CN209851312U - Longitudinal and transverse brick machine - Google Patents

Abstract

The utility model discloses a longitudinal and transverse brick machine, which comprises a base part, a transverse cutting part, a lifting counterweight part and a longitudinal cutting part, wherein the transverse cutting part is arranged on the base part, the lifting counterweight part is arranged on the base part, and the lifting counterweight part is connected with the transverse cutting part; the slitting part is arranged on the base part. The utility model discloses simple structure, workable stone fragment of brick, the fragment of brick of workable different specifications, and machining efficiency is high, and strong adaptability can use in different places.

Description

Longitudinal and transverse brick machine

Technical Field

The utility model relates to a stone material processing machinery technical field especially relates to a fragment of brick machine moves about freely and quickly.

Background

The fragment of brick comprises multiple material, and the softer stone material of general texture also can be used to make the fragment of brick, and the stone material is used for making the fragment of brick, need cut with cutting equipment to reach the fragment of brick of required size, and the production cutting equipment that current fragment of brick was used, the machining precision is poor, and production efficiency is low, operates inconveniently.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to solve the above problems in the prior art, the utility model provides a move about freely and quickly fragment of brick machine.

(II) technical scheme

A longitudinal and transverse brick making machine comprises a base part, a transverse cutting part, a lifting counterweight part and a longitudinal cutting part, wherein the transverse cutting part is arranged on the base part, the lifting counterweight part is arranged on the base part, and the lifting counterweight part is connected with the transverse cutting part; the slitting part is arranged on the base part.

Furthermore, be connected with the manger plate safety cover on the base part, the manger plate safety cover is located crosscut part, lift counter weight part and rip cutting part's top, and the manger plate safety cover shelters from crosscut part, lift counter weight part and rip cutting part including.

Furthermore, the base part comprises two rails and a base which are arranged at intervals, a left driven shaft, a driving shaft and a right driven shaft are sequentially arranged on the base from left to right, and the left driven shaft, the driving shaft and the right driven shaft can rotate relative to the base respectively; the left driven shaft, the driving shaft and the right driven shaft are respectively provided with a roller matched with the two rails; the left driven shaft, the driving shaft and the right driven shaft are respectively provided with a driven chain wheel, the driving shaft is provided with a driving chain wheel, the base is provided with a driving motor, the output end of the driving motor is connected with a speed reducer, the output end of the speed reducer is connected with a driving chain wheel, the driving chain wheel is connected with the driving chain wheel through a first chain, and the driven chain wheel on the left driven shaft is connected with the driven chain wheel on the driving shaft through a second chain; and the driven chain wheel on the right driven shaft is connected with the driven chain wheel on the driving shaft through a second chain.

Further, the transverse cutting component comprises a lifting seat connected to the base, and a spindle sleeve is connected to the interior of the lifting seat through a self-lubricating linear bearing; the upper end and the lower end of the spindle sleeve extend to the outer side of the lifting seat; the upper end of the main shaft sleeve is connected with a transverse gear box body; the transverse cutting gearbox body is provided with a transverse cutting driving wheel and a transverse cutting driven wheel at intervals, and the transverse cutting driving wheel and the transverse cutting driven wheel are connected through a belt; the transverse cutting driving wheel is connected with a driving shaft of a transverse cutting motor arranged on the transverse cutting gear box body; the transverse cutting driven wheel is connected to the transverse cutting gear box body through a belt wheel shaft, and the belt wheel shaft can rotate relative to the transverse cutting gear box body; a transverse cutting main shaft driving gear is connected to the belt pulley shaft; the main shaft sleeve is internally connected with a transverse cutting main shaft through a rotating bearing, the upper end of the transverse cutting main shaft is connected with a transverse cutting main shaft driven gear meshed with a transverse cutting main shaft driving gear, the lower end of the transverse cutting main shaft is connected with a transverse cutting saw blade through a transverse cutting saw blade fixing block, a guide oil cylinder is arranged on the transverse cutting gear box body, and a telescopic rod of the guide oil cylinder is connected with a lifting seat.

