides of the partition plate, and a third spring is fixed between the second clamping plates and the conveying plate.

2. The automatic bottom plate feeding device of a grid plate machine as claimed in claim 1, wherein: the conveying plate is provided with a first guide groove for guiding the first clamping plate.

3. The automatic bottom plate feeding device of a grid plate machine as claimed in claim 2, wherein: and a second guide groove for guiding the second clamping plate is formed in the conveying plate.

4. The automatic bottom plate feeding device of a grid plate machine as claimed in claim 1, wherein: and a guide shaft is fixed on the support and is horizontally and slidably connected with a slide block of the slider-crank mechanism.

5. The automatic bottom plate feeding device of a grid plate machine as claimed in claim 1, wherein: the power mechanism comprises a power piece, a second wheel and a first wheel coaxially fixed with an output shaft of the power piece, a belt is sleeved on the first wheel and the second wheel, and the second wheel is coaxially and fixedly connected with a crank of the slider-crank mechanism.

6. The automatic bottom plate feeding device of a grid plate machine as claimed in claim 5, wherein: a protective shell used for protecting the first wheel and the second wheel is fixed on the support.

7. The automatic bottom plate feeding device of a grid plate machine as claimed in claim 4, wherein: and a guide plate fixed on the bracket is arranged above the guide shaft.

8. The automatic bottom plate feeding device of a grid plate machine as claimed in claim 1, wherein: the second clamping plate is provided with a groove.

9. The automatic bottom plate feeding device of a grid plate machine as claimed in claim 2, wherein: the cross section of the first guide groove is inverted T-shaped.

10. The automatic bottom plate feeding device of a grid plate machine as claimed in claim 8, wherein: and a cushion layer is arranged in the groove.

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