Furthermore, the transverse cutting component is connected to the base through a transverse telescopic component, and a connecting hole for connecting the transverse telescopic component is formed in the base; the transverse telescopic component comprises a front connecting fixed seat connected with the lifting seat and a transverse cutting sleeve arranged on the connecting hole, a telescopic guide rod is connected in the transverse cutting sleeve through a self-lubricating bearing, one end of the telescopic guide rod is connected with the front connecting fixed seat, and the other end of the telescopic guide rod is connected with a limiting end plate; the base is connected with a telescopic oil cylinder, the telescopic oil cylinder can also be fixed on the transverse cutting sleeve through a connecting plate, and a telescopic rod of the telescopic oil cylinder is connected with the front connecting fixing seat.

Further, the lifting counterweight component comprises a bracket connected to the base, a left chain wheel shaft and a right chain wheel shaft are respectively arranged on two sides of the bracket, and the left chain wheel shaft and the right chain wheel shaft can rotate relative to the bracket respectively; the left chain wheel shaft and the right chain wheel shaft are respectively connected with a counterweight chain wheel, a counterweight single-row chain is connected between the two counterweight chain wheels on one side, one end of the counterweight single-row chain is connected with a transverse cutting gear box on the transverse cutting component, the other end of the counterweight single-row chain is connected with a counterweight block, and the transverse cutting component and the counterweight block are positioned on two sides of the support.

Furthermore, the counterweight block is connected in the counterweight box, and the counterweight single-row chain penetrates through the counterweight box to be connected with the counterweight block.

Furthermore, the longitudinal cutting part comprises a longitudinal cutting gear box body, a swinging mounting hole connected with a swinging shaft on the base is formed in the longitudinal cutting gear box body, a swinging oil cylinder is arranged on the base, a telescopic rod of the swinging oil cylinder is connected with the bottom of the longitudinal cutting gear box body, the telescopic rod of the swinging oil cylinder extends or shortens to drive the longitudinal cutting gear box body to swing upwards or downwards in opposite directions relative to the base by taking the swinging shaft as an axis; the longitudinal cutting gearbox is characterized in that a longitudinal cutting driving shaft is connected to the longitudinal cutting gearbox body, the longitudinal cutting driving shaft can rotate relative to the longitudinal cutting gearbox body, a longitudinal cutting driven wheel and a longitudinal cutting driving wheel are arranged on the longitudinal cutting driving shaft at intervals, a longitudinal cutting motor is arranged on the longitudinal cutting gearbox body, the output end of the longitudinal cutting motor is connected with a longitudinal cutting driving wheel, and the longitudinal cutting driving wheel is connected with the longitudinal cutting driven wheel through a conveying belt; a longitudinal cutting main shaft is arranged on the longitudinal cutting gear box body and can rotate relative to the longitudinal cutting gear box body; the longitudinal cutting main shaft is provided with a longitudinal cutting driven gear meshed with the longitudinal cutting driving gear, and two ends of the longitudinal cutting main shaft are respectively connected with longitudinal cutting saw blades through longitudinal cutting fixing blocks.

Furthermore, an intermediate connecting shaft is arranged on the longitudinal cutting gear box body, the intermediate connecting shaft can rotate relative to the longitudinal cutting gear box body, and a reduction gear set meshed with the longitudinal cutting driven wheel and the longitudinal cutting driving gear is arranged on the intermediate connecting shaft.

Furthermore, the longitudinal cutting gearbox body is connected with a saw blade cover through a connecting frame, and the upper half part of a longitudinal cutting saw blade is covered in the saw blade cover; the saw blade cover comprises a front saw blade cover and a rear saw blade cover, the front saw blade cover and the rear saw blade cover are connected through a hinge, a saw blade cover oil cylinder is arranged on the rear saw blade cover, and a telescopic rod of the saw blade cover oil cylinder is connected with the front saw blade cover.

(III) advantageous effects

The utility model has the advantages that: the brick processing machine has the advantages of simple structure, capability of processing stone bricks and bricks with different specifications, high processing efficiency, strong adaptability and capability of being used in different places.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the base member of the present invention;

FIG. 3 is an exploded view of the base assembly of the present invention;

FIG. 4 is a schematic view of the assembly structure of the transverse cutting member and the transverse telescopic member of the present invention;

FIG. 5 is a cross-sectional view of the cross-cutting component of the present invention;

FIG. 6 is a schematic structural view of the lateral retractable member of the present invention;

FIG. 7 is a schematic view of the lifting counterweight of the present invention;

FIG. 8 is a schematic structural view of a longitudinal cutting member of the present invention;

fig. 9 is an exploded view of the longitudinal cutting member of the present invention.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined to clearly and completely describe the technical solutions of the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front end", "rear end", "both ends", "one end", "the other end" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element to which the reference is made must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "provided," "connected," and the like are to be construed broadly, and for example, "connected" may be either fixedly connected or detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

a longitudinal and transverse brick making machine comprises a base part 1, a transverse cutting part 2, a lifting counterweight part 3 and a longitudinal cutting part 4, wherein the transverse cutting part 2 is arranged on the base part 1, the lifting counterweight part 3 is arranged on the base part 1, and the lifting counterweight part 3 is connected with the transverse cutting part 2; the slitting member 4 is provided on the base member 1.

In order to make crosscut part 2, lift counter weight component 3 and rip cutting part 4 can keep off the rain, be connected with manger plate safety cover 5 on the base part 1, manger plate safety cover 5 is located crosscut part 2, lift counter weight component 3 and rip cutting part 4's top, manger plate safety cover 5 shelters from crosscut part 2, lift counter weight component 3 and rip cutting part 4 including.

In this embodiment, as shown in fig. 2 and fig. 3, the base part 1 includes two rails 11 and a base 12 arranged at intervals, a left driven shaft 13, a driving shaft 14, and a right driven shaft 15 are sequentially arranged on the base 12 from left to right, and the left driven shaft 13, the driving shaft 14, and the right driven shaft 15 are respectively rotatable with respect to the base 12; the left driven shaft 13, the driving shaft 14 and the right driven shaft 15 are respectively provided with a roller 16 matched with the two tracks 11; the left driven shaft 13, the driving shaft 14 and the right driven shaft 15 are respectively provided with a driven sprocket 17, the driving shaft 14 is provided with a driving sprocket 18, the base 12 is provided with a driving motor 19, the output end of the driving motor 19 is connected with a speed reducer 110, the output end of the speed reducer 110 is connected with a driving sprocket 111, the driving sprocket 111 and the driving sprocket 18 are connected through a first chain 112, and the driven sprocket 17 on the left driven shaft 13 and the driven sprocket 17 on the driving shaft 14 are connected through a second chain 113; the driven sprocket 17 on the right driven shaft 15 is connected with the driven sprocket 17 on the driving shaft 14 through a second chain 113, the driving motor 19 works, the power of the driving motor 19 is converted through the speed reducer 110 to drive the driving sprocket 111 to rotate, and then the driving sprocket 18 is driven to rotate, the driving sprocket 18 rotates to drive the driven sprocket 17 to rotate, and the roller 16 moves on the two tracks 11.

In this embodiment, as shown in fig. 4 and 5, the transverse cutting component 2 includes a lifting seat 21 connected to the base 12, and a spindle sleeve 22 is connected to the inside of the lifting seat 21 through a self-lubricating linear bearing; the upper end and the lower end of the spindle sleeve 22 extend to the outer side of the lifting seat 21; the upper end of the main shaft sleeve 22 is connected with a transverse gear box body 23; the transverse cutting gearbox body 23 is provided with a transverse cutting driving wheel 24 and a transverse cutting driven wheel 25 at intervals, and the transverse cutting driving wheel 24 and the transverse cutting driven wheel 25 are connected through a belt; the transverse cutting driving wheel 24 is connected with a driving shaft of a transverse cutting motor 26 arranged on the transverse cutting gearbox body 23; the transverse cut driven wheel 25 is connected to the transverse cut gear box body 23 through a belt wheel shaft 27, and the belt wheel shaft 27 can rotate relative to the transverse cut gear box body 23; a transverse cutting main shaft driving gear 28 is connected to the belt pulley shaft 27; the main shaft sleeve 22 is internally connected with a transverse cutting main shaft 29 through a rotating bearing, the upper end of the transverse cutting main shaft 29 is connected with a transverse cutting main shaft driven gear 210 meshed with a transverse cutting main shaft driving gear 28, the lower end of the transverse cutting main shaft 29 is connected with a transverse cutting saw blade 212 through a transverse cutting saw blade fixing block 211, a guide oil cylinder 231 is arranged on the transverse cutting gear box body 23, the telescopic rod of the guide oil cylinder 231 is connected with the lifting seat 21, the telescopic rod of the guide oil cylinder 231 extends or shortens, the transverse cutting gear box body 23 is far away from or close to the lifting seat 21, and therefore the distance between the transverse cutting saw blade 212 and the lifting seat; the transverse cutting motor 26 works to drive the transverse cutting driving wheel 24 to rotate, the transverse cutting driving wheel 24 drives the transverse cutting driven wheel 25 to work, the transverse cutting driven wheel 25 drives the belt pulley shaft 27 to rotate, the belt pulley shaft 27 drives the transverse cutting spindle driving gear 28 to work, the transverse cutting spindle driving gear 28 and the transverse cutting spindle driven gear 210 are meshed to work, the transverse cutting spindle 29 is rotated, and therefore the working state of the transverse cutting saw blade 212 is achieved.

As shown in fig. 6, in order to make the whole crosscutting member 2 move outwards for cutting, the crosscutting member 2 is connected to the base 12 through the transverse telescopic member 6, and the base 12 is provided with a connecting hole 121 for connecting the transverse telescopic member 6; the transverse telescopic component 6 comprises a front connecting fixed seat 61 connected with the lifting seat 21 and a transverse cutting sleeve 62 arranged on the connecting hole 121, a telescopic guide rod 63 is connected in the transverse cutting sleeve 62 through a self-lubricating bearing, one end of the telescopic guide rod 63 is connected with the front connecting fixed seat 61, and the other end of the telescopic guide rod 63 is connected with a limiting end plate 64; the base 12 is connected with a telescopic oil cylinder 65, the telescopic oil cylinder 65 can also be fixed on the transverse cutting sleeve 62 through a connecting plate 66, a telescopic rod of the telescopic oil cylinder 65 is connected with the front connecting fixing seat 61, the telescopic oil cylinder 65 works, and a telescopic rod of the telescopic oil cylinder 65 extends out to drive the telescopic guide rod 63 to move outwards in the transverse cutting sleeve 62, so that the lifting seat 21 connected with the front connecting fixing seat 61 moves outwards, and finally, the whole transverse cutting component 2 moves outwards.

In this embodiment, as shown in fig. 7, the lifting weight member 3 includes a bracket 31 connected to the base 12, a left sprocket shaft 32 and a right sprocket shaft 33 are respectively provided on both sides of the bracket 31, and the left sprocket shaft 32 and the right sprocket shaft 33 are respectively rotatable with respect to the bracket 31; the left chain wheel shaft 32 and the right chain wheel shaft 33 are respectively connected with a counterweight chain wheel 34, a counterweight single-row chain 35 is connected between the two counterweight chain wheels 34 on one side, one end of the counterweight single-row chain 35 is connected with the transverse cutting gear box body 23 on the transverse cutting component 2, the other end of the counterweight single-row chain 35 is connected with a counterweight block 36, the transverse cutting component 2 and the counterweight block 36 are positioned on two sides of the bracket 31, and the counterweight block 36 plays a role in bilateral balance on the transverse cutting component 2 through the support of the two counterweight single-row chains 35; in order to make the counterweight block 36 unnecessary for other operators during the working process, the counterweight block 36 is connected in the counterweight box 37, and the counterweight single-row chain 35 passes through the counterweight box 37 and is connected with the counterweight block 36.

In this embodiment, as shown in fig. 8 and 9, the longitudinal cutting component 4 includes a longitudinal cutting gear box 41, the longitudinal cutting gear box 41 is provided with a swing mounting hole 42 connected to a swing shaft 122 on the base 12, the base 12 is provided with a swing oil cylinder 123, an expansion link of the swing oil cylinder 123 is connected to the bottom of the longitudinal cutting gear box 41, the expansion link of the swing oil cylinder 123 extends or shortens to drive the longitudinal cutting gear box 41 to swing up or down with respect to the base 12 with the swing shaft 122 as an axis; the longitudinal cutting gear box body 41 is connected with a longitudinal cutting driving shaft 43, the longitudinal cutting driving shaft 43 can rotate relative to the longitudinal cutting gear box body 41, a longitudinal cutting driven wheel 44 and a longitudinal cutting driving wheel 45 are arranged on the longitudinal cutting driving shaft 43 at intervals, a longitudinal cutting motor 46 is arranged on the longitudinal cutting gear box body 41, the output end of the longitudinal cutting motor 46 is connected with a longitudinal cutting driving wheel 47, and the longitudinal cutting driving wheel 47 is connected with the longitudinal cutting driven wheel 44 through a conveying belt; a longitudinal cutting main shaft 48 is arranged on the longitudinal cutting gear box body 41, and the longitudinal cutting main shaft 48 can rotate relative to the longitudinal cutting gear box body 41; the longitudinal cutting main shaft 48 is provided with a longitudinal cutting driven gear 49 engaged with the longitudinal cutting driving gear 45, two ends of the longitudinal cutting main shaft 48 are respectively connected with a longitudinal cutting saw blade 411 through a longitudinal cutting fixing block 410, a longitudinal cutting motor 46 works to drive a longitudinal cutting driving gear 47 to rotate, a longitudinal cutting driven gear 44 connected with the longitudinal cutting driving gear 47 also rotates along with the longitudinal cutting driving gear, the longitudinal cutting driven gear 44 drives the longitudinal cutting driving gear 45 to work through a longitudinal cutting driving shaft 43, the longitudinal cutting driving gear 45 transmits power to the longitudinal cutting main shaft 48 through the longitudinal cutting driven gear 49, and the longitudinal cutting main shaft 48 works to realize cutting work of the longitudinal cutting saw blade 411.

In order to prevent the output power of the slitting motor 46 from being too high, the slitting gear box body 41 is provided with an intermediate connecting shaft 412, the intermediate connecting shaft 412 can rotate relative to the slitting gear box body 41, the intermediate connecting shaft 412 is provided with a speed reducing gear set 413 which is respectively meshed with the slitting driven wheel 44 and the slitting driving gear 45, and the output power of the slitting motor 46 can be reduced through the gear analog-digital conversion of the speed reducing gear set 413.

In order to prevent the longitudinal cutting blade 411 from causing injury to operators or other persons when in work, a blade cover 415 is connected to the longitudinal cutting gearbox 41 through a connecting frame 414, and the upper half part of the longitudinal cutting blade 411 is covered by the blade cover 415; the saw blade cover 415 comprises a front saw blade cover 416 and a rear saw blade cover 417, the front saw blade cover 416 and the rear saw blade cover 417 are connected through a hinge 418, a saw blade cover oil cylinder 419 is arranged on the rear saw blade cover 417, an expansion rod of the saw blade cover oil cylinder 419 is connected with the front saw blade cover 416, when the expansion rod of the saw blade cover oil cylinder 419 is shortened, the front saw blade cover 416 takes the hinge 418 as a fulcrum, and the front saw blade cover 416 can swing relative to the rear saw blade cover 417, so that maintenance and replacement of the longitudinal cutting saw blade 411 are facilitated; in the embodiment, each functional oil cylinder is connected with the hydraulic station 7 on the base 12, so that the control and the operation are convenient.

In the embodiment, the transverse cutting component 2 and the longitudinal cutting component 4 are designed to be mutually independent structures, the longitudinal cutting component 4 is driven by the swing oil cylinder 123 to swing up and down to complete longitudinal cutting, the transverse cutting component 2 is horizontally stretched by the transverse stretching component 6 and vertically stretched by the guide oil cylinder 231 to jointly complete horizontal section cutting, the longitudinal cutting component 4 is decelerated by the second-order gear box and the belt pulley, the transverse cutting component 2 is decelerated by the single-order gear box and the belt pulley, due to the unilateral unbalance of the transverse cutting component 2, the bilateral balance is completed by the lifting counterweight component 3, and the base component 1 is driven by the driving motor 19 to walk back and forth on the track 11.

The above embodiments are only used to illustrate the specific implementation principle and efficacy of the present invention, and are not used to limit the present invention. Modifications and variations of the disclosed methods may be resorted to by those skilled in the art, and all equivalent modifications and variations can be made without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A vertical and horizontal brick machine is characterized in that: the horizontal cutting machine comprises a base part (1), a transverse cutting part (2), a lifting counterweight part (3) and a longitudinal cutting part (4), wherein the transverse cutting part (2) is arranged on the base part (1), the lifting counterweight part (3) is arranged on the base part (1), and the lifting counterweight part (3) is connected with the transverse cutting part (2); the longitudinal cutting part (4) is arranged on the base part (1).

2. A cross-bar brick machine according to claim 1 wherein: be connected with manger plate safety cover (5) on base part (1), manger plate safety cover (5) are located crosscut part (2), lift counter weight part (3) and rip cutting part's (4) top, and manger plate safety cover (5) are with crosscut part (2), lift counter weight part (3) and rip cutting part (4) shelter from including.

3. A cross-bar brick machine according to claim 1 wherein: the base part (1) comprises two rails (11) and a base (12) which are arranged at intervals, a left driven shaft (13), a driving shaft (14) and a right driven shaft (15) are sequentially arranged on the base (12) from left to right, and the left driven shaft (13), the driving shaft (14) and the right driven shaft (15) can rotate relative to the base (12) respectively; the left driven shaft (13), the driving shaft (14) and the right driven shaft (15) are respectively provided with a roller (16) matched with the two tracks (11); the left driven shaft (13), the driving shaft (14) and the right driven shaft (15) are respectively provided with a driven chain wheel (17), the driving shaft (14) is provided with a driving chain wheel (18), the base (12) is provided with a driving motor (19), the output end of the driving motor (19) is connected with a speed reducer (110), the output end of the speed reducer (110) is connected with a driving chain wheel (111), the driving chain wheel (111) is connected with the driving chain wheel (18) through a first chain (112), and the driven chain wheel (17) on the left driven shaft (13) is connected with the driven chain wheel (17) on the driving shaft (14) through a second chain (113); and the driven chain wheel (17) on the right driven shaft (15) is connected with the driven chain wheel (17) on the driving shaft (14) through a second chain (113).

4. A cross-bar brick machine according to claim 3 wherein: the transverse cutting component (2) comprises a lifting seat (21) connected to the base (12), and a spindle sleeve (22) is connected to the interior of the lifting seat (21) through a self-lubricating linear bearing; the upper end and the lower end of the spindle sleeve (22) extend to the outer side of the lifting seat (21); the upper end of the main shaft sleeve (22) is connected with a transverse gear box body (23); the transverse cutting gearbox body (23) is provided with a transverse cutting driving wheel (24) and a transverse cutting driven wheel (25) at intervals, and the transverse cutting driving wheel (24) and the transverse cutting driven wheel (25) are connected through a belt; the transverse cutting driving wheel (24) is connected with a driving shaft of a transverse cutting motor (26) arranged on the transverse cutting gearbox body (23); the transverse cutting driven wheel (25) is connected to the transverse cutting gear box body (23) through a belt wheel shaft (27), and the belt wheel shaft (27) can rotate relative to the transverse cutting gear box body (23); a transverse cutting main shaft driving gear (28) is connected to the belt pulley shaft (27); the main shaft sleeve (22) is internally connected with a transverse cutting main shaft (29) through a rotating bearing, the upper end of the transverse cutting main shaft (29) is connected with a transverse cutting main shaft driven gear (210) meshed with a transverse cutting main shaft driving gear (28), the lower end of the transverse cutting main shaft (29) is connected with a transverse cutting saw blade (212) through a transverse cutting saw blade fixing block (211), a guide oil cylinder (231) is arranged on a transverse cutting gear box body (23), and a telescopic rod of the guide oil cylinder (231) is connected with a lifting seat (21).

5. A cross-and-bar brick machine as claimed in claim 4 wherein: the transverse cutting component (2) is connected to the base (12) through the transverse telescopic component (6), and a connecting hole (121) for connecting the transverse telescopic component (6) is formed in the base (12); the transverse telescopic component (6) comprises a front connecting fixed seat (61) connected with the lifting seat (21) and a transverse cutting sleeve (62) arranged on the connecting hole (121), a telescopic guide rod (63) is connected in the transverse cutting sleeve (62) through a self-lubricating bearing, one end of the telescopic guide rod (63) is connected with the front connecting fixed seat (61), and the other end of the telescopic guide rod (63) is connected with a limiting end plate (64); the base (12) is connected with a telescopic oil cylinder (65), and a telescopic rod of the telescopic oil cylinder (65) is connected with the front connecting fixing seat (61).

6. A cross-and-bar brick machine as claimed in claim 5 wherein: the lifting counterweight component (3) comprises a bracket (31) connected to the base (12), a left chain wheel shaft (32) and a right chain wheel shaft (33) are respectively arranged on two sides of the bracket (31), and the left chain wheel shaft (32) and the right chain wheel shaft (33) can rotate relative to the bracket (31); the left chain wheel shaft (32) and the right chain wheel shaft (33) are respectively connected with a counterweight chain wheel (34), a counterweight single-row chain (35) is connected between the two counterweight chain wheels (34) on one side, one end of the counterweight single-row chain (35) is connected with a transverse cutting gear box body (23) on the transverse cutting component (2), the other end of the counterweight single-row chain (35) is connected with a counterweight block (36), and the transverse cutting component (2) and the counterweight block (36) are located on two sides of the support (31).

7. A cross-bar brick machine as claimed in claim 6 wherein: the counterweight block (36) is connected in the counterweight box (37), and the counterweight single-row chain (35) penetrates through the counterweight box (37) to be connected with the counterweight block (36).

8. A cross-bar brick machine as claimed in claim 6 wherein: the longitudinal cutting component (4) comprises a longitudinal cutting gear box body (41), a swinging mounting hole (42) connected with a swinging shaft (122) on the base (12) is formed in the longitudinal cutting gear box body (41), a swinging oil cylinder (123) is arranged on the base (12), a telescopic rod of the swinging oil cylinder (123) is connected with the bottom of the longitudinal cutting gear box body (41), the telescopic rod of the swinging oil cylinder (123) extends or shortens to drive the longitudinal cutting gear box body (41) to swing upwards or downwards relative to the base (12) by taking the swinging shaft (122) as an axis center; the longitudinal cutting gearbox is characterized in that a longitudinal cutting driving shaft (43) is connected to the longitudinal cutting gearbox body (41), the longitudinal cutting driving shaft (43) can rotate relative to the longitudinal cutting gearbox body (41), a longitudinal cutting driven wheel (44) and a longitudinal cutting driving gear (45) are arranged on the longitudinal cutting driving shaft (43) at intervals, a longitudinal cutting motor (46) is arranged on the longitudinal cutting gearbox body (41), the output end of the longitudinal cutting motor (46) is connected with a longitudinal cutting driving wheel (47), and the longitudinal cutting driving wheel (47) is connected with the longitudinal cutting driven wheel (44) through a conveying belt; a longitudinal cutting main shaft (48) is arranged on the longitudinal cutting gear box body (41), and the longitudinal cutting main shaft (48) can rotate relative to the longitudinal cutting gear box body (41); the longitudinal cutting main shaft (48) is provided with a longitudinal cutting driven gear (49) meshed with the longitudinal cutting driving gear (45), and two ends of the longitudinal cutting main shaft (48) are respectively connected with a longitudinal cutting saw blade (411) through a longitudinal cutting fixing block (410).

9. A cross-bar brick machine according to claim 8 wherein: be equipped with intermediate junction axle (412) on the rip cutting gear box body (41), intermediate junction axle (412) are rotatable for rip cutting gear box body (41), be equipped with respectively on intermediate junction axle (412) with rip cutting from driving wheel (44) and rip cutting driving gear (45) engaged with reduction gear set (413).

10. A cross-bar brick machine according to claim 9 wherein: the longitudinal cutting gearbox body (41) is connected with a saw blade cover (415) through a connecting frame (414), and the upper half part of a longitudinal cutting saw blade (411) is covered in the saw blade cover (415); the saw blade cover (415) comprises a front saw blade cover (416) and a rear saw blade cover (417), the front saw blade cover (416) and the rear saw blade cover (417) are connected through a hinge (418), a saw blade cover oil cylinder (419) is arranged on the rear saw blade cover (417), and a telescopic rod of the saw blade cover oil cylinder (419) is connected with the front saw blade cover (416).